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. Drainage basins, river systems, and anthropogenic change: the Chinese example. Asian Change in the Context of Global CHange: Impacts of Natural and Anthropogenic Changes in Asia on Global Biogeochemical Cycles. :210-244.
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1998. Group 4: Unifying concepts for integrated coastal management.. Science and Integrated Coastal Management.
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2001. Group 4: Unifying concepts for integrated coastal management.. Science and Integrated Coastal Management.
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2001. Linking biogeochemical processes to higher trophic levels. Estuarine Science, A Synthetic Approach to Research and Practice. :299-246.
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2000. Macro-scale models of water and nutrient flux to the coastal zone. Estuarine Science: A Synthetic Approach to Research and Practice. :43-80.
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2000. The Role of Models in Addressing Coastal Eutrophication Problems. The Role of Models in Ecosystems Science. :327-343.
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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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2000. Synthesizing drainage basin inputs to coastal systems.. Estuarine Science: A Synthetic Approach to Research and Practice. :81-105.
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2000. The use of models in integrated resource management in the coastal zone.. Science and Integrated Coastal Management.
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2001. Use of receding horizon optimal control to solve MaxEP-based biogeochemistry problems. Beyond the Second Law: Entropy Production and Non-Equilibrium Systems. :337-359.
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2014. Visualizing the certainty for extrapolations from models of landscape change. Conference proceedings of the meeting of Geocomputation. :6.
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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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2005. A non-linear inverse technique to estimate estuarine ecosystem metabolism from whole system oxygen measurements.. Proceedings of the 3rd International Symposium on Ecohydraulics.
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1999. The Salt Marsh Geomorphology: Physical and Ecological Effects on Landform. AGU Chapman Conference. 86:57-58.
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2004. Visualizing the rate at which the accuracy of a land change prediction decays.. Conference proceedings of the meeting of the University Consortium for Geographic Information Science. :29.
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2004. Animating the Carbon Cycle. Ecosystems. 17:344-359.
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2014. The application of electrical conductivity as a tracer for hydrograph separation in urban catchments.. Hydrological Processes. 22:1810-1818.
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2007. 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. Biogeomorphic modeling to assess the resilience of tidal-marsh restoration to sea level rise and sediment supply. Earth Surface Dynamics. 10:531–553.
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2022. Biogeomorphic modeling to assess the resilience of tidal-marsh restoration to sea level rise and sediment supply. Earth Surface Dynamics. 10:531–553.
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2022. Biogeomorphic modeling to assess the resilience of tidal-marsh restoration to sea level rise and sediment supply. Earth Surface Dynamics. 10:531–553.
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2022. Biogeomorphic modeling to assess the resilience of tidal-marsh restoration to sea level rise and sediment supply. Earth Surface Dynamics. 10:531–553.
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2022. .
2021. Decomposition of dissolved organic matter from the continental margin. Deep Sea Research II. 49:4461-4478.
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2002.