Carol Adair

Associate Professor, Rubenstein School

Gund Fellow

Director, Aiken Forestry Sciences Laboratory

carol.adair@uvm.edu
(802) 656-2907
Carol Adair outside working near a stream, smiling to camera
carol.adair@uvm.edu
+18026562907

81 Carrigan Dr
303B Aiken Center
Burlington, VT 05401
United States
Adair Lab
Alma mater(s)
  • Ph.D. 2005 Colorado State University, Ecosystem ecology and biogeochemistry (plant invasions)
  • M.S. 2000 Colorado State University, Ecosystem ecology and biogeochemistry (riparian nitrogen cycling)
  • B.A. 1991 Allegheny College, Environmental Science and Political Science
Affiliated Department(s)

BIO

As a global change ecosystem ecologist and biogeochemist, I use theory, experimentation, and quantitative methods to understand ecosystem responses to natural and anthropogenic environmental change. Understanding and predicting the response of ecosystems to environmental changes is crucial for sustaining and managing important ecosystems.

I am fascinated by how and why ecosystem properties and processes respond to global changes and how these responses may feed back to amplify or diminish these changes. Because predicting and managing the effects of such changes depends on understanding and accurately depicting ecosystem processes, I combine experimental, synthetic and quantitative approaches to develop models and test hypotheses about what drives fundamental ecosystem processes like microbial respiration (decomposition).

Area(s) of expertise

Instructional programs: Environmental Sciences, Forestry, Natural Resources
Research: Global climate change, ecosystem ecology, biogeochemistry

Bio

As a global change ecosystem ecologist and biogeochemist, I use theory, experimentation, and quantitative methods to understand ecosystem responses to natural and anthropogenic environmental change. Understanding and predicting the response of ecosystems to environmental changes is crucial for sustaining and managing important ecosystems.

I am fascinated by how and why ecosystem properties and processes respond to global changes and how these responses may feed back to amplify or diminish these changes. Because predicting and managing the effects of such changes depends on understanding and accurately depicting ecosystem processes, I combine experimental, synthetic and quantitative approaches to develop models and test hypotheses about what drives fundamental ecosystem processes like microbial respiration (decomposition).

Areas of Expertise

Instructional programs: Environmental Sciences, Forestry, Natural Resources
Research: Global climate change, ecosystem ecology, biogeochemistry