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High-Frequency Concurrent Measurements in Watershed and Impaired Estuary Reveal Coupled DOC and Decoupled Nitrate Dynamics. Estuaries and Coasts. 45:445–461.. 2022.
Stream denitrification across biomes and its response to anthropogenic nitrate loading. Nature. 452:202-206.. 2008.
How does vegetation affect sedimentation on tidal marshes? Investigating particle capture and hydrodynamic controls on biologically mediated sedimentation Journal of Geophysical Research. 115. 2010.
Impact of the dynamic feedback between sedimentation, sea level rise, and biomass production on near surface marsh stratigraphy and carbon accumulation. Estuarine, Coastal and Shelf Science. 82:377-389.. 2009.
Flow, sedimentation, and biomass production on a vegetated salt marsh in South Carolina: toward a predictive model of marsh morphologic and ecologic evolution.. The Ecogeomorphology of Tidal Marshes. :165-187.. 2004.
Latitudinal variation in the availability and use of dissolved organic nitrogen in Atlantic coast salt marshes. Ecology.. 2014.
Rapid recovery of carbon cycle processes after the cessation of chronic nutrient enrichment. Science of The Total Environment. 750:140927.. 2021.
Variation in the availability and utilization of dissolved organic nitrogen by the smooth cordgrass, Spartina alterniflora. PhD.:179.. 2009.
Microbial associations with macrobiota in coastal ecosystems: patterns and implications for nitrogen cycling. Frontiers in Ecology and the Environment. 14:200-208.. 2016.
Short-term nitrogen additions can shift a coastal wetland from a sink to a source of N2O. Atmospheric Envrionment. 45:4390-4397.. 2011.
Climate variability masks the impacts of land use change on nutrient export in a suburbanizing watershed. Biogeochemistry.. 2014.
Quantifying the Impact of Urbanization on N and P Inputs, Transformations, Removal and Fluxes in Watersheds Draining to the Plum Island Estuary. PhD. 2014.
Impacts of suburbanization on food web stoichiometry in detritus-based streams of New England.. Freshwater Science. 31:1202-1213.. 2012.
Marsh Equilibrium Theory: Implications for Responses to Rising Sea Level. Salt Marshes: Function, Dynamics, and Stresses. :157–177.. 2021.
Integrating LIDAR, multispectral imagery and neural network modeling techniques for marsh classification.. International Journal of Remote Sensing. 26:5221-5234.. 2005.
Responses of coastal wetlands to rising sea level. Ecology. 83:2869-2877.. 2002.
Brinson Review: Perspectives on the influence of nutrients on the sustainability of coastal wetlands. Wetlands. 33:975-988.. 2013.
Effects of changes in sea level and productivity on the stability of intertidal marshes.. UNESCO Proceeding Series on Lagoons and Coastal Wetlands in the Global Change Context: Impact and Management Issues. :121-127.. 2005.
Assessment of Carbon Sequestration Potential in Coastal Wetlands.. Recarbonization of the Bioshpere: Ecosystem and Global Carbon Cycle. . :517-531.. 2012.
Contributions of organic and inorganic matter to sediment volume and accretion in tidal wetlands at steady state. Earth's Future. 4:110-121.. 2016.
Ecological engineering in intertidal saltmarshes.. Hydrobiologia. 577:161-168.. 2007.
Salt marsh primary production and its responses to relative sea level and nutrients. Oceanography. 26:78-84.. 2013.
Perspectives on a 30-Year Career of Salt Marsh Research. Long-Term Environmental Research: Changing the Nature of Scientists.. 2015.
Effects of sea level anomalies on estuarine processes.. Estuarine Science: A Synthetic Approach to Research and Practice. :107-127.. 2000.