PIE LTER Publications

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Robison A.  2021.  Carbon emissions from streams and rivers: Integrating methane emission pathways and storm carbon dioxide emissions into stream and river carbon balances. PhD
Zawatski M..  2018.  Carbon exchange and sediment deposition in a heterogeneous New England salt marsh. MS
Hopkinson C.S., Cai W-J., Hu X..  2012.  Carbon sequestration in wetland dominated coastal systems — a global sink of rapidly diminishing magnitude. Current Opinion in Environmental Sustainability. 4:186-194.
Wollheim W.M., Green M.B., Pellerin B.A., Morse N.B., Hopkinson C.S..  2013.  Causes and Consequences of Ecosystem Service Regionalization in a Coastal Suburban Watershed. Estuaries and Coasts.
Donatelli C., Ganju N.K., Kalra T.S., Fagherazzi S., Leonardi N..  2019.  Changes in hydrodynamics and wave energy as a result of seagrass decline along the shoreline of a microtidal back-barrier estuary.. Advances in Water Resources. 128:183-192.
Buchsbaum R., Catena E.H., James-Pirri M.J..  2006.  Changes in salt marsh vegetation, Phragmites australis, and nekton in response to increased tidal flushing in a New England salt marsh.. Wetlands. 26:544-557.
Buchsbaum R., Deegan L., Garritt R..  2002.  Changes in the fish comunity of Plum Island Sound from 1965 through 1994.. In: The marine resources of the Parker River-Plum Island Sound estuary: An update after 30 years..
Bauer J.E., Cai W-J., Raymond P.A, Bianchi T.S., Hopkinson C.S., Regnier P.A.G..  2013.  The changing carbon cycle of the coastal ocean.. Nature. 504:61-70.
Paynter I, Schaaf C, Bowen J, Deegan L, Peri F, Cook B.  2019.  Characterizing a New England Saltmarsh with NASA G-LiHT Airborne Lidar. Remote Sensing. 11:509.
Paynter I., Schaaf C., Bowen J.L., Deegan L., Peri F., Cook B..  2019.  Characterizing a New England Saltmarsh with NASA G-LiHT Airborne Lidar. Remote Sensing. 11:509-539.
Zhang Y..  2011.  Characterizing land changes over several points in time. M.S.
Johnson D.S., Short M.I..  2013.  Chronic nutrient enrichment increases the density and biomass of the mudsnail, Nassarius obsoletus.. Estuaries and Coasts. 36:28-35.
Sun S., Fagherazzi S., Liu Y..  2018.  Classification mapping of salt marsh vegetation byflexible monthly NDVItime-series using Landsat imagery. Estuarine and Coastal Shelf Science. 213:61-80.
Howarth R.W, Anderson D., Church T., Greening H., Hopkinson C., Huber W., Marcus N., Naiman R., Segerson K., Sharpley A. et al..  2000.  Clean Coastal Waters: Understanding and reducing the effects of nutrient pollution.. Ocean Studies Board and Water Science and Technology Board, Commission on Geosciences, Environment, and Resources, National Research Council..
Colombano DD, Litvin SY, Ziegler SL, Alford SB, Baker R, Barbeau MA, Cebrian J, Connolly RM, Currin CA, Deegan LA et al..  2021.  Climate Change Implications for Tidal Marshes and Food Web Linkages to Estuarine and Coastal Nekton. Estuaries and Coasts. 44:1637–1648.
Johnson D.S., Shields J.D., Doucette D., Heard R..  2020.  A climate migrant escapes its parasites. Marine Ecological Progress Series. 641:111-121.
Morse N.B., Wollheim W.M..  2014.  Climate variability masks the impacts of land use change on nutrient export in a suburbanizing watershed. Biogeochemistry.
Deegan L.A., Johnson D.S., Warren R.S., Peterson B.J., Fleeger J.W., Fagherazzi S., Wollheim W.M..  2012.  Coastal eutrophication as a driver of salt marsh loss. Nature. 490:388-392.
Törnqvist TE, Cahoon DR, Morris JT, Day JW.  2021.  Coastal Wetland Resilience, Accelerated Sea‐Level Rise, and the Importance of Timescale. AGU Advances. 2
Törnqvist TE, Cahoon DR, Morris JT, Day JW.  2021.  Coastal Wetland Resilience, Accelerated Sea-Level Rise, and the Importance of Timescale. AGU Advances. 2:e2020AV000334.
Salgado J., Costa M-J., Cabral H., Deegan L..  2004.  Comparison of fish assemblages in tidal salt marsh creeks and in adjoining mudflat areas in the Tejo estuary.. Cahiers de Biologie Marine. 45:213-224.
Xiang W..  2011.  Comparison of flow matrix and Markov matrix. MS
Huang B., Huang J., Pontius, Jr. R.G., Tu Z..  2018.  Comparison of Intensity Analysis and the land use dynamic degrees to measure land changes outside versus inside the coastal zone of Longhai, China. Ecological Indicators. 89:336-347.
Huang B, Huang J, Pontius RGilmore, Tu Z.  2018.  Comparison of Intensity Analysis and the land use dynamic degrees to measure land changes outside versus inside the coastal zone of Longhai, China. Ecological Indicators. 89:336–347.
Lunsford T.L..  2002.  Comparison of the fate of dissolved organic matter in two coastal systems: Hog Island Bay, VA (USA) and Plum Island Sound, MA (USA). School of Marine Science. M.S.:89.

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