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Southern Global Change Program
The Southern Global Change Program (SGCP) develops conceptual and functional bases for understanding and mitigating forest ecosystem responses to climate change. SGCP's modeling and experimental approaches will provide land managers and policy makers with the tools and data needed to ensure sustainability of forested landscapes in the southern U.S.
Southern Global Change Program Staff
Ge Sun, Research Hydrologist
Johnny Boggs, Biological Scientist
Michael Gavazzi, Biological Scientist
Jennifer Moore Myers, Resource Information Specialist
Erika Cohen, Resource Information Specialist
William Foster, Financial Assistant
Robert Herring, Applications Programmer
North Carolina State University Cooperators:
Asko Noormets, Research Assistant Professor
Jean-Christophe Domec, Research Associate (Post-Doc)
COMPLETE EFETAC STAFF LISTING AND CONTACT INFORMATION
Recent Publications
- Drought during canopy development has lasting effect on annual carbon balance in a deciduous temperate forest (PDF)
- Changes in conifer and deciduous forest foliar and forest floor chemistry and basal area tree growth across a nitrogen (N) deposition gradient in the northeastern US (PDF)
- A conceptual hydrologic model for a forested Carolina bay depressional wetland on the Coastal Plain of South Carolina, USA (PDF)
- Estimates of critical acid loads and exceedances for forest soils across the conterminous United States (PDF)
- Estimating forest ecosystem evapotranspiration at multiple temporal scales with a dimension analysis approach (PDF)
- Evapotranspiration estimates from eddy covariance towers and hydrologic modeling in managed forests in Northern Wisconsin, USA (PDF)
- Interactive effects of ozone and climate on tree growth and water use in a southern Appalachian forest in the USA (PDF)
- Interactive effects of ozone and climate on water use, soil moisture content, and streamflow in a southern Appalachian forest in the USA (PDF)
- Regional patterns in foliar 15N across a gradient of nitrogen deposition in the northeastern US (PDF)
- Uncertainty analysis on simple mass balance model to calculate critical acid loads for soil acidity (PDF)
