PIE LTER Publications
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2019.
Sediment selection: range-expanding fiddler crabs are better burrowers than their historic-range counterparts. Marine Ecology Progress Series. 674:163–171.
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2021. Sediment Exchange Across Coastal Barrier Landscapes Alters Ecosystem Extents. Geophysical Research Letters. 5017(143)
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2023. Sediment DIN fluxes and preferential recycling of benthic microalgal nitrogen in shallow macrotidal estuary. Marine Ecological Progress Series. 257:25-36.
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2003. Seasonal use of a New England estuary by foraging contingents of migratory striped bass. Transactions of the American Fisheries Society. 139:257-269.
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2010. Sea-level rise and storm surges structure coastal forests into persistence and regeneration niches. PLOS ONE. 14:e0215977.
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2019. Sea level rise may increase extinction risk of a saltmarsh ontogenetic habitat specialist. Ecology and Evolution.
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2017. Sea Level Rise and the Dynamics of the Marsh-Upland Boundary. Frontiers in Environmental Science.
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2019. Scientific accomplishments of the Long Term Ecological Research program: an introduction. BioSciences. 53:17-20.
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2003. Scenarios of land-use change and nitrogen release in the Ipswich watershed, Massachusetts, USA. Proceedings of the 4th International Conference on Integrating Geographic Information Systems and Environmental Modeling: Problems, prospects, and Needs for Research.
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2003. The savory swimmer swims North: A northern range extension of the blue crab Callinectes sapidus? Journal of Crustacean Biology. 35:105-110.
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2015. Save Our Stream. LTER Schoolyard Series. :30.
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2017. Satisfaction, water and fertilizer use in the American residential macrosystem. Environmental Research Letters.
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2016. Saltmarsh pool and tidal creek morphodynamics: Dynamic equilibrium of northern latitude saltmarshes? Geomorphology. :99-115.
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2014. Saltmarsh plant responses to eutrophication. Ecological Applications.
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2016. Salt marsh vegetation promotes efficient tidal channel networks. Nature Communications. 7
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2016. Salt marsh sediment bacteria: their distribution and response to external nutrient inputs. The ISME Journal. 3:924-934.
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2009. Salt marsh primary production and its responses to relative sea level and nutrients. Oceanography. 26:78-84.
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2013. Salt Marsh Pond Biogeochemistry Changes Hourly-to-Yearly but Does Not Scale With Dimensions or Geospatial Position. Journal of Geophysical Research: Biogeosciences. 125:e2020JG005664.
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2020. Salt Marsh Pond Biogeochemistry Changes Hourly to Yearly but Does Not Scale With Dimensions or Geospatial Position. Journal of Geophysical Research: Biogeosciences. 125
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2020. Salt marsh persistence is threatened by predicted sea-level rise. Estuarine and Coastal Shelf Science. 181:93-99.
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2016. Salt marsh nitrogen cycling: where land meets sea. Trends in Microbiology.
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