New York City, United States
New York City, United States

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Roebig J.H.,HDR | McLaughlin J.K.,Office of Ecological Services Bureau of Environmental Planning and Analysis | Feller M.J.,Natural Resources Group NRG
Environmental Practice | Year: 2012

The success of urban salt marsh restoration depends upon an understanding of the local tidal regime and hydrologic conditions. Reference wetland characteristics can provide biological and physical restoration baselines for a restoration design through the use of techniques such as bio-benchmarking and geomorphologic assessment. Reference site vegetation can be used as indirect indicators of local tidal elevations and duration of flooding of each tidal zone. Reference sites can also provide landscape allometry to generate geomorphologic ratios that can be applied to the restoration site. Through the use of field measurements, aerial photographs, and GIS technology, relationships can be identified for tidal channel width, depth, diurnal tidal prism, and marsh area. Calculating a hydrologic budget for freshwater is critical to estimate salinity concentrations and their effect on the restoration wetland. This information, along with field measurements of salinity, can be used to predict salinity ranges resulting from the interaction of freshwater sources and will help determine the target vegetation communities. Preconstruction planning is not always sufficient to understand site conditions, especially in urban areas. Flexibility in design, even during the construction phase, may be required to assure project success. During excavation of fill, conditions were found at specific locations that would reduce the likelihood of reestablishing historic functions and values of the tidal marsh. Designs were altered at one low marsh area, which was redesigned as mudflat; and a second low marsh area that was changed to a freshwater fen. © 2012 National Association of Environmental Professionals.

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