Salt ponds are a natural feature of both temperate and tropical coastlines. These ponds form a vital buffer zone between terrestrial and marine ecosystems. Contaminants such as sediment, nitrates and phosphates are filtered out by salt ponds before they can reach the ocean. The depth, salinity and overall chemistry of these dynamic salt ponds fluctuate depending on temperature, rainfall, and anthropogenic influences such as
nutrient runoff. The flora and fauna of tropical salt ponds differ markedly from those of temperate ponds. Mangrove trees are the dominant vegetation of tropical salt pond ecosystems, which also serve as vital feeding and breeding grounds for shore birds.
Formation and cycle
Tropical salt ponds form as bays are gradually closed off with berms of rubble from the reef. Mangroves grow atop the berms, which gradually close off the area to create a salt pond.
[Jarecki, L. 1999. A review of salt pond ecosystems. In Proceedings of the Nonpoint Source Pollution Symposium. University of the Virgin Islands, Eastern Caribbean Center, St. Thomas, U.S. Virgin Islands.] These typically form at the base of watersheds with steep slopes, as sediments transported during storm events begin to fill in and cover up the rubble berm.
Mangroves
A mangrove is a shrub or tree that grows in coastal saline or brackish water. The term is also used for tropical coastal vegetation consisting of such species. Mangroves are taxonomically diverse, as a result of convergent evolution in several ...
may grow over the berm, also contributing to the isolation of the salt pond.
Typically, the ponds communicate with the open sea through ground seepage.
Evaporation and precipitation cycles in salt ponds create variable environments with wide ranges of salinity and depth.
Due to depth and temperature fluctuation salt pond could be classified as hyposaline 3-20 ppt, mesosaline 20-50 ppt, or hypersaline with ppt greater than 50.
Another important aspect of salt ponds is their permanence.
[Williams, W.D. 1998. Salinity as a determinant of the structure of biological communities in salt lakes. ‘’Hydrobiologica’’ 381: 191-201.] Salt ponds can eventually become filled in over time, and transition into an extension of the land.
[Gagemi, A. 2003. Ecological Assessment of Salt Ponds on St. John, USVI. Thesis (M.Eng.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering.] Some are intermittent ponds due to predictable dry and wet seasons while others are episodic (if the region has highly unpredictable weather).
[Hall, K. & K. KellerLynn. 2010. Virgin Islands National Park: geologic resources inventory report. Natural Resource Report NPS/NRPC/GRD/NRR—2010/226. National Park Service, Fort Collins, Colorado.]
Flora and fauna
Organisms typically found in and around tropical salt ponds include cyanobacteria, marine invertebrates, birds, algae and mangrove trees. For example, a typical Caribbean salt pond is the permanent or part-time home to the following:
Microorganisms
*
Bacteria
Bacteria (; singular: bacterium) are ubiquitous, mostly free-living organisms often consisting of one biological cell. They constitute a large domain of prokaryotic microorganisms. Typically a few micrometres in length, bacteria were among ...
, especially
cyanobacteria
Cyanobacteria (), also known as Cyanophyta, are a phylum of gram-negative bacteria that obtain energy via photosynthesis. The name ''cyanobacteria'' refers to their color (), which similarly forms the basis of cyanobacteria's common name, blu ...
such as
** ''
Coccochloris stagnina''
** ''
Microcoleus chthonoplastes''
** ''
Oscillatoria
''Oscillatoria'' is a genus of filamentous cyanobacterium which is often found in freshwater environments, such as hot springs, and appears blue-green. Its name refers to the oscillating motion of its filaments as they slide against each other ...
''
** ''
Phormidium
''Phormidium'' is a genus of cyanobacteria
Cyanobacteria (), also known as Cyanophyta, are a phylum of gram-negative bacteria that obtain energy via photosynthesis. The name ''cyanobacteria'' refers to their color (), which similarly for ...
''
*
Ciliates
The ciliates are a group of alveolates characterized by the presence of hair-like organelles called cilia, which are identical in structure to flagellum, eukaryotic flagella, but are in general shorter and present in much larger numbers, with a ...
Invertebrate animals
*
Rotatoria (rotifers)
*
Worm
Worms are many different distantly related bilateral animals that typically have a long cylindrical tube-like body, no limbs, and no eyes (though not always).
Worms vary in size from microscopic to over in length for marine polychaete wor ...
s including
**
Nematoda
The nematodes ( or grc-gre, Νηματώδη; la, Nematoda) or roundworms constitute the phylum Nematoda (also called Nemathelminthes), with plant-parasitic nematodes also known as eelworms. They are a diverse animal phylum inhabiting a broa ...
(round worms)
**
Polychaeta
Polychaeta () is a paraphyletic class of generally marine annelid worms, commonly called bristle worms or polychaetes (). Each body segment has a pair of fleshy protrusions called parapodia that bear many bristles, called chaetae, which are m ...
(segmented worms)
*
Cnidaria
Cnidaria () is a phylum under kingdom Animalia containing over 11,000 species of aquatic animals found both in freshwater and marine environments, predominantly the latter.
Their distinguishing feature is cnidocytes, specialized cells that th ...
(cnidarians)
*
Gastropoda
The gastropods (), commonly known as snails and slugs, belong to a large taxonomic class of invertebrates within the phylum Mollusca called Gastropoda ().
This class comprises snails and slugs from saltwater, from freshwater, and from land. ...
(snails and clams)
*
Crustacea
Crustaceans (Crustacea, ) form a large, diverse arthropod taxon which includes such animals as decapods, seed shrimp, branchiopods, fish lice, krill, remipedes, isopods, barnacles, copepods, amphipods and mantis shrimp. The crustacean gro ...
**
Cladocera
The Diplostraca or Cladocera, commonly known as water fleas, are a superorder of small crustaceans that feed on microscopic chunks of organic matter (excluding some predatory forms).
Over 1000 species have been recognised so far, with many more ...
(water fleas)
**
Ostracoda
Ostracods, or ostracodes, are a class of the Crustacea (class Ostracoda), sometimes known as seed shrimp. Some 70,000 species (only 13,000 of which are extant) have been identified, grouped into several orders. They are small crustaceans, typical ...
(seed shrimp)
**
Copepoda
Copepods (; meaning "oar-feet") are a group of small crustaceans found in nearly every freshwater and saltwater habitat. Some species are planktonic (inhabiting sea waters), some are benthic (living on the ocean floor), a number of species have p ...
(copepods)
**
Anostraca
Anostraca is one of the four orders of crustaceans in the class Branchiopoda; its members are referred to as fairy shrimp. They live in vernal pools and hypersaline lakes across the world, and they have even been found in deserts, ice-covered m ...
(brine shrimp), especially Artemia
**
Decapoda
The Decapoda or decapods (literally "ten-footed") are an order of crustaceans within the class Malacostraca, including many familiar groups, such as crabs, lobsters, crayfish, shrimp and prawns. Most decapods are scavengers. The order is esti ...
(crabs) such as Ocypodidae (fiddler crab)
*
Insecta
Insects (from Latin ') are pancrustacean hexapod invertebrates of the class Insecta. They are the largest group within the arthropod phylum. Insects have a chitinous exoskeleton, a three-part body ( head, thorax and abdomen), three pairs o ...
(insects) such as
**
Ephydridae
Ephydridae (shore fly, sometimes brine fly) is a family of insects in the order Diptera.
Shore flies are tiny flies that can be found near seashores or at smaller inland waters, such as ponds. About 2,000 species have been described worldwide, in ...
(brine fly)
**
Corixidae (water boatmen)
Vertebrate animals
*
Fish
Fish are aquatic, craniate, gill-bearing animals that lack limbs with digits. Included in this definition are the living hagfish, lampreys, and cartilaginous and bony fish as well as various extinct related groups. Approximately 95% of li ...
such as mullet (Mugil)
*
Birds
Birds are a group of warm-blooded vertebrates constituting the class Aves (), characterised by feathers, toothless beaked jaws, the laying of hard-shelled eggs, a high metabolic rate, a four-chambered heart, and a strong yet lightweigh ...
such as
** Yellow Legs (''
Tringa
''Tringa'' is a genus of waders, containing the shanks and tattlers. The genus name ''Tringa'' is the New Latin name given to the green sandpiper by the Italian naturalist Ulisse Aldrovandi in 1599. They are mainly freshwater birds, often with ...
'' spp.)
** Black Necked Stilts (''
Himantopus mexicanus
The black-necked stilt (''Himantopus mexicanus'') is a locally abundant shorebird of Americas, American wetlands and coastlines. It is found from the coastal areas of California through much of the interior western United States and along the Gul ...
'')
** Wilson’s Plovers (''
Charadrius wilsonia'')
** Pin Tail Ducks (''
Anas bahamensis'')
*
Bats
Bats are mammals of the order Chiroptera.''cheir'', "hand" and πτερόν''pteron'', "wing". With their forelimbs adapted as wings, they are the only mammals capable of true and sustained flight. Bats are more agile in flight than most bi ...
Plants
* Algae such as
Enteromorpha
The sea lettuces comprise the genus ''Ulva'', a group of edible green algae that is widely distributed along the coasts of the world's oceans. The type species within the genus ''Ulva'' is ''Ulva lactuca'', ''lactuca'' being Latin for "lettuce ...
* Vascular plants
**
Ruppia
''Ruppia'', also known as the widgeonweeds, ditch grasses or widgeon grass, is the only extant genus in the family Ruppiaceae, with eight known species. These are aquatic plants widespread over much of the world. The genus name honours Heinrich ...
grass
**
Mangrove trees
Salt pond mangroves
There are 110 species of mangroves found worldwide all with special adaptations that allow for them to inhabit salt ponds. Mangroves are often found near or around salt ponds because of their ability to exist in an ecosystem with high salinity, low dissolved oxygen levels, brackish water, and extreme temperatures. Mangroves’ unique prop roots function as a barrier to the salt water, limiting water loss, and acting as a snorkel for oxygen and nutrients. Mangroves seeds have also evolved to be buoyant and germinate while still attached to the parent increasing the chance of survival in difficult environments.
The presence of mangroves augments and helps maintain many of the benefits provided by salt ponds, such as:
[Lugo, A.E.. & S.C. Snedaker 1974. The Ecology of Mangroves. ‘’Annual Review of Ecology and Systematics’’ 3: 39-64.]
* Mangrove salt ponds provide habitat for migratory species and critical nursery habitat for threatened and endangered species.
* Mangrove trees filter run off from upland sources.
* Mangrove trees absorb wave energy during tropical storms
* Mangrove trees provide a source of nutrients via leaf litter
* Mangrove trees hold in soil loads during periods of fierce precipitation
Caribbean salt ponds commonly host three types of mangroves:
* ''
Rhizophora mangle
''Rhizophora mangle'', the red mangrove, is distributed in Estuary, estuarine ecosystems throughout the tropics. Its Vivipary, viviparous "seeds", in actuality called propagules, become fully mature plants before dropping off the parent tree. Th ...
'' (red mangroves) are very common around salt ponds and are tremendous at dissipating wave energy and providing habitat for developmental organisms due to their large prop roots.
* ''
Avicennia germinans
''Avicennia germinans'', the black mangrove, is a shrub or small tree growing up to 12 meters (39 feet) in the acanthus family, Acanthaceae. It grows in tropical and subtropical regions of the Americas, on both the Atlantic and Pacific Coasts, ...
'' (black mangrove) is easily identifiable by numerous finger like projections, called pneumatophores, allowing them to tolerate high sediment loads.
* ''
Laguncularia racemosa
''Laguncularia racemosa'', the white mangrove, is a species of flowering plant in the leadwood tree family, Combretaceae. It is native to the coasts of western Africa from Senegal to Cameroon, the Atlantic Coast of the Americas from Bermuda an ...
'' (white mangrove) is dissimilar to red and black mangroves in that it lacks prop roots and pneumatophores but is easily identifiable due to its very round leaves and small wrinkled propagules.
Ecosystem services
Salt ponds provide a number of important
ecosystem services
Ecosystem services are the many and varied benefits to humans provided by the natural environment and healthy ecosystems. Such ecosystems include, for example, agroecosystems, forest ecosystem, grassland ecosystems, and aquatic ecosystems. Th ...
.
Protection from sediment and storms
Salt ponds act as natural sediment traps that limit the amount of sedimentation and pollutants that would otherwise end up in the ocean, potentially harming other ecosystems. Salt ponds are home to dense benthic mats of bacteria which also trap nutrients such as nitrogen that otherwise would greatly contribute to detrimental marine eutrophication.
Coral reefs are particularly vulnerable to sedimentation, siltation, and eutrophication processes.
[Smith, T., et al. 2008. Assessing coral reef health across onshore to offshore stress gradients in the US Virgin Islands. ‘’Marine pollution bulletin’’ 56: 1983-1991.] Salt ponds and their mangrove systems act as a buffer from storm surges associated with hurricanes and greatly dissipate wave energy that could cause erosion, including even large, rare waves such as tsunamis.
[Division and Fish and Wildlife. 2005. United States Virgin Islands marine resources and fisheries strategic and comprehensive conservation plan. Department of Planning and Natural Resources, U.S. Virgin Islands.]
Products of salt ponds
In addition to these ecosystem services, salt ponds also produce a variety of useful products. ''Artemia'', one of the primary food organisms for aquaculture systems, are cultured in salt ponds. Halophilic green algae can also be cultured in salt ponds to produce glycerol, dried protein that can be fed to livestock, and β–carotene used in dietary supplements. ''Spirulina'' is a salt-loving cyanobacterium with a protein content even higher than meat (60%), and it can be cultured in salt ponds. Other halophilic bacteria can be used to produce components used in highly technological processes. Photosynthetic pigment found in ''Halobacterium halobium'' is produced commercially and used for optical data processing, non-linear optics and as light sensors. Halophilic bacteria could also be used to produce polyhydroxyalkanoates (PHA) which are biodegradable, water resistant thermoplastics.
Threats
Both anthropogenic and natural threats affect tropical salt ponds.
Natural threats
Natural threats include hurricanes and other large storms, salinity changes, runoff, sedimentation, and grazing and predation. Hurricanes and other large storms can damage salt pond organisms as well as cause seawater overwash, leading to potentially detrimental salinity changes and physical damage. Salinity may also be reduced by precipitation, which can alter community composition by restricting the number and type of species adapted for these conditions. Furthermore, increased evapotranspiration can increase salinity and diminish species diversity. Local conditions, such as annual rainfall and slope aspect, can determine runoff amounts. Influxes of runoff can cause sediment deposition in salt ponds, eventually causing infill of the pond to occur. Natural grazing and predation around salt ponds can trample vegetation, increase local erosion, and introduce nutrients to the ecosystem.
Anthropogenic threats
Anthropogenic threats to salt ponds include development and altered hydrology, pollution, erosion, and livestock and agricultural operations. Salt ponds may be filled, dredged, or removed for marinas, harbors, buildings, or other uses. Construction in upland areas also affects salt ponds by causing increased erosion and sedimentation.
[Gray, S., K. Gobbi & P. Narwold. 2008. Comparison of sedimentation in bays and reefs below developed versus undeveloped watersheds on St. John, US Virgin Islands. Proceedings of the 11th International Coral Reef Symposium, Ft. Lauderdale, Florida, 7–11 July 2008, Session number 10.379, p. 374] Pollution is also a major threat to salt ponds. These areas are frequent dumping sites for trash, wastewater, and solid waste. Livestock grazing can not only increase erosion through soil compaction and deforestation, but also introduces fertilizers. Agriculture can also introduce fertilizers and pesticides, causing algal blooms and reduced water quality. Anthropogenic activities, such as fossil fuel burning, can cause increased global temperatures and could lead to the drying of salt ponds. As many of the biological functions of salt ponds are unknown, it would be wise to mitigate potential human impact on these vulnerable ecosystems.
References
{{Reflist
Aquatic biomes
Terrestrial biomes
Aquatic ecology
Mangrove ecoregions
Mangroves
Ecosystems