PIE LTER Publications
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Dynamic modeling of nitrogen losses in river networks unravels the coupled effects of hydrological and biogeochemical processes. Biogeochemistry. 93:91-116.. 2009.
Predicting microbial nitrate reduction pathways in coastal sediments. Aquatic Microbial Ecology. 71:223-238.. 2014.
Urban Geochemistry: Hotbeds of Biogeochemical Diversity: Insights from Urban Long-Term Ecological Research Sites. Elements. 8:435-438.. 2012.
Legacy effects material flux: structural catchment changes predate long-term studies.. Bioscience. 62:575-584.. 2012.
Biophysical controls on organic carbon fluxes in fluvial networks. Nature Geoscience. 1:95-100.. 2008.
Nutrient cycling relative to δ15N and δ13C natural abundance in a coastal wetland with long-term nutrient additions. Aquatic Ecology.. 2009.
Salt marsh sediment bacteria: their distribution and response to external nutrient inputs. The ISME Journal. 3:924-934.. 2009.
Increased supply of ambient nitrogen has minimal effect on salt marsh bacterial production. Limnology and Oceanography . 54:713-722.. 2009.
Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments.. Limnology and Oceanography. 65. 2019.
Susceptibility of salt marshes to nutrient enrichment and predator removal. Ecological Applications. 17:S-42-S63.. 2007.
Quantifying and Valuing Carbon and Nitrogen Sequestration as Ecosystem Services in Salt Marshes.. MS. 2020.
Surprises and insights from long term aquatic datasets and experiments.. Bioscience. 62:709-721.. 2012.
Salt marsh ecosystem biogeochemical responses to nutrient enrichment: A paired 15N tracer study.. Ecology. 90:2535-2546.. 2009.
Nitrogen pollution in the northeastern United States: Sources, effects and managment options. BioScience. 53:357-374.. 2003.
Spatial distribution of land type in regression models of pollutant loading. Journal of Spatial Hydrology. 5:60-80.. 2005.
Modeling denitrification in aquatic sediments. Biogeochemistry. 93:159-178.. 2009.
Modeling Nitrogen Transport in the Ipswich River Basin, Massachusetts, Using HSPF.. Journal of the American Water Resources Association. 40:1365-1384.. 2004.
Top-down and bottom-up control of infauna varies across the saltmarsh landscape. Journal of Experimental Marine Biology and Ecology. 357:20-34.. 2008.
Stable isotope addition reveals dietary importance of phytoplankton and microphytobenthos to saltmarsh infauna. Marine Ecology Progress Series. 359:37-49.. 2008.
Natural abundance stable isotopes and dual isotope tracer additions help to resolve resources supporting a saltmarsh food web.. Journal of Experimental Marine Biology and Ecology. 410:1-11.. 2011.
The effects of salinity on nitrogen losses from an oligohaline estuarine sediment. Estuaries and Coasts. 33:1054-1068.. 2010.
The Role of Models in Addressing Coastal Eutrophication Problems. The Role of Models in Ecosystems Science. :327-343.. 2003.