Tag: HYDRO-MEM

Nov 14

Publication | Coastal wetland response to sea-level rise in a fluvial estuarine system

K. Alizad, S.C. Hagen, J.T. Morris, S.C. Medeiros, M.V. Bilskie, J.F. Weishampel (2016). “Coastal wetland response to sea-level rise in a fluvial estuarine system.” Earth’s Future. In-Press. http://dx.doi.org/10.1002/2016EF000385.   Abstract Coastal wetlands are likely to lose productivity under increasing rates of sea-level rise (SLR). This study assessed a fluvial estuarine salt marsh system using the Hydro-MEM model under four …

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Permanent link to this article: http://www.mattbilskie.com/publication-coastal-wetland-response-to-sea-level-rise-in-a-fluvial-estuarine-system/

Feb 15

Publication | A Coupled, two-dimensional hydrodynamic-marsh model with biological feedback

  K. Alizad, S.C. Hagen, J.T. Morris, P. Bacopoulos, M.V. Bilskie, J.F. Weishampel, S.C. Medeiros (2016). “A coupled, two-dimensional hydrodynamic-marsh model with biological feedback.” Ecological Modeling, 327, 29-43,  http://dx.doi.org/10.1016/j.ecolmodel.2016.01.013 Abstract A spatially-explicit model (Hydro-MEM model) that couples astronomic tides and Spartina alterniflora dynamics was developed to examine the effects of sea-level rise on salt marsh productivity in northeast Florida. …

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Permanent link to this article: http://www.mattbilskie.com/publication-a-coupled-two-dimensional-hydrodynamic-marsh-model-with-biological-feedback/