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Highlight IDTitleStrategic Program Area(s)YearStation
Photo of The user-interface of LandViz showing LANDIS-II projections of quaking aspen biomass on the Chippewa National Forest after 100 years of “business as usual” management under current climate and (left) and a warmer and wetter climate (right). Melissa Lucash, Portland State University.
ID: 1111
LandViz: Visualization of Landscape Model Outputs to Support Management Decisions

Forest Service scientists developed an intuitive, browser-based tool called "LandViz" that allows stakeholders to easily visualize how climate a ...

Principal Investigator : Eric J. Gustafson

Resource Management and Use
Wildland Fire and Fuels
Wildlife and Fish
Water, Air, and Soil
2016NRS
Photo of Precipitation manipulation experiment, Sevellita LTER, New Mexico. The troughs exist to limit precipitation on plants, simulating drought conditions. William T. Pockman, University of New Mexico
ID: 597
Mechanistic Landscape Modeling of Drought Effects

Drought is expected to become more prevalent and will probably be a major factor in increasing tree mortality. Landscape-scale forest models hav ...

Principal Investigator : Eric J. Gustafson

Resource Management and Use
Water, Air, and Soil
2014NRS
Photo of Leaf scorch is a drought symptom in linden trees.  Joseph O'Brien, Forest Service
ID: 59
Model Assesses the Influence of Drought Stress on Forest Relative to Other Factors

Drought stress data added to a forest landscape disturbance and succession model show that length of drought is more important than severity

Principal Investigator : Eric J. Gustafson

Inventory and Monitoring
Resource Management and Use
2012NRS
Photo of Figure 1. Contrasts of fire severity (light: a,b; severe (severe: c, d) for the Pagami Creek Fire. Remotely-sensed estimates of fire
severity such as the relative difference normalized burn ratio (RdNBR) are most strongly related to tree impacts. Loss of C, N, and Hg
from the forest floor were most strongly related to soil burn severity indices measured at the point of sampling, where the sampling
ring in b & d are 30 cm in diameter. Brian Sturtevant, U.S. Department of Agriculture Forest Service.
ID: 1168
Scaling Up Ecosystem Impacts of the Pagami Creek Fire in Northern Minnesota

Quantifying fire severity is critical to understanding the ecosystem impacts of wildfire. Forest Service research demonstrates the magnitude of ...

Principal Investigator : Eric J. Gustafson

Wildland Fire and Fuels
Water, Air, and Soil
2016NRS
Photo of
ID: 1202
Scientists model the effects of restoring the American chestnut tree to the eastern U.S. landscape

The American chestnut tree is fast growing, somewhat tolerant of shade, and its wood is resistant to decay. The chestnut tree might be capable o ...

Principal Investigator : Eric J. Gustafson

 2017NRS
Photo of Aerial view of the Aspen FACE experiment showing the control facilities (middle left), and the 12 atmospheric treatment rings of four treatments with three replicates.  In the ring at bottom center, the different model forest communities are visible. David F. Karnosky, Michigan Tech University.
ID: 463
Scientists Predict Survivability Factors for Northern Forests Given Elevated CO2 and Ozone Levels

The researchers scaled up a high-profile 11-year ecosystem experiment called Aspen-FACE to assess how elevated carbon dioxide and ozone levels m ...

Principal Investigator : Eric J. Gustafson

Resource Management and Use
Water, Air, and Soil
2013NRS