This data publication contains 15 minute streamflow for two flumes in the Coram Experimental Forest from 2004-2010. The two flumes are located on the Lunch Fork of Abbot Creek and Abbot Creek above Lunch Fork.
This data publication contains average 15 minute streamflow data from September 2000 to September 2015 for 11 gauges located in the upper Tenderfoot Creek watershed on the Tenderfoot Creek Experimental Forest. These data include streamflow measurements in multiple locations on Tenderfoot Creek and seven major sub-watersheds flowing into the Tenderfoot Creek drainage.
This data publication contains average daily sediment transport data recorded at eight locations in the Tenderfoot Creek Experimental Forest watershed from 1994 to 2014. Four sediment samplers were placed at the bottom of four sub-watersheds flowing into Tenderfoot Creek. These sub-watersheds are Spring Park Creek, Sun Creek, Stringer Creek and Bubbling Creek.
Forest biomass is an energy source that is underutilized. Expanding forest biomass utilization can improve our nation's energy security while reducing greenhouse gas emissions from fossil fuels. However, there is a risk that water resources may be adversely affected with increased biomass removal. Our research aims to assist land managers to evaluate watershed impacts of biomass removal.Document Type: Briefing Papers
Experimental Forests and Ranges Posted on: December 04, 2014
The Glacier Lakes Ecosystem Experiments Site is a high elevation wilderness-like site where research is conducted to determine the effects of atmospheric deposition and climate change on alpine and subalpine aquatic and terrestrial ecosystems and the upper treeline ecotone. Long-term physical, chemical, and biological monitoring is an important component of the activities at GLEES.
Freshwater ecosystems are warming globally from the direct effects of climate change on air temperature and hydrology and the indirect effects on near-stream vegetation. In fire-prone landscapes, vegetative change may be especially rapid and cause significant local stream temperature increases but the importance of these increases relative to broader changes associated with air temperature and hydrology are not well understood.
Many freshwater fish species are considered vulnerable to stream temperature warming associated with climate change because they are ectothermic, yet there are surprisingly few studies documenting changes in distributions. Streams and rivers in the U.S. Rocky Mountains have been warming for several decades.
The Forest Service Peak Flow Calculator predicts peak flood flow rate for a given storm from a small watershed. The model uses Curve Number technology given precipitation and runoff, as from ERMiT, plus other parameters.