Pantanal

The Pantanal (Portuguese pronunciation: [pɐ̃taˈnaw]) is a natural region encompassing the world's largest tropical wetland area, and the world's largest flooded grasslands. It is located mostly within the Brazilian state of Mato Grosso do Sul, but it extends into Mato Grosso and portions of Bolivia and Paraguay. It sprawls over an area estimated at between 140,000 and 195,000 km2 (54,000 and 75,000 sq mi). Various subregional ecosystems exist, each with distinct hydrological, geological and ecological characteristics; up to 12 of them have been defined.[3][4][5][6][7]

Pantanal
Typical Pantanal scenery
Map of the Pantanal ecoregion
Ecology
RealmNeotropical
BiomeFlooded grasslands and savannas
Geography
Area195,000 km2 (75,000 sq mi)
Countries
Conservation
Global 200Pantanal flooded savannas
LocationBrazil, Bolivia, Paraguay
CriteriaNatural: (vii), (ix), (x)
Reference999
Inscription2000 (24th Session)
Area187,818 km2 (72,517 sq mi)
Coordinates17°24′S 57°30′W
Official namePantanal Matogrossense
Designated24 May 1993
Reference no.602[1]
Official nameEl Pantanal Boliviano
Designated17 September 2001
Reference no.1089[2]
Pantanal is located in Brazil
Pantanal
Location of Pantanal in Brazil
Pantanal is located in South America
Pantanal
Pantanal (South America)

Roughly 80% of the Pantanal floodplains are submerged during the rainy seasons, nurturing a biologically diverse collection of aquatic plants and helping to support a dense array of animal species.

Etymology

The name "Pantanal" comes from the Portuguese word pântano that means "swamp", "wetland", "bog", "quagmire" or "marsh" plus the suffix -al, that means "abundance, agglomeration, collection"; By comparison, the Brazilian highlands are locally referred to as the planalto, that means "plateau" or, literally, "high plain".

Geography and geology

The Pantanal is about 140,000–160,000 km2 (54,000–62,000 sq mi),[8][9] gently-sloped basin that receives runoff from the upland areas (the Planalto highlands) and slowly releases the water through the Paraguay River and tributaries. The formation is a result of the large, concave pre-Andean depression of the Earth's crust, related to the Andean orogeny of the Tertiary. It constitutes an enormous internal river delta, in which several rivers flowing from the surrounding plateau merge, depositing their sediments and erosion residues, which have been filling, throughout the years, the large depression area of the Pantanal. This area is also one of the distinct physiographic provinces of the larger Parana-Paraguay Plain area, which encompasses a total of 1.5×10^6 km2 (580,000 sq mi).[10]

The Pantanal is bounded by the Chiquitano dry forests to the west and northwest, by the Arid Chaco dry forests to the southwest, and the Humid Chaco to the south. The Cerrado savannas lie to the north, east and southeast. The Pantanal is a tropical wet and dry region with an average annual temperate of 21.5 °C (70.7 °F) and rainfall at 1,320 mm (52 in) a year.[9] Throughout the year, temperature varies about 6.0 °C (10.8 °F) with the warmest month being November (with an average temperature of 26 °C or 79 °F) and the coldest month being June (with an average temperature of 20 °C or 68 °F). Its wettest month is January (with an average of 340 mm or 13 in) and its driest is June (with an average of 3 mm or 0.12 in).[9]

Hydrodynamics

Landscape

Floodplain ecosystems such as the Pantanal are defined by their seasonal inundation and desiccation.[3] They shift between phases of standing water and phases of dry soil, when the water table can be well below the root region.[3] Soils range from high levels of sand in higher areas to higher amounts of clay and silt in riverine areas.

Elevation of the Pantanal ranges from 80 to 150 m (260 to 490 ft) above sea level.[3] Annual rainfall over the flood basin is between 1,000 and 1,500 mm (39 and 59 in), with most rainfall occurring between November and March.[3] Annual average precipitation ranged from 920 to 1,540 mm in the years 1968-2000.[9] In the Paraguay River portion of the Pantanal, water levels rise between two meters to five meters seasonally; water fluctuations in other parts of the Pantanal are less than this.[3] Flood waters tend to flow slowly (2 to 10 cm (0.79 to 3.94 in) per second[3]) due to the low gradients and high resistance offered by the dense vegetation.

When rising river waters first contact previously dry soil, the waters become oxygen-depleted, rendering the water environs anoxic.[3] Many natural fish kills can occur if there are no oxygenated water refuges available. The reason for this remains speculative: it may be due to the growth of toxin-producing bacteria in the deoxygenated water rather than as a direct result of lack of oxygen.[3]

Flora

The vegetation of the Pantanal, often referred to as the "Pantanal complex", is a mixture of plant communities typical of a variety of surrounding biome regions: these include moist tropical Amazonian rainforest plants, semiarid woodland plants typical of northeast Brazil, Brazilian cerrado savanna plants and plants of the Chaco savannas of Bolivia and Paraguay.[3] Forests usually occur at higher altitudes of the region, while grasslands cover the seasonally inundated areas. The key limiting factors for growth are inundation and, even more importantly, water-stress during the dry season.[3]

According to Embrapa, approximately 2,000 different plants have been identified in the Pantanal biome and classified according to their potential, with some presenting significant medicinal promise.[11]

Fauna

The Pantanal ecosystem is home to some 463 species of birds,[5] 269 species of fishes, more than 236 species of mammals,[12] 141 species of reptiles and amphibians, and over 9,000 subspecies of invertebrates.

The apple snail is a keystone species in Pantanal's ecosystem. When the wetlands are flooded once a year, the grass and other plants will eventually die and start to decay. During this process, decomposing microbes deplete the shallow water of all oxygen, suffocating larger decomposers. Unlike other decomposing animals, the apple snails have both gills and lungs, making it possible for them to thrive in anoxic waters where they recycle the nutrients. To get oxygen, they extend a long snorkel to the water surface, pumping air into their lungs. This ability allows them to consume all the dead plant matter and turn it into nutritious fertilizer available for the plants in the area. The snails themselves are also food for a variety of animals.[13][14][15]

Among the rarest animals to inhabit the wetland of the Pantanal are the marsh deer (Blastocerus dichotomus) and the giant river otter (Pteronura brasiliensis). Parts of the Pantanal are also home to the following endangered or threatened species: the hyacinth macaw (Anodorhyncus hyacinthinus) (a bird endangered due to smuggling), the crowned solitary eagle (Buteogallus coronatus), the maned wolf (Chrysocyon brachyurus), the bush dog (Speothos venaticus), the South American tapir (Tapirus terrestris) and the giant anteater (Myrmecophaga tridactyla). Common species in the Pantanal include the capybara (Hydrochoerus hydrochaeris), Ocelot (Leopardus pardalis) and the yacare caiman (Caiman yacare). According to 1996 data, there were 10 million caimans in the Pantanal, making it the highest concentration of crocodilians in the World.[16] The Pantanal is home to one of the largest and healthiest jaguar (Panthera onca) populations on Earth.

There are thirteen species of herons and egrets, six species of ibises and spoonbills, and five species of kingfishers that use the Pantanal as a breeding and feeding ground. There are nineteen species of parrots documented in the Pantanal, including five species of macaws. Some migratory birds include the American golden plover, Peregrine falcon, and the Bobolink.[17]

Most fish are detritivores, primarily ingesting fine particles from sediments and plant surfaces.[3] This is characteristic of fish living in South American flood-plains in general. Fish migration between river channels and flood-plain regions occurs seasonally.[3] These fish have many adaptations that allow them to survive in the oxygen-depleted flood-plain waters.[3]

In addition to the caiman, some of the reptiles that inhabit the Pantanal are the yellow anaconda (Eunectes notaeus), the gold tegu (Tupinambis teguixin), the red-footed tortoise (Geochelone carbonaria) and the green iguana (Iguana iguana).

Threats

The Pantanal region includes essential sanctuaries for migratory birds, critical nursery grounds for aquatic life, and refuges for such creatures as the yacare caiman, deer, and Pantanal jaguar.[18] Most species are not under threat due to the low deforestation rates (less than 17%) of native vegetation now in the area due to new regulations.[19]

Some of the causes which threaten the Pantanal ecosystems are:

  • Fishing
    • Commercial fishing is focused on only a few species and is probably not sustainable.[20] National and international sport fishing in the Paraguay river and its tributaries are the main focus for fishing activities.[20] Local fishing communities have been under close watch by environmentalists as well.[19]
  • Cattle-ranching:
    • Approximately 99% of the land in the Pantanal is privately owned for the purpose of agriculture and ranching, even though there are some regulations on available land based on the extent of flooding during each wet season.[21][9]
    • There are 2500 fazendas in the region and up to eight million cattle.[22]
    • Erosion and sedimentation caused by this activity alter the soil and hydrological characteristics of Pantanal flood-plain ecosystems; consequently, native species are threatened by the change in ecosystem variables.[21]
  • Hunting, poaching, and smuggling of endangered species:[23] Reptile, wild cat and parrot species are particularly at risk from the smuggling industry due to their high value on the black market.
  • Uncontrolled tourism and overuse of natural resources
  • Deforestation
    • Establishment of logging companies during political turmoils in the region resulted in peak deforestation rates between 1978-1989. Many livelihoods were dependent on harvesting rubber trees as new waves of migrants arrived, resulting in what is now there today.[19]
    • Silt run-off from deforested highlands alters soil hydrology and is a significant threat to the Pantanal.[18]
  • Pollution from gold mining operations and agro-industry[21]
    • The Pantanal is a natural water treatment system as it removes chemicals, including pollutants, from water. Overpollution from industrial development (especially gold mining) can harm native flora and fauna.
    • However, water quality in the Pantanal was not significantly degraded as of 2002.[20]
  • Pollution from sewage systems and pesticides[23]
    • Movement to large-scale agriculture of food crops, mainly soy-beans, has adopted the use of large quantities of chemical pesticides and fertilizers which leach into the soil or run-off to the flood plains of the Pantanal.[17]
  • Infrastructure development (shipping canals, raised roads, pipelines):[21] The proposed plan to dredge the Paraguay and Paraná Rivers to allow oceangoing ships to travel 3,442 km (2,139 mi) inland is of particular concern and could affect the hydrology (flooding and drainage cycles) of the region, and therefore impact the ecosystem.[23][24]
  • Forest Fires : In late 2020, a quarter of the wetland was destroyed by an unprecedented fire occurred due to climate change. An area estimated of about 7681 square miles has been razed by the fire, killing millions of vertrebrates.[25] Experts say 2020 is the most active year on record for wildfires.[26] Until November 2020, Brazil's National Institute of Space Research (INPE) had detected more than 21,200 fires in the Pantanal biome, a figure that is already 69% higher than the full-year record from 2005, when INPE recorded roughly 12,500 fires. There were 8,106 fires in September 2020 alone—more than four times the historic average for the month.[27]
  • Climate change
    • Current predictive climate models indicate a progressive increase in the frequency of extreme events (e.g., extreme rainfalls and extended droughts). These events could affect the Pantanal´s ecosystem functioning, amplifying and worsening human modifications of hydrological and environmental conditions in the basin.[28]

Protected areas

Hotel SESC Porto Cercado in the SESC Reserve

A portion of the Pantanal in Brazil has been protected as the Pantanal Matogrossense National Park. This 1,350 km2 (520 sq mi) park, established in September 1981, is located in the municipality of Poconé in the State of Mato Grosso, between the mouths of the Baía de São Marcos and the Gurupi Rivers. The park was designated a Ramsar Site of International Importance under the Ramsar Convention on May 24, 1993.

The SESC Pantanal Private Natural Heritage Reserve (Reserva Particular do Patrimonio Natural SESC Pantanal) is a privately owned reserve in Brazil, established in 1998 and 878.7 km2 (339.3 sq mi) in size. It is located in the north-eastern portion, known as "Poconé" Pantanal, not far from the Pantanal National Park. It is a mix of permanent rivers, seasonal streams, permanent and seasonal floodplain freshwater lakes, shrub-dominated wetlands and seasonally flooded forests, all dedicated to nature preservation, and was designated a Ramsar Site of International Importance under the Ramsar Convention.

Otuquis National Park and Integrated Management Natural Area is a national park of Bolivia in the Pantanal. The entrance to Otuquis National park is through the town of Puerto Suarez.

Main cities

Brazil

Bolivia

Paraguay

In fiction

  • Pantanal appears as a natural wonder in the strategy game Civilization VI.
  • John Grisham's novel The Testament largely takes place in the Pantanal.
  • Pantanal is the title of a Brazilian-produced telenovela whose setting is the Brazilian Pantanal.
  • The Jack McKinney Robotech novel Before the Invid Storm makes reference to former soldiers of the Army of the Southern Cross called the Pantanal Brigade by the character Major Alice Harper Argus.
  • The Twilight Saga: The Amazon Coven: "The Amazon coven consists of three sisters, Kachiri, Zafrina, and Senna, all natives of the Pantanal wetlands."[29]
  • Pantanal makes an appearance in Tom Clancy's Ghost Recon: Wildlands as a region called Caimanes.

See also

References

  1. "Pantanal Matogrossense". Ramsar Sites Information Service. Retrieved 2018-04-25.
  2. "El Pantanal Boliviano". Ramsar Sites Information Service. Retrieved 2018-04-25.
  3. McClain, Michael E. (2002). The Ecohydrology of South American Rivers and Wetlands. International Association of Hydrological Sciences. ISBN 1-901502-02-3. Retrieved 2008-08-31.
  4. Susan Mcgrath, photos by Joel Sartore (August 2005) "Brazil's Wild Wet", National Geographic Magazine.
  5. Keddy, Paul; Fraser, Lauchlan (2005). The World's Largest Wetlands: Ecology and Conservation. Cambridge University Press. Retrieved 2008-08-31.
  6. Butler, Rhett A. (January 10, 2006). "Pantanal, the world's largest wetland, disappearing finds new report". mongabay.com. Retrieved 2006-01-10.
  7. "The World's largest wetland". The Nature Conservancy. Archived from the original on 2008-01-23. Retrieved 2008-01-21.
  8. Keddy, Paul A.; Fraser, Lauchlan H.; Solomeshch, Ayzik I.; Junk, Wolfgang J.; Campbell, Daniel R.; Arroyo, Mary T. K.; Alho, Cleber J. R. (January 2009). "Wet and Wonderful: The World's Largest Wetlands Are Conservation Priorities". BioScience. 59 (1): 39–51. doi:10.1525/bio.2009.59.1.8. ISSN 1525-3244. S2CID 53536143.
  9. Marengo, Jose A.; Oliveira, Gilvan S.; Alves, Lincoln M. (2015), Bergier, Ivan; Assine, Mario Luis (eds.), "Climate Change Scenarios in the Pantanal", Dynamics of the Pantanal Wetland in South America, Springer International Publishing, vol. 37, pp. 227–238, doi:10.1007/698_2015_357, ISBN 9783319187341
  10. "AQUASTAT - FAO's Information System on Water and Agriculture". www.fao.org. Retrieved 2019-10-09.
  11. Ministério do Meio Ambiente. "Pantanal". www.mma.gov.br (in Brazilian Portuguese). Retrieved 2019-06-14.
  12. Junk, Wolfgang J.; Brown, Mark; Campbell, Ian C.; Finlayson, Max; Gopal, Brij; Ramberg, Lars; Warner, Barry G. (September 29, 2006). "The comparative biodiversity of seven globally important wetlands: a synthesis". Aquatic Sciences. 68 (3): 400–414. doi:10.1007/s00027-006-0856-z. ISSN 1015-1621. S2CID 24369809.
  13. Fellerhoff, C. (2002). "Feeding and growth of apple snail Pomacea lineata in the Pantanal wetland, Brazil--a stable isotope approach". Isotopes Environ Health Stud. 38 (4): 227–43. doi:10.1080/10256010208033268. PMID 12725426. S2CID 204150084.
  14. "Apple Snail: Unlikely Hero of the Pantanal". Nature Box. Archived from the original on 2016-06-01. Retrieved 2016-09-09.
  15. "Secrets of our Living Planet, Waterworlds, Enter the apple snail". BBC Two. July 1, 2012. Retrieved 2016-09-09.
  16. Swarts, Frederick A. (2000). The Pantanal of Brazil, Paraguay and Bolivia: Selected Discourses on the World's Largest Remaining Wetland System: Selected Papers and Addresses from the World Conference on Preservation and Sustainable Development in the Pantanal. p. 7. ISBN 978-0-9675946-0-6. {{cite book}}: |work= ignored (help)
  17. Alho, Cleber J. R.; Vieira, Luiz M. (1997). "Fish and wildlife resources in the Pantanal wetlands of Brazil and potential disturbances from the release of environmental contaminants". Environmental Toxicology and Chemistry. 16 (1): 71–74. doi:10.1002/etc.5620160107. ISSN 1552-8618.
  18. Willink, Philip W. (2000). A Biological Assessment of the Aquatic Ecosystems of the Pantanal. The University of Texas. ISBN 9781881173359. Retrieved 2008-08-31.
  19. Chiaravalloti, Rafael Morais (2019). "The Displacement of Insufficiently 'Traditional' Communities: Local Fisheries in the Pantanal". Conservation & Society. 17 (2): 173–183. doi:10.4103/cs.cs_18_58. ISSN 0972-4923. JSTOR 26611743.
  20. McClain, Michael E. (2002). The Ecohydrology of South American Rivers and Wetlands. International Association of Hydrological Sciences. ISBN 1-901502-02-3. Retrieved 2008-08-31.
  21. Brendle, Anna (January 10, 2003). "Behind Threats to World's Largest Freshwater Wetland". National Geographic News. pp. 1–2. Retrieved 2011-08-23.
  22. Araras Eco Lodge. "Pantanal - Brazil's undiscovered wilderness". Ladatco Tours. Archived from the original on 2008-06-02. Retrieved 2008-01-22.
  23. "Pantanal". Terrestrial Ecoregions. World Wildlife Fund. Retrieved 2011-08-23.
  24. Gunther, Michel. "The Threats of Dams and Navigation Infrastructure on La Plata". 10 Rivers most at Risk. WWF. Retrieved 2011-08-23.
  25. Tomas, Walfrido Moraes; Berlinck, Christian Niel; Chiaravalloti, Rafael Morais; Faggioni, Gabriel Paganini; Strüssmann, Christine; Libonati, Renata; Abrahão, Carlos Roberto; do Valle Alvarenga, Gabriela; de Faria Bacellar, Ana Elisa; de Queiroz Batista, Flávia Regina; Bornato, Thainan Silva (December 16, 2021). "Distance sampling surveys reveal 17 million vertebrates directly killed by the 2020's wildfires in the Pantanal, Brazil". Scientific Reports. 11 (1): 23547. Bibcode:2021NatSR..1123547T. doi:10.1038/s41598-021-02844-5. ISSN 2045-2322. PMC 8677733. PMID 34916541.
  26. Arréllaga, Maria Magdalena; Londoño, Ernesto; Casado, Letícia (September 4, 2020). "Brazil Fires Burn World's Largest Tropical Wetlands at 'Unprecedented' Scale". The New York Times. ISSN 0362-4331. Retrieved 2020-10-18.
  27. Ivana Kottasová, Henrik Pettersson and Krystina Shveda (November 13, 2020). "The world's largest wetlands are on fire. That's a disaster for all of us". CNN. Retrieved 2020-11-19.
  28. Thielen, Dirk; Schuchmann, Karl-Ludwig; Ramoni-Perazzi, Paolo; Marquez, Marco; Rojas, Wilmer; Quintero, Jose Isrrael; Marques, Marinêz Isaac (January 7, 2020). "Quo vadis Pantanal? Expected precipitation extremes and drought dynamics from changing sea surface temperature". PLOS ONE. 15 (1): e0227437. Bibcode:2020PLoSO..1527437T. doi:10.1371/journal.pone.0227437. ISSN 1932-6203. PMC 6946591. PMID 31910441.
  29. The Twilight Saga: The Official Illustrated Guide p. 185.
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