PIE LTER Publications
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Long-Term Changes in Concentration and Yield of Riverine Dissolved Silicon From the Poles to the Tropics. Global Biogeochemical Cycles. 37:e2022GB007678.
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2023. Long-term ecological research and the COVID-19 anthropause: A window to understanding social–ecological disturbance. Ecosphere. 13:e4019.
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2022. Long-term ecological research and the COVID-19 anthropause: A window to understanding social–ecological disturbance. Ecosphere. 13:e4019.
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2022. Long-term ecological research and the COVID-19 anthropause: A window to understanding social–ecological disturbance. Ecosphere. 13:e4019.
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2022. The Long-Term Ecological Research community metadata standardisation project: a progress report.. International Journal of Metadata, Semantics and Ontologies. 4:141-153.
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2009. Long-term nutrient enrichment alters nematode trophic structure and body size in a Spartina alterniflora salt marsh. Marine Ecology. :1-16.
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2014. Long-term nutrient enrichment elicits a weak density response by saltmarsh meiofauna. Hydrobiologia. 713:97-114.
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2013. Long-term variations in water discharge and sediment load of the Pearl River Estuary: Implications for sustainable development of the Greater Bay Area. Frontiers in Marine Science. 9
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2022. The Lotic Intersite Nitrogen Experiments: an example of successful ecological research collaboration.. Freshwater Science. 33:700-710.
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Marsh Equilibrium Theory: Implications for Responses to Rising Sea Level. Salt Marshes: Function, Dynamics, and Stresses. :157–177.
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2021. Marsh nutrient export supplied by ground water discharge: Evidence from radium measurements. Global Biogeochemical Cycles. 14:167-176.
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2000. Marsh nutrient export supplied by ground water discharge: Evidence from radium measurements. Global Biogeochemical Cycles. 14:167-176.
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2000. Measuring 15N-NH4 in marine, estuarine, and freshwaters: an adaptation of the ammonium diffusion method for samples with low ammonium concentrations.. Marine Chemistry. 60:235-243.
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1998. Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments.. Limnology and Oceanography. 65
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2019. Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments. Limnology and Oceanography. 65
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2020. 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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2016. Microbial community composition in salt marsh sediments resists perturbation by nutrient enrichment. The ISME Journal. 5:1540-1548.
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2011. Mitigation policies buffer multiple climate stressors in a socio-ecological salt marsh habitat. Sustainability Science. 19(1):245-258.
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2024. Modeling denitrification in aquatic sediments. Biogeochemistry. 93:159-178.
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2009. Modeling the effect of tides and waves on benthic biofilms.. Journal of Geophysical Research. 117
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2012. The Mounting Risk of Drought in a Humid Landscape: Structure and Agency in Suburbanizing Massachusetts. . Sustainable Communities on a Sustainable Planet: The Human-Environment Regional Observatory Project.
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2009. Nitrate addition stimulates microbial decomposition of organic matter in salt marsh sediments. Global Change Biology.
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2019. Nitrate uptake dynamics of surface transient storage in channels and fluvial wetlands.. Biogeochemistry. 120:239-257.
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