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A tidal marsh (also known as a type of "tidal wetland") is a marsh found along rivers, and estuary which floods and drains by the tide of the adjacent estuary, sea or ocean.[1] U.S. Environmental Protection Agency: Tidal marshes Tidal marshes experience many overlapping persistent cycles, including Diurnal cycle and semi-diurnal tides, day-night temperature fluctuations, spring-neap tides, seasonal vegetation growth and decay, upland runoff, decadal climate variations, and centennial to millennial trends in sea level and climate.
Tidal marshes are formed in areas that are sheltered from waves (such as beside edges of bays), in upper slops of intertidal, and where water is fresh or saline. They are also impacted by transient disturbances such as hurricanes, floods, storms, and upland fires.
The state of tidal marshes can be dependent on both natural and anthropogenic processes. In recent periods, human practices, small and large scale, have caused changes in ecosystems that have had a significant impact on the preservation of tidal marsh ecosystems. Some smaller scale changes include Headward erosion and coastal development. Large system changes include pollution and sea level rise (from climate change). These changes are all putting pressure on tidal marshes.
They can be categorized based on salinity level, elevation, and sea level. Tidal marshes are commonly zoned into lower marshes (also called intertidal marshes) and upper/ high marshes, based on their elevation above sea level. A middle marsh zone also exists for freshwater tidal marshes. Location determines the controlling processes, age, disturbance regime, and future persistence of tidal marshes. Tidal marshes are differentiated into freshwater, brackish, and salt according to the salinity of their water.
Tidal freshwater marshes are further divided into deltaic and fringing types.
Extensive research has been conducted on deltaic tidal freshwater marshes in the Chesapeake Bay, which were formed as a result of historic deforestation and intensive agriculture.
Freshwater tidal marshes are highly productive and are home to a variety of organisms. There is a variety of vegetation that can reside in freshwater marshes. There is also a vast amount of insects which attract birds, such as wrens and warrens. Aquatic birds, such as ducks and herons, also live in these marshes. Freshwater tidal marshes also serve as spawning grounds for anadromous fish, such as shad and herring. These fish spend most of their lives in saltwater areas, but return to freshwater during reproduction.
Tidal freshwater marshes are also highly productive, generate a large amount of good quality biomass. They also serve as good waste treatment areas, based on denitrification potential.
Some different types include bottomland hardwood swamps, , and palustrine wetlands.
Saltwater tidal marshes are correlated with higher decomposition rates and lower denitrification rates.
Other ecosystem services include their role as significant and shoreline stabilizers. Tidal marshes provide flood protection to upland areas by storing ground water, and lessen the impact of on nearby shorelines. Tidal marshes located along coastlines also act as intricate filtration systems for watersheds.Carter, V. 1997. Technical Aspects of Wetlands: Wetland Hydrology, Water Quality, and Associated Functions. United States Geological Survey Water Supply Paper 2425 These areas absorb and trap pollutants from water run-off that travels from higher elevations to open water.
Historical changes (due to anthropogenic activity) to tidal marshes have a lasting impact on them today. Tidal marshes have experienced the Gold rush which filled some marshes with sediment due to erosion. Logging has also damaged tidal marshes due to their decomposition and filling of marshes. Tidal marshes sensitivity to anthropogenic activity have created long lasting affects.
Currently, rising sea levels is one of the leading threats to tidal marshes caused by global warming and climate change. Pollution due to urbanization also continues to endanger tidal marsh ecosystems.
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