USDA Forest Service National Forest System

Also collaborating on these NE CSC projects

Impact of red squirrel distributional shifts on resiliency of birds in the face of climate change

Little is known about how shifting small mammal populations in response to climate change will affect the bird species that they predate.  This project is relying on historical sampling and 2014 field surveys and trapping to examine how red squirrel populations have shifted in the mountains of Vermont and New Hampshire and how birds may be affected by these shifts.

Great Lakes Silviculture Prescription Library

This project is developing an on-line platform to enable rapid sharing and cataloging of silviculture case studies documenting adaptive forest management approaches across MI, MN, Ontario, and WI.  The goal of this project is to create a clearinghouse of information for forest managers across the region to disseminate ideas on addressing emerging issues and tracking effectiveness of a given approach.  The Prescription Library will serve as the basis for regional continuing education offerings for natural resource professionals throughout Michigan, Minnesota, Ontario, and Wisconsin.

Developing historically-consistent and broadly-applicable monitoring, reporting, and verification system for quantifying forest change

Given the increasing impacts of climate change and natural disturbances on forest ecosystems across the US, there is a need for monitoring systems that allow for accurate and rapid detection of historic and future changes in forest area and carbon stocks.  This collaborative project between UMN, USFS, and NASA is piloting a Monitoring, Reporting, and Verification (MRV) accounting system that could be used within the context of the National Greenhouse Gas Inventory baseline reporting to the UN Framework Convention on Climate Change.

Distributional changes in spruce-fir forests and forest-dependent wildlife: effects of climate variability and climate change

Spruce-fir forests reach their southern limit in New England and the Upper Midwest, and are predicted by coarse climate envelope models to be greatly reduced or extirpated by climate change in the next century.  However, complex climatology, involving orographic effects and consequent changes in temperature and precip, along with substantial spatial variability, make it imperative that we understand where the most resilient stands are likely to be, and what the effects of these changes mean for spruce-fir associated species.  In this project, we take advantage of long-term surveys at multip

Effects of climate, disturbance, and management on the growth and dynamics of temperate and sub-boreal forest ecosystems within the Lake States and New England

This project is using a combination of long-term data records and recently established large-scale adaptive management studies in managed forests across the Lake States, New England, Intermountain West, and Black Hills to identify forest management strategies and forest conditions that confer the greatest levels of resistance and resilience to past and emerging stressors and their relevance in addressing future global change.  This work represents a broad partnership between scientists from the USFS Northern Research Station, USFS Rocky Mountain Research Station, USGS, University of MN,  Un

Effects of hydrologic change and variability on upstream limits of stream fish distribution

Coldwater stream fishes are widely predicted to move upstream in response to warming downstream river temperatures.  However, in the process they may encounter upstream limits, which are likely to be exacerbated by increased hydrologic variability if upstream locations draining small basins switch from perennial to ephemeral flow, with important but currently unknown implications for coldwater habitat and stream fish populations.  In this project, we will look at the current determinants of upstream limitation for Eastern Brook Trout in several (8-10 large watersheds) throughout their nativ

Decision-support for headwater stream habitats

Coldwater stream habitats are at risk from climate change, but management actions, such as removing barriers to passage and restoring riparian forest canopies, can in some cases help to ameliorate negative impacts.  Our overall goal is to devise and implement decision-support tools to help managers make climate-appropriate management choices.  We are currently working on several different approaches to this problem.

Subscribe to USDA Forest Service National Forest System