Dr. Peter M. Groffman

Microbial Ecologist | PhD, University of Georgia

Expertise
soil ecology, water quality

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Peter Groffman studies how microbial processes drive biogeochemical processes, especially those related to carbon and nitrogen dynamics, with a particular focus on nitrogen gas fluxes from soil to the atmosphere. His work encompasses rural and urban ecosystems, and is primarily centered at two Long Term Ecological Research sites located in Hubbard Brook, New Hampshire, and Baltimore, Maryland.

As a result of climate change, forests in the northeastern US are experiencing reduced winter snow cover. This change leaves the forest soil exposed to subfreezing temperatures for extended periods. Without a layer of insulating snow, important biological activity that usually continues throughout the winter stops. Freezing damages tender tree roots. Increased winter rain washes nitrogen and phosphorus — nutrients critical to tree growth — out of the soil, threatening forest productivity and water quality. Bare soils produce more nitrous oxide and consume less methane — both potent greenhouse gases. Understanding these processes will inform forest management as climate warms.

Urbanization is a global trend marked by increasing homogenization of the landscape; imagine the cookie cutter properties that characterize ‘suburbia’. Understanding the drivers and effects of landscape homogenization will help predict the impacts of urban land use change and its effects on carbon storage, nitrogen pollution, and human wellbeing on multiple spatial scales.

Groffman is also a professor at the City University of New York Advanced Science Research Center at the Graduate Center and the Brooklyn College Department of Earth and Environmental Sciences.

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Exploring carbon flow through the root channel in a temperate forest soil food web
Gilbert, Kadeem J., Timothy J. Fahey, John C. Maerz, Ruth E. Sherman, Patrick J. Bohlen, Jason J. Dombroskie, Peter M. Groffman, and Joseph B. Yavitt. 2014. “Exploring Carbon Flow through the Root Channel in a Temperate Forest Soil Food Web”. Soil Biology and Biochemistry 76: 45-52. doi:10.1016/j.soilbio.2014.05.005.
Winter climate change affects growing-season soil microbial biomass and activity in northern hardwood forests
Durán, Jorge, Jennifer L. Morse, Peter M. Groffman, John L. Campbell, Lynn M. Christenson, Charles T. Driscoll, Timothy J. Fahey, Melany C. Fisk, Myron J. Mitchell, and Pamela H. Templer. 2014. “Winter Climate Change Affects Growing-Season Soil Microbial Biomass and Activity in Northern Hardwood Forests”. Global Change Biology 20 (11): 3568-77. doi:10.1111/gcb.12624.
“Hotspots” and “Hot Moments” of Denitrification in Urban Brownfield Wetlands
Palta, Monica M., Joan G. Ehrenfeld, and Peter M. Groffman. 2014. ““Hotspots” and ‘Hot Moments’ of Denitrification in Urban Brownfield Wetlands”. Ecosystems 17 (7): 1121-37. doi:10.1007/s10021-014-9778-0.
From Missing Source to Missing Sink: Long-Term Changes in the Nitrogen Budget of a Northern Hardwood Forest
Yanai, Ruth D., M.A. Vadeboncoeur, Steven P. Hamburg, Mary A. Arthur, Colin B. Fuss, Peter M. Groffman, T.G. Siccama, and Charles T. Driscoll. 2013. “From Missing Source to Missing Sink: Long-Term Changes in the Nitrogen Budget of a Northern Hardwood Forest”. Environmental Science & Technology 47 (20): 11440-48. doi:10.1021/es4025723.
Advancing water resource management in agricultural, rural, and urbanizing watersheds: Why land-grant universities matter
Gold, Arthur J., D. Parker, R. M. Waskom, J. Dobrowolski, M. O’Neill, Peter M. Groffman, Kelly Addy, et al. 2013. “Advancing Water Resource Management in Agricultural, Rural, and Urbanizing Watersheds: Why Land-Grant Universities Matter”. Journal of Soil and Water Conservation 68 (4): 337-48. doi:10.2489/jswc.68.4.337.
High N2O emissions in dry ecosystems
Zaady, Eli, Peter M. Groffman, Dominic Standing, and Moshe Shachak. 2013. “High N2O Emissions in Dry Ecosystems”. European Journal of Soil Biology 59: 1-7. doi:10.1016/j.ejsobi.2013.08.004.
Balancing nitrogen retention ecosystem services and greenhouse gas disservices at the landscape scale
Burgin, Amy J., Julia G. Lazar, Peter M. Groffman, Arthur J. Gold, and D.Q. Kellogg. 2013. “Balancing Nitrogen Retention Ecosystem Services and Greenhouse Gas Disservices at the Landscape Scale”. Ecological Engineering 56: 26-35. doi:10.1016/j.ecoleng.2012.05.003.
Effects of stream restoration on nitrogen removal and transformation in urban watersheds: Lessons from Minebank Run, Baltimore, Maryland
Mayer, Paul M., Shannon P. Schechter, Sujay S. Kaushal, and Peter M. Groffman. 2013. “Effects of Stream Restoration on Nitrogen Removal and Transformation in Urban Watersheds: Lessons from Minebank Run, Baltimore, Maryland”. Watershed Science Bulletin. Center for Watershed Protection Association. http://www.cwp.org/effects-of-stream-restoration-abstract.
High Resolution Measurement of Light in Terrestrial Ecosystems Using Photodegrading Dyes
Roales, Javier, Jorge Durán, Heather A. Bechtold, Peter M. Groffman, and Emma J. Rosi-Marshall. 2013. “High Resolution Measurement of Light in Terrestrial Ecosystems Using Photodegrading Dyes”. PLoS ONE 8 (9): e75715. doi:10.1371/journal.pone.007571510.1371/journal.pone.0075715.g00110.1371/journal.pone.0075715.g00210.1371/journal.pone.0075715.g00310.1371/journal.pone.0075715.g004.
Centennial-scale analysis of the creation and fate of reactive nitrogen in China (1910-2010)
Cui, S., Y. Shi, Peter M. Groffman, William H. Schlesinger, and Y.-G. Zhu. 2013. “Centennial-Scale Analysis of the Creation and Fate of Reactive Nitrogen in China (1910-2010)”. Proceedings of the National Academy of Sciences 110 (6): 2052-57. doi:10.1073/pnas.1221638110.
The impacts of climate change on ecosystem structure and function
Grimm, Nancy B, F. S. Chapin III, B. Bierwagen, Patrick Gonzalez, Peter M. Groffman, Yiqi Luo, F. Melton, et al. 2013. “The Impacts of Climate Change on Ecosystem Structure and Function”. Frontiers in Ecology and the Environment 11 (9): 474-82. doi:10.1890/120282.
Denitrification and indirect N2O emissions in groundwater: Hydrologic and biogeochemical influences
Jahangir, M. M. R., P. Johnston, M. Barrett, M. I. Khalil, Peter M. Groffman, P. Boeckx, O. Fenton, J. Murphy, and K. G. Richards. 2013. “Denitrification and Indirect N2O Emissions in Groundwater: Hydrologic and Biogeochemical Influences”. Journal of Contaminant Hydrology 152: 70-81. doi:10.1016/j.jconhyd.2013.06.007.
Nitrogen Deposition in and near an Urban Ecosystem
Bettez, Neil D., and Peter M. Groffman. 2013. “Nitrogen Deposition in and Near an Urban Ecosystem”. Environmental Science & Technology 47 (11): 6047-51. doi:10.1021/es400664b.
Denitrification and Potential Nitrous Oxide and Carbon Dioxide Production in Brownfield Wetland Soils
Palta, Monica M., Joan G. Ehrenfeld, and Peter M. Groffman. 2013. “Denitrification and Potential Nitrous Oxide and Carbon Dioxide Production in Brownfield Wetland Soils”. Journal of Environment Quality 42 (5): 1507. doi:10.2134/jeq2012.0392.
Partitioning of belowground C in young sugar maple forest
Fahey, Timothy J., Joseph B. Yavitt, Ruth E. Sherman, Peter M. Groffman, and Guoliang Wang. 2013. “Partitioning of Belowground C in Young Sugar Maple Forest”. Plant and Soil 367 (1-2): 379-89. doi:10.1007/s11104-012-1459-1.
Direct flux and 15N tracer methods for measuring denitrification in forest soils
Kulkarni, Madhura V., Amy J. Burgin, Peter M. Groffman, and Joseph B. Yavitt. 2013. “Direct Flux and 15N Tracer Methods for Measuring Denitrification in Forest Soils”. Biogeochemistry. doi:10.1007/s10533-013-9876-7.
Preliminary results from monitoring of stream nitrogen concentrations, denitrification, and nitrification potentials in an urbanizing watershed in Xiamen, southeast China
Gao, Jinbo, Qian Wu, Qingliang Li, Jun Ma, Qiufang Xu, Peter M. Groffman, and Shen Yu. 2013. “Preliminary Results from Monitoring of Stream Nitrogen Concentrations, Denitrification, and Nitrification Potentials in an Urbanizing Watershed in Xiamen, Southeast China”. International Journal of Sustainable Development & World Ecology 20 (3): 223-30. doi:10.1080/13504509.2013.782905.
Earthworm effects on the incorporation of litter C and N into soil organic matter in a sugar maple forest
Fahey, Timothy J., Joseph B. Yavitt, Ruth E. Sherman, John C. Maerz, Peter M. Groffman, Melany C. Fisk, and Patrick J. Bohlen. 2013. “Earthworm Effects on the Incorporation of Litter C and N into Soil Organic Matter in a Sugar Maple Forest”. Ecological Applications 23 (5): 1185-1201. doi:10.1890/12-1760.1.
Quantification of In Situ Denitrification Rates in Groundwater Below an Arable and a Grassland System
Jahangir, M. M. R., P. Johnston, Kelly Addy, M. I. Khalil, Peter M. Groffman, and K. G. Richards. 2013. “Quantification of In Situ Denitrification Rates in Groundwater Below an Arable and a Grassland System”. Water, Air, & Soil Pollution 224 (9). doi:10.1007/s11270-013-1693-z.
Earthworms, litter and soil carbon in a northern hardwood forest
Fahey, Timothy J., Joseph B. Yavitt, Ruth E. Sherman, John C. Maerz, Peter M. Groffman, Melany C. Fisk, and Patrick J. Bohlen. 2013. “Earthworms, Litter and Soil Carbon in a Northern Hardwood Forest”. Biogeochemistry 114 (1-3): 269-80. doi:10.1007/s10533-012-9808-y.