• Wetlands can be classified in terms of salinity:
  • Freshwater wetlands, with salinities less than 1000 mg/L.

  • Saltwater wetlands, with salinities greater than 1000 mg/L.

• Natural saltwater wetlands can be classified in terms of the type of vegetation:
  • Salt marsh, dominated by emergent herbaceous plant species.

  • Mangrove, dominated by woody plant species.

• Natural freshwater wetlands can be classified in terms of the type of vegetation:
  • Freshwater marsh, dominated by emergent herbaceous plant species adapted to various flooding patterns.

  • Freshwater swamp, dominated by woody plant species adapted to flooding.

• Figure 4.3 shows typical components of a wetland system. These are:

  • Underlying strata, unaltered organic, mineral or lithic strata, typically saturated or impervious, below the rooted zone.

  • Hydric soils, containing roots, rhizomes, tubers, tunnels, burrows, and other connections to the surface system.

  • Detritus, the accumulation of live and dead organic material.

  • Seasonally flooded zone, providing habitat for aquatic organisms, algae and microbes.

  • Emergent vegetation, vascular, rooted plant species which contain structural components that emerge above the water, including both herbaceous and woody plants species.

• Technically, wetlands occur when one or more of these components occur.

CONSTRUCTED WETLANDS

• The purposeful construction of wetland ecosystems is a relatively new technology.

• Constructed wetlands are systems that are built expressly for water quality treatment.

• Wetlands are engineered and constructed for the following reasons:

  • To compensate for and help offset the loss of natural wetlands to development (habitat wetland).

  • To improve water quality (treatment wetland).

  • To provide flood control (flood control wetland)

  • To produce food and fiber (aquaculture wetland).

CONSTRUCTED TREATMENT WETLANDS

• Constructed treatment wetlands have a water quality objective.

• Wastewaters to be treated can be municipal, industrial, and agricultural, and also stormwater.

• Treatment wetlands are built at, above, or below the existing land surface.

• Earthwork is primarily fills to create berms or levees.

• A low cost design will attempt to balance cut and fill.

• Liners or relatively impervious site soils are critical to the success of treatment wetlands in areas where groundwater levels are well below the ground surface.

• An unlined constructed treatment wetland can become dessicated and unable to support wetland vegetation.

• Soils of low permeability or groundwater at or close to the ground surface will avoid the need for liners.

• To protect groundwater quality, liners will be necessary.

• Liners can be made of clay, clay-bentonite mixtures, poly-vinyl-chloride (PVC), or high-density polyethylene (HDPE).

• Wetland plants require an adequate rooting medium.

• Rooting substrate must allow the development of ample roots for stability and nutrition of the mature plants.

• Most wetland plants will grow slowly or die in dense clay soils or angular rocks.

• A loamy or sandy topsoil layer is ideal for propagation of most wetland plant species.

• The Army Corps of Engineers, which implements Section 404 of the Clean Water Act, has excluded treatment ponds and lagoons from its definition of regulated waters of the U.S.

• This policy has generally been followed for wetlands.

• However, in cases where treatment ponds and constructed wetlands have been abandoned and have developed significant environmental and wetland functions, the Corps has ruled that these areas have become waters of the U.S.