%0 Journal Article
%J Ecological Applications
%D 2016
%T Saltmarsh plant responses to eutrophication
%A Johnson, D.S.
%A Warren, R.S.
%A Deegan, L.A.
%A Mozdzer, T.J.
%K coastal wetland
%K disturbance
%K eutrophication
%K global change
%K inorganic nutrients
%K LTER-PIE
%K nutrient pollution
%K plants
%K primary production
%K salt marsh
%K Spartina
%B Ecological Applications
%G eng
%M PIE416
%3 DEB-0816963, DEB-0213767, DEB-1354494, OCE-0923689, OCE-0423565, OCE-0924287, OCE-1238212, OCE-1354124
%] NSF-LTER-PIE
%R 10.1002/eap.1402
%F Journal Article
%0 Journal Article
%J Estuaries and Coasts
%D 2016
%T Spartina alterniflora biomass allocation and temperature: implications for salt marsh persistence with sea-level rise
%A Crosby, S.C.
%A Angermeyer, A.
%A Adler, J.M.
%A Bertness, M.D.
%A Deegan, L.A.
%A Sibinga, N.
%A Leslie, H.M.
%K biomass
%K climate change
%K elevation
%K LTER-PIE
%K primary production
%K salt marsh
%K smooth cordgrass
%K Spartina alterniflora
%B Estuaries and Coasts
%G eng
%M PIE419
%3 DEB-1354494, OCE-1238212
%] NSF-LTER-PIE
%R 10.1007/s12237-016-0142-9
%F Journal Article
%0 Book Section
%B Treatise on Geomorphology
%D 2013
%T Ecogeomorphology of Salt Marshes
%A Fagherazzi, S.
%A FitzGerald, D.M.
%A Fulweiler, R.W.
%A Hughes, Z.
%A Wiberg, P.L.
%A McGlathery, K.J.
%A Morris, J.T.
%A Tolhurst, T.J.
%A Deegan, L.A.
%A Johnson, D.S.
%E Shroder, J.
%E Butler, D.
%E Hubb, C.
%K disturbance
%K geomorphology
%K LTER-PIE
%K nutrients
%K salt marsh
%B Treatise on Geomorphology
%I Elsevier
%V 12
%P 180-200
%G eng
%M PIE300
%] NSF-LTER-PIE
%F Book Section
%0 Journal Article
%J Marine Ecological Progress Series
%D 2013
%T Mummichog, Fundulus heteroclitus, responses to long-term, whole-ecosystem nutrient enrichment.
%A Lockfield, K.
%A Fleeger, J.W.
%A Deegan, L.A.
%K abundance
%K eutrophication
%K growth rate
%K inorganic nutrients
%K LTER-PIE
%K mummichog
%K population dynamics
%K salt marsh
%B Marine Ecological Progress Series
%V 492
%P 211-222
%G eng
%M PIE333
%] NSF-LTER-PIE
%R 10.3354/meps10495
%F Journal Article
%0 Journal Article
%J Nature
%D 2012
%T Coastal eutrophication as a driver of salt marsh loss
%A Deegan, L.A.
%A Johnson, D.S.
%A Warren, R.S.
%A Peterson, B.J.
%A Fleeger, J.W.
%A Fagherazzi, S.
%A Wollheim, W.M.
%K coastal eutrophication
%K disturbance
%K geomorphology
%K LTER-PIE
%K nutrients
%K organic matter
%K population dynamics
%K primary production
%K salt marsh
%B Nature
%V 490
%P 388-392
%G eng
%M PIE306
%] NSF-LTER-PIE
%R 10.1038/nature11533
%F Journal Article
%0 Journal Article
%J The ISME Journal
%D 2011
%T Microbial community composition in salt marsh sediments resists perturbation by nutrient enrichment
%A Bowen, J.L.
%A Ward, B.B.
%A Morrison, H.G.
%A Hobbie, J.E.
%A Valiela, I.
%A Deegan, L.A.
%A Sogin, M.L.
%K denitrification
%K disturbance
%K estuaries
%K eutrophication
%K inorganic nitrogen
%K LTER-PIE
%K microbes
%K nirS
%K population dynamics
%K resistance
%K salt marsh
%B The ISME Journal
%V 5
%P 1540-1548
%G eng
%M PIE267
%] NSF-LTER-PIE
%R 10.1038/ismej.2011.22
%F Journal Article
%0 Journal Article
%J Wetlands Ecology and Management
%D 2009
%T Effects of regular salt marsh haying on marsh plants, algae, invertebrates and birds at Plum Island Sound, Massachusetts
%A Buchsbaum, R.N.
%A Deegan, L.A.
%A Horowitz, J.
%A Garritt, R.H.
%A Ludlam, J.P.
%A Shull, D. H.
%K coastal wetlands
%K disturbance
%K haying
%K LTER-PIE
%K Orchestia
%K organic matter
%K primary production
%K salt marsh
%K shorebirds
%K Spartina
%K stable isotopes
%B Wetlands Ecology and Management
%V 17
%P 469-487
%G eng
%M PIE185
%] NSF-LTER-PIE
%R 10.1007/s11273-008-9125-3
%F Journal Article
%0 Journal Article
%J Limnology and Oceanography
%D 2009
%T Increased supply of ambient nitrogen has minimal effect on salt marsh bacterial production
%A Bowen, J.L.
%A Crump, B.C.
%A Deegan, L.A.
%A Hobbie, J.E.
%K bacterial production
%K disturbance
%K inorganic nutrients
%K LTER-PIE
%K nitrogen
%K salt marsh
%B Limnology and Oceanography
%V 54
%P 713 - 722
%G eng
%M PIE209
%] NSF-LTER-PIE
%R 10.4319/lo.2009.54.3.0713
%F Journal Article
%0 Journal Article
%J Marine Ecology Progress Series
%D 2009
%T Large-scale manipulations reveal that top-down and bottom-up controls interact to alter habitat utilization by saltmarsh fauna
%A Johnson, D.S.
%A Fleeger, J.W.
%A Deegan, L.A.
%K disturbance
%K ecosystem experiments
%K epifauna
%K inorganic nitrogen
%K LTER-PIE
%K multi-stressors
%K parasites
%K population dynamics
%K salt marsh
%B Marine Ecology Progress Series
%V 377
%P 33-41
%G eng
%M PIE191
%] NSF-LTER-PIE
%R 10.3354/meps07849
%F Journal Article
%0 Journal Article
%J Ecology
%D 2009
%T Salt marsh ecosystem biogeochemical responses to nutrient enrichment: A paired 15N tracer study.
%A Drake, D.C.
%A Peterson, B.J.
%A Galván, K.A.
%A Deegan, L.A.
%A Fleeger, J.W.
%A Hopkinson, C.
%A Johnson, J.M.
%A Koop-Jakobsen, K.
%A Lemay, L.E.
%A Miller, E.E.
%A Picard, C.
%A Warren, R.S.
%K biogeochemistry
%K disturbance
%K eutrophication
%K inorganic nutrients
%K LTER-PIE
%K New England
%K nitrogen processing efficiency
%K organic matter
%K primary production
%K salt marsh
%K stable isotopes
%K USA
%B Ecology
%V 90
%P 2535-2546
%G eng
%M PIE210
%] NSF-LTER-PIE
%R 10.1890/08-1051.1
%F Journal Article
%0 Journal Article
%J The ISME Journal
%D 2009
%T Salt marsh sediment bacteria: their distribution and response to external nutrient inputs
%A Bowen, J.L.
%A Crump, B.C.
%A Deegan, L.A.
%A Hobbie, J.E.
%K bacteria
%K disturbance
%K inorganic nutrients
%K LTER-PIE
%K nitrogen
%K salt marsh
%B The ISME Journal
%V 3
%P 924 - 934
%G eng
%M PIE169
%] NSF-LTER-PIE
%R 10.1038/ismej.2009.44
%F Journal Article
%0 Journal Article
%J Marine Ecology Progress Series
%D 2008
%T Stable isotope monitoring of benthic-pelagic coupling with salt marsh fish
%A Fry, B.
%A Cieri, M.
%A Hughes, J.
%A Tobias, C.
%A Deegan, L.A.
%A Peterson, B.
%K benthic microalgae
%K fish
%K LTER-PIE
%K monitoring
%K organic matter
%K population dynamics
%K power analysis
%K salt marsh
%K Spartina
%K stable isotope analysis
%B Marine Ecology Progress Series
%V 369
%P 193-204
%G eng
%M PIE200
%] NSF-LTER-PIE
%R 10.3354/meps07644
%F Journal Article
%0 Journal Article
%J Ecological Applications
%D 2007
%T Susceptibility of salt marshes to nutrient enrichment and predator removal
%A Deegan, L.A.
%A Bowen, J.L.
%A Drake, D.C.
%A Fleeger, J.W.
%A Friedrichs, C.T.
%A Galván, K.A.
%A Hobbie, J.E.
%A Hopkinson, C.
%A Johnson, D.S.
%A Johnson, J.M.
%A Lemay, L.E.
%A Miller, E.E.
%A Peterson, B.J.
%A Picard, C.
%A Sheldon, S.
%A Sutherland, M.
%A Vallino, J.
%A Warren, R.S.
%K bottom-up
%K disturbance
%K eutrophication
%K Fundulus heteroclitus
%K inorganic nutrients
%K LTER-PIE
%K multiple stressors
%K nutrient loading
%K organic matter
%K population dynamics
%K primary production
%K salt marsh
%K Spartina alterniflora
%K Spartina patens
%K species change
%K top-down control
%B Ecological Applications
%V 17
%P S-42-S63
%G eng
%M PIE236
%] NSF-LTER-PIE
%R 10.1890/06-0452.1
%F Journal Article
%0 Conference Proceedings
%B New England Estuarine Research Society (NEERS), March 7-9, 2004
%D 2004
%T The effects of long term nutrient addition on a salt marsh community.
%A Sheldon, S.P.
%A Twichell, S.
%A Deegan, L.A.
%K community
%K LTER-PIE
%K nitrogen
%K outfall
%K salt marsh
%B New England Estuarine Research Society (NEERS), March 7-9, 2004
%C Burlington, Vermont
%G eng
%M PIE136
%] NSF-LTER-PIE
%F Other
%0 Conference Proceedings
%B New England Estuarine Research Society (NEERS)
%D 2004
%T What makes mummichogs grow? The relationship between growth rates and gut contents of Fundulus heteroclitus held in enclosures along a salinity gradient in a New England salt marsh.
%A Freeman, C.J.
%A Haas, H.
%A Warren, S.
%A Deegan, L.A.
%A Logan, J.
%K LTER-PIE
%K mummichog
%K salt marsh
%B New England Estuarine Research Society (NEERS)
%C Burlington, Vermont
%G eng
%M PIE123
%] NSF-LTER-PIE
%F Other