|Project Title||Investigators||Funding agency||Years active|
|Mercury isotopes and cycling in forest ecosystems||Martin Tsz Ki Tsui||2011 to 2013|
|Investigations of the acoustic behavior of the parasitoid fly Emblemasoma auditrix and its host Okanagana rimosa (Homoptera)||Reinhard Lakes-Harlan||2011 to 2013|
|Influence of Changes in Atmospheric Composition on the Growth and Development of Aquatic Organisms||Elisabeth Lehigh Shirey||NSF-IGERT||1999|
|Biogenic Emissions and Transport of Trace Gases In and Over a Northern Hardwood Ecosystem||Jennifer Hutton||NSF-IGERT||1999|
|Effect of elevated atmospheric CO2 and tropospheric O3 on belowground plant litter biochemistry and the influence of microbial community composition on ecosystem nitrogen availability||Deborah Hudleston||NSF-IGERT||2004|
Forest aging, disturbance and the carbon cycle. New Phytologist. 2018;11520893601651821063897135849211621871824561134551414214063216481771017273619659947400305.
Forest structure in space and time: Biotic and abiotic determinants of canopy complexity and their effects on net primary productivity. Agricultural and Forest Meteorology. 2018;250-251:181-191.
Moderate Disturbance Has Similar Effects on Production Regardless of Site Quality and Composition. Forests. 2018;95067Volume 32(2):70.
Ubiquitous Influence of Wildfire Emissions and Secondary Organic Aerosol on Summertime Atmospheric Aerosol in the Forested Great Lakes Region. Atmospheric Chemistry and Physics Discussions. 2018:1-30.
Tree taxa and pyrolysis temperature interact to control pyrogenic organic matter induced native soil organic carbon priming. Soil Biology and Biochemistry. 2018;119:174-183.