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David T. Osgood ;Joseph C. Zieman 1993. Spatial and Temporal Patterns of Substrate Physicochemical Parameters in Different-Aged Barrier-Island Marshes 37 (4): 421-436. ://A1993ME09500006.
David T. Osgood ;Santos, Mcfv ;Joseph C. Zieman 1995. Sediment Physico-Chemistry Associated with Natural Marsh Development on a Storm-Deposited Sand Flat 120 (1-3): 271-283. ://A1995QY53700027.
David T. Osgood 1996. Vegetation patterns and nutrient dynamics in naturally developing barrier island marshes : 271-283.
David T. Osgood ;Joseph C. Zieman 1998. The influence of subsurface hydrology on nutrient supply and smooth cordgrass (Spartina alterniflora) production in a developing barrier island marsh 21 (4B): 767-783. ://000078746300010.
Oura, S. 1993. Clay mineralogy of suspended sediments of the Eastern Shore marshes : 767-783.
Parsons, K. ;Brown, S. ;Erwin, R Michael. ;Czech, H.  Czech, H. 2002. Introduction: Managing wetlands for waterbirds – Integrated approaches
Peierls, B. L. ;Robert R. Christian ;Paerl, H. W. 2003. Water quality and phytoplankton as indicators of hurricane impacts on a large estuarine ecosystem 26 (5): 1329-1343. ://000187463000011.
Poff, N. L. ;Mark M. Brinson ;Day Jr, J. W. 2002. Potential Impacts on Inland Freshwater and Coastal Wetland Ecosystems in the United States : 45. HTTP://www.pewclimate.org/projects/aquatic.cfm :45.
John H. Porter 1988. Mice in Motion: Dispersal in Two species of Peromyscus
Julie C. Naumann ;Donald R. Young 2007. Relationship between community structure and seed bank to describe successional dynamics of an Atlantic Coast maritime forest 134: 89-98.
Neikirk, B. 1996. Exchanges of dissolved inorganic nitrogen and dissolved organic carbon between salt marsh sediments and overlying tidal water
Scott C. Neubauer 2000. Carbon dynamics in a tidal freshwater marsh
Scott C. Neubauer ;Miller, W D. ;Iris Anderson 2000. Carbon cycling in a tidal freshwater marsh ecosystem: a carbon gas flux study 199: 13-30.
Scott C. Neubauer ;Iris Anderson ;Constantine, J. A. ;Kuehl, S. A. 2002. Sediment deposition and accretion in a mid-Atlantic (U.S.A) tidal freshwater marsh 54: 713-727.
Newell, S. Y. ;Linda K. Blum ;Crawford, R. E. ;Dai, T. ;Dionne, M. 2000. Autumnal biomass and potential productivity of salt marsh fungi from 29 degrees to 43 degrees North latitude along the United States Atlantic coast 66 (1): 180-185. ://000084585800027.
Nuttle, W. K. ;Hemond, H. F. 1994. Salt marsh hydrology: implications for biogeochemical fluxes to the atmosphere and estuaries
OBrien, S. ;Bruce P. Hayden ;Shugart, Hank H. 1992. Global climate change, hurricanes and a tropical rain forest 22: 175-190.
Odum, W. E. ;Hoover, J. K.  al., et 1987. A comparison of vascular plant communities in tidal freshwater and salt water marshes : 526-534.
Odum, W. E. 1988. Comparative Ecology of Tidal Freshwater and Salt Marshes 19: 147-176.
Odum, W. E. 1988. Non-tidal Freshwater Wetland in Virginia 7: 421-434.