Overview of the Effects of Climatic Variability and Change on Forest Ecosystems in the Northeast United States

Climate, Forests and Woodlands September 01, 2015 Print Friendly and PDF

The Global Change Research Act of 1990 requires the U.S. Global Change Research Program (USGCRP) to produce the National Climate Assessment (NCA) for the President and Congress every four years, analyzing the effect of global change on multiple sectors and regions in the United States and projecting major trends forward for up to 100 years. Effects on Climatic Variability and Change on Forest Ecosystems: A Comprehensive Science Synthesis for the U.S. Forest Sector (PNW-GTR-870) serves as the U.S. Forest Service sector technical report for the NCA and includes descriptions of key regional issues and examples of a risk-based framework for assessing climate-change effects.

USFS researchers state that “projected changes in climate (temperature and precipitation means and extreme events), increased atmospheric carbon dioxide (CO2), and increased nitrogen deposition are likely to affect U.S. forests throughout this century. Effects will be both direct (e.g., effects of elevated CO2 on forest growth and water use) and indirect (e.g., altered disturbance regimes), and will differ temporarily and spatially across the United States. Some of these effects may already be occurring. For example, large insect outbreaks and large wildfires during the past decade (Bentz et al. 2009, Turetsky et al. 2010) are a wake-up call about the potential effects of a rapidly changing climate on forest ecosystems.

The Northeast can anticipate the following:

  • Increased fire hazard and insect outbreaks will provide significant challenges for sustainable management of forests for timber and other uses, but may also motivate restoration of fire-tolerant longleaf and shortleaf pine forests

  • Early arrival and later breeding for migratory bird species that require forest habitat and expanded northward range for some species

  • Warmer temperature may increase rates of microbial decomposition, N mineralization, nitrification and denitrification, that will result in higher short-term availability of calcium, magnesium and N for forest growth and elevated losses of these nutrients to surface waters

  • Major reduction of spruce-fir forest, moderate reduction of maple-birth-beech forest and expansion of oak-dominated forest.

 

References Cited:

Bentz, B.; Allen, C.D.; Ayres, M. [et al.]. 2009. Beetle outbreaks in western North America: Causes and consequences. Salt Lake City, UT: University of Utah Press. 44p.

Turetsky, M.R.; Kane, E.S.; Harden, J.W. [et al.]. 2010. Recent acceleration of biomass burning and carbon losses in Alaskan forests and peatlands. Nature Geoscience. 4:27-31

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This work is supported by the USDA National Institute of Food and Agriculture, New Technologies for Ag Extension project.