PIE LTER Publications
Assessment of Carbon Sequestration Potential in Coastal Wetlands.. Recarbonization of the Bioshpere: Ecosystem and Global Carbon Cycle. . :517-531.
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2012. Carbon sequestration in wetland dominated coastal systems — a global sink of rapidly diminishing magnitude. Current Opinion in Environmental Sustainability. 4:186-194.
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2012. Coastal eutrophication as a driver of salt marsh loss. Nature. 490:388-392.
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2012. Differences and implications in biogeochemistry from maximizing entropy production locally versus globally. Earth System Dynamics. 2:69-85.
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2011. Ecosystem Metabolism. Estuarine Ecology. 2:381-416.
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2011. 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.
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2011. Use of computed tomography imaging for quantifying coarse roots, rhizomes, peat, and particle densities in marsh soils. Ecological Applications. 21:2156-2171.
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2011. Ecosystem biogeochemistry considered as a distributed metabolic network ordered by maximum entropy production.. Philosophical Transactions of The Royal Society B. 365:1417-1427.
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2010. Salt marsh geomorphological analyses via integration of multi-temporal multispectral remote sensing with LIDAR and GIS.. Journal of Coastal Research. 26:809-816.
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2010. Surface and hyporheic transient storage dynamics throughout a coastal stream network.. Water Resources Research. 46
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2010. The biogeochemical influences of nitrate, dissolved oxygen, and dissolved organic carbon on stream nitrate uptake.. Journal of the North American Benthological Society. 28:894-907.
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2009. Effects of regular salt marsh haying on marsh plants, algae, invertebrates and birds at Plum Island Sound, Massachusetts. Wetlands Ecology and Management. 17:469-487.
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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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2009. Latitudinal trends in Spartina alterniflora productivity and the response of coastal marshes to global change. Global Change Biology.
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2009. Salt marsh ecosystem biogeochemical responses to nutrient enrichment: A paired 15N tracer study.. Ecology. 90:2535-2546.
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2009. Biophysical controls on organic carbon fluxes in fluvial networks. Nature Geoscience. 1:95-100.
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2008. Consequences of climate change on the ecogeomorphology of coastal wetlands. Estuaries and Coasts. 31:477-491.
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2008. The impact of increased Nitrogen Loading on Gaseous Loss of Nitrogen from Salt Marsh Sediments. Ph.D.
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2008. Nitrogen Dynamics of Coastal Salt Marshes. Nitrogen in the Marine Environment, 2nd Edition. :991-1036.
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2008. Plant nitrogen dynamics in fertilized and natural New England saltmarshes: a paired 15N tracer study. Marine Ecology Progress Series. 354:35-46.
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2008. Stable isotope addition reveals dietary importance of phytoplankton and microphytobenthos to saltmarsh infauna. Marine Ecology Progress Series. 359:37-49.
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2008. Stable isotope monitoring of benthic-pelagic coupling with salt marsh fish. Marine Ecology Progress Series. 369:193-204.
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2008. Ecological engineering in intertidal saltmarshes.. Hydrobiologia. 577:161-168.
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