Salt marsh

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Salt marsh

A maritime habitat characterized by grasses, sedges, and other plants that have adapted to continual, periodic flooding. Salt marshes are found primarily throughout the temperate and subarctic regions.

The tide is the dominating characteristic of a salt marsh. The salinity of the tide defines the plants and animals that can survive in the marsh area. The vertical range of the tide determines flooding depths and thus the height of the vegetation, and the tidal cycle controls how often and how long vegetation is submerged. Two areas are delineated by the tide: the low marsh and the high marsh. The low marsh generally floods and drains twice daily with the rise and fall of the tide; the high marsh, which is at a slightly higher elevation, floods less frequently. See Mangrove

Salt marshes usually are developed on a sinking coastline, originating as mud flats in the shallow water of sheltered bays, lagoons, and estuaries, or behind sandbars. They are formed where salinity is high, ranging from 20 to 30 parts per thousand of sodium chloride. Proceeding up the estuary, there is a transitional zone where salinity ranges from 20 to less than 5 ppt. In the upper estuary, where river input dominates, the water has only a trace of salt. This varying salinity produces changes in the marsh—in the kinds of species and also in their number. Typically, the fewest species are found in the salt marsh and the greatest number in the fresh-water tidal marsh.

The salt marsh is one of the most productive ecosystems in nature. In addition to the solar energy that drives the photosynthetic process of higher rooted plants and the algae growing on the surface muds, tidal energy repeatedly spreads nutrient-enriched waters over the marsh surface. Some of this enormous supply of live plant material may be consumed by marsh animals, but the most significant values are realized when the vegetation dies and is decomposed by microorganisms to form detritus. Dissolved organic materials are released, providing an essential energy source for bacteria that mediate wetland biogeochemical cycles (carbon, nitrogen, and sulfur cycles). See Biological productivity

The salt marsh serves as a sediment sink, a nursery habitat for fishes and crustaceans, a feeding and nesting site for waterfowl and shorebirds, a habitat for numerous unique plants and animals, a nutrient source, a reservoir for storm water, an erosion control mechanism, and a site for esthetic pleasures. Appreciation for the importance of salt marshes has led to federal and state legislation aimed at their protection.

References in periodicals archive ?
First, we test for plant-mediated competitive interaction between two species of sap-feeding planthoppers, Prokelisia dolus and Prokelisia marginata (Hemiptera: Delphacidae), which co-occur on the intertidal salt marshes of North America (Denno et al.
In the fall, percentage of clams missing and total percentage predation were significantly lower in the intertidal sand flats than in the subtidal sand bottoms or the intertidal salt marsh edges (Fig.
Results of three-way ANOVAs comparing proportional losses of tethered juvenile hard clams (Mercenaria mercenaria) in different habitat types (subtidal sand bottoms, low-intertidal flats, mid-intertidal flats, and intertidal salt marsh edges) at different times of the year (summer and fall) and at two separate sites (site MM1 and MM2) (see Fig.
In the fall, clam predation mortality was lower in intertidal sand flats than in either subtidal sand bottoms or just inside the edge of intertidal salt marshes (Fig.
These results may explain the greater predation rates on clams just inside the edge of intertidal salt marshes, compared to intertidal sand flats, observed in the fall tethering experiment (Fig.