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K([%J<&K'L(M h!%J<&Kx'L(M h!%J<&KX'L(Mh!%J<&K8'L(Mm+.JT/K0Lx1M(dJTK LxMm+.J/K0L01M(dJK L0Mm+.JT/K0L`'1MdJTKL`'Mm+.J@/K 0Lw1M dJ@K LwM dJK LPM m+.Jc/K0L 1MdJTKL Mm+.J%/K 0L(1M!dJ%KL(M m+.J-/K 0L01M!dJ-KL0M m+.J)/K 0L,1M!dJ)KL,M m+.J /Kx0L1MhdJ K135]67`-abc FUEL_GT_50_Label > 50"1vM@yN|ZQm7W:;F`)a bkBFUEL_35_50_SFuel_35_50_S ArialVInitial tons per acre of 35 to 50 inch fuel[Fz36bBGd135]67`)abc Fuel_35-50_Label35.0 - 50.0" Fuel_35_50_Labelk3iK_Im7W:;F` axbk2Fuel_0_25_HFuel_0_25_H ArialXInitiBlob itPropDataTypeInfo BlobDeltafLal tons per acre of 0 to 0.25 inch fuel0H%bc&Gقkd135]67` abcLabel1570.0 - 0.25"ۈ BbYm7W:;F`axbk3Fuel_25_1_HFuel_25_1_H ArialXInitial tons per acre of 0.25 to 1 inch fuel-ۆۻEld135]67`abcLabel1590.25 - 1.0"> E_5m7W:;F`axbk4Fuel_1_3_HFuel_1_3_H ArialRInitial tons per acre of 1K([ to 3 inch fuel@zN>d135]67`abcLabel1611.0 - 3.0")=H{:,m7W:;F`axbk5Fuel_3_6_HFuel_3_6_H ArialRInitial tons per acre of 3 to 6 inch fuelK!1#Lk¢wUd135]67`abcLabel1633.0 - 6.0"hBp]@T?xm7W:;F`axbk6Fuel_6_12_HFuel_6_12_H ArialTInitial tons per acre of 6 to 12 inch fuel[WuG8qd135]67`abcLabel1656.0 - 12.0"CAzm7W:;F` !axbk7Fuel_12_20_HFuel_12_20_H ArialVInitial tons per acre of 12 to 20 inch fuelne&tBRjJNd135]67` !abcLabel16712.0 - 20.0" ԥEq\lm7W:;F`%axbk8Fuel_20_35_HFuel_20_35_H ArialVInitial tons per acre of 20 to 35 inch fuel tGҀL{ Ͽd135]67`%abcLabel16920.0 - 35.0"uNk C\Al8M7m7W:;F`-axbk:Fuel_gt_50_HFuel_gt_50_H ArialdInitial tons per acre of greater than 50 inch fuelq*{b Blbd135]67`-abcLabel171 > 50"kJm s@ o m7W:;F`)axbk9Fuel_35_50_HFuel_35_50_H ArialVInitial tons per acre of 35 to 50 inch fuelC@ΪwHd135]67`)abcLabel17335.0 - 50.0"qC6*D<2Qd5U67`TabTcd Label174 Hard/Sound Fuel: \7r@)*Q` d5U67`TabTcd Label175"Soft/Rotten Fuel:7&E\g) `FormFooterb]M Na:d PV_Ref_Code_LabelmAged Age_LabelmAspectd Aspect_LabelmSloped Slope_LabelmElevFtd ElevFt_Labelm!Basal_Area_Factord "Basal_Area_Factor_Labelm#Inv_Plot_Sized $Inv_Plot_Size_Labelm%Brk_DBHd &Brk_DBH_Labelm'Num_Plotsd (Num_Plots_Labelm)NonStk_Plotsd *NonStk_Plots_Labelm+Sam_Wtd 08=Babc=e gj-!Eɏ{|&OeLATITUDET#Az<| {|&OeLONGITUDE@y=C@PX{{|&OeREGIONi{BPp@<{|&OeFOREST+/EHU!{|&OeDISTRICT/`4NJWlj {|&OeCOMPARTMENT"\ƨJCCn{{|&OePV_CODE16hLɜX{|&OePV_REF_CODEzMO;^1{|&OeAGE?(C\3~{|&OeASPECT"zMG{|&OeSLOPEm9bCO{|&OeELEVFT Gr#I& {|&OeBASAL_AREA_FACTORL@~=EIB{|&OeINV_PLOT_SIZEr?D {|&OeBRK_DBH-)N#FΠ{|&OeNUM_PLOTSU'A{|&OeNONSTK_PLOTS 7~KWF{|&OeSAM_WTr8SNnًyԗ{|&OeSTK_PCNTEoL}/2{|&OeDG_TRANS.OπdI|_K([c{|&OeDG_MEASURE HI2{|&OeHTG_TRANSKmA,@#s{|&OeHTG_MEASURE`1ji@Bv{|&OeMORT_MEASURE. ;D:{-{|&OeMAX_BAE ~tgS{|&OeMAX_SDIEĦ7k{|&OeSITE_SPECIES.T!+KO${|&OeSITE_INDEXM~CzCX{|&OeMODEL_TYPE_MEASUREFGjC.`&Z;5MMX)HTG_TRANS+l3[H.K_;5MMX)HTG_MEASUREdCHk<;5MMX)MORT_MEASURE0\\z&Az> ;5MMX)MAX_BAo\3D4fF;5MMX)MAX_SDI( jGv};5MMX)SITE_SPECIES@? DxU;5MMX)SITE_INDEX)yc%A,hDd;5MMX)MODEL_TYPE6zrJIE]ˠ{|&OePHYSIO_REGIONNJבr9A=5{|&OeFOREST_TYPED>N.e~{|&OePHOTO_CODEta\@e&{|&OeGroupsU 裛K8҄{|&OeAddfileskE5V{|&OeFVSKeywords [4JzMZu{|&OeLocationƙ|O;C Q{|&OeEcoregion&az{CWh0{|&OeFuel_20_35_SCyf+u{|&OeFuel_gt_50_SK8C g]{|&OeFuel_35_50_SsA[ q9{|&OeFuel_0_25_H@zG?K^{|&OeFuel_25_1_HƝH&9|&{|&OeFuel_1_3_H39%M~\Q{|&OeFuel_3_6_H$!QƬLM8v {|&OeFuel_6_12_HvvYF[&*d{|&OeFuel_12_20_Hb!Msu͑{|&OeFuel_20_35_H9/-H]n^ON{|&OeFuel_gt_50_H,GzjLA{|&OeFuel_35_50_H FVS_StandInit frmFVS_StandInit Arial8hhhh h4 S odXXLetterPRIV0''''`4d \KhCx. K([`SMTJPDell 5330dn Mono Laser Printer PSCollateTrueDuplexDuplexNoTumblePaperPolicyPromptuserSECReverseDuplexFalseJCLBannerFalseOutputBinNoneMediaTypeNoneResolution600dpiInputSlot*UseFormTrayTablePageSizeLetterPageRegionLeadingEdged TFSM[*LIP_166.4.176.5d27 Ariale12g237hghMS Sans Serifi1ghj1ghk1l23:m4n2o2p5r35zijMS Sans Serif{5`XFormHeaderU+BpٔLz뵚d5U7b$cdeLabel106RStand Data: linked to FVS_StandInit Table///QOyc933`8@ DetailX.g]OcyOm7WF`Tahbc,e fkSTAND_IDSTAND_ID ArialzStand identification code. Required by Suppose 2.0 when processing stand lists from the stand initiation table. Not read by FVS when previously set, but may be used for querying purposes.F_A`b\3dd135]7`TaxbceSTAND_ID_Label0Unique Stand IdentiK([fier*g(@acTm7WF`ahbdc,e fkINV_YEARINV_YEAR ArialThe stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.U|GEt>Vcd135]7`axbdceINV_YEAR_LabelInventory Year*^DUz&6m7W;F`(ahbc,efkVARIANTVARIANT ArialThe two character variant identification code, e.g. sn = Southern variant. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.Z9=Gd135]7`(axbceVARIANT_LabelVariant*o4D@F#v58cm7W;F`#a b e f kLATITUDELATITUDE ArialVLatitude in degrees of the stand's locationEpKmղ@d135]7`#a b cLATITUDE_LabelLatitude"u}i+TL}E`5xm7W;F`$'a be f kLongitudeLONGITUDE ArialXLongitude in degrees of the stand's location&>K؞M d135]7`$'a bcLONGITUDE_LabelLongitudey[0`Ga8$Xm7W;F`Ta befk REGION REGION Arial&USDA-FS region codewTAYέ`0d135]7`Ta bceREGION_LabelFS Region*_r qEY-CCm7W;F` a befk FOREST FOREST Arial8USDA-FS national norest code:\Aӣ@d135]7` a bceFOREST_LabelFS Forest*A7]IJЂ"Xm7W;F`La bHef kDISTRICTDISTRICT Arial*USDA-FS district codez8b-BAd135]7`La bHcDISTRICT_LabelFS District tI.m7W;F`a b7ef kCOMPARTMENTCOMPARTMENT Arial0USDA-FS compartment code$aUvIY- Id135]7`a b7c"COMPARTMENT_LabelFS Compartment85ͩJ I>m7W;F` abefk#PV_CODEPV_CODE Arial.Plant association code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.~QHfXsB d135]7` abcPV_CODE_Label,Plant Association Code_5M?=8F*F3m7W;F` abefk$PV_REF_CODEPV_REF_CODE ArialfPotential vegetation reference code for the PV_CodeˁivJ&f~#d135]7` abc"PV_REF_CODE_Label"PA Reference CodeU5#'kA-m7W;F`a$be fk,AGEAGE Arial$Stand age in years*!K~tLᶧd135]7`a4bcAGE_LabelStand Ageճ".X7NP m7W;F` a$be fk* ASPECT ASPECT Arial"Aspect in degrees0h,+HzjMd135]7` a4bcASPECT_Label Aspect>Z3H1Cm7W;F`Ta$bHe fk) SLOPE SLOPE Arial Slope in percent9oˇMfXud135]7`Ta4bHK([cSLOPE_LabelSlope (%)֓ C[ü"m7W;F` a$be fk+ ELEVFT ELEVFT Arial$Elevation in feet.=H#td135]7` a4bcELEVFT_LabelElevation (ft)>y?ݤFN^Fkm7W;F`Ta<be fk"BASAL_AREA_FACTOR"BASAL_AREA_FACTOR ArialLarge-tree plot size. A positive value is interpreted as a basal area factor (e.g. 10= BAF of 10) and a negative value is interpreted as the inverse of a large-tree fixed area plot (e.g. -10 = 1/10th acre fixed plot).=^iKd _nd135]7`TaLbce.BASAL_AREA_FACTOR_Label*Large-Tree Plot Size*5+`Eu&vm7W;F` a<bDe fkINV_PLOT_SIZEINV_PLOT_SIZE ArialThe inverse of the small-tree fixed area plot (e.g. 100 = 1/100th acre fixed plot). k}@ LMa ӁaE> UAyEt%?Ƕrd5Ub"cdeLabel106NTree Data: linked to FVS_TreeInit Table ArialfPBwt` DetailW aN4?- m7W;F`ahbc,e kSTAND_IDSTAND_IDSameK([ as Stand_ID in FVS_StandInit table. Not read by FVS, but may be used for querying purposes.QtML*Om$d135]7`axbceSTAND_ID_Label"Stand Identifier*-xH0՛"m7W;F`a b)c,e kTREE_IDTREE_ID0Tree identification code$n8K5:d135]7`a b)cTREE_ID_LabelTree Number(BP@'d135]7`a b7cDAMAGE2_LabelDamage Code 2g JAD m7W;F`a b7c,e kDAMAGE3DAK([MAGE3pThird damage code, see the FVS documentation for detailsq ? Lח2d135]7`a b7cDAMAGE3_LabelDamage Code 3aILm7W;F` absc,e kSEVERITY1SEVERITY1XSeverity code corresponding to damage code 1{G.}[Wd135]7` abscSEVERITY1_LabelSeverity Code 1c5Hm7W;F` a| bsc,e kSEVERITY2SEVERITY2XSeverity code corresponding to damage code 2ciNsCYd135]7` a bscSEVERITY2_LabelSeverity Code 2\EHh>m7W;F` a bsc,e kSEVERITY3SEVERITY3XSeverity code corresponding to damage code 3,`H]AF/ld135]7` a bscSEVERITY3_LabelSeverity Code 3U?BFR^Xm7W;F`ahbFc,e kTREEVALUETREEVALUETree value class code; 1 for desirable, 2 for acceptable, 8 for non-stockable and any other number represents a live cullÃyI+-d135]7`axbFcTREEVALUE_Label Tree Value ClassI旟C:~.hqm7W;F` aYbdc,e kPRESCRIPTIONPRESCRIPTION"Prescription code 8zKbq6ߢd135]7` aibdc$PRESCRIPTION_Label"Prescription Code\Z`4@#ym7W;F` ahbtc,e kPLOT_IDPLOT_ID"[Event Procedure]0Plot identification code1uFF %Dd135]7` axbcePLOT_ID_LabelPlot Number*eG݈JPa(Cd135U7`'axb cd helpfulhint1ݼHelpful Hint: Hold the [Ctrl] key and press the ['] key to copy contents from previous record. ArialrlUJ Sd5Ua bcheLabel47"* Required Fields Arial!{e+Lyj(h 1U`<a bdciCloseForm2Close Form"[Event Procedure]uäDn.&h1U`<axbdcNewRec2Add Record"[Event Procedure]A&ZAAKh 1U`<aXbdciDelete_Rec2Delete Record"[Event Procedure]v L =+˘h 1U`<abdci Next2Next Record"[Event Procedure]Xv'XOƩ)h 1U`<abdciPreviousRec2Previous Record"[Event Procedure]s'C 6;h 1U`<a8bdcidup2 Duplicate Record"[Event Procedure]R1梥DDWґnD{`FormFooterY١'{gK([HUe       !"#$%&'()*+,-./0123456789:;<=>?@PBEFKLMNOQRSTUmX#\L:O;5MMX)PHYSIO_REGIONn%L8;5MMX)FOREST_TYPEA PL+C.;5MMX)COUNTYȒG9{zr;5MMX)STATE+DTK hd ;5MMX)FUEL_0_25=41.L1f;5MMX)FUEL_25_1hPdN"O~s;5MMX)FUEL_1_3dQ|aI"ڕe;5MMX)FUEL_3_6#@H<1;5MMX)Fm Tree_IDd TREE_ID_Labelm Plot_IDd PLOT_ID_Labelm Tree_Countd TREE_COUNT_LabelmHistoryd HISTORY_LabelmSpeciesd SPECIES_LabelmDIAMETERd DIAMETER_LabelmDGd DG_LabelmHtd HT_LabelmHTGd HTG_LabelmHtTopKd HTTOPK_LabelmCrRatiod CRRATIO_Labelm!Damage1d "DAMAGE1_Labelm#Damage2d $DAMAGE2_Labelm%Damage3d &DAMAGE3_Labelm'Severity1d (SEVERITY1_Labelm)Severity2d *SEVERITY2_Labelm+Severity3d ,SEVERITY3_Labelm-TreeValued .TREEVALUE_Labelm/Prescriptiond 0PRESCRIPTION_Labeld 1Label1062DIAMETER_HTd 3helpfulhint1d 4Label47h 5CloseForm2h 6NewRec2h 7Delete_Rec2h 8Next2h 9PreviousRec2h :dup2d <Label57m;Aged ?Label60m=StandPlot_IDd 'C1D/1Fd    e    g    h    iK([    j    k    l    m     n     o     p    r    z    {    d m+.J/Kh0L 1MdJKxL Mhm+.J/K 0LA 1M7dJK LA Mm+.J /K0L.1M7dJ K L.M m+.J/K0L&1M(dJK L&Mm+.J/KE0L 1MbdJKdL MEm+.J /KT0L 1MdJ KdL MTm+.J/KK([T0Lt1MdJKdLtMTm+.J/KT0L1MdJKdLMTm+.Jb/KT0L1MdJbKdLMTm+.J0/KT0LX 1MdJ0KdLX MTm+.J /KT0L%1MdJ KdL%MTm+.J/K0LO 1M# dJKLO Mm+.J/K 0LO 1M dJK LO M m+.J/K 0LO 1MdJK LO M m+.J /K0L+1M dJ KL+Mm+.J /K| 0L+1M dJ K L+M| m+.J /K 0L+1MdJ K L+M m+.J/Kh0L^ 1MdJKxL^ Mhm+.J /KY0L1MdJ KiLMYm+.J /Kh0LH1MdJ KxLfMhdJ'KxLd2M8dK LM h!%J<&K 'L(Mm h!%J<&Kx'L(M h!%J<&KX'L(Mh!%J<&K'L(M h!%J<&K'L(Mh!%J<&K8'L(Mm+.J/Kh0L1MgdJKxLMwm+.JK([(/Kh0L1MdJ(KxLMhdK\ LMhdJKxLMw_25_1_HmOFuel_1_3_HmQFuel_3_6_HmSFuel_6_12_HmUFuel_12_20_HmxFuel_20_35_Hm|Fuel_35_50_HmzFuel_gt_50_HmFuel_0_25_SmFuel_25_1_SmFuel_1_3_SmFuel_3_6_SmFuel_6_12_SmFuel_12_20_SmFuel_20_35_SmFuel_35_50_SmFuel_gt_50_S BlobDeltaHD>StandPlot_ID_Labeld @Label148ͬ_}C`LW{TFormHeaderd Label106DetailmStand_IDd Stand_ID_LabelmInv_Yeard Inv_Year_LabelmVariantd Variant_Labelm Latituded Latitude_Labelm Longituded Longitude_Labelm Regiond Region_LabelmForestd Forest_LabelmDistrictd District_LabelmCompartmentd Compartment_LabelmPV_Coded PV_Code_LabelmPV_Ref_Coded PV_Ref_Code_LabelmAged Age_LabelmAspectd Aspect_LabelmSloped Slope_LabelmElevFtd ElevFt_Labelm!Basal_Area_Factord "Basal_Area_Factor_Labelm#Inv_Plot_Sized $Inv_Plot_Size_Labelm%Brk_DBHd &Brk_DBH_Labelm'Num_Plotsd (Num_Plots_Labelm)NonStk_Plotsd *NonStk_Plots_Labelm+Sam_Wtd ,Sam_Wt_Labelm-Stk_Pcntd .Stk_Pcnt_Labelm/DG_Transd 0DG_Trans_Labelm1DG_Measured 2DG_Measure_Labelm3HTG_Transd 4HTG_Trans_Labelm5HTG_Measured 6HTG_Measure_Labelm7Mort_Measured 8Mort_Measure_Labelm9Max_BAd :Max_BA_Labelm;Max_SDId <Max_SDI_Labelm=Site_Speciesd >Site_Species_Labelm?Site_Indexd @Site_Index_LabelmAModel_Typed BModel_Type_LabelmCPhysio_Regiond DPhysio_Region_LabelmEForest_Typed FForest_Type_LabelmGCountyd HCounty_LabelmIStated JState_Labeld LFuel_0_25_Labeld NFuel_25_1_Labeld PFuel_1_3_Labeld RFuel_3_6_Labeld TFuel_6_12_Labeld VFuel_12_20_LabelFUEL_12-20_LabelmWFuel_Litterd XFuel_Litter_LabelmYFuel_Duffd ZFuel_Duff_Labelm[Fuel_Modeld \Fuel_Model_Labelm]Photo_Refd ^Photo_Ref_Labelm_Photo_coded `Photo_code_Labeld aLabel104d bLabel107d cLabel108d dLabel109h ecmdCLOSEd fLabel47d ghelpfulhint1h hPrev1h iNext1mmGroupsd nLabel125moAddFilesd pLabel127mqFVSKeywordsd rLabel129msLocationd tLabel131d uLabel133mvEcoregiond wEcoregion_Labeld yFuel_20_30_LabelFuel_20-30_Labeld {Fuel_gt_50_Labeld }Fuel_35_50_LabelFuel_35-50_Label~FormFooterElevationFuel_gt _50mStandPlot_IDd StandPlot_ID_Labelh jadd1h kdelete1h ldup1d PLOT_ID_LabelPlot_ID LabelmPlot_IDd Label148d Label153h Command154d Label174d K([Label175d Label158d Label160d Label162d Label164d Label166d Label168d Label170d Label172d Label176mKFuel_0_25_HmMFuel"Enter_Plot_Data"Enter_Tree_Data$Enter_Stand_Data 2CB0 1CB0 0CB0$Enter_Stand_Data"Enter_Tree_Data"Enter_Plot_Data&Enter_Stand_Data2 0CB0 1CB0 2CB0 3CB0KT$0L1MD%dJKd#LMT$m+.J/KT$0L1MD%dJKd#LMT$m+.J/KT$0L1MD%dJKd#LMT$m+.J/KT$0L 1MD%dJKd#L MT$m+.J !/KT$0L%1MD%dJH!Kd#L%MT$m+.J%/KT$0L?*1MD%dJ%Kd#L?*MT$m+.J//KT$0L31MD%dJX/Kd#L3MT$m+.Jl*/KT$0L.1MD%dJ*Kd#L.MT$ariant separated by a space, by default the first variant listed is selected by Suppose.W+S"N|ɵhq xd135]7`0 a bceVARIANT_LabelVariant*0NM ɶm7W;F` a b e f kLATITUDELATITUDE ArialTLatitude in degrees of t1D/1Fd    e    g    h    i    K([j    k    l    m     n     o     p    r    z    {    dTm+.JT/Kw0L 1MdJTKL Mwm+.J/K0L 1M(dJK L Mm+.J0 /K0L1M(dJ0 K LMm+.J /K 0L(#1MdJ K L(#M m+.Jd#/K 0L$'1MdJd#K L$'M m+.J/K 0L 1MdJK L} M m+.J /K 0LL1MdJ KK([ LLM m+.J/K 0L1MdJK LM m+.J /K 0LC1MdJ K LCM m+.J@ /K0L 1MdJ@ KL Mm+.JH/K0L$1MdJHKL$Mm+.JX/K00L1M dJXK@LM0m+.J /K00L 1M dJ K@L M0m+.J/K00L 1M dJK@L M0m+.J /K00L1M dJ K@LM0m+.J/K 0L 1MdJKL M m+.J /K 0L1MdJ KLM m+.J/K 0L1MdJKLM m+.J/K 0L !1MdJKL !M m+.JH!/K 0L`'1MdJH!KL`'M m+.J-/K 0L31MdJ-KL3M m+.J'/K 0L,1MdJ'KL,M m+.J/Kd0L 1MTdJKtL Mdm+.J /Kd0L(1MTdJ KtL(Mdm+.Jd/Kd0L1MTdJdKtLMdm+.J/Kd0L8"1MTdJKK([tL8"Mdm+.Jt"/Kd0L+1MTdJt"KtL+Mdm+.J(#/K0L@)1MdJ(#KL@)Mm+.J|)/K0L-1MdJ|)KL-Mm+.J/K00L1M dJK@LM0m+.J/K00L1M dJK@LM0m+.J/K0L1M(dJK LMm+.J\/K0L"1MdJ\KL"Mm+.J`/K0L 1MdJ`KL Mm+.J)/K 0LL,1MdJ)K LL,M m+.J`'/K 0L)1MdJ`'K L)M m+.J /K!0L1M"dJ K !LM!m+.J/K!0L1M"dJK !LM!m+.J/K!0L1M"dJK !LM!m+.J/K!0L1M"dJK !LM!m+.J/K!0L 1M"dJK !L M!m+.J !/K!0L%1M"dJH!K !L%M!m+.J/K&0LP 1M'dJK%LP M&m+.J /K&0LL1M'dJ K%LLM&m+.J/K0L|1M dJKK([L|Mm+.J/K0L 1M dJKL Mm+.J/K0LT1M dJKLTMdJTKLM<dJTK LXMl dJTKLXMpdJTKLXMh!%J<&K 'L(Mm dJxK(L+Ml*dJ2KxL=M8h!%J<&K'L(Mh!%J<&K'L(M h!%J<&Kx'L(M h!%J<&KX'L(Mh!%J<&K8'L(Mm+.J/K0L1MdJKLMm+.J,/K0L01MdJ,KL0Mm+.J/K$ 0L'1MP dJK4L'M$ m+.J|/K 0L1MdJ|K LM dJ$K\ LMLm+.J/K0L 1MdJKL Mm+.J%/K!0L?*1M"dJ%K !L?*M!m+.J//K!0L31M"dJX/K !L3M!m+.Jl*/K!0L.1M"dJ*K !L.M!m+.J/Kw0L<1MdJKLKMwm+.J /Kw0L1MdJ KLMdJtKxLK([dMwdKl LMLh!%J&Kx'L|)(MdJK !L M"dJK(#L M$m+.J /KT$0L1MD%dJ Kd#LMT$m+.J/35]67:` abcePlot_ID LabelPlot Number*Plot_ID_LabelKS 9L%3}d5U6`taxbcd eLabel148=qKC amd5U6al bceLabel153"* Required Fields!`%`rL-!Lh1U`axb cXiCommand154DUpdate Plot Record with Stand Data"[Event Procedure]Kz".KDd5U67`a !bTcd Label174 Hard/Souind Fuel:!L.4kHMud5U67`a(#bTcd Label175"Soft/Rotten Fuel:=LZL#[m7W:;F` aT$bk9FUEL_0_25_SFUEL_0_25_S ArialXInitial tons per acre of 0 to 0.25 inch fuel8DfhNNN* d135]67` ad#bcLabel1580.0 - 0.25"v*HNm7W:;F`aT$bk:FUEL_25_1_SFUEL_25_1_S ArialXInitial tons per acre of 0.25 to 1 inch fuel6h]OA\d2d135]67`ad#bcLabel1600.25 - 1.0"АY'qKk:)m7W:;F`aT$bk;FUEL_1_3_SFUEL_1_3_S ArialRInitial tons per acre of 1 to 3 inch fuel(@UA}Y@F&)1~d135]67`ad#bcLabel1621.0 - 3.0"L*@Ǟqךm7W:;F`aT$bk<FUEL_3_6_SFUEL_3_6_S ArialRInitial tons per acre of 3 to 6 inch fuelH4:GP@1d135]67`ad#bcLabel1643.0 - 6.0"9ǽC4am7W:;F`aT$bk=Fuel_6_12_SFuel_6_12_S ArialTInitial tons per acre of 6 to 12 inch fuelX\F~-fd135]67`ad#bcLabel1666.0 - 12.0"|7$.GE߭m7W:;F` !aT$bk>FUEL_12_20_SFUEL_12_20_S ArialTnitial tons per acre of 12 to 20 inch fuel_[NZ FE}d135]67`H!ad#bGcLabel16812.0 - 20.0"e@cGd,m7W:;F`%aT$bk?FUEL_20_35_SFUEL_20_35_S ArialVInitial tons per acre of 20 to 35 inch fuelj]*Ld135]67`%ad#bGcLabel17020.0 - 35.0"jDD̀@mem7W:;F`/aT$bkAFUEL_gt_50_SFUEL_gt_50_S ArialdInitial tons per acre of greater than 50 inch fuelͣwNjd135]67`X/ad#bGcLabel172 K([> 50"<|N1M\D+36m7W:;F`l*aT$bk@FUEL_35_50_SFUEL_35_50_S ArialVInitial tons per acre of 35 to 50 inch fuelFjG/Mm B.d135]67`*ad#bGcLabel17635.0 - 50.0"x#l[NM`FormFooternI,YԠcStk_Pcnt_Labelm/DG_Transd 0DG_Trans_Labelm1DG_Measured 2DG_Measure_Labelm3HTG_Transd 4HTG_Trans_Labelm5HTG_Measured 6HTG_Measure_Labelm7Mort_Measured 8Mort_Measure_Labelm9Max_BAd :Max_BA_Labelm;Max_SDId <Max_SDI_Labelm=Site_Speciesd >Site_Species_Labelm?Site_Indexd @Si08=Babc=e ghcjRk0Z'@*O0 Bmh" U;5MMX)tHT@xFVS_PlotInitdLC ?SQ;5MMX)STAND_ID LTHG"7;5MMX)Inv_Year^ϥLyJB;5MMX)VARIANT^vGyrm;5MMX)LATITUDE`P 5NzPq/;5MMX)LONGITUDE_oJl2x;5MMX)REGIONPeZOq ;5MMX)FORESTԧ&AE.;5MMX)DISTRICTFk[BVNU*;5MMX)COMPARTMENT#: I{Lg^!;5MMX)PV_CODE P[HHzg؝;5MMX)PV_REF_CODEiVMNJGhL;5MMX)AGEOLB' Eqd;5MMX)ASPECTpSC@Z ;5MMX)SLOPE~oCw-;5MMX)ELEVFT_M妁C;5MMX)BASAL_AREA_FACTORE)X1F`?U;5MMX)INV_PLOT_SIZE!hmI-@;5MMX)BRK_DBHۭO@6)7;5MMX)NUM_PLOTSf!vfE ;5MMX)NONSTK_PLOTSRF,OBk ;5MMX)SAM_WT+K\;5MMX)STK_PCNT=TBP{6=;5MMX)DG_TRANS \PoIx;5MMX)DG_MEASUREFGjC.`&Z;5MMX)HTG_TRANS+l3[H.K_;5MMX)HTG_MEASUREdCHk<;5MMX)MORT_MEASURE0\\z&Az> ;5MMX)MAX_BAo\3D4fF;5MMX)MAX_SDI( jGv};5MMX)SITE_SPECIES@? DxU;5MMX)SITE_INDEX)yc%A,hDd;5MMX)MODEL_TYPEuel_6_12xTFpy;5MMX)FUEL_12_208늖BUA=hz;5MMX)FUEL_LITTERY\#wAu) ;5MMX)FUEL_DUFFv!2!LrRWݳ<;5MMX)FUEL_MODEL@m6M[8t ;5MMX)PHOTO_REF&tNSLDfx;5MMX)PHOTO_CODEɗE{C;5MMX)Groupsk3w>L] U#;5MMX)Addfiles+*WCmX#\L:O;5MMX)PHYSIO_REGIONn%L8;5MMX)FOREST_TYPEA PL+C.;5MMX)COUNTYȒG9{zr;5MMX)STATE,~Gʀ;5MMX)FUEL_0_25_HN@7mn;5MMX)FUEL_25_1_HrlTA7h@;5MMX)FUEL_1_3_HF*:';5MMX)FUEL_3_6_H]ǣ\FN<;5MMX)Fuel_6_12_HrYBr#(;5MMX)FUEL_12_20_H8늖BUA=hz;5MMX)FUE!K([L_LITTERY\#wAu) ;5MMX)FUEL_DUFFv!2!LrRWݳ<;5MMX)FUEL_MODEL@m6M[8t ;5MMX)PHOTO_REF&tNSLDfx;5MMX)PHOTO_CODEɗE{C;5MMX)Groupsk3w>L] U#;5MMX)Addfiles+*WCJ?;5MMX)FVSKeywordsL!Br]1;5MMX)LocationdAƂB'{;5MMX)EcoregionAS55G^Vf;5MMX)FUEL_20_35_HFW-4/CZ0;5MMX)FUEL_gt_50_H7`IOyMxKý\;5MMX)FUEL_35_50_H\JIXq;5MMX)StandPlot_IDe8+κ]BuRё;5MMX)Plot_ID}SgF>ѯz;5MMX)FUEL_0_25_St͈N_o&;5MMX)FUEL_25_1_SvxTo$@IcDL2`;5MMX)FUEL_1_3_SKC*̕j ;5MMX)FUEL_3_6_StNNޗX;5MMX)Fuel_6_12_S ]mkHޞ';5MMX)FUEL_12_20_SG;Loߴ;5MMX)FUEL_20_35_SJL+N?;5MMX)FUEL_gt_50_SK3KHO:xJי];5MMX)FUEL_35_50_S FVS_PlotInitfrmFVS_PlotInit Ariald27 Ariale12g237hghMS Sans Serifi1ghj1ghk1l23:m4n2o2p5r35zijMS Sans Serif{5`XFormHeaderEOid5U7b$cdeLabel106dPlot Data: linked to FVS_PlotInit Table - OptionalE1`3`45 DetailgD{C$tTm7WF`Tawbc,e fkSTAND_IDSTAND_ID Arial4Stand identification code.:qS*J{iRd135]67`TabceSTAND_ID_Label"Stand Identifier*$1i@Ѻ m 7WF`abdc,e fkINV_YEARInv_Year ArialThe plot s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.ŋ)~Jڔ2 d135]7`a bdceINV_YEAR_LabelInventory Year*M,5IwlCm 7W;F`0 abc,efkVARIANTVARIANT ArialThe two character variant identification code, e.g. sn = Southern variant. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.W+S"N|ɵhq xd135]7`0 a bceVARIANT_LabelVariant*0NM ɶm7W;F` a b e f kLATITUDELATITUDE ArialTLatitude in degrees of the plot's location6l Ga>d135]7` a b cLATITUDE_LabelLatitudes.g::LPY$m7W;F`d#a be f kLongitudeLONGITUDE ArialVLongitude in degrees of the plot s location` *O}d135]7`d#a bcLONGITUDE_LabelLongitude,3PSAqŢrp@m 7W;F`a bHef k DISTRICTDISTRICT Arial*USDA-FS district code}3H@vd135]7`a bHcDISTRICT_LabelFS DistrictwBnW@)hhBm 7W;F` a b7ef kCOMPARTMENTCOMPARTMENT Arial0USDA-FS compartment code3>DKo__`d135]7` a b7c"COMPARTMENT_LabelFS Compartment۽;OFX%TQOHm7W:;F`@ abefk!PV_CODEPV_CODE Arial.Plant association code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.iD!%Xd135]67`@ abcPV_CODE_Label,Plant Association CodeZG Gm7W:;F`Habefk"PV_REF_CODEPV_REF_CODE ArialfPotential vegetation reference code for the PV_Code>HId135]67`Habc"PV_REF_CODE_Label"PA Reference CodeRAFg5D(@YZm7W:;F`Xa0be fk*AGEAGE Arial"Plot age in yearsCVwhnG C |d135]67`Xa@bcAGE_LabelPlot Age K [4m7W:;F` a0be fk( ASPECT ASPECT Arial"Aspect in degreesRZB !8 d135]67` a@bcASPECT_Label AspectΈM m7W:;F`a0bHe fk' SLOPE SLOPE Arial Slope in percenthSyyMEȿW4d135]67`a@bHcSLOPE_LabelSlope (%)UBMDBhܜm7W:;F` a0be fk) ELEVFT ELEVFT Arial$Elevation in feet.`C},C:B4d135]67` a@bcELEVFT_LabelElevation (ft)G̗N׶4$0m 7W;F`a be fk"BASAL_AREA_FACTOR"BASAL_AREA_FACTOR ArialLarge-tree plot size. A positive value is interpreted as a basal area factor (e.g. 10= BAF of 10) and a negative value is interpreted as the inverse of a large-tree fixed area plot (e.g. -10 = 1/10th acre fixed plot).BݴBߐd135]7`abce.BASAL_AREA_FACTOR_Label*Large-Tree Plot Size*=*L]E3d}m 7W;F` a be fkINV_PLOT_SIZEINV_PLOT_SIZE ArialThe inverse of the small-tree fixed area plot (e.g. 100 = 1/100th acre fixed plot).I(eA]1Է d135]7` abce&INV_PLOT_SIZE_Label*Small-Tree Plot Size*vd135]7` atbDc DG_MEASURE_Label*DG Measurement Period*e Nr憒em 7W;F`dadbTe f&kHTG_TRANSHTG_TRANS ArialHeight growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)8cFCc$d135]7`datbTcHTG_TRANS_Label&HG Translation Code%~I;QL:km 7W;F`adbDe f'kHTG_MEASUREHTG_MEASURE Arial@Height growth measurement period񬸛@\ձd135]7`atbDc"HTG_MEASURE_Label*HG Measurement Periodg5/~Gߚym 7W;F`t"adb$ e f(kMORT_MEASUREMORT_MEASURE Arial8Mortality measurement per$K([iodfS.aAe[d135]7`t"atb$ c$MORT_MEASURE_Label8Mortality Measurement Period(k5F ӌ.&m7W:;F`(#abe fk% MAX_BA MAX_BA Arial$Maximum basal areahϵ@ CuCJd135]67`(#abcMAX_BA_Label$Maximum Basal AreaO?Nd}m7W:;F`|)ab8e fk&MAX_SDIMAX_SDI Arial6Maximum stand density indexuF} d135]67`|)ab8cMAX_SDI_LabelMaximum SDI6[5KLmZe/m7W:;F`a0befk+SITE_SPECIESSITE_SPECIES Arial"Site species codekL~d135]67`a@bsc$SITE_SPECIES_Label$Site Index Species/@aBq=ݪm7W:;F`a0be fk,SITE_INDEXSITE_INDEX ArialSite index KYdJ)`d135]67`a@bc SITE_INDEX_LabelSite Index (ft)tؗ~L.d7m 7WF`abc,e fkMODEL_TYPEMODEL_TYPE ArialModel type code (CR variant), overrides model type selection based on location information. (1=southwest mixed conifer, 2=southwest ponderosa pine, 3=BH ponderosa pine, 4=spruce-fir, and 5=lodgepole pine)u:|EEWGN*d135]7`a bc MODEL_TYPE_LabelModel Type?fkմAm7W:;F`\abe fk$PHYSIO_REGIONPHYSIO_REGION Arial2Physiographic region codekkEѻd135]67`\abc&PHYSIO_REGION_Label(Physiographic Regione~KD m7W:;F``abe fk#FOREST_TYPEFOREST_TYPE ArialhFIA Forest type code (numeric, e.g. 201=Douglas-fir)I6D@/d135]67``abc"FOREST_TYPE_LabelForest TypeV0;a@t`SIm 7W;F`)a bXe fk COUNTY COUNTY ArialTFIA county code (numeric, e.g. 003=Bergen)ԕ D= lkd135]7`)a bXcCOUNTY_Label Countyt6<՟ADbm 7W;F``'a bXe fk STATE STATE ArialXFIA state code (numeric, e.g. 34=New Jersey)3&Iu*L;d135]7``'a bXcSTATE_Label State_u\Op/2$8m7W:;F` a!be f,k0FUEL_0_25_HFUEL_0_25_H ArialXInitial tons per acre of 0 to 0.25 inch fuelHB"{d135]67` a !bcFUEL_0_25_Label0.0 - 0.25"jxLM.x1~m7W:;F`a!be f-k1FUEL_25_1_HFUEL_25_1_H ArialXInitial tons per acre of 0.25 to 1 inch fueleNAyM姎fJ)d135]67`a !bcFUEL_25_1_Label0.25 - 1.0"v !A-JG6m7W:;F`a!be f.k2FUEL_1_3_HFUEL_1_3_H ArialRInitial tons per acre of 1 to 3 inch fuel@DCLaכ^d135]67`a !bcFUEL_1_3_Label1.0 - 3.0" lὊWIQvQ]m7W:;F`a!be f/k3FUEL_3_6_HFUEL_3_6_H ArialRInitial tons per acre of 3 to 6 inch fuel-ϕjEq&$d135]67`a !bcFUEL_3_6_%K([Label3.0 - 6.0"O_m7W:;F`a!be f0k4FUEL_6_12_HFuel_6_12_H ArialTInitial tons per acre of 6 to 12 inch fueldY /FaW.d135]67`a !bcFUEL_6_12_Label6.0 - 12.0" ǜKN,iaQm7W:;F` !a!be f1k5FUEL_12_20_HFUEL_12_20_H ArialTnitial tons per acre of 12 to 20 inch fuel>1i,F+ .d135]67`H!a !bGc FUEL_12-20_Label12.0 - 20.0" FUEL_12_20_Label-u.@d_Im7W;F`a&be f5i kBFUEL_LITTERFUEL_LITTER Arial>Initial tons per acre of litterR1z?D6W%%d135]67`a%bc"FUEL_LITTER_Label Littert3@`zm7W;F` a&be f6i kCFUEL_DUFFFUEL_DUFF Arial:Initial tons per acre of duffXߤO(Dة1d135]67` a%bcFUEL_DUFF_LabelDuffP72^1CȅmSm7W:;F`abef+k/FUEL_MODELFUEL_MODEL Arial0Fire DirDataArPropDataC%DirDataCopyDPropDataCopyG0CmdbarsءXءXModules #ءXءXReportsءXءXScripts"%ءXءXPropDataHDatabases$*&ءX0('ءXXBlob J?;5MMX)FVSKeywordsL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion-&OUR;5MMX)FUEL_20_35i _BG.wi;5MMX)FUEL_gt_50H o@1W =#;5MMX)FUEL_35_50\JIXq;5MMX)StandPlot_IDe8+κ]BuRё;5MMX)Plot_ID DirDataIImExSpecs`=]8`=]8CustomGroups)+ءXءXDataAccessPages ءXءXMAX_BA_Label$Maximum Basal Areaχc M&4Cm7W;F`@)ab8e fk(MAX_SDIMAX_SDI &( ( @ @ @ @ @ @ @*+,-./012 3 4 5 6 789:;<=>?@ABCDEFGHI J!K"L#M$N%O&P'()*+,-./01234567xS YNSSY  Y Y =  Y  , Y , Y =Id LValueObjectGuidObjectNameProperty Value, =, =,ST= , =, =,SU= , =, =,SV= ,YYYId$ObjectGuidProperty$ObjectNamePropertySHv1b@  R R R>YNXX Y Y tY  Y  Y ,Y =Y =  Filter FlagsIdNamePosition SelectedObjectIDType =, =, XZ,= YIdv1[WoCustom"" ~Forms  w! vWYYY RYN\\Y Y Y  Y Y ,Y =Y =  FlagsGroupCategoryIDIdName"Object Type GroupObjectIDPosition =, =, \^,=  =, =, \_,= YYGroupCategoryIDIdv1@  [yLtG   Edit FVS_GroupAddfilesAndKeywords Table - macros must be enabled  wFVS Data Entry Forms - macros must be enabledtplh FVS Tables.*&"   w  w " w  w Unassigned Objects>:62  w w w w w w w [ @ @]] ] ] ]]]]]]]]]] ] ] [ @ @]]]]]]] ] ] ]  ]  ] ] ] ]] Y 6Naa Y Y Y Y  Y ,Y =Y =  FlagsGroupIDIconIdNameObjectIDPosition, =, =ac= ,, =, =ad= ,YYGroupIDIdv1 ` yLk> ] 0  | O " : Y ,Update Database Name in Data Input Keywordsplh  * o & o %" o $ o # o"Enter_Plot_Data - Optional NJF  !  o  o  o" o o o o  oe  oR  o   o   o ` o [ o W o ( o "  o  o  o  o  o o o o o ` @ @ @ @bbbbbbbb b b b bbbbb b  b b b b b b bbbbbbbbb ` @ @ @ @bbbbbbbb b b  b  b  b b bbbbbbbbbb!b"b#b$b%b&b*b,bRY%NffY  Y Y IdNameTypedve%h=dA W $ P # a  ] N YFVS_StandInitFVS_TreeInit<8FVS_StandInitFVS_PlotInit<8FVS_StandInitFVS_GroupAddFilesAndKeywords\XFVS_PlotInitFVS_TreeInit:6FVS_PlotInitFVS_GroupAddFilesAndKeywordsZVUpdate Database Name in FVS_Groups TableZVeMSysNavPaneObjectIDs2.`MSysNavPaneGroupToObjects<8[MSysNavPaneGroups,(WMSysNavPaneGroupCategories>:RMSysAccessXML$ (MSysAccessObjects,("FVS_TreeInit"FVS_StandInit$ FVS_PlotInit"FVS_GroupAddFilesAndKeywordsB> Admin  Enter_Tree_Data($ Enter_Stand_Data*& Enter_Plot_Data($UserDefined SummaryInfo AccessLayout "SysRelScriptsReportsModulesFormsDataAccessPages($MSysRelationships,(MSysQueries MSysACEsMSysObjects MSysDbRelationships$ DatabasesTables LVAL| (((FVS_GroupAddFilesAndKeywords.Groups)="All_Stands" Or (FVS_GroupAddFilesAndKeywords.Groups)="All_Plots"))Replace([FVS_GroupAddFilesAndKeywords]![FVSKeywords],Mid([FVS_GroupAddFilesAndKeywords]![FVSKeywords],InStr(1,[FVS_GroupAddFilesAndKeywords]![FVSKeywords],"DSNIn")+7,InStr(1,[FVS_GroupAddFilesAndKeywords]![FVSKeywords],"StandSql")-InStr(1,[FVS_GroupAddFilesAndKeywords]![FVSKeywords],"DSNIn")-9),[CurrentProject].[name],1)1UvcP=*z @ -  } j C 0  m Z G p]I666666666#"r^K8$ts` ɺSG-tծ]nPVhP1t0-Jݥ-N5&75ȜggNĝK[zV@ڢrwp  R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp  R  ɺSG-tծ]nPVhP1t0-Jݥ-N5&75ȜggNĝK[zV@ڢrwp  R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp  R (R (e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp (R "R "e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp "R R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R  ɺSG-tծ]nPVhP1t0-Jݥ-N5&75ȜggNĝK[zV@ڢrwp  R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp  R  R  e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp  R  R  e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp  R  R  e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp  R  R  e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp  R R R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R R R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R W W R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R W R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R W R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R W W R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R W R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R R W R e4꺻SG-7 E1abP1t0-Jݥ-NL'j&zĝK[zV@ڢrwp R LVALʾYxxxFVS_GroupAddFilesAndKeywordsCreate query in Design viewEnter_Stand_DataCreate report in Design viewCreate data access page in Design view c^3LVALZMR2( ReplicateProject MR20 Title AuthorCompanyr blank& Frank J. Spirek. &USDA Forest ServiceMR2AccessVersion BuildProjVerNavPane ClosedNavPane Width NavPane Category*NavPane Category NameNavPane View ByNavPane Sort ByAppTitle&StartUpShowDBWindow(StartUpShowStatusBarStartUpMenuBar$AllowShortcutMenusAllowFullMenus(AllowBuiltInToolbars&AllowToolbarChanges AllowSpecialKeysAppIcon,StartupShortcutMenuBar&UseAppIconForFrmRptUseMDIMode ShowDocumentTabs(AllowDatasheetSchemaCustomRibbonIDStartUpForm"Show Values Limit,Show Values in Indexed4Show Values in Non-Indexed*Show Values in RemoteAuto CompactANSI Query Mode>Picture Property Storage Format4Property Sheet Label Width.CheckTruncatedNumFieldsU 08.50  W     MR2( ReplicateProject MR20 Title AuthorCompanyr blank& Frank J. Spirek. &USDA Forest Service LVALMR2 GUIDNameMap  *O0 Bmh  U;5MMX){K@FVS_PlotInitdLC ?SQ;5MMX)STAND_ID LTHG"7;5MMX)Inv_Year^ϥLyJB;5MMX)VARIANT^vGyrm;5MMX)LATITUDE`P 5NzPq/;5MMX)LONGITUDE_oJl2x;5MMX)REGIONPeZOq ;5MMX)FORESTԧ&AE.;5MMX)DISTRICTFk[BVNU*;5MMX)COMPARTMENT#: I{Lg^!;5MMX)PV_CODE P[HHzg؝;5MMX)PV_REF_CODEiVMNJGhL;5MMX)AGEOLB' Eqd;5MMX)ASPECTpSC@Z ;5MMX)SLOPE~oCw-;5MMX)ELEVFT_M妁C;5MMX)BASAL_AREA_FACTORE)X1F`?U;5MMX)INV_PLOT_SIZE!hmI-@;5MMX)BRK_DBHۭO@6)7;5MMX)NUM_PLOTSf!vfE ;5MMX)NONSTK_PLOTSRF,OBk ;5MMX)SAM_WT+K\;5MMX)STK_PCNT=TBP{6=;5MMX)DG_TRANS \PoIx;5MMX)DG_MEASUREFGjC.`&Z;5MMX)HTG_TRANS+l3[H.K_;5MMX)HTG_MEASUREdCHk<;5MMX)MORT_MEASURE0\\z&Az> ;5MMX)MAX_BAo\3D4fF;5MMX)MAX_SDI( jGv};5MMX)SITE_SPECIES@? DxU;5MMX)SITE_INDEX)yc%A,hDd;5MMX)MODEL_TYPEmX#\L:O;5MMX)PHYSIO_REGIONn%L8;5MMX)FOREST_TYPEA PL+C.;5MMX)COUNTYȒG9{zr;5MMX)STATE+DTK hd ;5MMX)FUEL_0_25=41.L1f;5MMX)FUEL_25_1hPdN"O~s;5MMX)FUEL_1_3dQ|aI"ڕe;5MMX)FUEL_3_6#@H<1;5MMX)Fuel_6_12xTFpy;5MMX)FUEL_12_208늖BUA=hz;5MMX)FUEL_LITTERY\#wAu) ;5MMX)FUEL_DUFFv!2!LrRWݳ<;5MMX)FUEL_MODEL@m6M[8t ;5MMX)PHOTO_REF&tNSLDfx;5MMX)PHOTO_CODEɗE{C;5MMX)Groupsk3w>L] U#;5MMX)Addfiles+*WCJ?;5MMX)FVSKeywordsL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion-&OUR;5MMX)FUEL_20_35i _BG.wi;5MMX)FUEL_gt_50H o@1W =#;5MMX)FUEL_35_50\JIXq;5MMX)StandPlot_IDe8+κ]BuRё;5MMX)Plot_ID  LVALMR2 GUIDNameMapn  5gR)IG?2J B U{|&OeIN@FVS_StandInitPYL1- .{|&OeSTAND_ID:Z@_Ll2h{|&OeINV_YEAR !p j#OUεF{|&OeVARIANTʘs>!Eɏ{|&OeLATITUDET#Az<| {|&OeLONGITUDE@y=C@PX{{|&OeREGIONi{BPp@<{|&OeFOREST+/EHU!{|&OeDISTRICT/`4NJWlj {|&OeCOMPARTMENT"\ƨJCCn{{|&OePV_CODE16hLɜX{|&OePV_REF_CODEzMO;^1{|&OeAGE?(C\3~{|&OeASPECT"zMG{|&OeSLOPEm9bCO{|&OeELEVFT Gr#I& {|&OeBASAL_AREA_FACTORL@~=EIB{|&OeINV_PLOT_SIZEr?D {|&OeBRK_DBH-)N#FΠ{|&OeNUM_PLOTSU'A{|&OeNONSTK_PLOTS 7~KWF{|&OeSAM_WTr8SNnًyԗ{|&OeSTK_PCNTEoL}/2{|&OeDG_TRANS.OπdI|_c{|&OeDG_MEASURE HI2{|&OeHTG_TRANSKmA,@#s{|&OeHTG_MEASURE`1ji@Bv{|&OeMORT_MEASURE. ;D:{-{|&OeMAX_BAE ~tgS{|&OeMAX_SDIEĦ7k{|&OeSITE_SPECIES.T!+KO${|&OeSITE_INDEXM~CzCX{|&OeMODEL_TYPE6zrJIE]ˠ{|&OePHYSIO_REGIONNJבr9A=5{|&OeFOREST_TYPED>N.e~{|&OePHOTO_CODEta\@e&{|&OeGroupsU 裛K8҄{|&OeAddfileskE5V{|&OeFVSKeywords [4JzMZu{|&OeLocationƙ|O;C Q{|&OeEcoregionb!Msu͑{|&OeFUEL_20_359/-H]n^ON{|&OeFUEL_gt_50,GzjLA{|&OeFUEL_35_50 LVALr MR2OrientationOrderByOnNameMapDefaultViewRowHeightColumnWidthColumnOrderColumnHiddenRequiredAllowZeroLengthDisplayControlIMEModeIMESentenceMode$UnicodeCompressionGUID FilterOrderByDescriptionValidationRuleValidationText FormatInputMaskCaptionDefaultValueSmartTags8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldTextAlignAggregateTypeTextFormatX  H @ U'G9CH{ڱ(n7H,5@FVS_GroupAddFilesAndKeywords{jLdž?ޟ'G9CH{ڱ(n7GroupsƵD o$p*'G9CH{ڱ(n7Addfiles/3f&I{Xc'G9CH{ڱ(n7FVSKeywords   , 'G9CH{ڱ(n7 This table contains keywords and addfiles assigned to grouping codes.     FVSKeywords              /3f&I{Xch `A list of FVS keywords which define the FVS run.     Groups   : 2A list of grouping codes.               -̉F^ffAddfiles F   A list of addfile names which will be inserted into simulation files as one or more components.              :$ tG;{&>vIMR2 GUIDNameMapj  LMa ӁaEF > UA;5MMX)STK_PCNT=TBP{6=;5MMX)DG_TRANS \PoIx;5MMX)DG_MEASUREFGjC.`&Z;5MMX)HTG_TRANS+l3[H.K_;5MMX)HTG_MEASUREdCHk<;5MMX)MORT_MEASURE0\\z&Az> ;5MMX)MAX_BAo\3D4fF;5MMX)MAX_SDI( jGv};5MMX)SITE_SPECIES@? DxU;5MMX)SITE_INDEX)yc%A,hDd;5MMX)MODEL_TYPEmX#\L:O;5MMX)PHYSIO_REGIONn%L8;5MMX)FOREST_TYPEA PL+C.;5MMX)COUNTYȒG9{zr;5MMX)STATE+DTK hd ;5MMX)FUEL_0_25=41.L1f;5MMX)FUEL_25_1hPdN"O~s;5MMX)FUEL_1_3dQ|aI"ڕe;5MMX)FUEL_3_6#@H<1;5MMX)Fuel_6_12xTFpy;5MMX)FUEL_12_208늖BUA=hz;5MMX)FUEL_LITTERY\#wAu) ;5MMX)FUEL_DUFFv!2!LrRWݳ<;5MMX)FUEL_MODEL@m6M[8t ;5MMX)PHOTO_REF&tNSLDfx;5MMX)PHOTO_CODEɗE{C;5MMX)Groupsk3w>L] U#;5MMX)Addfiles+*WCJ?;5MMX)FVSKeywordsL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion-&OUR;5MMX)FUEL_20_35i _BG.wi;5MMX)FUEL_gt_50H o@1W =#;5MMX)FUEL_35_50\JIXq;5MMX)StandPlot_IDe8+κ]BuRё;5MMX)Plot_ID LVAL|rMR2 GUIDNameMapN *O0 Bmh* " U;5MMX)tHT@FVS_PlotInitdLC ?SQ;5MMX)STAND_ID LTHG"7;5MMX)Inv_Year^ϥLyJB;5MMX)VARIANT^vGyrm;5MMX)LATITUDE`P 5NzPq/;5MMX)LONGITUDE_oJl2x;5MMX)REGIONPeZOq ;5MMX)FORESTԧ&AE.;5MMX)DISTRICTFk[BVNU*;5MMX)COMPARTMENT#: I{Lg^!;5MMX)PV_CODE P[HHzg؝;5MMX)PV_REF_CODEiVMNJGhL;5MMX)AGEOLB' Eqd;5MMX)ASPECTpSC@Z ;5MMX)SLOPE~oCw-;5MMX)ELEVFT_M妁C;5MMX)BASAL_AREA_FACTORE)X1F`?U;5MMX)INV_PLOT_SIZE!hmI-@;5MMX)BRK_DBHۭO@6)7;5MMX)NUM_PLOTSf!vfE ;5MMX)NONSTK_PLOTSRF,OBk ;5MMX)SAM_WT+K\;5MMX)STK_PCNT=TBP{6=;5MMX)DG_TRANS \PoIx;5MMX)DG_MEASUREFGjC.`&Z;5MMX)HTG_TRANS+l3[H.K_;5MMX)HTG_MEASUREdCHk<;5MMX)MORT_MEASURE0\\z&Az> ;5MMX)MAX_BAo\3D4fF;5MMX)MAX_SDI( jGv};5MMX)SITE_SPECIES@? DxU;5MMX)SITE_INDEX)yc%A,hDd;5MMX)MODEL_TYPEmX#\L:O;5MMX)PHYSIO_REGIONn%L8;5MMX)FOREST_TYPEA PL+C.;5MMX)COUNTYȒG9{zr;5MMX)STATE,~Gʀ;5MMX)FUEL_0_25_HN@7mn;5MMX)FUEL_25_1_HrlTA7h@;5MMX)FUEL_1_3_HF*:';5MMX)FUEL_3_6_H]ǣ\FN<;5MMX)Fuel_6_12_HrYBr#(;5MMX)FUEL_12_20_H8늖BUA=hz;5MMX)FUEL_LITTERY\#wAu) ;5MMX)FUEL_DUFFv!2!LrRWݳ<;5MMX)FUEL_MODEL@m6M[8t ;5MMX)PHOTO_REF&tNSLDfx;5MMX)PHOTO_CODEɗE{C;5MMX)Groupsk3w>L] U#;5MMX)Addfiles+*WCJ?;5MMX)FVSKeywordsL!Br]1;5MMX)LocationdAƂB'{;5MMX)EcoregionAS55G^Vf;5MMX)FUEL_20_35_HFW-4/CZ0;5MMX)FUEL_gt_50_H7`IOyMxKý\;5MMX)FUEL_35_50_H\JIXq;5MMX)StandPlot_IDe8+κ]BuRё;5MMX)Plot_ID}SgF>ѯz;5MMX)FUEL_0_25_St͈N_o&;5MMX)FUEL_25_1_SvxTo$@IcDL2`;5MMX)FUEL_1_3_SKC*̕j ;5MMX)FUEL_3_6_StNNޗX;5MMX)Fuel_6_12_S ]mkHޞ';5MMX)FUEL_12_20_SG;Loߴ;5MMX)FUEL_20_35_SJL+N?;5MMX)bLVALrFUEL_gt_50_SK3KHO:xJי];5MMX)FUEL_35_50_S LVALtMR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)BT@ tkFVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model=RsEe;5MMX)Fuel_0_25_H& H ~Ny;5MMX)Fuel_25_1_HLVALuwjn .ZF9>RO;5MMX)Fuel_1_3_HS*&ġO!mfP7);5MMX)Fuel_3_6_HQZ]Cg̘R$;5MMX)Fuel_6_12_H#UJq9g;5MMX)Fuel_12_20_HgbQKߏ{g;5MMX)Fuel_20_35_HA7^8;5MMX)Fuel_35_50_H&#N=u;5MMX)Fuel_gt_50_H2D1@]X;5MMX)Fuel_0_25_S]yJD#=+;5MMX)Fuel_25_1_S7 -NI=;5MMX)Fuel_1_3_SХ"IXP;5MMX)Fuel_3_6_S3g5U{APZ;5MMX)Fuel_6_12_SO30Ar;5MMX)Fuel_12_20_Sea;8 D[" ;5MMX)Fuel_20_35_SA­AN ,I;5MMX)Fuel_35_50_SgŽgBST e;5MMX)Fuel_gt_50_S8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@m6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_code    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALvbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALwear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID K([itial tons per acre of 20 to 35 inch fuel=\n2Bɿ=>d135]67`%a !bGc Fuel_20-30_Label20.0 - 35.0" Fuel_20_30_LabelZ,xF{~m7W:;F`/a!bf4k8FUEL_gt_50_HFUEL_gt_50_H ArialdInitial tons per acre of greater than 50 inch fuel#+wmBf\3td135]67`X/a !bGc FUEL_GT_50_Label > 50"  cIe_{gm7W:;F`l*a!bf3k7FUEL_35_50_HFUEL_35_50_H ArialVInitial tons per acre of 35 to 50 inch fuelAu#Ld135]67`*a !bGc Fuel_35-50_Label35.0 - 50.0" Fuel_35_50_Label@3SNiQxqm 7WF`awb` c,kSTANDPlot_IDStandPlot_ID ArialUnique plot identifier is used to populate stand lists in Suppose. It is a concatenation of the stand identifier and plot number.Ik\ D 'qב+d135]67`abo ce$StandPlot_ID_Label0Unique Plot Identifier**B0cAtm07:F` awc,kPlot_ID[Plot_ID]"[Event Procedure]Null Arial"mHk~qd17 LVALMR2 GUIDNameMap  *O0 Bmh  U;5MMX){K@FVS_PlotInitdLC ?SQ;5MMX)STAND_ID LTHG"7;5MMX)Inv_Year^ϥLyJB;5MMX)VARIANT^vGyrm;5MMX)LATITUDE`P 5NzPq/;5MMX)LONGITUDE_oJl2x;5MMX)REGIONPeZOq ;5MMX)FORESTԧ&AE.;5MMX)DISTRICTFk[BVNU*;5MMX)COMPARTMENT#: I{Lg^!;5MMX)PV_CODE P[HHzg؝;5MMX)PV_REF_CODEiVMNJGhL;5MMX)AGEOLB' Eqd;5MMX)ASPECTpSC@Z ;5MMX)SLOPE~oCw-;5MMX)ELEVFT_M妁C;5MMX)BASAL_AREA_FACTORE)X1F`?U;5MMX)INV_PLOT_SIZE!hmI-@;5MMX)BRK_DBHۭO@6)7;5MMX)NUM_PLOTSf!vfE ;5MMX)NONSTK_PLOTSRF,OBk ;5MMX)SAM_WT+K\;5MMX)STK_PCNT=TBP{6=;5MMX)DG_TRANS \PoIx;5MMX)DG_MEASUREFGjC.`&Z;5MMX)HTG_TRANS+l3[H.K_;5MMX)HTG_MEASUREdCHk<;5MMX)MORT_MEASURE0\\z&Az> ;5MMX)MAX_BAo\3D4fF;5MMX)MAX_SDI( jGv};5MMX)SITE_SPECIES@? DxU;5MMX)SITE_INDEX)yc%A,hDd;5MMX)MODEL_TYPEmX#\L:O;5MMX)PHYSIO_REGIONn%L8;5MMX)FOREST_TYPEA PL+C.;5MMX)COUNTYȒG9{zr;5MMX)STATE+DTK hd ;5MMX)FUEL_0_25=41.L1f;5MMX)FUEL_25_1hPdN"O~s;5MMX)FUEL_1_3dQ|aI"ڕe;5MMX)FUEL_3_6#@H<1;5MMX)Fuel_6_12xTFpy;5MMX)FUEL_12_208늖BUA=hz;5MMX)FUEL_LITTERY\#wAu) ;5MMX)FUEL_DUFFv!2!LrRWݳ<;5MMX)FUEL_MODEL@m6M[8t ;5MMX)PHOTO_REF&tNSLDfx;5MMX)PHOTO_CODEɗE{C;5MMX)Groupsk3w>L] U#;5MMX)Addfiles+*WCJ?;5MMX)FVSKeywordsL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion-&OUR;5MMX)FUEL_20_35i _BG.wi;5MMX)FUEL_gt_50H o@1W =#;5MMX)FUEL_35_50\JIXq;5MMX)StandPlot_IDe8+κ]BuRё;5MMX)Plot_ID  LVALMR2 GUIDNameMap  *O0 Bmh  U;5MMX)tHT@$ FVS_PlotInitdLC ?SQ;5MMX)STAND_ID LTHG"7;5MMX)Inv_Year^ϥLyJB;5MMX)VARIANT^vGyrm;5MMX)LATITUDE`P 5NzPq/;5MMX)LONGITUDE_oJl2x;5MMX)REGIONPeZOq ;5MMX)FORESTԧ&AE.;5MMX)DISTRICTFk[BVNU*;5MMX)COMPARTMENT#: I{Lg^!;5MMX)PV_CODE P[HHzg؝;5MMX)PV_REF_CODEiVMNJGhL;5MMX)AGEOLB' Eqd;5MMX)ASPECTpSC@Z ;5MMX)SLOPE~oCw-;5MMX)ELEVFT_M妁C;5MMX)BASAL_AREA_FACTORE)X1F`?U;5MMX)INV_PLOT_SIZE!hmI-@;5MMX)BRK_DBHۭO@6)7;5MMX)NUM_PLOTSf!vfE ;5MMX)NONSTK_PLOTSRF,OBk ;5MMX)SAM_WT+K\;5MMX)STK_PCNT=TBP{6=;5MMX)DG_TRANS \PoIx;5MMX)DG_MEASUREFGjC.`&Z;5MMX)HTG_TRANS+l3[H.K_;5MMX)HTG_MEASUREdCHk<;5MMX)MORT_MEASURE0\\z&Az> ;5MMX)MAX_BAo\3D4fF;5MMX)MAX_SDI( jGv};5MMX)SITE_SPECIES@? DxU;5MMX)SITE_INDEX)yc%A,hDd;5MMX)MODEL_TYPEmX#\L:O;5MMX)PHYSIO_REGIONn%L8;5MMX)FOREST_TYPEA PL+C.;5MMX)COUNTYȒG9{zr;5MMX)STATE+DTK hd ;5MMX)FUEL_0_25=41.L1f;5MMX)FUEL_25_1hPdN"O~s;5MMX)FUEL_1_3dQ|aI"ڕe;5MMX)FUEL_3_6#@H<1;5MMX)Fuel_6_12xTFpy;5MMX)FUEL_12_208늖BUA=hz;5MMX)FUEL_LITTERY\#wAu) ;5MMX)FUEL_DUFFv!2!LrRWݳ<;5MMX)FUEL_MODEL@m6M[8t ;5MMX)PHOTO_REF&tNSLDfx;5MMX)PHOTO_CODEɗE{C;5MMX)Groupsk3w>L] U#;5MMX)Addfiles+*WCJ?;5MMX)FVSKeywordsL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion-&OUR;5MMX)FUEL_20_35i _BG.wi;5MMX)FUEL_gt_50H o@1W =#;5MMX)FUEL_35_50\JIXq;5MMX)StandPlot_IDe8+κ]BuRё;5MMX)Plot_ID LVAL|rGD3?(hw?(h ?8d(hAd  " R     B z    * Z    "Z*j:b"Z"RBrBz"Z*b Bz  8 p    ( `     @ x   @hP Hx@x8h(X(`@xH(`                                                                    " R     B z    * Z    "Z*j:b"Z"RBrBz"Z*b Bz 4   4                                           ! " # $ %  & ' ( ) * + , : ; < = > ? @ A B C D E F G H I J K 6 7 8 9  )FVS_PlotInit.Stand_IDFVS_PlotInit'FVS_PlotInit.Plot_ID1FVS_PlotInit.StandPlot_ID'FVS_PlotInit.Variant)FVS_PlotInit.Inv_Year%FVS_PlotInit.Groups)FVS_PlotInit.AddFiles/FVS_PlotInit.FVSKeywords)FVS_PlotInit.Latitude+FVS_PlotInit.Longitude%FVS_PlotInit.Region%FVS_PlotInit.Forest)FVS_PlotInit.District/FVS_PlotInit.Compartment)FVS_PlotInit.Location+FVS_PlotInit.Ecoregion'FVS_PlotInit.PV_Code/FVS_PlotInit.PV_Ref_CodeFVS_PlotInit.Age%FVS_PlotInit.Aspect#FVS_PlotInit.Slope+FVS_PlotInit.Elevation%FVS_PlotInit.ElevFt;FVS_PlotInit.Basal_Area_Factor3FVS_PlotInit.Inv_Plot_Size'FVS_PlotInit.Brk_DBH+FVS_PlotInit.Num_Plots1FVS_PlotInit.NonStk_Plots%FVS_PlotInit.Sam_Wt)FVS_PlotInit.Stk_Pcnt)FVS_PlotInit.DG_Trans-FVS_PlotInit.DG_Measure+FVS_PlotInit.HTG_Trans/FVS_PlotInit.HTG_Measure1FVS_PlotInit.Mort_Measure%FVS_PlotInit.Max_BA'FVS_PlotInit.Max_SDI1FVS_PlotInit.Site_Species-FVS_PlotInit.Site_Index-FVS_PlotInit.Model_Type3FVS_PlotInit.Physio_Region/FVS_PlotInit.Forest_Type#FVS_PlotInit.State%LVAL}MR2Orientation FilterOrderByOrderByOnNameMapDefaultViewGUIDColumnWidthColumnOrderColumnHiddenValidationRuleValidationTextDescription FormatInputMaskCaptionDefaultValueRequiredAllowZeroLengthDisplayControlIMEModeIMESentenceMode$UnicodeCompressionDecimalPlacesSmartTags8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldTextAlignAggregateType&  \ T UAPicture Property Storage Format4Property Sheet Label Width.CheckTruncatedNumFieldsU 08.50  W       Custom                       !5 "MR2AggregateTypeGUIDColumnWidthColumnHiddenRecordLocksODBCTimeoutUseTransactionFailOnErrorOrientationNameMapDOLSmartTagsvLFFVS_GroupAddFilesAndKeywords.Groups  E;aÛJ1L.Mnew1    >:{u@LcVPFVS_GroupAddFilesAndKeywords.FVSKeywords  TH\J8IYNG?0I x1    (:}gROg=SE`  <    cxCJ  U'G9CH{ڱ(n7 حγ@DFVS_GroupAddFilesAndKeywords/3f&I{Xc'G9CH{ڱ(n7FVSKeywords -̉F^f'G9CH{ڱ(n7Groups w qq ;J2@;J2@FVS_StandInitFVS_TreeInitRTTTTTTTTTTR JAO@JAO@FVS_StandInitFVS_PlotInitRTTTTTTTTTTR \?ž2@\?ž2@FVS_StandInitFVS_GroupAddFilesAndKeywordsRttttttttttr 2@2@FVS_PlotInitFVS_TreeInitRRRRRRRRRRRP X]2@X]2@FVS_PlotInitFVS_GroupAddFilesAndKeywordsRrrrrrrrrrrp K +~  c FVS_StandInitFVS_TreeInitFVS_TreeInitStand_IDFVS_StandInitStand_IDhX@FVS_StandInitFVS_PlotInitFVS_PlotInitStand_IDFVS_StandInitStand_IDhX@FVS_StandInitFVS_GroupAddFilesAndKeywordsFVS_GroupAddFilesAndKeywordsGroupsFVS_StandInitGroups`FVS_PlotInitFVS_TreeInitFVS_TreeInitStandPlot_IDFVS_PlotInitStandPlot_IDnV>FVS_PlotInitFVS_GroupAddFilesAndKeywordsFVS_GroupAddFilesAndKeywordsGroupsFVS_PlotInitGroups^o LVAL, MR2AccessVersion BuildProjVerNavPane ClosedNavPane Width NavPane Category*NavPane Category NameNavPane View ByNavPane Sort ByAppTitle&StartUpShowDBWindow(StartUpShowStatusBarStartUpMenuBar$AllowShortcutMenusAllowFullMenus(AllowBuiltInToolbars&AllowToolbarChanges AllowSpecialKeysAppIcon,StartupShortcutMenuBar&UseAppIconForFrmRptUseMDIMode ShowDocumentTabs(AllowDatasheetSchemaCustomRibbonIDStartUpForm"Show Values Limit,Show Values in Indexed4Show Values in Non-Indexed*Show Values in RemoteAuto CompactANSI Query Mode>Picture Property Storage Format4Property Sheet Label Width.CheckTruncatedNumFieldsU 08.50  W  b     Custom                       !5 "MR2AccessVersion BuildProjVerNavPane ClosedNavPane Width NavPane Category*NavPane Category NameNavPane View ByNavPane Sort ByAppTitle&StartUpShowDBWindow(StartUpShowStatusBarStartUpMenuBar$AllowShortcutMenusAllowFullMenus(AllowBuiltInToolbars&AllowToolbarChanges AllowSpecialKeysAppIcon,StartupShortcutMenuBar&UseAppIconForFrmRptUseMDIMode ShowDocumentTabs(AllowDatasheetSchemaCustomRibbonIDStartUpForm"Show Values Limit,Show Values in Indexed4Show Values in Non-Indexed*Show Values in RemoteAuto CompactANSI Query Mode>Picture Property Storage Format4Property Sheet Label Width.CheckTruncatedNumFieldsU 08.50  W  b     Custom                       !5 "LVALFVS_PlotInit.County-FVS_PlotInit.Fuel_Model/FVS_PlotInit.Fuel_0_25_H/FVS_PlotInit.Fuel_25_1_H-FVS_PlotInit.Fuel_1_3_H-FVS_PlotInit.Fuel_3_6_H/FVS_PlotInit.Fuel_6_12_H1FVS_PlotInit.Fuel_12_20_H1FVS_PlotInit.Fuel_20_35_H1FVS_PlotInit.Fuel_35_50_H1FVS_PlotInit.Fuel_gt_50_H/FVS_PlotInit.Fuel_0_25_S/FVS_PlotInit.Fuel_25_1_S-FVS_PlotInit.Fuel_1_3_S-FVS_PlotInit.Fuel_3_6_S/FVS_PlotInit.Fuel_6_12_S1FVS_PlotInit.Fuel_12_20_S1FVS_PlotInit.Fuel_20_35_S1FVS_PlotInit.Fuel_35_50_S1FVS_PlotInit.Fuel_gt_50_S/FVS_PlotInit.Fuel_Litter+FVS_PlotInit.Fuel_Duff+FVS_PlotInit.Photo_Ref-FVS_PlotInit.Photo_code(CC D 7dlT@   " R          B z       *  Z       " Z     * j  : b    "!Z" # $ %" &R'( ) * +B ,r -./ 0B 1z 2 34"5Z 6 7 8 9* :b;< =  >B ?z @+ABFVS_PlotInit02CCC-2XUtHT@'~sq_fEnter_Plot_Data  +  + 8 + p + + + + ( , ` ,  ,  ,   ,   (,  @ 0, x 8, @, H, P, @X, h`, h, p, x, , P, , , , , H, x, ,  ,! ," @,# x,$ ,% ,& ,' 8-( h-) -* -+ -, ((-- X0-. 8-/ @-0 H-1 (P-2 `X-3 `-4 h-5 p-6 @x-7 x-8 -9 -: -; H-< -= -> -? 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R ? ? ? ?  @ B @ z @ @  @  (@ * 0@ Z 8@ @@ H@ P@ "X@ Z`@ h@ p@ x@ @ *@ j@ @ @ @ :@ b@ @ @ @ "@ Z@ @ @ @ "A RA A A  A (A B0A r8A @A HA PA BXA z`A hA pA "xA ZA A A A *A bA A A A BA zA A A  8 p    ( `     @ x   @hP Hx@x8h(X(`@xH(` eZC 8HXhxAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA 8h_CM#4XU #4XU #4XU #4XU #4XU h#4XU $h#4XU $h#4XU $#4XU #4XU  #4XU  #4XU  #4XU  #4XU  #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU #4XU  #4XU! #4XU" #4XU# #4XU$ #4XU% #4XU& #4LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H  6    v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   ,~GʀFuel_25_1_H  6    v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   N@7mnFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   rlTA7h@Fuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   F*:'Fuel_6_12_H  6    r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   ]ǣ\FN<Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   rYBr#(Fuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   AS55G^VfFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   7`IOyMxKý\Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   FW-4/CZ0Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   }SgF>ѯzFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   t͈N_o&Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   vxTo$@IcDL2`Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m   KC*̕j Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m   tNNޗXFuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m    ]mkHޞ'Fuel_ LVAL 20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m   G;LoߴFuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m   K3KHO:xJי]Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m   JL+N?K([Arial6Maximum stand density indexz4(ϮEB9OiBd135]7`@)ab8cMAX_SDI_LabelMaximum SDIx _ZsCɠWhm7W;F`a$befk-SITE_SPECIESSITE_SPECIES Arial"Site species code@-飼El3ݾ-Vd135]7`a4bsc$SITE_SPECIES_Label$Site Index SpeciesSnn@ Ea 0m7W;F`a$be fk.SITE_INDEXSITE_INDEX ArialSite index{7 š@]-ė'd135]7`a4bc SITE_INDEX_LabelSite Index (ft)L"C$5 m7WF`ahbc,e fkMODEL_TYPEMODEL_TYPE ArialModel type code (CR variant), overrides model type selection based on location information. (1=southwest mixed conifer, 2=southwest ponderosa pine, 3=BH ponderosa pine, 4=spruce-fir, and 5=lodgepole pine)wUdNrDgrd135]7`axbc MODEL_TYPE_LabelModel TypezNoJ/bm7W;F` abe fk&PHYSIO_REGIONPHYSIO_REGION Arial2Physiographic region code'!@T.Tpd135]7` abc&PHYSIO_REGION_Label(Physiographic Region@(0Lcˣ;m7W;F`$abe fk%FOREST_TYPEFOREST_TYPE ArialhFIA forest type code (numeric, e.g. 201=Douglas-fir)cZW{IO$hd135]7`$abc"FOREST_TYPE_LabelForest TypeLRbH1ޭm7W;F`-a bXdir,PROJECT "PROJECTwmAcessVBAData FVS_PlotInitfrmFVS_PlotInit Ariald27 Ariale12g237hghMS Sans Serifi1ghj1ghk1l23:m4n2o2p5r35zijMS Sans Serif{5`XFormHeaderEOid5U7b$cdeLabel106dPlot Data: linked to FVS_PlotInit Table - OptionalE1`05A};VBE;&H00000000 [Workspace] Form_Enter_Stand_Data=44, 58, 1282, 587, Form_Enter_Tree_Data=66, 87, 471, 463, Form_Enter_Plot_Data=22, 29, 892, 518, Z 9, 892, 518, Z Form_Enter_Stand_DataForm_Enter_Stand_DataForm_Enter_Tree_DataForm_Enter_Tree_DataForm_Enter_Plot_DataForm_Enter_Plot_Data'j[(up''''2_/75 'Pas@AppendaMd0 _0D0/sID="{5AAE2211-9924-4EC8-979F-52A0AFF7C928}" DocClass=Form_Enter_Stand_Data/&H00000000 DocClass=Form_Enter_Tree_Data/&H00000000 DocClass=Form_Enter_Plot_Data/&H00000000 Name="blank" HelpContextID="0" VersionCompatible32="393222000" CMG="B8BA53A157A157A157A157" DPB="70729B5C9C5C9C5C" GC="282AC314C414C4EB" [Host Extender Info] &H00000001={3832D640-CF90-11CF-8E43-00A0C9110VHNVUTDQCVOUZDOXJKDH'K([NJEJYYQF:FSIPGNEIDPHOFEEOTVDJCWTLZLKM:LCZKTMW_UNGTSDEHKVREGEDBVSQCE:;'_VBA_PROJECT   !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~(0* pHd blank @8= Vh {@ջM J< ADODB> ADOB *\G{00201-10 -8 AA006D2EA4}#2.1#0#C:\Program Files\C ommon System\ado\ms21.tlb#Microsoft ActiveX Data Objects , LibrXaryHys@tdole>istdole^h^^20430V0NC^46^0^WINDOWSD\sT32\22SOLE Automation0E Form_Enter_@Stand_hG * Srm _En[erS@adDaB VHNVUTDQCVOUZDOXJKDHNJEJYYQF28AHNVUDT@oQCO@Z@OXJ,K@JJY@QFB 1 B,4u")(B+B9Tree8U F8T@:eh_@#I8FSIPGNEIDPHOFEEOTVDJCW@TLZLKMC8FSIPG9E@DHOU0E@4O=VJ@>WLZL5Err_CloseForm2_ClickExit_CloseForm2_Clicky{ NewRec2_ClickDErr_NewRec2_Click Exit_NewRec2_ClickQDelete_Rec2_ClickA2Err_Delete_Rec2_Click^Exit_Delete_Rec2_Clickm Next2_ClickErr_Next2_ClickUExit_Next2_Click]PLOT_ID_AfterUpdate>  StandPlot_ID|ValueKStand_IDpPlot_IDyPreviousRec2_ClickvErr_PreviousRec2_Click*Exit_PreviousRec2_Click dup2_ClickEErr_dup2_ClickExit_dup2_ClickForm_Enter_Plot_DataCommand154_ClickErr_Command154_ClickCnditn;k myConnection{ Connection myRecordSetz RecordsetCurrentProject$ActiveConnection mySQL_Loc mySQL_Inv mySQL_Site@ mySQL_Fuelt RunCommand`acCmdSaveRecord> adOpenDynamicSyExit_Command154_Click`   Q6C 4xME 8ExMEPS<S<S<<< <<<  N0{7D5F17DF-A843-4C60-AA57-F2948A7BE654} @ " , 4 <@ J j '` 0 % P%````% "   (0 8@P X "`h p  )K([ "    " ( 0 HP X`p x"    " 8.X    " "  (8@HPX`hpx X  x < 8Ph    xh B@BP|H@ ! A@(o @$ ( B@&^x*p|h$` ! A@*Ho@.0 0 B@&2|. ! A@2o6 8 B@&:|6 ! A@:o>p B D F B@@ B D F B@@H(| > ! A@&Ho@L B D F B@@ B D F B@@ B D F B@@= Paste AppendNp|hL` ! A@NHo@ p_ r l(no]]]8 !.  (]X]p]]' l'  B@4 _UPDATE FVS_StandInit INNER JOIN FVS_PlotInit ON FVS_StandInit.Stand_ID = FVS_PlotInit.Stand_ID 5SET FVS_PlotInit.Variant = [FVS_StandInit]![Variant],3FVS_PlotInit.Inv_Year = [FVS_StandInit]![Inv_Year],7FVS_PlotInit.Model_Type = [FVS_StandInit]![Model_Type],/FVS_PlotInit.Region = [FVS_StandInit]![Region],/FVS_PlotInit.Forest = [FVS_StandInit]![Forest],3FVS_PlotInit.District = [FVS_StandInit]![District],9FVS_PlotInit.Compartment = [FVS_StandInit]![Compartment],3FVS_PlotInit.Location = [FVS_StandInit]![Location],3FVS_PlotInit.Latitude = [FVS_StandInit]![Latitude],5FVS_PlotInit.Longitude = [FVS_StandInit]![Longitude],-FVS_PlotInit.State = [FVS_StandInit]![State],/FVS_PlotInit.County = [FVS_StandInit]![County] %WHERE (((FVS_PlotInit.StandPlot_ID)=' '));'( _UPDATE FVS_StandInit INNER JOIN FVS_PlotInit ON FVS_StandInit.Stand_ID = FVS_PlotInit.Stand_ID ISET FVS_PlotInit.Basal_Area_Factor = [FVS_StandInit]![Basal_Area_Factor],=FVS_PlotInit.Inv_Plot_Size = [FVS_StandInit]![Inv_Plot_Size],1FVS_PlotInit.Brk_DBH = [FVS_StandInit]![Brk_DBH],3FVS_PlotInit.Stk_pcnt = [FVS_StandInit]![Stk_pcnt],3FVS_PlotInit.DG_Trans = [FVS_StandInit]![DG_Trans],7FVS_PlotInit.DG_Measure = [FVS_StandInit]![DG_Measure],5FVS_PlotInit.HTG_Trans = [FVS_StandInit]![HTG_Trans],9FVS_PlotInit.HTG_Measure = [FVS_StandInit]![HTG_Measure],;FVS_PlotInit.Mort_Measure = [FVS_StandInit]![Mort_Measure] %WHERE (((FVS_PlotInit.StandPlot_ID)=' '));'8 _UPDATE FVS_StandInit INNER JOIN FVS_PlotInit ON FVS_StandIn*K([it.Stand_ID = FVS_PlotInit.Stand_ID 9SET FVS_PlotInit.Ecoregion = [FVS_StandInit]![Ecoregion],1FVS_PlotInit.PV_Code = [FVS_StandInit]![PV_Code],9FVS_PlotInit.PV_REF_CODE = [FVS_StandInit]![PV_REF_CODE],9FVS_PlotInit.Forest_Type = [FVS_StandInit]![Forest_Type],=FVS_PlotInit.Physio_Region = [FVS_StandInit]![Physio_Region],/FVS_PlotInit.Max_BA = [FVS_StandInit]![Max_BA],1FVS_PlotInit.Max_SDI = [FVS_StandInit]![Max_SDI],-FVS_PlotInit.Slope = [FVS_StandInit]![Slope],/FVS_PlotInit.Aspect = [FVS_StandInit]![Aspect],/FVS_PlotInit.ElevFT = [FVS_StandInit]![ElevFT],)FVS_PlotInit.Age = [FVS_StandInit]![Age],;FVS_PlotInit.Site_Species = [FVS_StandInit]![Site_Species],7FVS_PlotInit.Site_Index = [FVS_StandInit]![Site_Index] %WHERE (((FVS_PlotInit.StandPlot_ID)=' '));'<  _UPDATE FVS_StandInit INNER JOIN FVS_PlotInit ON FVS_StandInit.Stand_ID = FVS_PlotInit.Stand_ID 9SET FVS_PlotInit.Photo_Ref = [FVS_StandInit]![Photo_Ref],7FVS_PlotInit.Photo_Code = [FVS_StandInit]![Photo_Code],7FVS_PlotInit.Fuel_Model = [FVS_StandInit]![Fuel_Model],9FVS_PlotInit.Fuel_Litter = [FVS_StandInit]![Fuel_Litter],5FVS_PlotInit.Fuel_Duff = [FVS_StandInit]![Fuel_Duff],5FVS_PlotInit.Fuel_0_25 = [FVS_StandInit]![Fuel_0_25],5FVS_PlotInit.Fuel_25_1 = [FVS_StandInit]![Fuel_25_1],3FVS_PlotInit.Fuel_1_3 = [FVS_StandInit]![Fuel_1_3],3FVS_PlotInit.Fuel_3_6 = [FVS_StandInit]![Fuel_3_6],5FVS_PlotInit.Fuel_6_12 = [FVS_StandInit]![Fuel_6_12],7FVS_PlotInit.Fuel_12_20 = [FVS_StandInit]![Fuel_12_20],7FVS_PlotInit.Fuel_20_35 = [FVS_StandInit]![Fuel_20_35],7FVS_PlotInit.Fuel_35_50 = [FVS_StandInit]![Fuel_35_50],7FVS_PlotInit.Fuel_gt_50 = [FVS_StandInit]![Fuel_gt_50] %WHERE (((FVS_PlotInit.StandPlot_ID)=' '));'   B@   B@   B@   B@  B@P |H @ ! A@( o  ~Attribute VB_Name = "Form_Enter_Plot_Data" Bas0{7D5F17DF-A843-4C60-AA57-F2948A7BE654} |GlobalSpacIFalDse dCrezb"lTru Pr@edeclaId"Expose_TemplateDerivCustomi zaD$Option Comp@ b P&* Sub cmdCLOSE_Click() On Error GoToF_ DoCmd.Cl` Exit:' 6rrMsgBox8.De0scri`Resu~P EndE 8av1Y7'6A@Rec ord ,@ac ious2;?:O%:HN9pNextZ8^8 F7T7Oe7HZ7addew9'w BTZdeleteJ DoMenuIt em acBar,@Edit!, 8VVer70[6l^'q''j[(up''''2_/75 'PasAppendaMd0 _0D0/LOT_ ID_AfUpdˡStandID.Valua & "_~"JǷImp154\i]@Dim Cn0n As Spng QmyConnecrADO8DB.7U_SetNew c`set = Current0ProjZmyI.Avex= %SQL_Loc Inv9Si"MFuel9@ 3CRun`F!Save3 my UPDATE FVS_Init INNER JOINrO.q"=w#_ "SETVarPiant[]![],5._Year![ .MoJ_Typ!.n#Reg= ob^esobDis0ctm-_![!a27[ctud` LǴTngi)o(4 [OBCounty?1] %(WHERE ((((S)='ä9pS'));:6)"666UU@h@ysio_R}P "Max_BAǑ` SDI qSlo; AspectC ElevFT CUgdAge _S(iesQIndexB] EWHERE (((B@҈)=' Cnd0Fuel@ndCvvPhotWfQ&VwB a_M! .LitterDufr0_25vp25_11_3v+K([`Y3_6V`Y6_12v12_20â20_3-35_5|gt߂߂yRe`dSet. Open Loc, , adaDynamicInv?sa1 DoCmd.R@unComm acSavesaExit~154_Click :  SubrrrocMsgBox Err.Descript`Resume _P EndU(S<S<S<<N0{404CC7C5-3814-4787-A26D-31F42B04F0B3} R@ X ^ d j@ t z%_ "   (0 8@P X"`h p   "    (8 @"HP X px   " "   ( 0"8@ Hh.   xTh B@BVP|HT@ ! A@V(o @Z 8 B@&,x\p|hZ` ! A@\Ho@`0 B D F B@@ B D F B@@b|` ! A@8bof 0 B@&h|fx ! A@Dh`oX p_ r l(no(@v ( B@&Hx|v ! A@xo| B D F B@@ B D F B@@ B D F B@@= Paste Append~@|8|0 ! A@~oAttribute VB_Name = "Form_Enter_Tree_Data" Bas0{404CC7C5-3814-4787-A26D-31F42B04F0B3} |GlobalSpacIFalDse dCrezb"lTru Pr@edeclaId"Expose_TemplateDerivCustomi zaD$Option Comp@J b P'+ Sub Cl@2_Click() On Error GxoTo # DoCmd."! Exit:  9rr@MsgBox;.Descri2pResu@RC 0 EndC9NewRec8(8ABord ,@acC 2< ;%;Z:Dele8te_]; Mp B D F B@@ B D F B@@H(| > ! A@Ho@L B D F B@@ B D F B@@ B D F B@@= Paste AppendNp|hL` ! A@NHo@8lAttribute VB_Name = "Form_Enter_Stand_Da ta" Bas0{7277AFFE-F3E5-40DA-85D8-D294D4FD6F70} |Global!SpacIFalse dCrezDblTru Predecla Id"Expo se_TemplateDerivCustomizaD$Option Comp@ b P&* Sub cmdCLOSE_Click() On Error GoTo_ DoCmd.ClC` Exit:O 6rrM sgBox8.D`escri`R8esuP 8EndC 7`v1?Y6&5A?Re@cord ,@ac ious1:?9O%9HZ8NextZ8^8 F7T7Oe7HZ7addew9'w SZdeleteJ DoMenuIt em ac!Bar,@Edit!, 8VVer70[6`l^'q'3`45 DetailgD{C$tIm7WF`Tawbc,e fkSTAND_IDSTAND_ID Arial4Stand identification code.:qS*J{iRd135]67`TabceSTAND_ID_Label"Stand Identifier*$1i@Ѻ m 7WF`abdc,e fkINV_YEARInv_Year ArialThe plot s inventory year --LVAL=XU' #4XU( #4XU) #4XU* #4XU+ #4XU, #4XU: #4XU; #4XU< #4XU= #4XU> #4XU? #4XU@ #4XUA #4XUB #4XUC #4XUD #4XUE #4XUF #4XUG #4XUH #4XUI #4XUJ #4XUK #4XU6 #4XU7 #4XU8 #4XU9 z @cg`c FFpV GVXGVGV GV HV 8HVpHVHVHWIWPI WI0WI@WIPW0J`WhJpWJWJWKWHKWKWKWKW(LW`LXLXL XM0X@M@XxMPXM`XMpX NXXNXNXNXOX8OXpOXOXOYPYPP YP0YP@YPPY0Q`YhQpYQYQYRYHRYRYRYRY(SY`SZSZS ZT0Z@T@ZxTPZT`ZTpZ UZ 4FF 4 G XGG G H 8HpHHHIPIII  I 0JhJJJKHKKKK(L`LLLM@MxMMM NXNN NO8OpOOOPPPPPP0QhQQQRHRRRR(S`SSST@TxTTT  U4 a(a0a8a@aHaPaXa`ahapaxaaaaaaaaaaaaaaaaabbbb b(b0b8b@bHbPbXb`bhbpbxbbbbbbbbbbbbbbbbbcccc c(c0cFF GXGGGH8HpHHHIPIIII0JhJJJKHKKKK(L`LLLM@MxMMM NXNNNO8OpOOOPPPPPP0QhQQQRHRRRR(S`SSST@TxTTT UXUFVS_PlotInitc c 4c 4dPlot_ID Groups/FVS_PlotInitStandPlot_ID'FVS_PlotInitStand_ID@dv `g0gPgeeqeeeeeeeeeeeeeeeeeeeeeeeeeeeeg Agg hdFVS_PlotInit Plot_ID#4d`gZ`g#4eggghXULVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H  6    v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   ,~GʀFuel_25_1_H  6    v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   N@7mnFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   rlTA7h@Fuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   F*:'Fuel_6_12_H  6    r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   ]ǣ\FN<Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   rYBr#(Fuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   AS55G^VfFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   7`IOyMxKý\Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   FW-4/CZ0Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   }SgF>ѯzFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   t͈N_o&Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   vxTo$@IcDL2`Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m   KC*̕j Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m   tNNޗXFuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m    ]mkHޞ'Fuel_ LVAL' 20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m   G;LoߴFuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVALpMR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)BT@ tkFVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model=RsEe;5MMX)Fuel_0_25_H& H ~Ny;5MMX)Fuel_25_1_HLVALpMR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)BT@ tkFVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model=RsEe;5MMX)Fuel_0_25_H& H ~Ny;5MMX)Fuel_25_1_H LVALMR2 GUIDNameMapn  5gR)IG?2J B U{|&OeIN@FVS_StandInitPYL1- .{|&OeSTAND_ID:Z@_Ll2h{|&OeINV_YEAR !p j#OUεF{|&OeVARIANTʘs>!Eɏ{|&OeLATITUDET#Az<| {|&OeLONGITUDE@y=C@PX{{|&OeREGIONi{BPp@<{|&OeFOREST+/EHU!{|&OeDISTRICT/`4NJWlj {|&OeCOMPARTMENT"\ƨJCCn{{|&OePV_CODE16hLɜX{|&OePV_REF_CODEzMO;^1{|&OeAGE?(C\3~{|&OeASPECT"zMG{|&OeSLOPEm9bCO{|&OeELEVFT Gr#I& {|&OeBASAL_AREA_FACTORL@~=EIB{|&OeINV_PLOT_SIZEr?D {|&OeBRK_DBH-)N#FΠ{|&OeNUM_PLOTSU'A{|&OeNONSTK_PLOTS 7~KWF{|&OeSAM_WTr8SNnًyԗ{|&OeSTK_PCNTEoL}/2{|&OeDG_TRANS.OπdI|_c{|&OeDG_MEASURE HI2{|&OeHTG_TRANSKmA,@#s{|&OeHTG_MEASURE`1ji@Bv{|&OeMORT_MEASURE. ;D:{-{|&OeMAX_BAE ~tgS{|&OeMAX_SDIEĦ7k{|&OeSITE_SPECIES.T!+KO${|&OeSITE_INDEXM~CzCX{|&OeMODEL_TYPE6zrJIE]ˠ{|&OePHYSIO_REGIONNJבr9A=5{|&OeFOREST_TYPED>N.e~{|&OePHOTO_CODEta\@e&{|&OeGroupsU 裛K8҄{|&OeAddfileskE5V{|&OeFVSKeywords [4JzMZu{|&OeLocationƙ|O;C Q{|&OeEcoregionb!Msu͑{|&OeFUEL_20_359/-H]n^ON{|&OeFUEL_gt_50,GzjLA{|&OeFUEL_35_50  LVALMR2 GUIDNameMap  5gR)IG?2n f U{|&OejS@$ FVS_StandInitPYL1- .{|&OeSTAND_ID:Z@_Ll2h{|&OeINV_YEAR !p j#OUεF{|&OeVARIANTʘs>!Eɏ{|&OeLATITUDET#Az<| {|&OeLONGITUDE@y=C@PX{{|&OeREGIONi{BPp@<{|&OeFOREST+/EHU!{|&OeDISTRICT/`4NJWlj {|&OeCOMPARTMENT"\ƨJCCn{{|&OePV_CODE16hLɜX{|&OePV_REF_CODEzMO;^1{|&OeAGE?(C\3~{|&OeASPECT"zMG{|&OeSLOPEm9bCO{|&OeELEVFT Gr#I& {|&OeBASAL_AREA_FACTORL@~=EIB{|&OeINV_PLOT_SIZEr?D {|&OeBRK_DBH-)N#FΠ{|&OeNUM_PLOTSU'A{|&OeNONSTK_PLOTS 7~KWF{|&OeSAM_WTr8SNnًyԗ{|&OeSTK_PCNTEoL}/2{|&OeDG_TRANS.OπdI|_c{|&OeDG_MEASURE HI2{|&OeHTG_TRANSKmA,@#s{|&OeHTG_MEASURE`1ji@Bv{|&OeMORT_MEASURE. ;D:{-{|&OeMAX_BAE ~tgS{|&OeMAX_SDIEĦ7k{|&OeSITE_SPECIES.T!+KO${|&OeSITE_INDEXM~CzCX{|&OeMODEL_TYPE6zrJIE]ˠ{|&OePHYSIO_REGIONNJבr9A=5{|&OeFOREST_TYPED>N.e~{|&OePHOTO_CODEta\@e&{|&OeGroupsU 裛K8҄{|&OeAddfileskE5V{|&OeFVSKeywords [4JzMZu{|&OeLocationƙ|O;C Q{|&OeEcoregionb!Msu͑{|&OeFuel_20_35_H9/-H]n^ON{|&OeFuel_gt_50_H,GzjLA{|&OeFuel_35_50_H K([corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.ŋ)~Jڔ2 d135]7`a bdceINV_YEAR_LabelInventory Year*M,5IwlCm 7W;F`0 abc,efkVARIANTVARIANT ArialThe two character variant identification code, e.g. sn = Southern variant. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.W+S"N|ɵhq xd135]7`0 a bceVARIANT_LabelVariant*0NM ɶm7W;F` a b e f kLATITUDELATITUDE ArialTLatitude in degrees of the plot's location6l Ga>d135]7` a b cLATITUDE_LabelLatitudes.g::LPY$m7W;F`d#a be f kLongitudeLONGITUDE ArialVLongitude in degrees of the plot s location` *O}d135]7`d#a bcLONGITUDE_LabelLongitude,3PSAqŢrp@m 7W;F`a bHef k DISTRICTDISTRICT Arial*USDA-FS district code}3H@vd135]7`a bHcDISTRICT_LabelFS DistrictwBnW@)hhBm 7W;F` a b7ef kCOMPARTMENTCOMPARTMENT Arial0USDA-FS compartment code3>DKo__`d135]7` a b7c"COMPARTMENT_LabelFS Compartment۽;OFX%TQOHm7W:;F`@ abefk!PV_CODEPV_CODE Arial.Plant association code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.iD!%Xd135]67`@ abcPV_CODE_Label,Plant Association CodeZG Gm7W:;F`Habefk"PV_REF_CODEPV_REF_CODE ArialfPotential vegetation reference code for the PV_Code>HId135]67`Habc"PV_REF_CODE_Label"PA Reference CodeRAFg5D(@YZm7W:;F`Xa0be fk*AGEAGE Arial"Plot age in yearsCVwhnG C |d135]67`Xa@bcAGE_LabelPlot Age K [4m7W:;F` a0be fk( ASPECT ASPECT Arial"Aspect in degreesRZB !8 d135]67` a@bcASPECT_Label AspectΈM m7W:;F`a0bHe fk' SLOPE SLOPE Arial Slope in percenthSyyMEȿW4d135]67`a@bHcSLOPE_LabelSlope (%)UBMDBhܜm7W:;F` a0be fk) ELEVFT ELEV.K([FT Arial$Elevation in feet.`C},C:B4d135]67` a@bcELEVFT_LabelElevation (ft)G̗N׶4$0m 7W;F`a be fk"BASAL_AREA_FACTOR"BASAL_AREA_FACTOR ArialLarge-tree plot size. A positive value is interpreted as a basal area factor (e.g. 10= BAF of 10) and a negative value is interpreted as the inverse of a large-tree fixed area plot (e.g. -10 = 1/10th acre fixed plot).BݴBߐd135]7`abce.BASAL_AREA_FACTOR_Label*Large-Tree Plot Size*=*L]E3d}m 7W;F` a be fkINV_PLOT_SIZEINV_PLOT_SIZE ArialThe inverse of the small-tree fixed area plot (e.g. 100 = 1/100th acre fixed plot).I(eA]1Է d135]7` abce&INV_PLOT_SIZE_Label*Small-Tree Plot Size*vd135]7` atbDc DG_MEASURE_Label*DG Measurement Period*e Nr憒em 7W;F`dadbTe f&kHTG_TRANSHTG_TRANS ArialHeight growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)8cFCc$d135]7`datbTcHTG_TRANS_Label&HG Translation Code%~I;QL:km 7W;F`adbDe f'kHTG_MEASUREHTG_MEASURE Arial@Height growth measurement period񬸛@\ձd135]7`atbDc"HTG_MEASURE_Label*HG Measurement Periodg5/~Gߚym 7W;F`t"adb$ e f(kMORT_MEASUREMORT_MEASURE Arial8Mortality measurement periodfS.aAe[d135]7`t"atb$ c$MORT_MEASURE_Label8Mortality Measurement Period(k5F ӌ.&m7W:;F`(#abe fk% MAX_BA MAX_BA Arial$Maximum basal areahϵ@ CuCJd135]67`(#abcMAX_BA_Label$Maximum Basal AreaO?Nd}m7W:;F`|)ab8e fk&MAX_SDIMAX_SDI Arial6Maximum stand density indexuF} d135]67`|)ab8cMAX_SDI_LabelMaximum SDI6[5KLmZe/m7W:;F`a0befk+SITE_SPECIESSITE_SPECIES Arial"Site species codekL~d135]67`a@bsc$SITE_SPECIES_Label$Site Index Species/@aBq=ݪm7W:;F`a0be fk,SITE_INDEXSITE_INDEX ArialSite index KYdJ)`d135]67`a@bc SITE_INDEX_LabelSite Index (ft)tؗ~L.d7m 7WF`abc,e fkMODEL_TYPEMODEL_TYPE ArialModel type code (CR variant), overrides model type selection based on location information. (1=southwest mixed conifer, 2=southwest ponderosa pine, 3=BH ponderosa pine, 4=spruce-fir, and 5=lodgepole pine)u:|EEWGN*d135]7`a bc MODEL_TYPE_LabelModel Type?fkմAm7W:;F`\abe fk$PHYSIO_REGIONPHYSIO_REGION Arial2Physiographic region codekkEѻd135]67`\abc&PHYSIO_REGION_Label(Physiographic Regione~KD m7W:;F``abe fk#FOREST_TYPEFOREST_TYPE ArialhFIA Forest type code (numeric, e.g. 201=Douglas-fir)I6D@/d135]67``abc"FOREST_TYPE_LabelForest TypeV0;a@t`SIm 7W;F`)a bXe fk COUNTY COUNTY Arial0K([TFIA county code (numeric, e.g. 003=Bergen)ԕ D= lkd135]7`)a bXcCOUNTY_Label Countyt6<՟ADbm 7W;F``'a bXe fk STATE STATE ArialXFIA state code (numeric, e.g. 34=New Jersey)3&Iu*L;d135]7``'a bXcSTATE_Label State_u\Op/2$8m7W:;F`a!be f,k2FUEL_0_25FUEL_0_25 ArialXInitial tons per acre of 0 to 0.25 inch fuelHB"{d135]67`a !bcFUEL_0_25_Label0.0 - 0.25"jxLM.x1~m7W:;F` a!be f-k3FUEL_25_1FUEL_25_1 ArialXInitial tons per acre of 0.25 to 1 inch fueleNAyM姎fJ)d135]67` a !bcFUEL_25_1_Label0.25 - 1.0"v !A-JG6m7W:;F`a!be f.k4FUEL_1_3FUEL_1_3 ArialRInitial tons per acre of 1 to 3 inch fuel@DCLaכ^d135]67`a !bcFUEL_1_3_Label1.0 - 3.0" lὊWIQvQ]m7W:;F`a!be f/k5FUEL_3_6FUEL_3_6 ArialRInitial tons per acre of 3 to 6 inch fuel-ϕjEq&$d135]67`a !bcFUEL_3_6_Label3.0 - 6.0"O_m7W:;F`a!be f0k6FUEL_6_12Fuel_6_12 ArialTInitial tons per acre of 6 to 12 inch fueldY /FaW.d135]67`a !bcFUEL_6_12_Label6.0 - 12.0" ǜKN,iaQm7W:;F`|a!be f1k7FUEL_12_20FUEL_12_20 ArialTnitial tons per acre of 12 to 20 inch fuel>1i,F+ .d135]67`a !bGc FUEL_12-20_Label12.0 - 20.0" FUEL_12_20_Label-u.@d_Im7W;F`abe f5i k0FUEL_LITTERFUEL_LITTER Arial>Initial tons per acre of litterR1z?D6W%%d135]67`abc"FUEL_LITTER_Label Littert3@`zm7W;F`abe f6i k1FUEL_DUFFFUEL_DUFF Arial:Initial tons per acre of duffXߤO(Dة1d135]67`abcFUEL_DUFF_LabelDuffP72^1CȅmSm7W:;F`abef+k/FUEL_MODELFUEL_MODEL Arial0Fire behavior fuel modelFt@{7d1345]67`abc FUEL_MODEL_LabelFuel ModelǑF;m7W:;F`abDef)k-PHOTO_REFPHOTO_REF ArialzPhoto series reference number (1  32, see FFE documentation)PI1Nzfd1345]67`abDcPHOTO_REF_Label"Photo Reference #c&BA b%m7W:;F`abDef*k.PHOTO_CODEPHOTO_CODE ArialPhoto code (appropriate character strings depend on the photo series reference number, see FFE documentation)}~e!IM҉Od1345]67`abDc PHOTO_CODE_Label"Photo Series Codeq/IVBwd5U7`Tab cdLabel104 Fuel Information9gF p*d5U7`Ta b cdLabel107(Location Information>3 delete1Delete Record"[Event Procedure]ĒIh 1U`<a8bdci?dup1 Duplicate Record"[Event Procedure]{4MU@zY_Sm7W;F`ab$c,fk Groups Groups ArialA list of grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating stand lists.֒@X0@]jNd135]67`ab$ceLabel125Grouping Codes &u"?N#m7WF`,abc,fk AddfilesAddfiles ArialPA list of addfile names (.kcp) separated by tabs, carriiage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.3Ǵ]dC *d135]7`,abcLabel127Addfiles\6m@%]APm7WF`a$ b !c,fk FVSKeywordsFVSKeywords ArialTA list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Keywords are added to simulations by Suppose 2.0.[BfM-$Td135]7`a4b !cLabel129KeywordslV;DMm 7W;F`|a b7f kLocationLocation ArialLocation code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.hI^tUd135]67`|a b7ceLabel131Location*WeUBD1z~Sd5U`$a\ bhceLabel12K([33ORMS Sans SerifNY1I^m7W:;F`abtfk EcoregionEcoregion ArialjBailey s ecoregion code, used in the Southern variantHJb$Bekd135]67`ha !bGc Fuel_20-30_Label20.0 - 35.0" Fuel_20_30_LabelZ,xF{~m7W:;F`(a!bf4k:FUEL_gt_50FUEL_gt_50 ArialdInitial tons per acre of greater than 50 inch fuel#+wmBf\3td135]67`(a !bGc FUEL_GT_50_Label > 50"  cIe_{gm7W:;F`#a!bf3k9FUEL_35_50FUEL_35_50 ArialVInitial tons per acre of 35 to 50 inch fuelAu#Ld135]67`$a !bGc Fuel_35-50_Label35.0 - 50.0" Fuel_35_50_Label@3SNiQxqm 7WF`awb` c,kSTANDPlot_IDStandPlot_ID ArialUnique plot identifier is used to populate stand lists in Suppose. It is a concatenation of the stand identifier and plot number.Ik\ D 'qב+d135]67`abo ce$StandPlot_ID_Label0Unique Plot Identifier**B0cAtm07:F` awc,kPlot_ID[Plot_ID]"[Event Procedure]Null Arial"mHk~qd135]67:` abcePlot_ID LabelPlot Number*Plot_ID_LabelKS 9L%3}d5U6`taxbcd eLabel148=qKC amd5U6al bceLabel153"* Required Fields!`%`rL-!Lh1U`axb cXiCommand154DUpdate Plot Record with Stand Data"[Event Procedure]Kz".KD`FormFooternI,YԠcy Suppose 2.0.VOr'Hd135]7`a bcLabel127AddfilesSxA]XMbm7WF`Tab !c,fk FVSKeywordsFVSKeywbehavior fuel modelFt@{7d1345]67`abc FUEL_MODEL_LabelFuel ModelǑF;m7W:;F`abDef)k-PHOTO_REFPHOTO_REF ArialzPhoto series reference number (1  32, see FFE documentation)PI1Nzfd1345]67`abDcPHOTO_REF_Label"Photo Reference #c&BA b%m7W:;F`abDef*k.PHOTO_CODEPHOTO_CODE ArialPhoto code (appropriate character strings depend on the photo series reference number, see FFE documentation)}~e!IM҉Od1345]67`abDc PHOTO_CODE_Label"Photo Series Codeq/IVBwd5U7`Tab cdLabel104 Fuel Information9gF p*d5U7`Ta b cdLabel107(Location Information>3 ͢JzLd135]67`abcFUEL_1_3_Label1.0 - 3.0"whWH*8m7W:;F`a bk>FUEL_3_6_SFuel_3_6_S ArialRInitial tons per acre of 3 to 6 inch fueldUNqa'Ud135]67`abcFUEL_3_6_Label3.0 - 6.0"qdLOF|S{^m7W:;F`a bk?FUEL_6_12_SFuel_6_12_S ArialTInitial tons per acre of 6 to 12 inch fuelHdЌd135]67`abcFUEL_6_12_Label6.0 - 12.0"/8BڴB}O@M>!m7W:;F` !a bk@FUEL_12_20_SFuel_12_20_S ArialVInitial tons per acre of 12 to 20 inch fuelEdAfݲK-d135]67` !abc FUEL_12-20_Label12.0 - 20.0" FUEL_12_20_LabelխiJ[OuEsHm7W:;F`Ta(#be f5kDFUEL_LITTERFUEL_LITTER Arial>Initial tons per acre of litterRgBNI-Od135]67`Ta8"bc"FUEL_LITTER_Label Litter6ֽN$m7W:;F`P a(#be f6kEFUEL_DUFFFUEL_DUFF Arial:Initial tons per acre of duff0 ? @ 4 5 6 7  +FVS_StandInit.Stand_IDFVS_StandInit)FVS_StandInit.Variant+FVS_StandInit.Inv_Year'FVS_StandInit.Groups+FVS_StandInit.AddFiles1FVS_StandInit.FVSKeywords+FVS_StandInit.Latitude-FVS_StandInit.Longitude'FVS_StandInit.Region'FVS_StandInit.Forest+FVS_StandInit.District1FVS_StandInit.Compartment+FVS_StandInit.Location-FVS_StandInit.Ecoregion)FVS_StandInit.PV_Code1FVS_StandInit.PV_Ref_Code!FVS_StandInit.Age'FVS_StandInit.Aspect%FVS_StandInit.Slope-FVS_StandInit.Elevation'FVS_StandInit.ElevFt=FVS_StandInit.Basal_Area_Factor5FVS_StandInit.Inv_Plot_Size)FVS_StandInit.Brk_DBH-FVS_StandInit.Num_Plots3FVS_StandInit.NonStk_Plots'FVS_StandInit.Sam_Wt+FVS_StandInit.Stk_Pcnt+FVS_StandInit.DG_Trans/FVS_StandInit.DG_Measure-FVS_StandInit.HTG_Trans1FVS_StandInit.HTG_Measure3FVS_StandInit.Mort_Measure'FVS_StandInit.Max_BA)FVS_StandInit.Max_SDI3FVS_StandInit.Site_Species/FVS_StandInit.Site_Index/FVS_StandInit.Model_Type5FVS_StandInit.Physio_Region1FVS_StandInit.Forest_Type%FVS_StandInit.State'FVS_StandInit.County/FVS_StandInLVALit.Fuel_Model1FVS_StandInit.Fuel_0_25_H1FVS_StandInit.Fuel_25_1_H/FVS_StandInit.Fuel_1_3_H/FVS_StandInit.Fuel_3_6_H1FVS_StandInit.Fuel_6_12_H3FVS_StandInit.Fuel_12_20_H3FVS_StandInit.Fuel_20_35_H3FVS_StandInit.Fuel_35_50_H3FVS_StandInit.Fuel_gt_50_H1FVS_StandInit.Fuel_0_25_S1FVS_StandInit.Fuel_25_1_S/FVS_StandInit.Fuel_1_3_S/FVS_StandInit.Fuel_3_6_S1FVS_StandInit.Fuel_6_12_S3FVS_StandInit.Fuel_12_20_S3FVS_StandInit.Fuel_20_35_S3FVS_StandInit.Fuel_35_50_S3FVS_StandInit.Fuel_gt_50_S1FVS_StandInit.Fuel_Litter-FVS_StandInit.Fuel_Duff-FVS_StandInit.Photo_Ref/FVS_StandInit.Photo_codePAAPBPP P|Ph ?Ph@FVS_StandInitP1PAAA -P01PSPPjS@)~sq_fEnter_Stand_DataP p P+P P +P P(+P P0+P P P8+P P@+P PH+P PP+P  PX+P  H P`+P  x Ph+P  Pp+P  Px+P   P+P @ P+P p P+P P+P P+PP+P (P+P XP+P P+P P+PP+P 0P+P `P+P P+P P+P P+P (P,P `P,P P,P  P,P!P ,P" 0P(,P# `P0,P$ P8,P% P@,P& PH,P' @PP,P( xPX,P) P`,P* Ph,P+ Pp,P, @Px,P- xP,P. P,P/ P,P0 P,P1 XP,P2 P,P3 P,P4P,P5 8P,P6 pP,P7 P,P8 P,P9 P,P: PP,P; P,P< P,P= P-P> 0P-P? `P-P@ P-Pp P P P PP P P P P PH Px P P P P@ Pp P P PP(PXPPPP0P`PPPP(P`PPPP0P`PPPP@PxPPPP@PxPPP PXPPPP8PpPPPPPPPPP0P`PP Ph  Ph  Ph < Ph l Ph  Ph  Ph  Ph 4 Ph d Ph  Ph  Ph  Ph , Ph \ Ph  Ph  Ph  PhPh޾DPhk tPh Ph Ph Ph LPh |Ph Ph Ph Ph DPLVALh |Ph Ph Ph Ph !LPh "|Ph #Ph $Ph %$Ph &\Ph 'Ph (Ph )Ph *$Ph +\Ph ,Ph -Ph .Ph /<Ph 0tPh 1Ph 2Ph 3Ph 4TPh 5Ph 6Ph 7Ph 84Ph 9lPh :Ph ;Ph <Ph =LPh >|Ph ?Ph@FVS_StandInit P>P P>P P>P < P>P l P>P P>P P>P  P>P 4 P>P d P>P P>P P>P P>P , P>P \ P>P P?P P?P P?P P?P DP ?P tP(?P P0?P P8?P P@?P LPH?P |PP?P PX?P P`?P Ph?P DPp?P |Px?P P?P P?P P?P LP?P |P?P P?P P?P $P?P \P?P P?P P?P P?P $P?P \P?P P?P P?P P@P <P@P tP@P P@P P @P P(@P TP0@P P8@P P@@P PH@P 4PP@P lPX@P P`@P Ph@P Pp@P LPx@P |P@P P@Pp P P P PP P P P P PH Px P P P P@ Pp P P PP(PXPPPP0P`PPPP(P`PPPP0P`PPPP@PxPPPP@PxPPP PXPPPP8PpPPPPPPPPP0P`PP PXcPXPA P8P@PHPPPXP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PP@PPh PeP]PAK#4PSP #4PSP #4PSP h#4PSP $h#4PSP $h#4PSP $#4PSP #4PSP #4PSP #4PSP  #4PSP  #4PSP  #4PSP  #4PSP  #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP #4PSP  #4PSP! #4PSP" #4PSP# #4PSP$ #4PSP% #4PSP& #4PSP' #4PSP( #4PSP) #4PSP* #4PSP+ #4PSP, #4PSP- #4PSP. #4PSP/ #4PSP0 #4PSP1 #4PSP2 #4PSP3 #4PSP8 #4PSP9 #4PSP: #4PSP; #4PSP< #4PSP= #4LVALPSP> #4PSP? #4PSP@ #4PSP4 #4PSP5 #4PSP6 #4PSP7 Pz aPpeP8aPPXEPEPTPEPTP FPTP 8FPTP pFPTPFPTPFPUPGPUPPGP(UPGP8UPGPHUPGPXUP0HPhUPhHPxUPHPUPHPUPIPUPHIPUPIPUPIPUPIPUP(JPUP`JPVPJPVPJP(VPKP8VP@KPHVPxKPXVPKPhVPKPxVP LPVPXLPVPLPVPLPVPMPVP8MPVPpMPVPMPVPMPWPNPWPPNP(WPNP8WPNPHWPNPXWP0OPhWPhOPxWPOPWPOPWPPPWPHPPWPPPWPPPWPPPWP(QPWP`QPXPQPXPQP(XPRP8XP@RPHXPxRPXXPRPhXPRPxXP SPXPXSPXP 4XEP EPEP FP 8FP pFPFPFPGPPGPGPGPGP  0HP hHPHPHPIPHIPIPIPIP(JP`JPJPJPKP@KPxKPKPKP LPXLPLPLP MP8MPpMPMPMPNPPNPNPNPNP0OPhOPOPOPPPHPPPPPPPP(QP`QPQPQPRP@RPxRPRPRP SP XSP,_P_P_P _P(_P0_P8_P@_PH_PP_PX_P`_Ph_Pp_Px_P_P_P_P_P_P_P_P_P_P_P_P_P_P_P_P_P`P`P`P`P `P(`P0`P8`P@`PH`PP`PX`P``Ph`Pp`Px`P`P`P`P`P`P`P`P`P`P`P`P`P`P`P`P`PaPaPXEPEPEPFP8FPpFPFPFPGPPGPGPGPGP0HPhHPHPHPIPHIPIPIPIP(JP`JPJPJPKP@KPxKPKPKP LPXLPLPLPMP8MPpMPMPMPNPPNPNPNPNP0OPhOPOPOPPPHPPPPPPPP(QP`QPQPQPRP@RPxRPRPRP SPXSPSPFVS_StandInit 4`aP -aPFVS_StandInitStand_ID%FVS_StandInitGroupsaPPv ePdPdPPXcPXcqPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcPXcP`eP @PpePHePeP!@bPFVS_StandInit)FVS_StandInitStand_ID#4P@bPePXPeP#4PXcPpeP8ePpePePSP LVALMR2 GUIDNameMap  5gR)IG?2n f U{|&OejS@$ FVS_StandInitPYL1- .{|&OeSTAND_ID:Z@_Ll2h{|&OeINV_YEAR !p j#OUεF{|&OeVARIANTʘs>!Eɏ{|&OeLATITUDET#Az<| {|&OeLONGITUDE@y=C@PX{{|&OeREGIONi{BPp@<{|&OeFOREST+/EHU!{|&OeDISTRICT/`4NJWlj {|&OeCOMPARTMENT"\ƨJCCn{{|&OePV_CODE16hLɜX{|&OePV_REF_CODEzMO;^1{|&OeAGE?(C\3~{|&OeASPECT"zMG{|&OeSLOPEm9bCO{|&OeELEVFT Gr#I& {|&OeBASAL_AREA_FACTORL@~=EIB{|&OeINV_PLOT_SIZEr?D {|&OeBRK_DBH-)N#FΠ{|&OeNUM_PLOTSU'A{|&OeNONSTK_PLOTS 7~KWF{|&OeSAM_WTr8SNnًyԗ{|&OeSTK_PCNTEoL}/2{|&OeDG_TRANS.OπdI|_c{|&OeDG_MEASURE HI2{|&OeHTG_TRANSKmA,@#s{|&OeHTG_MEASURE`1ji@Bv{|&OeMORT_MEASURE. ;D:{-{|&OeMAX_BAE ~tgS{|&OeMAX_SDIEĦ7k{|&OeSITE_SPECIES.T!+KO${|&OeSITE_INDEXM~CzCX{|&OeMODEL_TYPE6zrJIE]ˠ{|&OePHYSIO_REGIONNJבr9A=5{|&OeFOREST_TYPED>N.e~{|&OePHOTO_CODEta\@e&{|&OeGroupsU 裛K8҄{|&OeAddfileskE5V{|&OeFVSKeywords [4JzMZu{|&OeLocationƙ|O;C Q{|&OeEcoregionb!Msu͑{|&OeFuel_20_35_H9/-H]n^ON{|&OeFuel_gt_50_H,GzjLA{|&OeFuel_35_50_H LVAL! MR2 GUIDNameMap 5gR)IG?2ײ  U{|&OejS@FVS_StandInitPYL1- .{|&OeSTAND_ID:Z@_Ll2h{|&OeINV_YEAR !p j#OUεF{|&OeVARIANTʘs>!Eɏ{|&OeLATITUDET#Az<| {|&OeLONGITUDE@y=C@PX{{|&OeREGIONi{BPp@<{|&OeFOREST+/EHU!{|&OeDISTRICT/`4NJWlj {|&OeCOMPARTMENT"\ƨJCCn{{|&OePV_CODE16hLɜX{|&OePV_REF_CODEzMO;^1{|&OeAGE?(C\3~{|&OeASPECT"zMG{|&OeSLOPEm9bCO{|&OeELEVFT Gr#I& {|&OeBASAL_AREA_FACTORL@~=EIB{|&OeINV_PLOT_SIZEr?D {|&OeBRK_DBH-)N#FΠ{|&OeNUM_PLOTSU'A{|&OeNONSTK_PLOTS 7~KWF{|&OeSAM_WTr8SNnًyԗ{|&OeSTK_PCNTEoL}/2{|&OeDG_TRANS.OπdI|_c{|&OeDG_MEASURE HI2{|&OeHTG_TRANSKmA,@#s{|&OeHTG_MEASURE`1ji@Bv{|&OeMORT_MEASURE. ;D:{-{|&OeMAX_BAE ~tgS{|&OeMAX_SDIEĦ7k{|&OeSITE_SPECIES.T!+KO${|&OeSITE_INDEXM~CzCX{|&OeMODEL_TYPE6zrJIE]ˠ{|&OePHYSIO_REGIONNJבr9A=5{|&OeFOREST_TYPED>N.e~{|&OePHOTO_CODEta\@e&{|&OeGroupsU 裛K8҄{|&OeAddfileskE5V{|&OeFVSKeywords [4JzMZu{|&OeLocationƙ|O;C Q{|&OeEcoregion&az{CWh0{|&OeFuel_20_35_SCyf+u{|&OeFuel_gt_50_SK8C g]{|&OeFuel_35_50_SsA[ q9{|&OeFuel_0_25_H@zG?K^{|&OeFuel_25_1_HƝH&9|&{|&OeFuel_1_3_H39%M~\Q{|&OeFuel_3_6_H$!QƬLM8v {|&OeFuel_6_12_HvvYF[&*d{|&OeFuel_12_20_Hb!Msu͑{|&OeFuel_20_35_H9/-H]n^ON{|&OeFuel_gt_50_H,GzjLA{|&OeFuel_35_50_H LVALK([L_MODELFUEL_MODEL Arial0Fire behavior fuel modelsjC @JI5T8d1345]67`Talbc FUEL_MODEL_LabelFuel ModeldoMŷ!m7W:;F`Ta\bDef)k/PHOTO_REFPHOTO_REF ArialzPhoto series reference number (1  32, see FFE documentation)yh@ک12Ge} h 1U`<a bdci cmdCLOSEClose Form"[Event Procedure]pIܫlVDwtd5U7a0 bc,eLabel47 *Required FieldsL/J}Dd135U7`2axb cd helpfulhint1Helpful Hint: Hold the [Ctrl] key and press the ['] key to copy contents from previous record. i mIud/ӟth 1U`<abdci Prev1Previous Record"[Event Procedure]vR+ѽJ]«Yh 1U`<abdci Next1Next Record"[Event Procedure]&Oyv'3N~zh1U`<axbdcadd1Add Record"[Event Procedure]…ݎڔMD?@h 1U`<aXbdcidelete1Delete Record"[Event Procedure]5jz{@`"7Rh 1U`<a8bdcidup1 Duplicate Record"[Event Procedure]E KFh"m7W;F`Tab$c,fk Groups Groups ArialA list of grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating stand lists.3WwE@IEM/|pd135]67`Ta b$ceLabel125Grouping Codes zC5 m7WF`abc,fkAddfilesAddfiles ArialPA list of addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.VOr'Hd135]7`a bcLabel127AddfilesSxA]XMbm7WF`Tab !c,fk FVSKeywordsFVSKeywords ArialTA list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Keywords are added to simulations by Suppose 2.0._@=)Sk d135]7`Tab !cLabel129Keywordsв6Akjm7W;F`@a b7f kLocationLocation ArialLoc5K([ation code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.sE&@XW"d135]67`@a b7ceLabel131Location*~F9 I ;,yd5U`a bhceLabel133ORMS Sans Serifi9SICϝm7W;F`cabtfk"EcoregionEcoregion ArialjBailey s ecoregion code, used in the Southern variantzy@mЏh0d135]7`TabcEcoregion_LabelEcoregionR{N=aWm7W:;F`%a bkAFUEL_20_35_SFuel_20_35_S ArialVInitial tons per acre of 20 to 35 inch fuelP &@*J+d135]67`%abc Fuel_20-30_Label20.0 - 35.0" Fuel_20_30_Label7K1m7W:;F`-a bkCFUEL_gt_50_SFuel_gt_50_S ArialdInitial tons per acre of greater than 50 inch fuelMÃPodocedure]{4MU@zY_Sm7W;F`ab$c,fk Groups Groups ArialA list of grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating stand lists.֒@X0@]jNd135]67`ab$ceLabel125Grouping Codes &u"?N#m7WF`,abc,fk AddfilesAddfiles ArialPA list of addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.3Ǵ]dC *d135]7`,abcLabel127Addfiles\6m@%]APm7WF`a$ b !c,fk FVSKeywordsFVSKeywords ArialTA list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Keywords are added to simulations by Suppose 2.0.[BfM-$Td135]7`a4b !cLabel129KeywordslV;DMm 7W;F`|a b7f kLocationLocation ArialLocation code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.hI^tUd135]67`|a b7ceLabel131Location*WeUBD1z~Sd5U`$a\ bhceLabel133ORMS Sans SerifNY1I^m7W:;F`abtfk EcoregionEcoregion ArialjBailey s ecoregion code, used in the Southern variantHJb$Bek!Eɏ{|&OeLatitudeT#Az<| {|&OeLongitude@y=C@PX{{|&OeRegioni{BPp@<{|&OeForest+/EHU!{|&OeDistrict/`4NJWlj {|&OeCompartment [4JzMZu{|&OeLocationƙ|O;C Q{|&OeEcoregion"\ƨJCCn{{|&OePV_Code16hLɜX{|&OePV_Ref_CodezMO;^1{|&OeAge?(C\3~{|&OeAspect"zMG{|&OeSlopebe\@IY}{|&OeElevationm9bCO{|&OeElevFt Gr#I& {|&OeBasal_Area_FactorL@~=EIB{|&OeInv_Plot_Sizer?D {|&OeBrk_DBH-)N#FΠ{|&OeNum_PlotsU'A{|&OeNonStk_Plots 7~KWF{|&OeSam_Wtr8SNnًyԗ{|&OeStk_PcntEoL}/2{|&OeDG_Trans.OπdI|_c{|&OeDG_Measure HI2{|&OeHTG_TransKmA,@#s{|&OeHTG_Measure`1ji@Bv{|&OeMort_Measure. ;D:{-{|&OeMax_BAE ~tgS{|&OeMax_SDIEĦ7k{|&OeSite_Species.T!+KO${|&OeSite_IndexM~CzCX{|&OeModel_Type6zrJIE]ˠ{|&OePhysio_RegionNJבr9A=5{|&OeForest_TypeϒCW BQ\D{|&OeStateD>N.e~{|&OePhoto_code   {|&Oe  D <This table contains stand data     Latitude     ʘs>!Eɏ   m^ VLatitude in degrees of the stand's location   Longitude U    T#Az<|   m` XLongitude in degrees of the stand's location   Ecoregion     ƙ|O;C Q   m   l dBailey s Ecoregion code, used in Southern variant.    Aspect G    ?(C\3~   m* "Aspect in degrees    Slope     "zMG   m( Slope in percent    ElevFt      m9bCO   m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ("Basal_Area_Factor      Gr#I&   mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.    Inv_Plot_Size     L@~=EIB   mb ZThe inverse of the small-tree fixed area plot   Brk_DBH 7    r?D    m xBreakpoint DBH in inches between large and small tree plots.   4 Sam_Wt       7~KWF   m Sampling Weight used to compute the average yield tables and other weighted averages.   Stk_Pcnt     r8SNnًyԗ   m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockablLVALe versus total number of plots.    Max_BA     . ;D:{-   m, $Maximum basal area   Max_SDI      E ~tgS   m> 6Maximum stand density index   Site_Species     EĦ7k   m   * "Site species code   Site_Index     .T!+KO$   m Site index   Fuel_0_25_H 6    sA[ q9   mv nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   Fuel_1_3_H     ƝH&9|&   mp hInitial tons per acre of 1 to 3 inch hard/sound fuel   Fuel_3_6_H     39%M~\Q   mp hInitial tons per acre of 3 to 6 inch hard/sound fuel   Fuel_6_12_H 6    $!QƬLM8v   mr jInitial tons per acre of 6 to 12 inch hard/sound fuel   Fuel_Litter     G;JC0\   mF >Initial tons per acre of litter   Fuel_Duff U    2O¾GӃI=   mB :Initial tons per acre of duff   Fuel_Model       m z$Le8 0Fire behavior fuel model   Fuel_25_1_H 6      m @zG?K^v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   PV_Code F      m    "\ƨJCCn{ PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.    Photo_Ref       m 4ЧTGuh zPhoto series reference number (1  32, see FFE documentation)   AddFiles          U 裛K8҄X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0. !   FVSKeywords          kE5VB :A list oLVALf FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0. !    Groups t         ta\@e& A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating stand lists. !     "All_Stands"jInv_Year       m :Z@_Ll2h The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    Region V   . &USDA-FS Region code   m @y=C@PX{    Forest    @ 8USDA-FS National Forest code   m i{BPp@<   District V   2 *USDA-FS District code   m +/EHU!   Compartment    8 0USDA-FS Compartment code   m /`4NJWlj   PV_Ref_Code    n fPotential vegetation reference code for the PV_Code   m 16hLɜX    Age       m, $Stand age in years zMO;^1   Num_Plots       mn fNumber of plots in stand. If blank or 0 (zero), the number of plots in the stand is determined by counting the numbers of unique plot identification codes on the tree record data. -)N#FΠ   xNonStk_Plots       m Number of non-stockable plots in the stand. If blank, count nonstockable plots on tree records (value class = 8). U'A   pDG_Trans       m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period) EoL}/2   DG_Measure       mL DDiameter growth measurement period .OπdI|_c   2HTG_Trans LVAL      m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)  HI2   HTG_Measure &      mH @Height growth measurement period KmA,@#s   Mort_Measure       m@ 8Mortality measurement period `1ji@Bv   Model_Type 6      m\ TModel type code, may be used in CR variant M~CzCX    Physio_Region b      m: 2Physiographic region code 6zrJIE]ˠ   Forest_Type r      m0 (FIA Forest type code NJבr9A=5    County V      m& FIA county code D>N.e~   jElevation       m Stand elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet. be\@IY}   Location     Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m  [4JzMZu   UVariant G    The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m        !p j#OUεFFuel_12_20_H    t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m    vvYF[&*dFuel_20_35_H LVAL   t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m    b!Msu͑Fuel_35_50_H    t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m    ,GzjLAFuel_gt_50_H     zInitial tons per acre of greater than 50 inch hard/sound fuel   m    9/-H]n^ON#Stand_ID (    zStand identification code. Required by Suppose 2.0 when processing stand lists from the stand initiation table. Not read by FVS when previously set, but may be used for querying purposes.   m       PYL1- .Fuel_0_25_S    x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m    rwG*'}Fuel_25_1_S    x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m     `@FSJ Fuel_1_3_S    r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m    ;V7RO;5MMX)Fuel_1_3_HS*&ġO!mfP7);5MMX)Fuel_3_6_HQZ]Cg̘R$;5MMX)Fuel_6_12_H#UJq9g;5MMX)Fuel_12_20_HgbQKߏ{g;5MMX)Fuel_20_35_HA7^8;5MMX)Fuel_35_50_H&#N=u;5MMX)Fuel_gt_50_H2D1@]X;5MMX)Fuel_0_25_S]yJD#=+;5MMX)Fuel_25_1_S7 -NI=;5MMX)Fuel_1_3_SХ"IXP;5MMX)Fuel_3_6_S3g5U{APZ;5MMX)Fuel_6_12_SO30Ar;5MMX)Fuel_12_20_Sea;8 D[" ;5MMX)Fuel_20_35_SA­AN ,I;5MMX)Fuel_35_50_SgŽgBST e;5MMX)Fuel_gt_50_S8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@m6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_code    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALxear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m  Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m  Fuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m  Fuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m  Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S   7LVALG   v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m  Fuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m  Fuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m  Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35LVAL/_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m  Fuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m  Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  LVALFuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m  Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel    LVAL m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel  LVAL   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/ LVAL rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 3 LVAL 5 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   ]yJD#=+Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acr LVAL e of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   ]yJD#=+Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   7 -NI=Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial w LVAL tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVAL6MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m  Fuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m  Fuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m  Fuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m  Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m  Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m  Fuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m  Fuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m  Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 LVALinch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   ]yJD#=+Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   7 -NI=Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m   Х"IXPFuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      _ LVALo v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   ]yJD#=+Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   7 -NI=Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m   Х"IXPFuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m   3g5U{APZFuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S  G LVALW    v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   ]yJD#=+Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   7 -NI=Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m   Х"IXPFuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m   3g5U{APZFuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m   O30ArFuel_/ LVAL? 20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVAL m6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVAL bles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVAL ear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVAL h measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL      Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   ]yJD#=+Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   7 -NI=Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m   Х"IXPFuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m   3g5U{APZFuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m   O30ArFuel_ LVAL' 20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m   ea;8 D[" Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   ]yJD#=+Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   7 -NI=Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m   Х"IXPFuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m   3g5U{APZFuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m   O30ArFuel_ LVAL 20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m   ea;8 D[" Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m   A­AN ,IFuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)ˊS@$ĖI4FVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@LVALm6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_codeʾHae;5MMX)Fuel_0_25_HH#yWpKZm;5MMX)Fuel_25_1_H)|(q?ITQ;5MMX)Fuel_1_3_H|wN\1#;5MMX)Fuel_3_6_Hq;5MMX)Fuel_20_35_Hy0r]xDU[;5MMX)Fuel_35_50_H+CwEMӯ#W>;5MMX)Fuel_gt_50_HeqDNgx;5MMX)Fuel_0_25_S.4JAB~k;5MMX)Fuel_25_1_S{\F?bIWUH;5MMX)Fuel_1_3_S-ED:Bқ;5MMX)Fuel_3_6_SVq올F"B;5MMX)Fuel_6_12_SP3ElF;5MMX)Fuel_12_20_SȒ=zI,xA;5MMX)Fuel_20_35_S'QZD'7a;5MMX)Fuel_35_50_S~Aѹb;5MMX)Fuel_gt_50_S    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVALear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVALh measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H      v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   =RsEeFuel_25_1_H      v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   & H ~NyFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m   wjn .ZF9>ROFuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m   S*&ġO!mfP7)Fuel_6_12_H      r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m   QZ]Cg̘R$Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m   #UJq9gFuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m   gbQKߏ{gFuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m   A7^8Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m   &#N=uFuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m   2D1@]XFuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m   ]yJD#=+Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m   7 -NI=Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m   Х"IXPFuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m   3g5U{APZFuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m   O30ArFuel_ LVAL 20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m   ea;8 D[" Fuel_35_50_S      v nInitial tons per acre of 35 to 50 inch soft/rotten fuel   m   A­AN ,IFuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m   gŽgBST eLVAL MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)BT@ tkFVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model=RsEe;5MMX)Fuel_0_25_H& H ~Ny;5MMX)Fuel_25_1_HLVALwjn .ZF9>RO;5MMX)Fuel_1_3_HS*&ġO!mfP7);5MMX)Fuel_3_6_HQZ]Cg̘R$;5MMX)Fuel_6_12_H#UJq9g;5MMX)Fuel_12_20_HgbQKߏ{g;5MMX)Fuel_20_35_HA7^8;5MMX)Fuel_35_50_H&#N=u;5MMX)Fuel_gt_50_H2D1@]X;5MMX)Fuel_0_25_S]yJD#=+;5MMX)Fuel_25_1_S7 -NI=;5MMX)Fuel_1_3_SХ"IXP;5MMX)Fuel_3_6_S3g5U{APZ;5MMX)Fuel_6_12_SO30Ar;5MMX)Fuel_12_20_Sea;8 D[" ;5MMX)Fuel_20_35_SA­AN ,I;5MMX)Fuel_35_50_SgŽgBST e;5MMX)Fuel_gt_50_S8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@m6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_code    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVALbles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVAL ear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVAL!h measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL"     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H  6    v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m  Fuel_25_1_H  6    v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m  Fuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m  Fuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m  Fuel_6_12_H  6    r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m  Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m  Fuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m  Fuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m  Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre of 35 to 50 LVALinch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL$MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)BT@ tkFVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model=RsEe;5MMX)Fuel_0_25_H& H ~Ny;5MMX)Fuel_25_1_HLVAL%wjn .ZF9>RO;5MMX)Fuel_1_3_HS*&ġO!mfP7);5MMX)Fuel_3_6_HQZ]Cg̘R$;5MMX)Fuel_6_12_H#UJq9g;5MMX)Fuel_12_20_HgbQKߏ{g;5MMX)Fuel_20_35_HA7^8;5MMX)Fuel_35_50_H&#N=u;5MMX)Fuel_gt_50_H2D1@]X;5MMX)Fuel_0_25_S]yJD#=+;5MMX)Fuel_25_1_S7 -NI=;5MMX)Fuel_1_3_SХ"IXP;5MMX)Fuel_3_6_S3g5U{APZ;5MMX)Fuel_6_12_SO30Ar;5MMX)Fuel_12_20_Sea;8 D[" ;5MMX)Fuel_20_35_SA­AN ,I;5MMX)Fuel_35_50_SgŽgBST e;5MMX)Fuel_gt_50_S8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@m6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_code    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVAL&bles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVAL'ear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVAL(h measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVAL)     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H  6    v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   ,~GʀFuel_25_1_H  6    v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m  Fuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m  Fuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m  Fuel_6_12_H  6    r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m  Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m  Fuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m  Fuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m  Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial tons per acre LVALof 35 to 50 inch soft/rotten fuel   m  Fuel_gt_50_S       |Initial tons per acre of greater than 50 inch soft/rotten fuel   m  LVAL+MR2OrientationOrderByOnNameMapDefaultViewRowHeightDescription8DisplayViewsOnSharePointSiteTotalsRowFilterOnLoadOrderByOnLoadHideNewFieldColumnWidthColumnOrderColumnHiddenDecimalPlacesRequiredDisplayControlTextAlignAggregateTypeAllowZeroLengthIMEModeIMESentenceMode$UnicodeCompressionTextFormatGUIDValidationRuleValidationText FilterOrderBy FormatInputMaskCaptionDefaultValueSmartTagsRowSourceTypeRowSourceBoundColumnColumnCountColumnHeadsColumnWidthsListRowsListWidthLimitToList&AllowValueListEdits"ListItemsEditForm.ShowOnlyRowSourceValues(  f ^ U;5MMX)BT@ tkFVS_PlotInitdLC ?SQ;5MMX)Stand_IDe8+κ]BuRё;5MMX)Plot_ID\JIXq;5MMX)StandPlot_ID^ϥLyJB;5MMX)Variant LTHG"7;5MMX)Inv_YearɗE{C;5MMX)Groupsk3w>L] U#;5MMX)AddFiles+*WCJ?;5MMX)FVSKeywords^vGyrm;5MMX)Latitude`P 5NzPq/;5MMX)Longitude_oJl2x;5MMX)RegionPeZOq ;5MMX)Forestԧ&AE.;5MMX)DistrictFk[BVNU*;5MMX)CompartmentL!Br]1;5MMX)LocationdAƂB'{;5MMX)Ecoregion#: I{Lg^!;5MMX)PV_Code P[HHzg؝;5MMX)PV_Ref_CodeiVMNJGhL;5MMX)AgeOLB' Eqd;5MMX)AspectpSC@Z ;5MMX)SlopeS͝|LZ=32;5MMX)Elevation~oCw-;5MMX)ElevFt_M妁C;5MMX)Basal_Area_FactorE)X1F`?U;5MMX)Inv_Plot_Size!hmI-@;5MMX)Brk_DBHۭO@6)7;5MMX)Num_Plotsf!vfE ;5MMX)NonStk_PlotsRF,OBk ;5MMX)Sam_Wt+K\;5MMX)Stk_Pcnt=TBP{6=;5MMX)DG_Trans \PoIx;5MMX)DG_MeasureFGjC.`&Z;5MMX)HTG_Trans+l3[H.K_;5MMX)HTG_MeasuredCHk<;5MMX)Mort_Measure0\\z&Az> ;5MMX)Max_BAo\3D4fF;5MMX)Max_SDI( jGv};5MMX)Site_Species@? DxU;5MMX)Site_Index)yc%A,hDd;5MMX)Model_TypemX#\L:O;5MMX)Physio_Regionn%L8;5MMX)Forest_TypeȒG9{zr;5MMX)StateA PL+C.;5MMX)Countyv!2!LrRWݳ<;5MMX)Fuel_Model=RsEe;5MMX)Fuel_0_25_H& H ~Ny;5MMX)Fuel_25_1_HLVAL,wjn .ZF9>RO;5MMX)Fuel_1_3_HS*&ġO!mfP7);5MMX)Fuel_3_6_HQZ]Cg̘R$;5MMX)Fuel_6_12_H#UJq9g;5MMX)Fuel_12_20_HgbQKߏ{g;5MMX)Fuel_20_35_HA7^8;5MMX)Fuel_35_50_H&#N=u;5MMX)Fuel_gt_50_H2D1@]X;5MMX)Fuel_0_25_S]yJD#=+;5MMX)Fuel_25_1_S7 -NI=;5MMX)Fuel_1_3_SХ"IXP;5MMX)Fuel_3_6_S3g5U{APZ;5MMX)Fuel_6_12_SO30Ar;5MMX)Fuel_12_20_Sea;8 D[" ;5MMX)Fuel_20_35_SA­AN ,I;5MMX)Fuel_35_50_SgŽgBST e;5MMX)Fuel_gt_50_S8늖BUA=hz;5MMX)Fuel_LitterY\#wAu) ;5MMX)Fuel_Duff@m6M[8t ;5MMX)Photo_Ref&tNSLDfx;5MMX)Photo_code    D <This table contains stand data        ;5MMX)Latitude         m\ TLatitude in degrees of the plot's location   ^vGyrmLongitude  U       m^ VLongitude in degrees of the plot's location   `P 5NzPq/Ecoregion         m   t lBailey s Ecoregion code, used in the Southern variant.   dAƂB'{ Aspect  G       m* "Aspect in degrees   OLB' Eqd Slope         m(  Slope in percent   pSC@Z  ElevFt          m Elevation in feet. When specified, ElevFt takes precedence over Elevation.   ~oCw-("Basal_Area_Factor         mz rBasal area factor corresponding to BAF in FVS. A positive value is interpreted as a basal area factor and a negative value is interpreted as the inverse of a large-tree fixed area plot.   _M妁C Inv_Plot_Size         mb ZThe inverse of the small-tree fixed area plot   E)X1F`?UBrk_DBH  7       m xBreakpoint DBH in inches between large and small tree plots.   !hmI-@> Sam_Wt          m Sampling Weight used to compute the average yield taLVAL-bles and other weighted averages.   RF,OBk  1Stk_Pcnt         m& Stockable percent. A value entered in this field will override the calculation based on number of plots stockable versus total number of plots.   +K\ Max_BA         m, $Maximum basal area   0\\z&Az> Max_SDI          m> 6Maximum stand density index   o\3D4fFSite_Species         m   * "Site species code   ( jGv}Site_Index         m Site index   @? DxUFuel_Litter         mF >Initial tons per acre of litter   8늖BUA=hzFuel_Duff  U       mB :Initial tons per acre of duff   Y\#wAu) Fuel_Model         m8 0Fire behavior fuel model   v!2!LrRWݳ<PV_Code  F       m    PV_Code identifies the potential vegetation. It is often the Habitat type or Plant association code. The two names shown are synonymous.   #: I{Lg^! Photo_Ref         m zPhoto series reference number (1  32, see FFE documentation)   @m6M[8t AddFiles           X PA list of Addfile names (.kcp) separated by tabs, carriage returns, or newlines that will be inserted into the simulation file as one or more components by Suppose 2.0.    k3w>L] U#FVSKeywords           B :A list of FVS keywords separated by carriage returns or newlines. Keywords must be formatted using FVS formatting rules. Added to simulations by Suppose 2.0.    +*WCJ? Groups  t           A list of Grouping codes separated by spaces, tabs, carriage returns, or newlines. Used by Suppose 2.0 when populating plot lists.    ɗE{C "All_Plots"jInv_YLVAL.ear         m The stand s inventory year corresponding to IY(1) in FVS. Required by Suppose 2.0 when populating stand lists.    LTHG"7Stand_ID  (    < 4Stand identification code.   m      dLC ?SQ Region  V    . &USDA-FS Region code   m   _oJl2x Forest      @ 8USDA-FS National Forest code   m   PeZOq ϸDistrict  V    2 *USDA-FS District code   m   ԧ&AE.Compartment      8 0USDA-FS Compartment code   m   Fk[BVNU*PV_Ref_Code      n fPotential vegetation reference code for the PV_Code   m    P[HHzg؝ Age         m* "Plot age in years   iVMNJGhLNum_Plots         mB :Number of plots. If blank or 0 (zero), the number of plots is determined by counting the numbers of unique plot identification codes on the tree record data.   ۭO@6)7  1^NonStk_Plots         m Number of non-stockable plots. If blank, count nonstockable plots on tree records (value class = 8).   f!vfE pDG_Trans         m Diameter growth translation code (0=inside-bark previous growth diameter increment, 1=diameter measurement at beginning of growth period, 2=inside-bark subsequent growth diameter increment, 3=diameter measurement at the end of growth period)   =TBP{6=DG_Measure         mL DDiameter growth measurement period    \PoIx2HTG_Trans         m Height growth translation code (0= previous growth height increment, 1=height measurement at beginning of growth period, 2= subsequent growth height increment, 3=height measurement at the end of growth period)   FGjC.`&ZHTG_Measure  &       mH @Height growtLVAL/h measurement period   +l3[H.K_Mort_Measure         m@ 8Mortality measurement period   dCHk<Model_Type  6       m\ TModel type code, may be used in CR variant   )yc%A,hDd Physio_Region  b       m: 2Physiographic region code   mX#\L:OForest_Type  r       m0 (FIA Forest type code   n%L8 County  V       m& FIA county code   A PL+C. State         m$ FIA state code   ȒG9{zrPhoto_code  6       m    Photo code (appropriate character strings depend on the photo series reference number, see FFE documentation)   &tNSLDfxhElevation         m Plot elevation represented in 100 s of feet for all variants except AK were it is elevation in 10 s of feet.   S͝|LZ=32Location       Location code representing the Region/Forest/District/Compartment codes and corresponds to KODFOR in FVS. When specified, Location takes precedence over Region, Forest, District, and Compartment.   m   L!Br]1UVariant  G     The two character variant identification code. Required by Suppose 2.0 when populating stand lists. May contain more than one variant separated by a space, by default the first variant listed is selected by Suppose.   m      ^ϥLyJBStandPlot_ID       Plot identification code. Required by Suppose 2.0 when populating stand lists from the plot initiation table. Not read by FVS, but may be used for querying purposes. This variable is usually included when processing plots as stands in Suppose.   m      \JIXq "Table/Query #SELECT [Stand_ID] & [Plot_ID] AS StandPlot_ID FROM FVS_PlotInit; $ % & ( ) 0twip * + -Plot_ID LVALp     Z RPlot ID: used to compute the StandPlot_ID   m   e8+κ]BuRёFuel_0_25_H  6    v nInitial tons per acre of 0 to 0.25 inch hard/sound fuel   m   ,~GʀFuel_25_1_H  6    v nInitial tons per acre of 0.25 to 1 inch hard/sound fuel   m   N@7mnFuel_1_3_H      p hInitial tons per acre of 1 to 3 inch hard/sound fuel   m  Fuel_3_6_H      p hInitial tons per acre of 3 to 6 inch hard/sound fuel   m  Fuel_6_12_H  6    r jInitial tons per acre of 6 to 12 inch hard/sound fuel   m  Fuel_12_20_H      t lInitial tons per acre of 12 to 20 inch hard/sound fuel   m  Fuel_20_35_H      t lInitial tons per acre of 20 to 35 inch hard/sound fuel   m  Fuel_35_50_H      t lInitial tons per acre of 35 to 50 inch hard/sound fuel   m  Fuel_gt_50_H       zInitial tons per acre of greater than 50 inch hard/sound fuel   m  Fuel_0_25_S      x pInitial tons per acre of 0 to 0.25 inch soft/rotten fuel   m  Fuel_25_1_S      x pInitial tons per acre of 0.25 to 1 inch soft/rotten fuel   m  Fuel_1_3_S      r jInitial tons per acre of 1 to 3 inch soft/rotten fuel   m  Fuel_3_6_S      r jInitial tons per acre of 3 to 6 inch soft/rotten fuel   m  Fuel_6_12_S      t lInitial tons per acre of 6 to 12 inch soft/rotten fuel   m  Fuel_12_20_S      v nInitial tons per acre of 12 to 20 inch soft/rotten fuel   m  Fuel_20_35_S      v nInitial tons per acre of 20 to 35 inch soft/rotten fuel   m  Fuel_35_50_S      v nInitial to