University of Minnesota

Also collaborating on these NE CSC projects

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.

Ecological and hydrological impacts of the emerald ash borer on black ash forests

This project examines the ecological and hydrological impacts of emerald ash borer on black ash-dominated wetlands throughout the Lake States using large-scale experimental studies documenting impacts of black ash mortality on ecosystem processes, wildlife communities, and evaluating potential mitigation and adaptation strategies under future climate and invasion scenarios.

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 tree-ring patterns and long-term data collections from natural and managed forests across the Lake States, New England, Intermountain West, and Black Hills to identify forest management strategies and forest conditions that have conferred the greatest levels of resistance and resilience to past stressors and their relevance in addressing future environmental change.

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