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Johnson D.S., Fleeger J.W., Galván K.A., Moser E.B..  2007.  Worm holes and their space-time continuum: Spatial and temporal variability of macroinfaunal annelids in a northern New England salt marsh. Estuaries and Coasts. 30:226-237.
Freeman C.J., Haas H., Warren S., Deegan L.A., Logan J..  2004.  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. New England Estuarine Research Society (NEERS).
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Burdick D., Buchsbaum R., Holt E..  2001.  Variation in soil salinity associated with the expansion of Phragmites australis in salt marshes. Environmental and Experimental Botany. 46:247-261.
Kiehn W.M., Morris J.T..  2010.  Variability in dimethylsulfoniopropionate (DMSP) in Spartina alterniflora and its effect on Littoraria irrorata.. Marine Ecology Progress Series. 406:47-55.
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Johnson D.S..  2008.  Trophic control of saltmarsh invertebrates. Ph.D.
Koop-Jakobsen K., Giblin A.E..  2002.  Tidal flushing of ammonium from intertidal salt marsh sediments - the relative importance of adsorbed ammonium. Biological Bulletin. 203:258-259.
Mitwally H.M., Fleeger J.W..  2016.  A test of biological trait analysis with nematodes and an anthropogenic stressor. Environmental Monitoring and Assessment. 188
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Deegan L.A., Bowen J.L., Drake D.C., Fleeger J.W., Friedrichs C.T., Galván K.A., Hobbie J.E., Hopkinson C., Johnson D.S., Johnson J.M. et al..  2007.  Susceptibility of salt marshes to nutrient enrichment and predator removal. Ecological Applications. 17:S-42-S63.
Horowitz J..  2001.  Stable istopic analysis of food webs in hayed and reference salt marshes. B.S.
Fry B., Cieri M., Hughes J., Tobias C., Deegan L.A., Peterson B..  2008.  Stable isotope monitoring of benthic-pelagic coupling with salt marsh fish. Marine Ecology Progress Series. 369:193-204.
Ganju N.K., Defne Z., Kirwan M.L., Fagherazzi S., D'Alpaos A., Carniello L..  2017.  Spatially integrative metrics reveal hidden vulnerability of microtidal salt marshes. Nature Communications. 8
Crosby S.C., Angermeyer A., Adler J.M., Bertness M.D., Deegan L.A., Sibinga N., Leslie H.M..  2016.  Spartina alterniflora biomass allocation and temperature: implications for salt marsh persistence with sea-level rise. Estuaries and Coasts.
Pennings S., Alber M., Alexander C., Booth M., Burd A., Cai W-J., Craft C., DePratter C., Di Iorio D., Hopkinson C. et al..  2012.  South Atlantic Tidal Wetlands. Wetland Habitats of North America: Ecology and Conservation Concerns. :45-61.
Kearney W.S..  2018.  Signals of Nonlinear, Multiscale and Stochastic Processes in Coastal Landscapes. PhD
Thomas F, Morris J.T., Wigand C., Sievert S.M..  2019.  Short-term effect of simulated salt marsh restoration by sand-amendment on sediment bacterial communities. PLoS ONE. 14
Spivak A.C., Gosselin K., Howard E., Mariotti G., Forbrich I., Stanley R., Sylva S.P..  2017.  Shallow ponds are heterogeneous habitats within a temperate salt marsh ecosystem. Journal of Geophysical Research: Biogeosciences. 122
Wong R..  2019.  The Sediment Sonata: The Relationship Between Marsh Sediment Compaction and the Burrowing Behavior of the Atlantic Sand Fiddler Crab Leptuca (Uca) pugilator. . BS
Fagherazzi S., Anisfeld S.C., Blum L.K., Long E.V., Feagin R.A., Fernandes A., Kearney W.S., Williams K..  2019.  Sea Level Rise and the Dynamics of the Marsh-Upland Boundary. Frontiers in Environmental Science.
Johnson D.S., Warren R.S., Deegan L.A., Mozdzer T.J..  2016.  Saltmarsh plant responses to eutrophication. Ecological Applications.
Kearney W.S., Fagherazzi S..  2016.  Salt marsh vegetation promotes efficient tidal channel networks. Nature Communications. 7
Bowen J.L., Crump B.C., Deegan L.A., Hobbie J.E..  2009.  Salt marsh sediment bacteria: their distribution and response to external nutrient inputs. The ISME Journal. 3:924-934.
Spivak AC, Denmark A, Gosselin KM, Sylva SP.  2020.  Salt Marsh Pond Biogeochemistry Changes Hourly-to-Yearly but Does Not Scale With Dimensions or Geospatial Position. Journal of Geophysical Research: Biogeosciences. 125:e2020JG005664.
Spivak A.C., Denmark A., Gosselin K., Sylva S.P..  2020.  Salt Marsh Pond Biogeochemistry Changes Hourly to Yearly but Does Not Scale With Dimensions or Geospatial Position. Journal of Geophysical Research: Biogeosciences. 125
Miller G.J.  2019.  Salt marsh health and biomass responses to a changing environment. :140.
Fagherazzi S., Torres R., Hopkinson C., vanProosdij D..  2004.  The Salt Marsh Geomorphology: Physical and Ecological Effects on Landform. AGU Chapman Conference. 86:57-58.

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