Abstract
The exact size of the wetland area of South America is not known but may comprise as much as 20% of the sub-continent, with river floodplains and intermittent interfluvial wetlands as the most prominent types. A few wetland areas have been well studied, whereas little is known about others, including some that are very large. Despite the fact that most South American countries have signed the Ramsar convention, efforts to elaborate basic data have been insufficient, thereby hindering the formulation of a wetland-friendly policy allowing the sustainable management of these areas. Until now, the low population density in many wetland areas has provided a high level of protection; however, the pressure on wetland integrity is increasing, mainly as a result of land reclamation for agriculture and animal ranching, infrastructure building, pollution, mining activities, and the construction of hydroelectric power plants. The Intergovernmental Panel on Climate Change has predicted increasing temperatures, accelerated melting of the glaciers in Patagonia and the Andes, a rise in sea level of 20–60 cm, and an increase in extreme multiannual and short-term climate events (El Niño and La Niña, heavy rains and droughts, heat waves). Precipitation may decrease slightly near the Caribbean coast as well as over large parts of Brazil, Chile, and Patagonia, but increase in Colombia, Ecuador, and Peru, around the equator, and in southeastern South America. Of even greater impact may be a change in rainfall distribution, with precipitation increasing during the rainy season and decreasing during the dry season. There is no doubt that the predicted changes in global climate will strongly affect South American wetlands, mainly those with a low hydrologic buffer capacity. However, for the coming decades, wetland destruction by wetland-unfriendly development planning will by far outweigh the negative impacts of global climate change. South American governments must bear in mind that there are many benefits that wetlands bring about for the landscape and biodiversity as well as for humans. While water availability will be the key problem for the continent’s cities and agroindustries, intact wetlands can play a major role in storing water, buffering river and stream discharges, and recharging subterranean aquifers.
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Abe DS, Tundisi JG, Vannucci D and Sidagis-Galli C 2006 Avaliação da capacidade de remoção de nitrogênio em uma várzea da cabeceira do reservatório de Guarapiranga, região metropolitana de São Paulo. In: Tundisi JG, Matsumura-Tundisi T, Sidagis-Galli C (eds) Eutrofisação na América do Sul: Causas, conseqüências e tecnologias de gerenciamento e controle. Instituto Internacional de Ecologia, São Carlos-SP, Brazil, pp 241–253
Agostinho AA, Pelicice FM, Petry AC, Gomes LC, Júlio HF Jr (2007) Fish diversity in the upper Paraná River basin: habitats, fisheries, management and conservation. Aquat Ecosyst Health Manage 10(2):174–186
Assine ML, Soares PC (2004) Quaternary of the Pantanal, west-central Brazil. Quatern Int 114:23–34
Baigún CRM, Puig A, Mintoti PG, Kandus P, Quintana R, Vicari R, Bo R, Oldani NO and Nestler JA (2008) Resource use in the Paraná River Delta (Argentina): moving away from an ecohydrological approach? Ecohydrol Hydrobiol 8(2–4):245–262
Balmford A, Bruner A, Cooper P, Costanza R, Farber S, Green RE, Jenkins M, Jefferiss P, Jessamy V, Madden J, Munro K, Myers N, Naeem S, Paavola J, Rayment M, Rosendo S, Roughgarden J, Trumper K and Turner RK (2002) Economic reasons for conserving wild nature. Science 297:950–953
Bayley PB and Petrere M Jr (1989) Amazon fisheries: Assessment methods, current status, and management options. Canadian Special Publication of Fisheries and Aquatic Sciences 106:385–398
Behling H, Safford HD (2009) Late-glacial and Holocene vegetation, climate and fire dynamics in the Serra dos Orgâos Mountains of Rio de Janeiro State, southeastern Brazil. Glob Change Biol 16(6):1661–1671
Blanco DE, Balze de la VM (eds) (2004) Los turbales de la Patagonia: Bases para su inventário y la conservación de su biodiversidad. Wetlands International—America del Sur No 19, Buenos Aires, Argentina
Bozelli RL, Esteves F de A, Roland F (eds) (2000) Lago Batata: impacto e recuperação de um ecossistema Amazônico. UFRJ/SBL, Brazil
Brinson MM, Malvárez AI (2002) Temperate freshwater wetlands: types, status, and threats. Environ Conserv 29(2):115–133
Canevari P, Blanco DE, Bucher EH, Castro G, Davidson I (1999) Humedales de la Argentina: clasificación, situación actual, conservación y legislación. Wetlands International 46, 208 pp
Chao NL, Petry P, Prang G, Sonneschien L, Tlusty M (eds) (2001) Conservation and management of ornamental fish resources of the Rio Negro Basin, Amazonia, Brazil—Project Piaba. Editora da Universidade do Amazonas, Manaus
Colinvaux PA, Irion G, Räsänen ME, Bush MB, Nunes de Mello JAS (2001) A paradigm to be discarded: geological and paleoecological data falsify the Haffer and Prance refuge hypothesis of Amazonian speciation. Amazoniana 16:609–646
Collantes M and Faggi AM (1999) Los humedales del sur de Sudamérica. In: Malvárez AI (ed) Tópicos sobre humedales subtropicales y templados de Sudamérica. UNESCO, Montevideo, pp 15–25
Costanza R, d’Arge R, de Groot R, Farber S, Grasso M, Hannon B, Limburg K, Naeem S, O’Neill RV, Paruel J, Raskin RG, Sutton P and Van den Belt M (1997) The value of the world’s ecosystem services and natural capital. Nature 387:253–260
Cox P, Harris P, Huntingford C, Betts R, Collins M, Jones C, Jupp T, Marengo J, Nobre C (2008) Increase risk of Amazonian drought do to decreasing aerosol pollution. Nature 453:212–216
Deil U (2005) A review of habitats, plant traits and vegetation of ephemeral wetlands—a global perspective. Phytocoenologia 35(2–3):533–705
Denevan WM (1966) The aboriginal cultural geography of the Llanos de Moxos of Bolivia. Ibero-Americana 48, University of California Press, Berkeley
Denevan WM (1976) The aboriginal population of Amazonia. In: Denevan WM (ed) The native population of the Americas. University of Wisconsin Press, Madison, pp 205–234
Drago EC, Wantzen KM, Paira AR (2008) The Lower Paraguay river-floodplain habitats in the context of the Fluvial Hydrosystem Approach. Ecohydrol Hydrobiol 8(1):49–66
Eva HD, Belward AS, Miranda EE de, Bella CM di, Gond V, Huber O, Jones S, Sgrenzaroli M and Fritz S (2004) A land cover map of South America. Global Change Biol 10:731–744
Fearnside PM (1989) Brazil’s Balbina Dam: environment versus the legacy of the pharaohs in Amazônia. Environ Manage 13(4):401–423
Fearnside PM (1995) Hydroelectric dams in the Brazilian Amazon as sources of “greenhouse gases”. Environ Conserv 22:7–19
Galdino S, Vieira LM and Pellegrin LA (2006) Impactos ambientais e socioeconômicos na bacia do Rio Taquari—Pantanal. Embrapa Pantanal, Corumbá, MS
Galvis G, Mojica JI (2007) The Magdalena River fresh water fishes and fisheries. Aquat Ecosyst Health Manage 10(2):127–139
Gopal B, Junk WJ, and Davis JA (2000, 2001) Biodiversity in wetlands: assessment, function and conservation. Part 1 and 2. Backhuys Publishers, Leiden
Gopal B, Junk WJ, Finlayson CM and Breen CM (2008) Present state and future of tropical wetlands. In: Polunin N (ed) Aquatic Ecosystems. Cambridge University Press, Cambridge, UK for Foundation for Environmental Conservation, pp 142–154
Goulding M (1980) The fishes and the forest: explorations in Amazonia natural history. California University Press, Berkeley
Goulding M, Carvalho ML and Ferreira EG (1988) Rio Negro: rich life in poor water. SPB Academic Publishing bv, The Netherlands
Goulding M, Smith NJH and Mahar DJ (1996) Floods of fortune: ecology and economy along the Amazon. Columbia University Press, New York
Greenpeace (2006) Mudanças climáticas, mudanças de vida: como o aquecimento global já afeta o Brazil. Greenpeace-Brazil, São Paulo, http://www.greenpeace.org.br
Haffer J, Prance GT (2001) Climatic forcing of evolution in Amazonia during the Cenozoic: on the refuge theory of biotic differentiation. Amazoniana 16:579–607
Hamilton SK, Sippel SJ, Melack JM (1996) Inundation patterns in the Pantanal wetland of South America determined from passive microwave remote sensing. Archiv für Hydrobiologie 137:1–23
Hamilton SK, Sippel SJ, Melack JM (2004) Seasonal inundation patterns in two large savanna floodplains of South América: the Llanos de Moxos (Bolivia) and the Llanos del Orinoco (Venezuela and Colombia). Hydrol Process 18:2103–2116
Heckman CW (1998) The Pantanal of Poconé. Kluwer, Den Haag
Hoorn C, Wesselingh FP, ter Steege H, Bermudez MA, Mora A, Sevink J, Sanmartín I, Sanchez-Mesenguer A, Anderson CL, Figueiredo JP, Jaramillo C, Riff D, Negri FR, Hooghiemstra H, Lundberg J, Stadler T, Särkinen T, Antonelli A (2010) Amazônia through time: andean uplift, climate change, landscape evolution and biodiversity. Science 330:927–931
Huszar P, Petermann P, Leite A, Resende E, Schnack E, Schneider E, Francesco F, Rast G, Schnack J, Wasson J, Garcia Lozano L, Dantas M, Obrdlik P and Pedroni R (1999) Fact or fiction: a review of the Hydrovia Paraguay-Paraná official studies. Full report and executive summary, Toronto, Canada, WWF
IPCC (2007) Climate Change 2007: synthesis report: Contribution of Working Groups I, II and III to the fourth assessment report of the Intergovernmental Panel on Climate Change. IPCC, Geneva, Switzerland, 104 pp
Irion G, Buchas H, Junk WJ, Nunes da Cunha C, Morais JO de, and Kasbohm J (2010) Aspects of geological and sedimentological evolution of the Pantanal plain. In: Junk WJ, da Silva CJ, Nunes da Cunha C and Wantzen KM (eds) The Pantanal: ecology, biodiversity and sustainable management of a large neotropical seasonal wetland. Pensoft, Sofia-Moscow 47–70
Irion G, Mello JASN de, Morais J, Piedade MTF, Junk WJ and Garming L (2010) Development of the Amazon valley during the Middle to Late Quaternary: sedimentological and climatological observations. In: Junk WJ, Piedade MTF, Wittmann F, Schöngart J, Parolin P (eds) Central Amazonian floodplain forests: ecophysiology, biodiversity and sustainable management. Springer, Berlin/Heidelberg/New York 27–42
Iriondo MH, Garcia NO (1993) Climatic variations in the Argentine plains during the last 18,000 years. Palaeogeogr Palaeoclimatol Palaeoecol 101:209–220
Iriondo MH, Paggi JC and Parma MJ (2007) The Middle Paraná River: limnology of a subtropical wetland. Springer, Berlin/Heidelberg
Jenkins G, Betts R, Collins M, Griggs D, Lowe J, Wood R (2005) Stabilizing climate to avoid dangerous climate change—a summary of relevant research at the Hadley Centre. Department for Environment Food and Rural Affairs, Met Office Hadley Centre, Exeter, UK
Junk WJ (1993) Wetlands of tropical South América. In: Whigham D, Hejny S, Dykyjova D (eds) Wetlands of the world I. Kluwer Academic Publishers, Dordrecht, pp 679–739
Junk WJ (ed) (1997a) The Central Amazon floodplains: ecology of a pulsing system. Ecological Studies, vol 126, Springer, Berlin/Heidelberg/New York
Junk WJ (1997b) Structure and function of the large central Amazonian river floodplains: synthesis and discussion. In: Junk WJ (ed) The Central Amazon floodplains: ecology of a pulsing system. Ecological Studies, vol 126, Springer, Berlin/Heidelberg/New York, pp 455–472
Junk WJ (2005) Flood pulsing and the linkages between terrestrial, aquatic, and wetland systems.-. Proc Int Assoc Theor Appl Limnol 29(1):11–38
Junk WJ (2007) Freshwater fishes of South America: their biodiversity, fisheries, and habitats—a synthesis. Aquat Ecosyst Health Manage 10(2):228–242
Junk WJ, Piedade MTF (1993) Herbaceous plants in the floodplain near Manaus: species diversity and adaptations to the flood pulse. Amazoniana 12:467–484
Junk WJ and Wantzen KM (2004) The Flood Pulse Concept: new aspects, approaches, and applications—an update. In: Welcomme RL and Petr T (eds) Proceedings of the Second International Symposium on the Management of Large Rivers for Fisheries, vol 2. Food and Agriculture Organization & Mekong River Commission. RAP Publication 2004/16. FAO Regional Office for Asia and the Pacific, Bangkok, pp 117–149
Junk WJ, Bayley PB, Sparks RE (1989) The Flood Pulse Concept in River-Floodplain Systems. Special Publication of the Can J Fish Aquat Sci 106:110–127
Junk WJ, Ohly JJ, Piedade MTF and Soares MGM (eds) (2000) The central Amazon floodplain: actual use and options for a sustainable management. Backhuys Publishers, Leiden
Junk WJ, Nunes da Cunha C, Wantzen KM, Petermann P, Strüssmann C, Marques MI and Adis J (2006) Biodiversity and its conservation in the Pantanal of Mato Grosso, Brazil. Aquat Sci 68(3):278–309
Junk WJ, Nunes de Mello JAS (1987) Impactos ecológicos das represas hidrelétricas na bacia amazônica brasileira. Tübinger Georg. Studien 95:367–385
Junk WJ, Soares MGM, Bayley PB (2007) Freshwater fishes of the Amazon River basin: their biodiversity, fisheries and habitats. Aquat Ecosyst Health Manage 10(2):153–173
Junk WJ, Piedade MTF, Wittmann F, Schöngart J and Parolin P (eds) (2010) Amazon floodplain forests: ecophysiology, biodiversity and sustainable management. Ecological Studies, vol 210, Springer, Berlin/Heidelberg/New York
Junk WJ, da Silva CJ, Nunes da Cunha C and Wantzen KM (eds) (2011a) The Pantanal of Mato Grosso: ecology, biodiversity and sustainable management of a large neotropical seasonal wetland. Pensoft, Sofia-Moscow
Junk WJ, Piedade MTF, Schöngart J, Cohn-Haft M, Adeney JM, Wittmann F (2011b) A classification of major naturally-occurring Amazonian lowland wetlands. Wetlands 31:623–640
Junk WJ, Wantzen KM, Nunes da Cunha C and da Silva CJ (2011b) Ecology, biodiversity and sustainable management of the Pantanal: a synthesis. In: Junk WJ, da Silva CJ, Nunes da Cunha C, Wantzen KM (eds) The Pantanal of Mato Grosso: ecology, biodiversity and sustainable management of a large neotropical seasonal wetland. Pensoft, Sofia-Moscow, pp 835–857
Kalliola R, Puhakka M, Danjoy W (1993) Amazônia peruana: vegetación húmeda tropical em el Llano subandino. Projecto Amazonia Universidad de Turku e Oficina Nacional de Evaluación de Recursos Naturales, Lima, p 265
Kandus P, Minotti P, Malvárez AI (2008) Distribution of wetlands in Argentina estimated from soil charts. Acta Sci Biol Sci 30(4):403–409
Keller M, Bustamante M, Gash J and Dias PS (2009) Amazonia and global change. Geophys Monogr 186, American Geophysical Union, Washington, DC 565 pp
Keller M, Bustamante M, Gash J and Dias PS (eds) (2009) Amazonia and global change. Geophys Monogr 186, American Geophysical Union, Washington, DC
Kemenes A, Forsberg BR and Melack JM (2007) Methane release below a hydroelectric dam. Geophys Res Lett 34:L12809. doi:10.1029/2007GL029479
King JM, Tharme RE, Brown CA (1999) Definition and implementation of instream flows. Thematic Report for the World commission on Dams. Southern Waters Ecological Research and Consulting, Cape Town, p 87
Lacerda LD (2001) Mangrove ecosystems: functions and management. Springer, Berlin/Heidelberg/New York
Lewis WM Jr, Weibezahn FH, Saunders JF III, Hamilton SK (1990) The Orinoco River as an ecological system. Interciencia 15:346–357
Lewis WM Jr., Hamilton SK, Lasi MA, Rodriguez M, Saunders III JF (2000) Ecological determinism on the Orinoco floodplain. Bioscience 50:681–692
Loarie SR, Duffy PB, Hamilton H, Asner GP, Field CB, Ackerly DD (2009) The velocity of climate change. Nature 462:1052–1055
Machado RB, Harris MB, Silva SM and Ramos Neto MB (2011) Human impacts and environmental problems in the Brazilian Pantanal. In: Junk WJ, da Silva CJ, Nunes da Cunha C and Wantzen KM (eds) The Pantanal of Mato Grosso: ecology, biodiversity and sustainable management of a large neotropical seasonal wetland. Pensoft, Sofia-Moscow, pp 719–739
Malhi Y, Aragão LEOC, Galbraight D, Huntingford C, Fisher R, Zelazowski P, Sitch S, McSweeney C and Meir P (2009) PNAS 106(49):20610–20615
Malvárez AI, Bó RF (2004) Documentos del Curso-Taller “Bases ecológicas para la classificación e inventario de humedales en Argentina. Secretaria de Ambiente e Desarollo Sustentable, Ministério de Salud de la Nación, Buenos Aires
Marchant R, Cleef A Harrison SP, Hooghiemstra H, Markgraf V, vanBoxel J, Ager T, Almeida L, Anderson R, Baied C, Behling H, Berrio JC, Burbridge R, Björck S, Byrne R, Bush M, Duivenvoorden J, Flenley J, De Oliveira P, van Geel B, Graf K, Gosling WD, Harbele S, van der Hammen T, Hansen B, Horn S, Kuhry P,Ledru M-P, Mayle F, Leyden B, Lozano-García S, Melief AM, Moreno P, Moar NT, Prieto A, van Reenen G, Salgado-Labouriau M, Schäbitz F, Schreve-Brinkman EJ, Wille M (2009) Pollen-based biome reconstructions for Latin America at 0, 6000 and 18 000 radiocarbon years ago. Climate Past 5:725–767
Marengo JA (2006) Mudanças climáticas globais e seus efeitos sobre a biodiversidade: Caracterização do clima atual e definição das alterações climáticas para o território Brasileiro ao longo do Século XXI. Biodiversidade 26, Ministério do Meio Ambiente, Secretaria de Biodiversidade e Florestas, Brasília
Marengo JA and Nobre CA (2001) General characteristics and variability of climate in the Amazon basin and its links to the global climate system. In: McClain ME, Victoria RL and Richey JE (eds) The biogeochemistry of the Amazon basin and its role in a changing world. Oxford University Press, Oxford, pp 17–41
Marengo JA, Nobre CA, Betts RA, Cox PM, Sampaio G and Salazar L (2009) Global warming and climate change in Amazônia: climate-vegetation feedback and impacts on water ressources. In: Keller M, Bustamante M, Gash J and Dias PS (eds) Amazonia and global change. Geophysical Monograph, vol 186, American Geophysical Union, Washington, DC, pp 273–292
Markgraf V, Whitlock C, Haberle S (2007) Vegetation and fire history during the last 18,000 cal yr B.P. in Southern Patagonia: Mallín Pollux, Coyhaique, Province Aisén (45o41′30′′W, 640 m elevation). Palaeogeogr Palaeoclimatol Palaeoecol 254:492–507
McClain ME, Victoria RL and Richey JE (2001) The biogeochemistry of the Amazon basin and its role in a changing world. Oxford University Press, New York
McGrath D, Castro F de, Câmara E, Futemma C (1999) Community management of floodplain lakes and sustainable development of Amazonian fisheries. In: Padoch C, Ayres JM, Pinedo-Vasquez M, Henderson A (eds) Várzea: diversity, development and conservation of Amazonia’s whitewater floodplains. Advances in Economic Botany, vol 13. The New York Botanical Garden Press, Bronx, New York, pp 59–82
Meade RH (1996) River-sediment inputs to major deltas. In: Milliman JD, Haq BU (eds) Sea-level rise and coastal subsidence: causes, consequences, and strategies. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp 63–85
Meggers BJ (1984) The indigenous peoples of Amazonia, their cultures, land use patterns and effect on the landscape and biota. In: Sioli H (ed) The Amazon—Limnology and landscape ecology of a mighty tropical river and its basin. Monographiae Biologicae. Junk, Dordrecht, pp 627–648
Meggers BJ (1987) The early history of man in Amazonia. In: Whitmore TC and Prance GT (eds) Biogeography and quaternary history in tropical America. Clarendon Press, Oxford, pp 151–174
Meggers BJ (1992a) Prehistoric population density in the Amazon basin. In: Verano JW and Ubelaker DH (eds) Disease and demography in the Americas. Smithsonian Institution Press, Washington/London, pp 197–205
Meggers BJ (1992b) Review of “Mound builders of the Amazon: geophysical archaeology on Marajó Island, Brazil” by Roosevelt, A.C. J Field Archaeol 19:399–404
Melack JM (2004) Tropical freshwater wetlands. In: Ustin S (ed) Manual of remote sensing, vol 4. Remote sensing for natural resources management and environmental monitoring. Wiley, New York, pp 319–343
Melack JM and Forsberg BR (2001) Biogeochemistry of Amazonian floodplain lakes and associated wetlands. In: McClain ME, Victoria RL and Richey JE (eds) The biogeochemistry of the Amazon basin and its role in a changing world. Oxford University Press, Oxford, pp 235–274
Melack JM, Hess LL (2010) Remote sensing of the distribution and extent of wetlands in the Amazon basin. In Junk WJ, Piedade MTF, Wittmann F, Schöngart J and Parolin P (eds) Amazon floodplain forests: ecophysiology, biodiversity and sustainable management. Ecological Studies, vol 210, Springer, Berlin/Heidelberg/New York, pp 43–59
Melack JM, Novo EMLM, Forsberg BR, Piedade MTF and Maurice L (2009) Floodplain ecosystem processes. In: Keller M, Bustamante M, Gash J and Dias PS (eds) Amazonia and global change. Geophysical Monograph, vol 186, American Geophysical Union, Washington, DC, pp 525–541
Milliman JD, Meade RH (1983) Worldwide delivery of river sediment to the oceans. J Geol 91:1–21
Ministerio del Medio Ambiente (2002) Política nacional para humedales interiores de Colombia: Estrategias para su conservación y uso racional. Republica de Colombia, Ministerio del Medio Ambiente, Consejo Nacional Ambiental, Bogotá
Mitsch WJ, Gosselink JG (2007) Wetlands. John Wiley & Sons Inc., Hoboken
Navarro G, Maldonado M (2002) Geografía ecológica de Bolivia: Vegetación y Ambientes Acuáticos. Centro de Ecología Simón I. Patino, Departamento de Difusión. Cotchabamba, Bolivia
Neiff JJ (2001) Humedales de la Argentina: sinopsis, problemas y perspectivas futuras. In: Cirelli AF (ed) El agua en Iberoamérica. Funciones de los humedales, calidad de vida y agua segura. Publ CYTED, pp 83–112
Niemann H, Behling H (2008) Late Quaternary vegetation, climate and fire dynamics inferred from the El Tiro record in the southeastern Ecuadorian Andes. J Quat Sci 23(3):203–212
Niemann H, Haberzettl T, Behling H (2009) Holocene climate variability and vegetation dynamics inferred from the (11,700 cal yr BP) Laguna Rabadilla de Vaca sediment record in the southeastern Ecuadorian Andes. The Holocene 19(2):307–316
Nobre CA, Obregón GO, Marengo JA, Fu R and Povera G (2009) Characteristics of Amazonian climate: main features. In: Keller M, Bustamante M, Gash J and Dias PS (eds) Amazonia and global change. Geophysical Monographm, vol 186. American Geophysical Union, Washington, DC, pp 149–162
Nogueira F and Junk WJ (2000) Mercury from goldmining in Amazon wetlands: contamination sites, intoxication levels and dispersion pathways. In: Junk WJ, Ohly JJ, Piedade MTF and Soares MGM (eds) The Central Amazon Floodplain: actual use and options for a sustainable management. Backhuys Publishers b.v., Leiden, pp 477–503
Nunes da Cunha C and Junk WJ (2011) A preliminary classification of habitats of the Pantanal of Mato Grosso and Mato Grosso do Sul, and its relation to national and international classification systems. In: Junk WJ, da Silva CJ, Nunes da Cunha C and Wantzen KM (eds) The Pantanal: ecology, biodiversity and sustainable management of a large neotropical seasonal wetland. Pensoft, Sofia-Moscow 127–142
Overpeck JT, Weiss JL (2009) Projections of future sea level becoming more dire. PNAS 106(51):21461–21462
Padoch C, Ayres JM, Pinedo-Vasquez M, Henderson A (1999) Várzea: diversity, development, and conservation of Amazonia’s whitewater floodplains. The New York Botanical Garden Press, New York, p 407
Paoli C and Schreider M (2000) El Rio Paraná en su tramo médio: Contribuición al conocimiento y prácticas ingenieriles em um gran rio de llanura. Centro de Publicaciones Universidad Nacional Del Litoral, Santa Fé, Argentina
Parsons JJ, Bowen WA (1966) Ancient ridged fields of San Jorge River floodplain, Colombia. Geogr Rev 56(3):317–343
Pascual MA, Cussac V, Dyer B, Soto D, Vigliano P, Ortubay S, Macchi C (2007) Freshwater fishes of Patagonia in the 21st Century after a hundred years of human settlement, species introductions, and environmental change. Aquat Ecosyst Health Manage 10(2):212–227
Pott VJ and Pott A (2000) Plantas Aquáticas do Pantanal. EMBRAPA, Brasília
Pouilly M, Beck SG, Moraes RM, Ibenes C (2004) Diversidad biológica en la Llanura de inundación del Rio Mamoré. Importância ecológica de la dinámica fluvial. Centro de Ecología Simón I. Patino, Santa Cruz, Bolívia
Queiroz HL and Peralta N (2010) Protected areas in the Amazonian várzea and their role in its conservation: the case of Mamirauá Sustainable Development Reserve (MSDR). In: Junk WJ, Piedade MTF, Wittmann F, Schöngart J and Parolin P (eds) Amazon floodplain forests: Ecophysiology, biodiversity and sustainable management. Ecological studies, vol 210, Springer, Berlin/Heidelberg/New York, pp 465–483
Quirós R, Bechara JA, de Resende EK (2007) Fish diversity and ecology, habitats and fisheries for the un-dammed riverine axis Paraguay-Paraná-Rio de la Plata (Souther South America). Aquat Ecosyst Health Manage 10(2):187–200
Rasera MF, Ballester MVR, Krusche AV, Salimon C, Montebelo LA, Alin SR, Victoria RL, Richey JE (2008) Estimating the surface area of small rivers in the southwestern Amazon and their role in CO2 outgassing. Earth Interact 12(6):1–16
Rodríguez MA, Winemiller KO, Lewis WM Jr, Baechle DCT (2007) The freshwater habitats, fishes, and fisheries of the Orinoco River basin. Aquat Ecosyst Health Manage 10(2):140–152
Rohling EJ, Grant K, Hemleben Ch, Diddall M, Hoogakker BAA, Bolshaw M, Kucera M (2008) High rates of sea-level rise during the last interglacial period. Nat Geosci 1:38–42
Roosevelt AC (1992) Mound builders of the Amazon: geophysical archaeology on Marajó Island, Brazil. J Amazon Geophys Archaeol Marajo Island 19:399–404
Roosevelt AC (1999) Twelve thousand years of human-environment interaction in the Amazon Floodplain. In: Padoch C, Ayres JM, Pinedo-Vasquez M, Henderson A (eds) Várzea: diversity, development, and conservation of Amazonia’s whitewater floodplains. The New York Botanical Garden Press, New York, pp 371–392
Ruffino ML (1999) Fisheries development in the lower Amazon River. In: Padoch C, Ayres JM, Pinedo-Vasquez M and Henderson A (eds) Várzea: diversity, development and conservation of Amazonia’s whitewater floodplains. Advances in Economic Botany, vol 13. The New York Botanical Garden Press, Bronx, pp 101–111
Salati E, Marques J (1984) Climatology of the Amazon region. In: Sioli H (ed) The Amazon—limnology and landscape ecology of a mighty tropical river and its basin. Monographiae Biologicae. Dr. W. Junk Publishers, Dordrecht, pp 85–126
Salo J, Kalliola R, Häkkinen I, Mäkinen Y, Niemelä P, Puhakka M, Coley PD (1986) River dynamics and the diversity of Amazon lowland forest. Nature 322:254–258
Sato Y, Godinho HP (2004) Migratory fishes of the São Francisco River. In: Carolsfiled J, Harvey B, Ross C and Baer A (eds) Migratory fishes of South America. World Fisheries Trust, IDRC, World Bank, New York, USA, pp 199–232
Schöngart J and Queiroz HL de (2010) Traditional timber harvesting in the central Amazonian floodplain forests. In: Junk WJ, Piedade MTF, Wittmann F, Schöngart J and Parolin P (eds) Amazon floodplain forests: ecophysiology, biodiversity and sustainable management. Ecological Studies, vol 210. Springer, Berlin/Heidelberg/New York, pp 419–436
Schöngart J, Junk WJ (2007) Forecasting the flood-pulse in Central Amazonia by ENSO-indices. J Hydrol 335:124–132
SIDRA-Sistema IBGE de Recuperação Automática (2011) Censo Demográfico e da Contagem da População. http://www.sidra.ibge.gov.br/bda/popul/default.asp. Accessed 18 June 2011
Sioli H (ed) (1984) The Amazon—limnology and landscape ecology of a mighty tropical river and its basin. Monographiae Biologicae. Dr. W. Junk Publishers, Dordrecht
Sippel SJ, Hamilton SK, Melack JM, Novo EMM (1998) Passive microwave observations of inundation area and the area/stage relation in the Amazon River floodplain. Int J Remot Sens 19:3055–3074
Smith NJH (1999) The Amazon River Forest: a natural history of plants, animals, and people. Oxford University Press, New York
Sousa Jr PT, Piedade MTF, Candotti E (2011) Letter to Nature. Nature 478:458
Stevaux JC (2000) Climatic events during the late Pleistocene and Holocene in the upper Parana River: correlation with NE Argentina and South-Central Brazil. Quatern Int 72:73–85
Tharme RE (2003) A global perspective on environmental flow assessment: emerging trends in the development and application of environmental flow methodologies for rivers. River Res Appl 19:397–441
Thomaz SM, Agostinho AA and Hahn NS (2004) The Upper Paraná River and its floodplain: physical aspects, ecology and conservation. Backhuys Publishers, Leiden
Tollefson J (2011) Brazil revisits forest code. Nature 476:259–260
Vásquez E (1989) The Orinoco River: a review of hydrobiological research. Regul Rivers Res Manag 3:381–392
Vermeer M, Rahmstorf S (2009) Global sea level linked to global temperature. PNAS 106(51):21527–21532
Vieira Rd S (2000) Legislation and the use of Amazonian floodplains. In: Junk WJ, Ohly JJ, Piedade MTF and Soares MGM (eds) The central Amazon floodplain: actual use and options for a sustainable management. Backhuys Publishers, Leiden, pp 505–533
Vila I, Pardo R, Scott S (2007) Freshwater fishes of the Altiplano. Aquat Ecosyst Health Manage 10(2):201–211
Vörösmarty CJ, Green P, Salisbury J and Lammers RB (2000) Global water resources: vulnerability from climate change and population growth. Science 289:284–288
Wantzen KM, Drago E, Da Silva CJ (2005) Aquatic habitats of the Upper Paraguay River-Floodplain-System and parts of the Pantanal. Ecohydrol Hydrobiol 5(2):107–126
Weibezahn FH, Alvarez H and Lewis Jr WM (1990) The Orinoco River as an ecosystem. Impresos Rubel CA, Caracas
Wittmann F, Schöngart J, Montero JC, Motzer T, Junk WJ, Piedade MTF, Queiroz HL, Worbes M (2006) Tree species composition and diversity gradients in white-water forests across the Amazon basin. J Biogeogr 33:1334–1347
Wittmann F, Schöngart J and Junk WJ (2010) Phytogeography, species diversity, community structure and dynamics of central Amazonian floodplain forests. In: Junk WJ, Piedade MTF, Wittmann F, Schöngart J and Parolin P (eds) Amazon floodplain forests: ecophysiology, biodiversity and sustainable management. Ecological studies, vol 210. Springer, Berlin/Heidelberg/New York, pp 61–102
World Commission of Dams (ed) (2000) Dams and Development. Earthscan Publications Ltd, London
Wurtsbaugh WA, Tapia RA (1988) Mass mortality of fishes in Lake Titicaca (Peru-Bolivia) associated with the protozoan parasite Ichthyophthirius multifiliis. Trans Am Fish Soc 117:213–217
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This article belongs to the Special Issue “Effects of Climate Change on Wetlands”.
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Junk, W.J. Current state of knowledge regarding South America wetlands and their future under global climate change. Aquat Sci 75, 113–131 (2013). https://doi.org/10.1007/s00027-012-0253-8
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DOI: https://doi.org/10.1007/s00027-012-0253-8