@article {PIE497, title = {Oxygen and Triple Oxygen Isotope Measurements Provide Different Insights into Gross Oxygen Production in a Shallow Salt Marsh Pond.}, journal = {Estuaries and Coasts}, year = {2020}, note = {Grad}, keywords = {light-dependent respiration, LTER-PIE, metabolism, oxygen, pond, primary production, salt marsh, triple oxygen isotopes}, doi = {10.1007/s12237-020-00757-6}, author = {Howard, E.M. and Spivak, A.C. and Karolewski, J.S. and Gosslein, K.M. and Sandwidth, Z.O. and Manning, C.C. and Stanley, R.H.R} } @article {PIE498, title = {Salt Marsh Pond Biogeochemistry Changes Hourly to Yearly but Does Not Scale With Dimensions or Geospatial Position}, journal = {Journal of Geophysical Research: Biogeosciences}, volume = {125}, year = {2020}, note = {PI Plum Data}, keywords = {biogeochemistry, ecosystem function, global change, LTER-PIE, metabolism, primary production, salt marsh, scaling}, doi = {10.1029/2020JG005664}, author = {Spivak, A.C. and Denmark, A. and Gosselin, K. and Sylva, S.P.} } @article {PIE488, title = {Tidal Wetland Gross Primary Production Across the Continental United States, 2000{\textendash}2019.}, journal = {Global Biogeochemical Cycles}, volume = {34}, year = {2020}, note = {PI}, keywords = {blue carbon, eddy covariance, LTER-PIE, organic matter, primary production, tidal wetlands}, doi = {10.1029/2019GB006349}, author = {Feagin, A. and Forbrich, I. and Huff, T.P. and Barr, J. G. and Ruiz-Plancarte, J. and Fuentes, J. D. and NaJJar, R. G. and Vargas, R. and V{\'a}zquez-Lule, A. and Windham-Myers. L. and Kroeger, K. D. and Ward, E. J. and Moore, G. W. and Leclerc, M. and Krauss, K. W. and Stagg, C. L. and Alber, M. and Knox, S. H. and Sch{\"a}fer, K.V.R. and Bianchi, T. S. and Hutchings, J. A. and Nahrawi, H. and Noormets, A. and Mitra, B. and Jaimes, A. and Hinson, A. L. and Bergamaschi, B. and King, J. S. and Miao, G.} } @article {PIE485, title = {Estimating Aboveground Biomass and Its Spatial Distribution in Coastal Wetlands Utilizing Planet Multispectral Imagery}, journal = {Remote Sensing}, volume = {11}, year = {2019}, note = {Grad}, keywords = {biomass, LTER-PIE, planet satellites, population dynamics, primary production, salt marsh, Spartina alterniflora, vegetation index}, doi = {10.3390/rs11172020}, author = {Miller, G.J. and Morris, J.T. and Wang, C.} } @article {PIE445, title = {Constraining Marsh Carbon Budgets Using Long-Term C Burial and Contemporary Atmospheric CO2 Fluxes}, journal = {Journal of Geophysical Research: Biogeosciences}, volume = {123}, year = {2018}, note = {PI}, pages = {867-878}, keywords = {carbon burial, carbon dioxide, eddy covariance, LTER-PIE, net ecosystem exchange, primary production, rainfall, salinity, salt marsh}, doi = {10.1002/2017JG004336}, author = {Forbrich, I. and Giblin, A.E. and Hopkinson, C.S.} } @article {PIE446, title = {Declining radial growth response of coastal forests to hurricanes and nor{\textquoteright}easters}, journal = {Journal of Geophysical Research}, volume = {123}, year = {2018}, note = {Grad}, pages = {832-849}, keywords = {coastal vegetation, disturbance, floods, LTER-PIE, primary production, storm surge, tree ring}, doi = {10.1002/2017JG004125}, author = {Fernandes, A. and Rollinson, C.R. and Kearney, W.S. and Dietze, M.C. and Fagherazzi, S.} } @thesis {PIE459, title = {Investigations of pond metabolism in temperate salt marshes of Massachusetts}, volume = {BS}, year = {2018}, note = {Undergrad}, school = {Boston College}, type = {bachelorsthesis}, address = {Boston, MA}, keywords = {carbon dioxide, LTER-PIE, metabolism, organic matter, oxygen, primary production, salt marsh, salt marsh ponds}, author = {Yoo, G.} } @phdthesis {PIE455, title = {Ecosystem metabolism in salt marsh tidal creeks and ponds: Applying triple oxygen isotopes and other gas tracers to novel environments}, volume = {PhD}, year = {2017}, note = {Grad}, school = {Woods Hole Oceanographic Institution/ MIT Joint Program}, type = {phdthesis}, address = {Cambridge, MA}, keywords = {LTER-PIE, organic matter, oxygen, primary production, salt marsh, salt marsh ponds, stable isotopes, tidal creeks}, author = {Howard, E.} } @mastersthesis {PIE453, title = {The impact of extreme storm surges on Mid Atlantic coastal forests}, volume = {MS}, year = {2017}, note = {Grad}, school = {Boston University}, type = {mastersthesis}, address = {Boston, MA}, keywords = {coastal vegetation, disturbance, floods, LTER-PIE, primary production, storm surge, tree ring}, author = {Fernandes, A.} } @article {PIE434, title = {Shallow ponds are heterogeneous habitats within a temperate salt marsh ecosystem}, journal = {Journal of Geophysical Research: Biogeosciences}, volume = {122}, year = {2017}, note = {PI Plum Data}, keywords = {inorganic nutrients, LTER-PIE, organic matter, ponds, primary production, salt marsh, system metabolism}, doi = {10.1002/2017JG003780}, author = {Spivak, A.C. and Gosselin, K. and Howard, E. and Mariotti, G. and Forbrich, I. and Stanley, R. and Sylva, S.P.} } @mastersthesis {PIE432, title = {Applicability of LiDAR Technology in Saltmarshes: Landscape-Scale Predictive Models to Local-Scale Biomass Estimation}, volume = {M.S.}, year = {2016}, note = {Grad}, pages = {134}, school = {University of South Carolina}, type = {mastersthesis}, keywords = {LiDAR, LTER-PIE, primary production, salt marsh}, author = {Edwards Jr., J.D.} } @article {PIE421, title = {Contributions of organic and inorganic matter to sediment volume and accretion in tidal wetlands at steady state}, journal = {Earth{\textquoteright}s Future}, volume = {4}, year = {2016}, note = {PI Plum Data}, pages = {110-121}, keywords = {accretion, LTER-PIE, organic matter, primary production, sea level, wetlands}, doi = {10.1002/2015EF000334}, author = {Morris, J.T. and Barber, D.C. and Callaway, J.C. and Chambers, R. and Hagen, S.C. and Hopkinson, C.S. and Johnson, B.J. and Megonigal, P. and Neubauer, S.C. and Troxler, T. and Wigand, C.} } @article {PIE418, title = {Salt marsh persistence is threatened by predicted sea-level rise}, journal = {Estuarine and Coastal Shelf Science}, volume = {181}, year = {2016}, note = {PI Plum Data}, pages = {93-99}, keywords = {accretion, climate change, elevation, LTER-PIE, organic matter, primary production, wetlands}, doi = {10.1016/j.ecss.2016.08.018}, author = {Crosby, S.C. and Sax, D. and Palmer, M.E. and Booth, H.S. and Deegan, L.A. and Bertness, M.D. and Leslie, H.M.} } @article {PIE416, title = {Saltmarsh plant responses to eutrophication}, journal = {Ecological Applications}, year = {2016}, note = {PI Plum Data}, keywords = {coastal wetland, disturbance, eutrophication, global change, inorganic nutrients, LTER-PIE, nutrient pollution, plants, primary production, salt marsh, Spartina}, doi = {10.1002/eap.1402}, author = {Johnson, D.S. and Warren, R.S. and Deegan, L.A. and Mozdzer, T.J.} } @article {PIE419, title = {Spartina alterniflora biomass allocation and temperature: implications for salt marsh persistence with sea-level rise}, journal = {Estuaries and Coasts}, year = {2016}, note = {PI Plum Data}, keywords = {biomass, climate change, elevation, LTER-PIE, primary production, salt marsh, smooth cordgrass, Spartina alterniflora}, doi = {10.1007/s12237-016-0142-9}, author = {Crosby, S.C. and Angermeyer, A. and Adler, J.M. and Bertness, M.D. and Deegan, L.A. and Sibinga, N. and Leslie, H.M.} } @article {PIE394, title = {Drivers of spatial and temporal variability in estuarine food webs}, journal = {Marine Ecological Progress Series}, volume = {533}, year = {2015}, note = {PI Plum Data}, pages = {67-77}, keywords = {estuarine, food webs, long-term, LTER-PIE, organic matter, population dynamics, primary production, stable isotopes}, doi = {10.3354/meps11389}, author = {Nelson, J.A. and Deegan,L. and Garritt, R.H.} } @article {PIE383, title = {Flowering and biomass allocation in U.S. Atlantic coast Spartina alterniflora}, journal = {American Journal of Botany}, volume = {102}, number = {5}, year = {2015}, note = {Grad}, keywords = {biomass allocation, flowering, LTER-PIE, phenology, population dynamics, primary production, seed supply, Spartina alterniflora}, doi = {10.3732/ajb.1400534}, author = {Crosby, S.C. and Ivens-Duran, M. and Bertness, M.D. and Davey, E. and Deegan, L.A. and Leslie, H.M.} } @article {PIE381, title = {Global environmental change and the nature of aboveground net primary productivity responses: insights from long-term experiments}, journal = {Oecologia}, year = {2015}, note = {PI Synthesis}, keywords = {aboveground productivuty, disturbance, hierarchial respopnse framework, long-term ecological research network, LTER-PIE, nutrient addition, precipitation manipulation, primary production}, doi = {10.1007/s00442-015-3230-9}, author = {Smith, M.D. and La Pierre, K.J. and Collins, S.L. and Knapp, A.K. and Gross, K.L. and Barrett, J.E. and Frey, S.D. and Gough, L. and Miller, R.J. and Morris, J.T. and Rustad, L.E. and Yarie, J.} } @article {PIE395, title = {Ulva additions alter soil biogeochemistry and negatively impact Spartina alterniflora growth}, journal = {Marine Ecological Progress Series}, volume = {532}, year = {2015}, note = {PI}, pages = {59-72}, keywords = {allelochemicals, allelopathy, disturbance, eutrophic estuary, LTER-PIE, primary production, salt marsh, salt marsh loss}, doi = {10.3354/meps11334}, author = {Watson, E.B. and Wigand, C. and Oczkowski, A.J. and Sundberg, K. and Vendettuoli, D. and Jayaraman, S. and Saliba, K. and Morris, J.T.} } @article {PIE411, title = {Marsh-atmosphere exchange of CO2 in a New England salt marsh}, journal = {Journal of Geophysical Research- Biogeosciences}, volume = {120}, year = {2015}, note = {PD Plum Data}, keywords = {carbon dioxide, eddy covariance, LTER-PIE, primary production, salt marsh}, doi = {10.1002/2015JG003044}, author = {Forbrich, I. and Giblin, A.E.} } @mastersthesis {PIE370, title = {The effects of nitrate fertilization on the photosynthetic performance of the salt marsh cordgrass, Spartina alterniflora}, volume = {M.S.}, year = {2014}, note = {Grad}, school = {Clark University}, type = {mastersthesis}, keywords = {disturbance, LTER-PIE, nitrogen fertilization, primary production, salt marsh}, author = {Sullivan, H.L.} } @article {PIE358, title = {Latitudinal variation in the availability and use of dissolved organic nitrogen in Atlantic coast salt marshes}, journal = {Ecology}, year = {2014}, note = {Collab Plum Data}, keywords = {dissolved organic nitrogen, inorganic nutrients, LTER-PIE, primary production, salt marshes}, doi = {10.1890/13-1823.1}, author = {Mozdzer, T.J. and McGlathery, K.J. and Mills, A.L. and Zieman, J.C.} } @article {PIE366, title = {The relationships among hydrodynamics, sediment distribution, and chlorophyll in a mesotidal estuary.}, journal = {Estuarine and Coastal Shelf Science}, volume = {144}, year = {2014}, note = {PI Plum Data}, pages = {54-64}, keywords = {disturbance, hydrodynamics, LTER-PIE, microphytobenthos, primary production, sediments, tidal flats, tides, waves}, doi = {10.1016/j.ecss.2014.04.003}, author = {Fagherazzi, S. and Mariotti, G. and Banks, A.T. and Morgan, E.J. and Fulweiler, R.W.} } @article {PIE340, title = {Brinson Review: Perspectives on the influence of nutrients on the sustainability of coastal wetlands}, journal = {Wetlands}, volume = {33}, year = {2013}, note = {PI Plum Data}, pages = {975-988}, keywords = {inorganic nutrients, LTER-PIE, primary production, salt marsh, wetland sustainability}, doi = {10.1007/s13157-013-0480-3}, author = {Morris, J.T. and Shaffer, J.A. and Nynam, J.A.} } @thesis {PIE338, title = {Diversity of residential plant communities along an urbanization gradient}, volume = {BS}, year = {2013}, note = {Undergrad}, pages = {36}, school = {Brown University}, type = {bachelorsthesis}, address = {Providence, RI}, keywords = {LTER-PIE, plant diversity, population dynamics, primary production, suburban, urban gradient}, author = {Dixon, E.} } @thesis {PIE330, title = {Effect of eutrophication on benthic microalgae}, volume = {BS}, year = {2013}, note = {Undergrad}, school = {Middlebury College}, type = {bachelorsthesis}, address = {Middlebury, VT}, keywords = {fertilizer, inorganic nutrients, LTER-PIE, microalgae, primary production}, author = {Ritter, A.} } @thesis {PIE339, title = {The effects of urbanization on the aboveground carbon storage and tree species composition in the Boston Metropolitan Region}, volume = {BS}, year = {2013}, note = {Undergrad}, pages = {45}, school = {Brown University}, type = {bachelorsthesis}, address = {Providence, RI}, keywords = {LTER-PIE, population dynamics, primary production, residential yards, tree biomass, tree species, urbanization}, author = {Ward, E.} } @article {PIE332, title = {The ephemeral life of a salt marsh}, journal = {Geology}, volume = {41}, year = {2013}, note = {PI Synthesis}, pages = {943-944}, keywords = {accretion, disturbance, erosion, LTER-PIE, primary production, salt marsh}, doi = {10.1130/focus082013.1}, author = {Fagherazzi, S.} } @inbook {PIE326, title = {Future Suburban Development and the Environmental Implications of Lawns: A Case Study in New England, USA}, booktitle = {Modeling of Land-use and Ecological Dynamics}, series = {Cities and Nature}, year = {2013}, note = {PI Plum Data}, pages = {119-141}, publisher = {Springer}, organization = {Springer}, address = {New York, NY}, keywords = {disturbance, geomod, lawns, LTER-PIE, Plum Island Ecosystem, primary production, suburbanization, water use}, doi = {10.1007/978-3-642-40199-2_7}, author = {Runfola, D.M. and Polsky, C. and Giner, N. and Pontius, R.G., Jr. and Nicolson, C.}, editor = {Czamanski, D. and Benenson, I. and Malkinson, D.} } @article {PIE321, title = {A growing concern? Examining the influence of lawn size on residential water use in suburban Boston, MA, USA}, journal = {Landscape and Urban Planning}, volume = {119}, year = {2013}, note = {PI Plum Data}, pages = {113-123}, keywords = {disturbance, geomod, lawns, LTER-PIE, Plum Island Ecosystem, primary production, suburbanization, water use}, doi = {10.1016/j.landurbplan.2013.07.006}, author = {Runfola, D.M. and Polsky, C. and Nicolson, C. and Giner, N.M. and Pontius, R.G., Jr. and Krahe, J. and Decatur, A} } @book {PIE357, title = {Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. }, volume = {Technical Bulletin Number 1931}, year = {2013}, note = {PI Plum Data}, pages = {396}, publisher = {National Technical Information Services}, organization = {National Technical Information Services}, address = {Springfield, Virginia}, keywords = {disturbance, inorganic nutrients, LTER-PIE, organic matter, population dynamics, primary production}, author = {Peters, D.P.C. and Laney, C.M. and Lugo, A.E. and Collins, S.L. and Driscoll, C.T. and Groffman, P.M. and Grove, J.M. and Knapp, A.K. and JKratz, T.K. and Ohman, M.D. and Waide, R.B. and Yao, J.} } @article {PIE331, title = {Salt marsh primary production and its responses to relative sea level and nutrients}, journal = {Oceanography}, volume = {26}, number = {3}, year = {2013}, note = {PI Plum Data}, pages = {78-84}, keywords = {disturbance, inorganic nutrients, LTER-PIE, primary production, salt marshes, sea level}, doi = {10.5670/oceanog.2013.48}, author = {Morris, J.T. and Sundberg, K. and Hopkinson, C.S.} } @inbook {PIE195, title = {Adaptive management and monitoring as fundamental tools to effective salt marsh restoration.}, booktitle = {Restoring Tidal Flow to Salt Marshes: A Synthesis of Science and Management in New England (USA)}, year = {2012}, note = {PI Plum Data}, publisher = {Springer}, organization = {Springer}, chapter = {14}, keywords = {disturbance, LTER-PIE, primary production, restoration, tidal marsh}, doi = {10.5822/978-1-61091-229-7_14}, author = {Buchsbaum, R.N. and Wigand, C.A.}, editor = {Roman, C. and Burdick, D.} } @inbook {PIE303, title = {Assessment of Carbon Sequestration Potential in Coastal Wetlands.}, booktitle = {Recarbonization of the Bioshpere: Ecosystem and Global Carbon Cycle. }, year = {2012}, note = {PI Plum Data}, pages = {517-531}, publisher = {Springer}, organization = {Springer}, keywords = {anthropogenic disturbance, autochthonous, carbon sequestration, carbon stocks, coastal ecosystems, coastal wetlands, digital elevation model, diking, disturbance, drainage, holocene, LTER-PIE, mangroves, marsh equilibrium model, organic matter, organic rich soil, primary production, sea level rise, subsidence, suspended solids, tidal amplitude, tidal marshes, tide range}, doi = {10.1007/978-94-007-4159-1_24}, author = {Morris, J.T. and Edwards, J. and Crooks, S. and Reyes, E.}, editor = {Lal, R. and Lorenz, K. and H{\"u}ttl, R. and Schneider, B.U. and von Braun, J.} } @article {PIE289, title = {Beyond {\textquoteright}Lawn People{\textquoteright}: The role of emotions in suburban yard management practices}, journal = {The Professional Geographer}, year = {2012}, note = {PI Plum Data}, keywords = {disturbance, emotion, land use, lawn, LTER-PIE, Massachusetts, primary production, suburbs, yard}, doi = {10.1080/00330124.2012.681586}, author = {Harris, E.M. and Martin, D.G. and Polsky, C. and Denhardt, L. and Nehring, A.} } @article {PIE306, title = {Coastal eutrophication as a driver of salt marsh loss}, journal = {Nature}, volume = {490}, year = {2012}, note = {PI Plum Data}, pages = {388-392}, keywords = {coastal eutrophication, disturbance, geomorphology, LTER-PIE, nutrients, organic matter, population dynamics, primary production, salt marsh}, doi = {10.1038/nature11533}, author = {Deegan, L.A. and Johnson, D.S. and Warren, R.S. and Peterson, B.J. and Fleeger, J.W. and Fagherazzi, S. and Wollheim, W.M.} } @thesis {PIE335, title = {Factors influencing stem density in creekbank Spartina alterniflora in a New England salt marsh}, volume = {BA}, year = {2012}, note = {Undergrad}, pages = {24}, school = {Connecticut College}, type = {bachelorsthesis}, address = {New London, CT}, keywords = {LTER-PIE, New England, primary production, salt marsh, Spartina alterniflora, stem density}, author = {Chaisson, C.} } @thesis {PIE336, title = {Nutrient effects on Spartina patens decomposition dynamics in a New England salt marsh}, volume = {BS}, year = {2012}, note = {Undergrad}, school = {Brown University}, type = {bachelorsthesis}, address = {Providence, RI}, keywords = {inorganic nutrients, LTER-PIE, New England, organic matter, primary production, salt marsh, Spartina patens}, author = {Short, M.I.} } @article {PIE283, title = {The ebb and flood of silica: Quantifying dissolved and biogenic silica fluxes from a temperate salt marsh}, journal = {Estuarine, Coastal and Shelf Science}, volume = {95}, year = {2011}, note = {Collab Plum Data}, pages = {415-423}, keywords = {biogenic silica, diatoms, dissolved silica, inorganic nutrients, LTER-PIE, nutrient cycles, primary production, salt marshes}, doi = {10.1016/j.ecss.2011.10.012}, author = {Vieillard, A., and R.W. Fulweiler, R.W. and Hughes, Z. and Carey, J.} } @inbook {PIE344, title = {Ecosystem Metabolism}, booktitle = {Estuarine Ecology}, volume = {2}, year = {2011}, note = {PI Synthesis}, pages = {381 - 416}, publisher = {John Wiley and Sons, Inc.}, organization = {John Wiley and Sons, Inc.}, chapter = {15}, address = {Hoboken, NJ}, keywords = {ecosystem metabolism, estuaries, LTER-PIE, organic matter, oxygen, carbon dioxide, primary production}, doi = {10.1002/9781118412787.ch15}, author = {Testa, J.M. and Kemp, W.M. and Hopkinson, C.S. and Smith, S.V.}, editor = {Day, J.W. and Crump, B.C. and Kemp, W.M. and Yanez-Arancibia, A.} } @mastersthesis {PIE291, title = {Drivers of Residential Lawn Care in Suburban Massachusetts: A Quantitative and Qualitative Analysis of Four Massachusetts Towns}, year = {2010}, note = {Grad}, school = {Tufts University}, type = {mastersthesis}, address = {Medford}, keywords = {disturbance, land use, lawns, LTER-PIE, primary production, suburbia}, author = {von Trapp, K.} } @article {PIE185, title = {Effects of regular salt marsh haying on marsh plants, algae, invertebrates and birds at Plum Island Sound, Massachusetts}, journal = {Wetlands Ecology and Management}, volume = {17}, year = {2009}, note = {PI Plum Data}, pages = {469-487}, keywords = {coastal wetlands, disturbance, haying, LTER-PIE, Orchestia, organic matter, primary production, salt marsh, shorebirds, Spartina, stable isotopes}, doi = {10.1007/s11273-008-9125-3}, author = {Buchsbaum, R.N. and Deegan, L.A. and Horowitz, J. and Garritt, R.H. and Ludlam, J.P. and Shull, D. H.} } @article {PIE337, title = {Effects of warming and altered precipitation on plant and nutrient dynamics of a New England salt marsh}, journal = {Ecological Applications}, volume = {19}, number = {7}, year = {2009}, note = {Grad}, pages = {1758 - 1773}, keywords = {altered precipitation, climate change, decomposition, Distichlis spicata, disturbance, ecosystem services, LTER-PIE, nutrient cycling, open-topped chamber, primary production, salt marsh, Spartina alterniflora, Spartina patens}, doi = {10.1890/08-0172.1}, author = {Charles, H. and Dukes, J.S.} } @article {PIE212, title = {Impact of the dynamic feedback between sedimentation, sea level rise, and biomass production on near surface marsh stratigraphy and carbon accumulation}, journal = {Estuarine, Coastal and Shelf Science}, volume = {82}, year = {2009}, note = {PI Synthesis}, pages = {377-389}, keywords = {accretion, belowground biomass, carbon storage, disturbance, LTER-PIE, organic matter, organic sediments, primary production, salt marsh, sea-level rise}, doi = {10.1016/j.ecss.2009.01.028}, author = {Mudd, S.M. and Howell, S. and Morris, J.T.} } @article {PIE213, title = {Latitudinal trends in Spartina alterniflora productivity and the response of coastal marshes to global change}, journal = {Global Change Biology}, year = {2009}, note = {PI Synthesis}, keywords = {biomass, climate, disturbance, LTER-PIE, organic matter, primary production, sea level, temperature, warming, wetland}, doi = {10.1111/j.1365-2486.2008.01834.x}, author = {Kirwan, M.L. and Guntenspergen, G.R. and Morris, J.T.} } @article {PIE214, title = {Relationships Between Spartina alterniflora and Littoraria irrorata in a South Carolina Salt Marsh}, journal = {Wetlands}, volume = {29}, year = {2009}, note = {Grad}, pages = {818-825}, keywords = {bottom-up, detritivore, herbivory, Littoraria irrorata, LTER-PIE, population dynamics, primary production, Spartina, top-down}, doi = {10.1672/08-178.1}, author = {Kiehn, W.M and Morris, J.T.} } @article {PIE210, title = {Salt marsh ecosystem biogeochemical responses to nutrient enrichment: A paired 15N tracer study.}, journal = {Ecology}, volume = {90}, number = {9}, year = {2009}, note = {PD Plum Data}, pages = {2535-2546}, keywords = {biogeochemistry, disturbance, eutrophication, inorganic nutrients, LTER-PIE, New England, nitrogen processing efficiency, organic matter, primary production, salt marsh, stable isotopes, USA}, doi = {10.1890/08-1051.1}, author = {Drake, D.C. and Peterson, B.J. and Galv{\'a}n, K.A. and Deegan, L.A. and Fleeger, J.W. and Hopkinson, C. and Johnson, J.M. and Koop-Jakobsen, K. and Lemay, L.E. and Miller, E.E. and Picard, C. and Warren, R.S.} } @phdthesis {PIE359, title = {Variation in the availability and utilization of dissolved organic nitrogen by the smooth cordgrass, Spartina alterniflora}, volume = {PhD.}, year = {2009}, note = {Collab Plum Data}, pages = {179}, school = {University of Virginia}, type = {phdthesis}, address = {Charlottesville, VA}, keywords = {inorganic nitrogen, LTER-PIE, primary production, salt marshes}, author = {Mozdzer, T.J.} } @article {PIE220, title = {Weak response of saltmarsh infauna to ecosystem-wide nutrient enrichment and fish predator reduction: A four-year study}, journal = {Journal of Experimental Marine Biology and Ecology}, volume = {373}, year = {2009}, note = {Grad}, pages = {35-44}, keywords = {disturbance, inorganic nutrients, LTER-PIE, population dynamics, primary production}, doi = {10.1016/j.jembe.2009.03.003}, author = {Johnson, D.S. and Fleeger, J.W.} } @article {PIE197, title = {Biophysical controls on organic carbon fluxes in fluvial networks}, journal = {Nature Geoscience}, volume = {1}, year = {2008}, note = {PI Synthesis}, pages = {95-100}, keywords = {ecosystem metabolism, estuaries, fluvial networks, heterotrophy, inorganic nutrients, LTER-PIE, organic matter, primary production, rivers}, doi = {10.1038/ngeo101}, author = {Battin, T.J. and Kaplan, L. and Findlay, S. and Hopkinson, C. and Marti, E. and Packman, A. and Newbold, J.D. and Sabater, F.} } @article {PIE198, title = {Consequences of climate change on the ecogeomorphology of coastal wetlands}, journal = {Estuaries and Coasts}, volume = {31}, year = {2008}, note = {PI Synthesis}, pages = {477-491}, keywords = {climate change, coastal wetlands, disturbance, ecogeomorphology, LTER-PIE, organic matter, primary production}, doi = {10.1007/s12237-008-9047-6}, author = {Day, J.W. and Christian, R.R. and Boesch, D.M. and Yanez-Arancibia, A. and Morris, J.T. and Twilley, R.R. and Naylor, L. and Schaffner, L. and Stevenson, C.} } @article {PIE173, title = {Plant nitrogen dynamics in fertilized and natural New England saltmarshes: a paired 15N tracer study}, journal = {Marine Ecology Progress Series}, volume = {354}, year = {2008}, note = {PD Plum Data}, pages = {35-46}, keywords = {eutrophication, inorganic nitrogen, LTER-PIE, marsh ecosystem, nitrogen cycling, nitrogen isotopes, organic matter, plant ecophysiology, primary production, Spartina alterniflora, Spartina patens}, doi = {10.3354/meps07170}, author = {Drake, D.C. and Peterson, B.J. and Deegan, L.A. and Harris, L.A. and Miller, E.E. and Warren, R.S.} } @article {PIE177, title = {Stable isotope addition reveals dietary importance of phytoplankton and microphytobenthos to saltmarsh infauna}, journal = {Marine Ecology Progress Series}, volume = {359}, year = {2008}, note = {Grad}, pages = {37-49}, keywords = {food web, infauna, inorganic nutrients, isotope addition, LTER-PIE, microphytobenthos, organic matter, phytoplankton, population dynamics, primary production, saltmarsh, stable isotopes}, doi = {10.3354/meps07321}, author = {Galvan, K. and Fleeger, J.W. and Fry, B.} } @article {PIE199, title = {Top-down and bottom-up control of infauna varies across the saltmarsh landscape}, journal = {Journal of Experimental Marine Biology and Ecology}, volume = {357}, year = {2008}, note = {PI Plum Data}, pages = {20-34}, keywords = {disturbance, impact assessment, indirect effects, infauna, inorganic nutrients, LTER-PIE, population dynamics, primary production, saltmarsh gradient}, doi = {10.1016/j.jembe.2007.12.003}, author = {Fleeger, J.W. and Johnson, D.S. and Galv{\'a}n, K.A. and Deegan, L.A.} } @mastersthesis {PIE194, title = {Effects of Warming and Altered Precipitation on Plant and Nutrient Dynamics of a New England Salt Marsh}, volume = {M.S.}, year = {2007}, note = {Grad}, pages = {82}, school = {University of Massachusetts}, type = {mastersthesis}, address = {Boston, MA}, keywords = {climate change, disturbance, inorganic nutrients, LTER-PIE, organic matter, primary production, salt marsh}, author = {Charles, H.} } @inbook {PIE196, title = {Estimating net primary production of salt marsh macrophytes}, booktitle = {Principles and Standards for Measuring Primary Production}, year = {2007}, note = {PI Synthesis}, pages = {106-119}, publisher = {Oxford University Press}, organization = {Oxford University Press}, keywords = {allometry, harvest, intertidal zone, LTER-PIE, primary production, salt marsh, stem turnover}, doi = {10.1093/acprof:oso/9780195168662.003.0007}, author = {Morris, J.T.}, editor = {Fahey, T.J. and Knapp, A.K.} } @article {PIE236, title = {Susceptibility of salt marshes to nutrient enrichment and predator removal}, journal = {Ecological Applications}, volume = {17}, number = {5}, year = {2007}, note = {PI Plum Data}, pages = {S-42-S63}, keywords = {bottom-up, disturbance, eutrophication, Fundulus heteroclitus, inorganic nutrients, LTER-PIE, multiple stressors, nutrient loading, organic matter, population dynamics, primary production, salt marsh, Spartina alterniflora, Spartina patens, species change, top-down control}, doi = {10.1890/06-0452.1}, author = {Deegan, L.A. and Bowen, J.L. and Drake, D.C. and Fleeger, J.W. and Friedrichs, C.T. and Galv{\'a}n, K.A. and Hobbie, J.E. and Hopkinson, C. and Johnson, D.S. and Johnson, J.M. and Lemay, L.E. and Miller, E.E. and Peterson, B.J. and Picard, C. and Sheldon, S. and Sutherland, M. and Vallino, J. and Warren, R.S.} } @mastersthesis {PIE243, title = {Experimental nutrient enrichment of a New England salt marsh: plant productivity and community composition responses}, volume = {M.S.}, year = {2006}, note = {Grad}, school = {Connecticut College}, type = {mastersthesis}, address = {New London, CT}, keywords = {inorganic nutrients, LTER-PIE, nutrient enrichment, population dynamics, primary production}, author = {Miller, E.E.} } @article {PIE150, title = {Distribution of phosphatase activity in marsh sediments along an estuarine salinity gradient.}, journal = {Marine Ecological Progress Series}, volume = {292}, year = {2005}, note = {PI Plum Data}, pages = {75-83}, keywords = {acid phosphatase activity, estuary, inorganic nutrients, LTER-PIE, marsh sediment, primary production, salinity gradient}, doi = {10.3354/meps292075}, author = {Huang, X. and Morris, J.T.} } @article {PIE154, title = {Estimating estuarine gross production, community respiration and net ecosystem production: A nonlinear inverse technique.}, journal = {Ecological Modeling}, volume = {187}, year = {2005}, note = {PI Plum Data}, pages = {281-296}, keywords = {community respiration, dissolved oxygen, estuarine metabolism, gross primary production, inverse modeling, LTER, LTER-PIE, primary production}, doi = {10.1016/j.ecolmodel.2004.10.018}, author = {Vallino, J. and Hopkinson, C.S. and Garritt, R.H.} } @article {PIE152, title = {Integrating LIDAR, multispectral imagery and neural network modeling techniques for marsh classification.}, journal = {International Journal of Remote Sensing}, volume = {26}, year = {2005}, note = {PI Coastal}, pages = {5221-5234}, keywords = {disturbance, elevation, LiDAR, LTER-PIE, marsh classification, neural network modeling, population dynamics, primary production, sea level}, doi = {10.1080/01431160500219018}, author = {Morris, J. T. and Porter, D. and Neet, M. and Noble, P.A. and Schmidt, L. and Lapine, L.A. and Jensen, J.} } @article {PIE34, title = {Nitrogen biogeochemistry in the oligohaline zone of a New England estuary.}, journal = {Ecology}, volume = {81}, number = {2}, year = {2000}, note = {PD Plum Data}, pages = {416-432}, keywords = {15N, Actinocyclus normanii, diatoms, estuary, inorganic nutrients, land-margin ecosystem, LTER-PIE, nitrogen cycling, oligohaline zone, organic matter, phytoplankton, primary production, silica, stable isotopes, terrestrial-aquatic linkage}, doi = {10.2307/177437}, author = {Holmes, R. M. and Peterson, B.J. and Deegan, L. and Hughes, J. and Fry, B.} } @article {PIE38, title = {Nitrogen flow through the food web in the oligohaline zone of a New England estuary.}, journal = {Ecology}, volume = {81}, year = {2000}, note = {PD Plum Data}, pages = {433-452}, keywords = {15N-tracer, Actinocyclus normanii, benthivore, copepod, detritus, diatoms, disturbance, food web, inorganic nutrients, intertidal, LTER-PIE, macrofauna, nitrogen, oligohaline zone, planktivore, population dynamics, primary production}, doi = {10.2307/177438}, author = {Hughes, J. E. and Deegan, L.A. and Peterson, B.J. and Holmes, R.M. and Fry, B.} }