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Adapting to Suburbanization-Induced Water Stress in Eastern Massachusetts: Opportunities and Constraints for Integrated Land-Use and Water Resource Management.. Graduate School of Geography. M.A.. 2009.
Top-down and bottom-up benthic macroinvertebrate communities in salt marsh ditches. Bachelor's Degree. 2010.
Ecological Homogenization of Urban America. Frontiers in Ecology and Environment. :74-81.. 2014.
Satisfaction, water and fertilizer use in the American residential macrosystem. Environmental Research Letters.. 2016.
Land change: Ecosystem responses to urbanization and pollution across climatic and societal gradients. Frontiers in Ecology and Environment. 6:264-272.. 2008.
Differences in properties of salt marsh sediment between hayed and reference sites. Biological Bulletin. 199:225-226.. 2000.
Pre-industrial and contemporary fluxes of nitrogen through rivers: A global assessment based on typology. Biogeochemistry. 68:1-35.. 2003.
Effective denitrification scales predictably with water residence time across diverse systems. Nature Precedings.. 2009.
Functional responses of salt marsh microbial communities to long-term nutrient enrichment. Applied and Environmental Microbiology. 82:2862-2871.. 2016.
Residence time distribution in surface transient storage zones in streams: Estimation via signal deconvolution. Water Resources Research. 47:7pp.. 2011.
Why Land Planners and Water Managers Don't Talk to One Another and Why They Should!. Society and Natural Resources. 26:356-364.. 2013.
Validating, analyzing, and predicting lawn maps: Application of GIScience and spatial analysis in the northern Boston suburbs. Ph.D.:141.. 2013.
Understanding the social determinants of lawn landscapes: A fine-resolution spatial statistical analysis in suburban Boston, Massachusetts, USA.. Landscape and Urban Planning. 111:25-33.. 2013.
Creating spatially-explicit lawn maps without classifying remotely sensed imagery: The case of suburban Boston, Massachusetts, USA. Cities and the Environment. 7. 2014.
The effects of salinity on nitrogen losses from an oligohaline estuarine sediment. Estuaries and Coasts. 33:1054-1068.. 2010.
The Role of Marshes in Coastal Nutrient Dynamics and Loss. Salt Marshes: Function, Dynamics, and Stresses. :113–154.. 2021.
The Role of Models in Addressing Coastal Eutrophication Problems. The Role of Models in Ecosystems Science. :327-343.. 2003.
Mysteries in the marsh. Long-Term Ecological Research: Changing the Nature of Scientists.. 2015.
The importance of dissimilatory nitrate reduction to ammonium (DNRA) in the nitrogen cycle of coastal ecosystems.. Oceanography. 26:124-131.. 2013.
Interaction between physical processes and ecosystem structure: A comparative approach.. Estuarine Science: A Synthetic Approach to Research and Practice. :177-206.. 2000.
A method for estimating pore water drainage from marsh soils using rainfall and well records. Estuarine, Coastal and Shelf Science. 79:51-58.. 2008.
Are elevation and open‐water conversion of salt marshes connected? Geophysical Research Letters. 47. 2020.
Spatially integrative metrics reveal hidden vulnerability of microtidal salt marshes. Nature Communications. 8. 2017.
Stable isotope addition reveals dietary importance of phytoplankton and microphytobenthos to saltmarsh infauna. Marine Ecology Progress Series. 359:37-49.. 2008.