PIE LTER Publications
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2022. High-Frequency Concurrent Measurements in Watershed and Impaired Estuary Reveal Coupled DOC and Decoupled Nitrate Dynamics. Estuaries and Coasts. 45:445–461.
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2008. Stream denitrification across biomes and its response to anthropogenic nitrate loading. Nature. 452:202-206.
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2010. How does vegetation affect sedimentation on tidal marshes? Investigating particle capture and hydrodynamic controls on biologically mediated sedimentation Journal of Geophysical Research. 115
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2009. 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.
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2004. 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.
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2021. Rapid recovery of carbon cycle processes after the cessation of chronic nutrient enrichment. Science of The Total Environment. 750:140927.
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2009. Variation in the availability and utilization of dissolved organic nitrogen by the smooth cordgrass, Spartina alterniflora. PhD.:179.
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2014. Latitudinal variation in the availability and use of dissolved organic nitrogen in Atlantic coast salt marshes. Ecology.
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2016. Microbial associations with macrobiota in coastal ecosystems: patterns and implications for nitrogen cycling. Frontiers in Ecology and the Environment. 14:200-208.
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2011. Short-term nitrogen additions can shift a coastal wetland from a sink to a source of N2O. Atmospheric Envrionment. 45:4390-4397.
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2012. Impacts of suburbanization on food web stoichiometry in detritus-based streams of New England.. Freshwater Science. 31:1202-1213.
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2014. Climate variability masks the impacts of land use change on nutrient export in a suburbanizing watershed. Biogeochemistry.
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2013. Brinson Review: Perspectives on the influence of nutrients on the sustainability of coastal wetlands. Wetlands. 33:975-988.
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2005. 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.
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2012. Assessment of Carbon Sequestration Potential in Coastal Wetlands.. Recarbonization of the Bioshpere: Ecosystem and Global Carbon Cycle. . :517-531.
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2016. Contributions of organic and inorganic matter to sediment volume and accretion in tidal wetlands at steady state. Earth's Future. 4:110-121.
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2007. Ecological engineering in intertidal saltmarshes.. Hydrobiologia. 577:161-168.
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2013. Salt marsh primary production and its responses to relative sea level and nutrients. Oceanography. 26:78-84.
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2015. Perspectives on a 30-Year Career of Salt Marsh Research. Long-Term Environmental Research: Changing the Nature of Scientists.
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2000. Effects of sea level anomalies on estuarine processes.. Estuarine Science: A Synthetic Approach to Research and Practice. :107-127.
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2006. Competition among marsh macrophytes by means of geomorphological displacement in the intertidal zone.. Estuarine and Coastal Shelf Science. 69:395-402.
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2020. Tidal and Hurricane Impacts on Saltmarshes in the Northeastern Coastal and Barrier Network: Theory and Empirical Results. Estuaries and Coasts. 43:1658–1671.
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2010. Competition among marsh macrophytes by means of vertical geomorphological displacement. Third International Conference on Invasive Spartina. :109-115.