Acessibilidade / Reportar erro

THREATS TO THE BIODIVERSITY OF THE BRAZILIAN PANTANAL DUE TO LAND USE AND OCCUPATION

AMENAZAS A LA BIODIVERSIDAD DEL PANTANAL BRASILEÑO POR EL USO Y OCUPACIÓN DEL SUELO

Abstract

The Pantanal is a wetland located in the central region of South America (150,355 km2), mainly in Brazil (nearly 140,000 km2), touching Paraguay and Bolivia. The floodplain is fed by the Paraguay River and its tributaries, where the headwater of the rivers is located on the surrounding upland. Only 40% of this plateau retains its natural vegetation. Although the natural habitats of the Pantanal are still considered well preserved, retaining 80% of the vegetation cover, the biome faces environmental and socioeconomic threats that affect its biodiversity. The seasonal flux of the rivers is a fundamental ecological element for regional biodiversity. Habitat alteration and deforestation have affected terrestrial and aquatic habitats and their associated wildlife. This work identifies and analyses the threats to biodiversity considering land use, based on research experience in the region plus field work. Based on this, it discusses a strategic action plan for the biome’s biodiversity.

Keywords:
biodiversity; conservation; environmental threats; land use; Pantanal.

Resumen

El Pantanal es una enorme planicie de inundación (150,355 km2) en Suramérica central. Se extiende por las fronteras entre Paraguay, Bolivia y Brasil (140,000 km2). Con inundación estacional es alimentado por el rio Paraguay y sus tributarios, incluyendo nacientes en mesetas que lo contornan y donde apenas resta 40% de la vegetación nativa. La relación del flujo hídrico mesetas-planicies es fundamental para el ciclo biogeoquímico de nutrientes y para la productividad del ecosistema. Aunque el Pantanal aún mantenga el 80% de su cobertura vegetal nativa, enfrenta amenazas ambientales y socioeconómicas que afectan su biodiversidad. Destrucción y alteración de hábitats están degradando los ambientes terrestres y acuáticos. Esta investigación identifica y analiza las amenazas a la biodiversidad, considerando el uso y ocupación del suelo, empleando la experiencia de años estudiando la región y trabajos de campo recientes. Con esa base se proponen estrategias de conservación para la biodiversidad del bioma.

Palabras-clave:
amenazas ambientales; biodiversidad; conservación; Pantanal; uso del suelo.

Resumo

O Pantanal é uma área úmida no centro da América do Sul (150.355 km2), principalmente no Brasil (140.000 km2), tocando o Paraguai e a Bolívia. Planície sazonalmente inundável, é alimentada pelo rio Paraguai e seus tributários, com suas nascentes no planalto do entorno, o qual conta apenas com 40% da vegetação natural remanescente. A relação do fluxo hídrico planalto-planície é fundamental para o ciclo biogeoquímico de nutrientes e para a produtividade ecossistêmica. Embora o Pantanal mantenha ainda 80% de sua cobertura vegetal, enfrenta ameaças ambientais e socioeconômicas que afetam a biodiversidade. Destruição e alteração de hábitats têm afetado os ambientes terrestres e aquáticos. Este trabalho identifica e analisa as ameaças à biodiversidade, considerando o uso e a ocupação do solo, empregando a experiência em pesquisa na região durante muitos anos, e também em trabalho de campo recente. Com base nisso, propõe estratégias de conservação da biodiversidade para o bioma.

Palavras-chave:
ameaças ambientais; biodiversidade; conservação; Pantanal; uso do solo

Introduction

The biodiversity of the Pantanal has been divulged in several works of published literature. There are about 2,000 species of plants with strong biogeographic elements of the neighboring biomes: Amazon, to the north, Brazilian savanna known as Cerrado, east, Atlantic Forest, south-central, and the Chaco of Bolivia and Paraguay, west (ALHO, 2005ALHO, C. J. R.; GONÇALVES, H. C. Biodiversidade do Pantanal: Ecologia & Conservação. Campo Grande: UNIDERP, 2005.; POTT et al., 2011aPOTT, A.; OLIVEIRA, A. K. M.; DAMASCENO-JUNIOR, G. A.; SILVA, J. S. V. Plant diversity of the Pantanal wetland. Brazilian Journal of Biology=Revista Brasileira de Biologia, v. 71, p. 265-273. 2011a. Suplemento.). In addition to flooded fields, there are phytophysiognomies of the Cerrado, such as patches of savanna, locally named “capão de cerrado”, denser savanna or “cerradão” and forest formations, such as deciduous and semi-deciduous seasonal forests, pioneer formations, dominated by a plant species such as “cambarazal” (Vochysia divergens), “pirizal” (Cyperus giganteus), “canjiqueiral” (Byrsonima orbignyana) and others (POTT et al., 2011a). Some 280 aquatic macrophytes of the Pantanal are related to seasonally flooded environments (POTT et al., 2011b). The plants are adapted to the seasonal water regime (SCREMIN-DIAS et al., 2011SCREMIN-DIAS, E.; LORENZ-LEMKE, A. P.; OLIVEIRA, A. K. M. The floristic heterogeneity of the Pantanal and the occurrence of species with different adaptive strategies to water stress. Brazilian Journal of Biology=Revista Brasileira de Biologia. v. 71, p. 275-282, 2011. Suplemento.).

The Pantanal is a wetland (150,355 km2), located in the center of South America, between parallels 15° 30’ and 22° 30’ south and meridians 55° 00’ and 57° 00’ west, mostly in Brazil (140,000 km2), touching Bolivia and Paraguay (Figure 1).

Figure 1
The geomorphological depression, in the center of South America, which is the Pantanal - lies at 60 and 150 meters above sea level, and the plateaus of its surroundings, varying from 200 to 1,000 meters in height, where the springs of the rivers that seasonally supply the floodplain are found.

The wildlife of the Pantanal is distributed according to the mosaic of habitats of the region. Although fauna diversity is not very different from that of neighboring biomes, abundance of species is relevant (ALHO, 2005ALHO, C. J. R.; GONÇALVES, H. C. Biodiversidade do Pantanal: Ecologia & Conservação. Campo Grande: UNIDERP, 2005.; ALHO, GONÇALVES, 2005; NUNES, 2011NUNES, A. P. Quantas espécies de aves ocorrem no Pantanal brasileiro? Atualidades Ornitológicas, Ivaiporã, PR: v. 160, p. 45-54. 2011.). However, for mammals in general (TOMAS et al., 2017) and for bats, in particular (FISCHER et al., 2018aFISCHER, E.; SILVEIRA, M.; MUNIN, R. L.; CAMARGO, G.; SANTOS, C. F.; PEREIRA, M. J. R.; FISCHER, W.; ERIKSSON, A. F. Bats in the dry and wet Pantanal. HYSTRIX-Italian Journal of Mammalogy, Open access journal, v. 29, n. 1, p. 11-17, 2018a.), the species richness in the Pantanal has been shown to be higher than in the neighboring biomes, when considered in relation to the total area of each biome. The argument presented by these authors, in these studies, is evidenced by the occurrence of more species per hectare in the Pantanal than per hectare in the other biomes. Because the Pantanal is located in the center of South America, it potentially becomes an ecotone, surrounded by large biomes, where the geographical distribution of species, typical of the different biomes, occurs. The abundance is expressed by the vigorous populations of capybara Hydrochoerus hydrochaeris, spectacled- caiman Caiman crocodilus, crab-eating-fox Cerdocyon thous, marsh-deer Blastocerus dichotomus, among others (ALHO, 2005; ALHO et al., 2011a). Among the abundant populations of birds are the wood-stork Mycteria americana, the great heron Ardea alba, the gray heron Ardea cocoi, the maguari-stork Ciconia maguari, the little-egret Egretta thula, and the jabiru Jabiru mycteria.

The abundance of species is favored by the high ecological productivity of the Pantanal (ALHO, 2005ALHO, C. J. R.; GONÇALVES, H. C. Biodiversidade do Pantanal: Ecologia & Conservação. Campo Grande: UNIDERP, 2005.).

The diversity of species includes 174 mammals, counting terrestrial, semi-aquatic, aquatic, and flying mammals (ALHO et al., 2011ALHO, C. J. R. Biodiversity of the Pantanal: Its magnitude, human occupation, environmental threats and challenges for conservation. Brazilian Journal of Biology=Revista Brasileira de Biologia, São Carlos, SP: v. 71, p. 229-232. 2011. Suplemento.a); more than 580 species of birds (NUNES, 2011NUNES, A. P. Quantas espécies de aves ocorrem no Pantanal brasileiro? Atualidades Ornitológicas, Ivaiporã, PR: v. 160, p. 45-54. 2011.); and more than 260 species of fish (BRITSKI, et al., 2007BRITSKI, H. A.; SILIMON, K. Z. S.; LOPES, B. S. Peixes do Pantanal: manual de identificação. 2. ed. Brasília: Embrapa Informação Tecnológica, 2007.).

The Pantanal’s biodiversity is not only a source of admiration and scientific fascination. The vigorous biological resources that occur in the biome have contributed to the well-being of local people (ALHO, 2012aALHO, C. J. R.; SILVA, J. S. V. Effects of severe floods and droughts on wildlife of the Pantanal wetland (Brazil) - A Review. Animals, Basel, Switzerland, v. 2, p. 591-610, 2012.; OLIVEIRA et al., 2011OLIVEIRA, A. K. M.; OLIVEIRA, N. A.; RESENDE, U. M.; MARTINS, P. F. R. B. Ethnobotany and traditional medicine of the inhabitants of the Pantanal Negro sub-region and the raizeiros of Miranda and Aquidauana, Mato Grosso do Sul, Brazil. Brazilian Journal of Biology=Revista Brasileira de Biologia., v. 71, n. 1 p. 283-289, 2011. Suplemento.; ALHO, 2012) for commercial, subsistence and sport fishing, and also for tourism (ALHO, REIS, 2017, CHIARAVALLOTI et al., 2017CHIARAVALLOTI, R. M.; HOMEWOOD, K.; ERIKSON, K. Sustainability and Land tenure: Who owns the floodplain in the Pantanal, Brazil? Land Use Policy, Open access journal, v. 64, p. 511-524, 2017.; TORTATO et al., 2017TORTATO, F. R.; IZZO, T. J.; HOOGESTEIJN, R.; PERES, C. A. The numbers of the beast: valuation of jaguar (Panthera onca) tourism and cattle depredation in the Brazilian Pantanal. Global Ecology and Conservation Science Direct v. 11, p. 106-114, 2017.).

The growth of the regional human population is evidenced by data from the Brazilian Institute of Geography and Statistics (IBGE). The historical view that nature needed to be conquered was the goal from the gold rush in the eighteenth century to the March to the West in the 1950s that spread the idea that the region of the country was an “empty space” to be occupied (GALETTI, 2000GALETTI, L. S. G. Nos confins da “civilização”: sertão, fronteira e identidade nas representações sobre Mato Grosso. Tese (Doutorado em História Social). Faculdade de Filosofia, Letras e Ciências Humanas, Universidade de São Paulo, São Paulo: 2000.).

Livestock also expanded on the plain. The cattle herds between 1985 and 2015 grew more in the central-west region than in other regions, expanding from 40 million cattle to 75 million in 2015. Pantanal municipalities, such as Corumbá and Cáceres, retained large herds (IBGE, 2017).

The objective of this study is to identify and evaluate the environmental threats to the Pantanal’s biodiversity and also its socioeconomic threats (those that affect the economic and social component of the local human population), in search of conservation and sustainable use, as analysis factors. There are two primary concerns: (1) protection of natural habitats; and (2) the relationship of biodiversity resources to potential socioeconomic benefits to local residents. The article explores what environmental threats mean for the use and valuation of biodiversity.

Methods

The authors have been working for a long time in the Pantanal. Recent fieldwork was carried out at different points in the 11 sub regions of the Pantanal (SILVA; ABDON, 1998SILVA, J. S. V.; ABDON, M. M. Delimitação do Pantanal brasileiro e suas sub-regiões. Pesquisa Agropecuária Brasileira, v. 33, p. 1703-1711, 1998. Número Especial.), established according to the following criteria: (1) flood regime, (2) relief, (3) soil type, and (4) vegetation type. Eight regions of the plateau were also sampled (Figure 2)

Figure 2
Points sampled by the field work. The upper Paraguay River basin, which includes the high part of the plateau and the depression, which is the Pantanal.

The sampled areas were:

Pantanal, in the following sub regions:

  1. Pantanal of Cáceres (16º 52 ‘21.09 “S, 57º 32’ 04.47” W): boat trip along the Paraguay River, from Cáceres to the Ecological Station of Taiamã.

  2. Pantanal of Poconé (16º 32 ‘33.21 “S, 56º 43’ 20.91” W): along the Transpantaneira highway.

  3. Pantanal of Barão de Melgaço (16º 42 ‘36.51 “S, 56º 02’ 09.71” W): Private Reserve of Natural Heritage of SESC, between the Cuiabá and São Lourenço rivers.

  4. Pantanal of Paiaguás (17º 49 ‘15.94 “S, 55º 44’ 29.10” W): terrestrial course for three days.

  5. Paraguayan Pantanal (18º 27 ‘05.68 “S, 57º 21’ 46.01” W): overflight carried out in the dry season and monthly field work (four days each), October 2015 to September 2016.

  6. Pantanal of Nhecolândia (18º 59 ‘25.05 “S, 56º 36’ 15.85” W): Fazenda Nhumirim, Embrapa and surroundings.

  7. Pantanal of the Abobral (19º 26 ‘25.51’ S, 57º 03 ‘45.24 “W): Western portion of the sub region, November 2014 to January 2017, Park Highway, Pantanal (MS-184), to the south, to the limit of the sub region.

  8. Pantanal of Miranda (19º 50 ‘20.20 “S, 56º 49’ 39.53” W): Park Highway, South Pantanal, Buraco das Piranhas, Miranda River Bridge, Morro do Azeite and Carandazal, 2011-2016.

  9. Pantanal of Aquidauana (19º 16 ‘11.99 “S, 55º 16’ 11.99” W): Aquidauana and Pantanal of the Negro River.

  10. Pantanal of Nabileque (20º 39 ‘20.42 “S, 57º 51’ 47.13” W): Barranco Branco, Nabileque River, Aquidauana River (February 2008) and two in the dry season (June and October 2015).

  11. Pantanal of Porto Murtinho (21º 48 ‘02.37 “S, 57º 49’ 47.18” W): Porto Murtinho, Apa River mouth, Ilha da República, Ingazeira, full season (February 2008) and two in the dry season (June and October 2015).

Plateau in the following regions:

  • 12. Plateau of the Apa River basin (22º 05 ‘43 “S, 57º 28’ 56” W): five days in December 2015.

  • 13. Maracajú Plateau (20º 26 ‘40.6 “S, 55º 33’ 38.2” W): monthly work 2014-2016, lasting one year.

  • 14. Planalto de Maracajú, Furnas region of Boa Sorte (19 ° 56 ‘44.4 “S, 55 ° 04’ 18.7” W): monthly work 2014-2016.

  • 15. Serra de Maracaju, region of Taboco (19 ° 45 ‘45.6 “S, 55 ° 15’ 30.4” W): bimonthly work 2014-2016.

  • 16. Plateau of the river source of the Taquari (18º 45 ‘25.34 “S, 53º 43’ 10.05” W): monthly work in 2014.

  • 17. State Park Nascentes do Rio Taquari (18º 14 ‘21.29 “S, 53º 17’ 20.56” W): sporadic work in 2014.

  • 18. Emas National Park (18º 19 ‘36.7 “S, 52º 51’ 34.99” W): Monthly work 2005-2007 and 2011-2015.

  • 19. Serra do Amolar (17º 54 ‘18.48 “S, 57º 33’ 27.79” W): monthly work, from October 2015 to December 2016.

The records were made through direct observation of representative habitats and complemented by informal interviews with the local people.

The published literature was synthesized to support the field annotations, which were evaluated in consultation with the satellite images (with more detail for the Pantanal do Abobral sub-region), aiming at an integrated analysis in each space analyzed. Each occurrence observed in the field was also checked on the maps, including the Google Earth feature and MapBiomas, both available on the world-web.

For the classification of the conservation status of each species, we consulted the “Livro Vermelho da Fauna Brasileira Ameaçada de Extinção” (ICMBio/MMA, 2018).

Results and discussion

As a wetland ecosystem, the Pantanal is characterized by an indistinct, but always changing, boundary between aquatic and terrestrial environments (ALHO; SILVA, 2012ALHO, C. J. R.; SILVA, J. S. V. Effects of severe floods and droughts on wildlife of the Pantanal wetland (Brazil) - A Review. Animals, Basel, Switzerland, v. 2, p. 591-610, 2012.; JUNK; SILVA, 1999JUNK, W. J.; SILVA, C. J. O conceito do pulso de inundação e suas implicações para o Pantanal de Mato Grosso. In: Simpósio sobre recursos naturais e socioeconômicos do Pantanal. Anais., 2, Corumbá: Embrapa Pantanal, 1999, p. 17-28.). River waters flow from the plateau toward the depression of the Pantanal, and in their flows the rivers move slowly as they reach the flat lands of the Pantanal plain, periodically flooding the marginal areas. The seasonal flooding system causes an annual biogeochemical cycle of influx of nutrients, particles, microorganisms, and invertebrates, which form a dynamic ecosystem with a mosaic of habitats, which sustains biological diversity (ALHO, 2005; JUNK et al., 2006).

The seasonal productivity of food and other ecological resources favors biodiversity and abundance of wildlife populations. Seasonally, many parts of the Pantanal change from terrestrial environment to aquatic environment and vice versa. Generally, from May to October the land dries, and natural fields and bodies of water that remain in depressions in the ground arise.

Determinant factors threatening biodiversity

The identification, characterization and evaluation of environmental threats to biodiversity are important tools for strategic conservation actions (KUKKALA; MOILANEN, 2013KUKKALA, A. S.; MOILANEN, A. Core concepts of spatial prioritization in systematic conservation planning. Biological Reviews. Cambridge: v. 88, n. 2, p. 443-464, 2013.; MARGOULIS et al., 2013MARGOULIS, R.; STEM, C.; SWAMINATHAN, V.; BROWN, M.; JOHNSON, A.; PLACCI, G.; SALAFSKY, N.; TILDERS, I. Results chains: a tool for conservation action design, management, and evaluation. Ecology and Society, Wolfville, Canada: v.18, n. 3, art. 22, 2013.; SALAFSKY et al., 2008SALAFSKY, N.; SALZER, D.; STATTERSFIELD, A. J.; HILTON-TAYLOR, C.; NEUGARTEN, R.; BUTCHART, S. H. M.; COX, N.; MASTER, L. L.; O ́CONNOR, S.; WILKIE, D. A standard Lexicon for Biodiversity Conservation: Unified Classification of Threats and Actions. Conservation Biology, Washington, DC: v. 22, n. 4, p. 897-911, 2008.). Some threats identified here are of a technical-scientific nature, such as those that influence the structure and function of ecosystems. Others are of a political, social and administrative nature, and can often be avoided with control actions.

1. Threat: Conversion of natural vegetation into pasture for livestock and agricultural field

Deforestation has been observed in the cattle farms within the Pantanal and mainly in the upland Cerrado plateau. It also occurs along roads, as observed in our field activities in the flood land of Abobral and in plateau regions (Alcinópolis, Figueirão and Costa Rica). Monitoring activities of 2008 showed the Pantanal with 85% of its vegetation, while the plateau maintained only 41% of the natural vegetation (CI-BRASIL, ECOA, AVINA, SOS PANTANAL, WWF-Brazil, 2009). The monitoring of 2012-2014 (WWF-BRAZIL; SOS PANTANAL, 2015) found that 58% of the natural areas in the plateau and 42% in the lowlands were converted to anthropic use, totaling 1,875 km2 of altered area.

Analyses conducted by us on vectorial maps derived from satellite images produced by IBAMA in the years 2009-2010 and 2010-2011 indicated:

  • In the period 2009-2010, 732.5 km2 were deforested and in 2010-2011, 1,300 km2, creating approximately 2,582 km2 of deforested area;

  • Two large deforestation areas were identified, both in the municipality of Corumbá, one of 41.5 km2 in the Paiaguás sub region and another 22 km2 in the Nhecolândia sub region.

Our study conducted in the Pantanal of Abobral showed a decline of 3.1% of the forest formations (patches of savanna cerrado, denser savanna or cerradão ranges and riparian forests) between 1995 and 2015. It represented a decline of 84 km2 of native vegetation compared to the territorial extension of Abobral, with 2,833 km2 (SILVA, ABDON, 1998SILVA, J. S. V.; ABDON, M. M. Delimitação do Pantanal brasileiro e suas sub-regiões. Pesquisa Agropecuária Brasileira, v. 33, p. 1703-1711, 1998. Número Especial.).

Inspections we made in that region in 2015, in a sample area of ​​80 km2 along the Park-Highway Pantanal (MS-184), where patches of cerrado and cerradão or cordilheira represented only 5% of the area, revealed anthropic occupation, with the presence of exotic species, fences, corrals, rubbish, cemeteries, logging, among other human use actions.

During those field observations, in patches of cerrado and cerradão (cordilheira), we recorded burned and fallen trees, forming clearings, besides trampling by the presence of cattle. The excessive occurrence of some plant species was also noted, such as the caraguatá (Bromelia balansae), inside the forest, and the acuri (Attalea phalerata), on the edge of the forest. These species are pioneer heliophiles, developing in areas with intense sun exposure and that have suffered some type of disturbance (POTT et al., 2011aPOTT, A.; OLIVEIRA, A. K. M.; DAMASCENO-JUNIOR, G. A.; SILVA, J. S. V. Plant diversity of the Pantanal wetland. Brazilian Journal of Biology=Revista Brasileira de Biologia, v. 71, p. 265-273. 2011a. Suplemento.). The trampling on the soil by cattle affects the development of seedlings of other trees that are important for the regeneration of vegetation.

The acuri fruit is a source of food that is much sought after by cattle during the dry season, and both cerradão and cerrado patches represent a refuge for cattle during the flood (ALHO; GONÇALVES, 2005ALHO, C. J. R.; GONÇALVES, H. C. Biodiversidade do Pantanal: Ecologia & Conservação. Campo Grande: UNIDERP, 2005.). The dominance of this plant in the vegetation is evidence of the effect and impact that the presence of cattle exerts on the vegetation, disseminating its seed and limiting the recruitment of larger tree species.

Monitoring by the Ministry of the Environment (MMA, 2011) showed a deforested area of ​​23,160 km2 up to the year 2009, with 188 km2 deforested in the period 2008-2009. In 2008, the remaining vegetation in the Pantanal had 83% of its natural habitats and in 2009 this percentage decreased by less than 1% and, by 2019, the biome lost 18% of vegetation cover. The areas that most lost natural vegetation in 2008-2019 were on the upland plateau.

Between 1976 and 2008, 12.14% of the Pantanal was deforested, and it was suggested that the natural vegetation of the region may be eliminated by the year 2050 (SILVA et al., 2011SILVA, J. S. V.; ABDON, M. M.; SILVA, S. M. A.; MORAES, J. A. Evolution of deforestation in the Brazilian Pantanal and surroundings in the timeframe 1976-2008. Geografia, Rio Claro: v. 36, p. 35-55, 2011. Número Especial.).

Recent monitoring by satellite image concluded that although the Upper Paraguay Basin (plateau plus Pantanal) still contained 58.7% of its vegetation cover, only 45.5% of the plateau area maintained natural cover, while 82% of the Pantanal area still maintained original vegetation (WWF-BRASIL; UNIVERSIDADE CATÓLICA DOM BOSCO; FUNDAÇÃO TUIUIÚ, 2017). However, it should be noted that many changes in natural habitats are not detected in the satellite imaging monitoring, as shown below, in this study.

Deforestation advances to the riverside, modifying or eliminating riparian forests, which violates Brazilian legislation (Novo Código Florestal Brasileiro - Law No. 12.651 of 2012), which determines a permanent preservation area.

In the plateau, the deficit of native plant species is already severe, tending to reach a critical level of degradation (ROQUE et al., 2016ROQUE, F. O.; OCHOA-QUINTERO, J.; RIBEIRO, D. B.; SUGAI, L. S. M.; COSTA-PEREIRA, R.; LOURIVAL, R. Upland habitat loss as a threat to Pantanal wetlands. Conservation Biology, v. 30, n. 5, p. 1131-1134, 2016.).

Alluvial fans, to a certain extent, are normal in the Pantanal, but as can be seen in the case of the Taquari River fan, the hydrodynamic process with avulsion of the river channel is exacerbated by deforestation of riparian forests (ALHO, SILVA, 2012ALHO, C. J. R.; SILVA, J. S. V. Effects of severe floods and droughts on wildlife of the Pantanal wetland (Brazil) - A Review. Animals, Basel, Switzerland, v. 2, p. 591-610, 2012.). This phenomenon was also observed by us, to a lesser extent, in the São Lourenço River.

The deforestation that we have observed in Pantanal riverside forests should also be related to the feeding and reproductive strategy of certain fish, known in the literature (ALHO; REIS, 2017ALHO, C. J. R.; REIS, R. E. Exposure of Fishery Resources to Environmental and Socioeconomic Threats within the Pantanal Wetland of South America. Int J Aquac Fish Sci, Los Angeles: v. 3, n. 2, p. 022-029, 2017.). During the beginning of the flood season, when river water in the lowland region begins to overflow and to flood the riparian forest, some fish leave the riverbed to explore the flooded area of ​​the forest. This is the case of pacu Piaractus mesopotamicus, one of the Pantanal’s most important fish from the socioeconomic perspective. The main food item of the pacu is the fruit of the native palm of the riparian forests Bactris glaucescens (GALETTI et al., 2008GALETTI, M.; DONATTI, C. I.; PIZO, M. A.; GIACOMINI, H. C. Big fish are the best seed dispersal of Bactris glaucescens by the pacu fish (Piaractus mesopotamicus) in the Pantanal, Brazil. Biotropica, (Wiley open access journal) v.40, n. 3, p. 386-389, 2008.IBAMA - INSTITUTO BRASILEIRO DO MEIO AMBIENTE. Programa Prevfogo. 2017. Disponível em: http://www.ibama.gov.br/incendios-florestais/prevfogo. Acesso em 12 de julho de 2017.). Deforestation, therefore, affects the biology of these species.

In summary, the productivity of Pantanal’s aquatic and terrestrial ecosystems depends on three factors: (1) the amount of nutrients carried by the rivers that flow from the plateau to the plains, with a strong association with biodiversity; (2) the extension of the Pantanal, with all its complexity of natural habitats and vegetation cover; and (3) seasonal dynamics of flood-ebb-drought and its association with biodiversity.

2. Threat: Alteration of natural habitat

Disturbances within the tree area are generally not detected by satellite monitoring. This is the case of the changes that the cattle make in the forest patches, locally named cordilheiras. Another effect of the extensive presence of livestock is manifested by intense herbivory, preventing growth, with negative effect on biomass, besides trampling and compacting the soil, altering the vegetation. In protected areas, such as the SESC-Pantanal Reserve in the Poconé sub region, we observed that shrub vegetation, without the presence of cattle, grows up to about two meters high.

Selective cutting of trees for fences and other uses also affects biodiversity. This is the case of the cutting of mature trees, such as the manduvi, Sterculia apetala, whose cavity serves as a nest for the hyacinth macaw Anodorhynchus hyacinthinus and other birds, and jenipapo, Jenipa americana, whose fruit is consumed by the howler Alouatta caraya, and other trees.

The collection of live bait has been observed by us in several points of the Pantanal. This involves capture of small fish (jeju Hoplerythrynus unitaeniatus, tuviras Gymnotus spp., among others), and also crustaceans (crab Dylocharcinus paguei), which supply the growing sport fishing demand. These species live in shallow floodplain, low current, water retained in depressions, locally named baías, small creeks named corixos, ebbing small valleys, named vazantes, dominated by aquatic macrophytes. At least two negative impacts are observed: (1) the intense capture, until exhaustion, of these species that serve as live bait; and (2) the effect on habitat degradation and on the ecological community of which these live bait are a part.

In the sub-region of Nhecolândia, at some points we observed the pasture advancing to higher areas, in the forests that surround the salinas, one of the icons of the landscape of the region. In these salt marshes, we noted the presence of migratory birds, including Himantopus mexicanus, which indicates another important element of this environment for biodiversity. In Nhecolândia it was frequently possible to see several mammals listed as threatened with extinction, such as the marsh deer Blastocerus dichotomus, the pampas-deer Ozotoceros bezoarticus, the anteater, Myrmecophaga tridactila, and the giant-river-otter Pteronura brasiliensis, among others.

In this region of Nhecolândia, the pasture advanced to include the deforestation of cordilheiras (large forest patches of dense cerrado or cerradão), with the introduction of African forage, as pasture for livestock, both factors leading to the degradation of natural habitats. Evidence for this environmental threat is shown in the study conducted in forested habitats of the Pantanal using habitat occupation models, and occupied by the bat Artibeus planirostris, which feeds on fruits. This study pointed out that vegetation structure was determinant for the detectability of this species of bat (SILVEIRA et al., 2018SILVEIRA, M.; TOMAS, W. M.; FISCHER, E.; BORDIGNON, M. O. Habitat occupancy by Artibeus planirostris bats in the Pantanal wetland, Brazil. Mammalian Biology, Berlin, Germany: v. 91, p. 1-6, 2018. TOMAS, W. M.; ANTUNES, P.; BORDIGNON, M. O.; CAMILO, A. R.; CAMPOS, Z.; CAMARGO, G.; CARVALHO, L. F. A. C.; CUNHA, N. L.; FISCHER, E.; GODOI, M.; HANNIBAL, W.; MOURÃO, G. M.; RÍMOLI, J.; SANTOS, C. F.; SILVEIRA, M.; TOMAS, M. A. Checklist of mammals from Mato Grosso do Sul, Brazil. Iheringia Série Zoologia, Porto Alegre: v. 107, p. 1-17, 2017.). According to this study, introduced pasture areas (brachiaria) represented conditions below the threshold of occupation by the species of bat. Thus, even a species of generalist bat that is widespread in the Pantanal suffers the negative effect of the threat from the introduced pastures. This environmental disturbance, with loss and modification of forested habitats, also affects eight species of primates that occur in the Pantanal (ALHO; PASSOS, 2019ALHO, C. J. R.; PASSOS, F. Primates of the South American Pantanal Wetland: Seasonal Effects on their Habitats and Habits. In: NOWAK, K.; BARNETT, A.; MATSUDA, I. (Eds.), Primates in Flooded Habitats: Ecology and Conservation. Cambridge: Cambridge University Press, 2019. p. 163-171.).

3. Threat: Effect of wildfire

Farmers have a habit of setting fire to the vegetation during the dry season to “clear” the area, opening pasture for livestock. Some farms dedicated to tourism also usually burn the garbage produced. During the field observations around the Park Highway of the Pantanal, in the southern area, we found several places where the garbage dump generated by the tourist farms accumulated. This is a risky practice because it is commonly done in places hidden by the forest canopy and difficult to access.

Our field observation, including by overfly, showed that both in the Pantanal and in the plateau areas there were fire events consuming huge areas during the dry season. Our consultations of IBAMA’s Prevfogo program (2017) and INPE - National Institute of Space Research (2017) confirmed intense fires throughout the Pantanal during the last five years.

Grass fields, named caronal, formed by Elyonurus muticus, capim-fura-bucho Paspalum carinatum and Paspalum stellatum and capim-rabo-de-burro Andropogon bicornis and capim-rabo-de-lobo Andropogon hypogynus are burned. The fire expands and reaches forest environments.

This change in habitat potentially impacts wild rodents, with habitat-generalist species and other habitat-specialist species, which are very demanding in elements of microhabitats associated with vegetation (ALHO, 2005ALHO, C. J. R.; GONÇALVES, H. C. Biodiversidade do Pantanal: Ecologia & Conservação. Campo Grande: UNIDERP, 2005.; ALHO et al., 2011 a, b). It also affects reptiles like lizards and snakes and birds of terrestrial habit.

4. Threat: Changing the hydrological regime with alterations in flood patterns

The hydrological regime influences nutrient cycling, ecological community, phenology, upstream migration of fish (piracema) and other factors (ALHO; SILVA, 2012ALHO, C. J. R.; SILVA, J. S. V. Effects of severe floods and droughts on wildlife of the Pantanal wetland (Brazil) - A Review. Animals, Basel, Switzerland, v. 2, p. 591-610, 2012.; ALHO; REIS, 2017). There are more than 100 small hydroelectric plants planned, mainly for the northern part of the plateau, where the rivers that feed the Pantanal are born (ANEEL, 2016, CALHEIROS et al., 2009CALHEIROS, D. F.; ARNDT, E.; RODRIGUEZ, E. O.; SILVA, M. C. A. Influências de Usinas Hidrelétricas no Funcionamento Hidro-Ecológico do Pantanal Mato-Grossense - Recomendações. Documentos, Brasília: v. 102, p. 1-21, 2009.).

The Pantanal fish that migrate to the headwaters for spawning behavior are: cachara Pseudoplatystoma reticulatum, pintado Pseudoplatystoma corruscans, dourado Salminus brasiliensis, piraputanga Brycon hillari, piavuçu Megaleporinus macrocephalus, and curimbatá Prochilodus lineatus. The spawning takes place at the headwaters; the eggs are carried by the water downstream and the young fish grow in the productive waters of the floodplain. At the beginning of the rainy season, the schools of fish go up the rivers for spawning. If they encounter obstacles, such as hydroelectric dams, the migration (piracema) is interrupted.

In addition to the potential effect of small hydroelectric plants (SHPs), other infrastructure, such as roads, fragment the plains in various parts, interrupting the shallow flood transit. Small landfills on farms also affect flooding. There is the action of landowners who, by means of landfills, build airstrips, raise the level of roads for vehicular traffic, modify the land for constructions, among other infrastructure works that negatively affect the structure and function of seasonally flooded natural habitats. There is, therefore, the need to implement conservation actions to mitigate or avoid this disturbance in the natural environment.

There is a clear link between the Pantanal’s normal flood regime and the availability of food for wildlife. For example, the jabirus or tuiuiús have specialized beaks to catch their prey, such as the mussum fish (Symbranchus marmoratus), which is encapsulated in the mud during the dry season. Since fish is one of the most important items for waterfowl in the Pantanal, regular floods renew the stock of prey during the ebb season, causing the prey to spread beyond the confined riverbed. Due to the seasonal supply of abundant food, the birds exhibit synchronized reproduction, with flocks of wood stork (Mycteria americana), herons (Egretta thula and Pilherodius pileatus) and others. The colonies form the “ninhais”, favoring the synchronized nesting of different species in the same place by the reproductive guilds.

Seasonal fluctuations also influence the availability of food for various species of wildlife, such as capybara (Hydrochoerus hydrochaeris). Some of the protein-rich food items preferred by capybara tend to be more seasonal than the protein-poor items (ALHO, 2005ALHO, C. J. R.; GONÇALVES, H. C. Biodiversidade do Pantanal: Ecologia & Conservação. Campo Grande: UNIDERP, 2005.).

A common phenomenon that has been observed in the Pantanal’s various study areas is the so-called “dequada”, with deterioration of water quality, linked to water seasonality, which leads to fish mortality (MACEDO et al., 2015MACEDO, H. A.; STEVAUX, F. N.; BERGIER, I. Methodology for analysis of distribution and classification of the intensity of dequada fish kill events in the Pantanal wetland. Geografia, Rio Claro: v. 40, p. 163-176, 2015. Número Especial.).

5. Threat: Effects of unregulated tourism and the need for institutional strengthening

There is a growing demand for inns (local pousadas) in the Pantanal from national and international tourists, showing good economic potential for the region. However, the logistics of these enterprises lack practices of sustainable tourism and have too few qualified professionals. Tourist lodges, at the farms, and the sport fishing boats, both lack adequate collection and treatment of the garbage produced. Our observations showed that garbage is buried or burned nearby. In some inns, the garbage is buried in the middle of the vegetation of riparian forests. When it comes to sudden flooding, the garbage is washed up and scattered.

The inns usually provide feeders to attract species of birds close to the tourist, as it is common to offer acuri seed for the hyacincth macaw. This has a positive aspect of species protection, but, under the ecological approach, potentially modifies its search behavior and competition for food. In the inns visited in the Pantanal of Abobral, in the drought of 2015, we observed tourists and staff feeding fox (Cerdocyon thous), who usually visit camping areas and dumps near the inns in search of food in the daytime, although the species has a nocturnal habit.

In the Paraguay River there was an increase of solid waste in the riverbed and on the river banks from the time of the opening of the fishery season. Despite the socioeconomic benefits encouraged by the growing number of tourists seeking sports fishing on the Paraguay River from the city of Corumbá, there are negative implications that the activity encourages: there is sex tourism camouflaged by amateur fishing, especially in hotel boats, in addition to unsustainable interference in fish stocks and demand without adequate management of environmental resources (TUFAILE, 2011TUFAILE, E. L. Análise da pesca amadora em um trecho do Pantanal: diagnóstico e proposições de conservação. 2011. Dissertação (Mestrado em Meio Ambiente e Desenvolvimento Regional). Universidade Anhanguera Uniderp, Campo Grande.).

The lack of control in river vessel traffic has been verified, mainly by the waves that this produces in the water, affecting the sites for nesting of birds on the sandy beaches during the drought. Bird species such as Rynchops niger, Sternula superciliaris and Phaetusa simplex make their colonial nests on the sands near the water line.

Agricultural pesticides were seen being sprayed at several points in the perimeter boundary of the Emas National Park and in the Nascentes do Taquari State Park - core areas of the Pantanal Biosphere Reserve. Several environmental pollutants have been detected contaminating the waters of the Pantanal (ALHO; VIEIRA, 1997ALHO, C. J. R.; VIEIRA, L. M. Fish and wildlife resources in the Pantanal wetlands of Brazil and potential disturbances from the release of environmental contaminants. Environmental Toxicology and Chemistry, Hoboken: v. 16 n. 1, p. 71-74, 1997.). Also, the small and large towns of the Pantanal region pour untreated sewage into the rivers; This is evidenced by the water pollution of the Cuiabá and São Lourenço rivers, due to the effect of sewage disposal (LIMA et al., 2015LIMA, C. R. N.; ZEILHOFER, P.; DORES, E.; FANTIN-CRUZ, I. Variabilidade espacial da qualidade de água em escala de bacias - rio Cuiabá e São Lourenço, Mato Grosso. Revista Brasileira de Recursos Hídricos, Porto Alegre: v. 20, n. 1, p. 169-178, 2015.).

There is a lack of inspection even in areas of great environmental relevance, such as in protected areas that have a Management Plan, but their implementation is precarious (ALHO, 2011ALHO, C. J. R. Biodiversity of the Pantanal: Its magnitude, human occupation, environmental threats and challenges for conservation. Brazilian Journal of Biology=Revista Brasileira de Biologia, São Carlos, SP: v. 71, p. 229-232. 2011. Suplemento.).

A good indicator of the valuation of biodiversity is that, in some inns, the presence of the jaguar (Panthera onca), to be seen and photographed, has become a great attraction, with a strong appeal for its protection and, consequently, an economic incentive (TORTATO et al., 2017TORTATO, F. R.; IZZO, T. J.; HOOGESTEIJN, R.; PERES, C. A. The numbers of the beast: valuation of jaguar (Panthera onca) tourism and cattle depredation in the Brazilian Pantanal. Global Ecology and Conservation Science Direct v. 11, p. 106-114, 2017.). At Fazenda Santa Clara, in the Pantanal of Abobral, one of our study areas, we observed the presence of the jaguar in the region.

In contrast, in the vicinity of farm houses, where there is greater human interference, we observed a greater presence of species of fauna that have general habits and that take advantage of this disturbed environment, such as the fox Cerdocyon thous, the curicaca bird Theristicus caudatus, and the caracara hawk Caracara plancus, among others.

6. Threat: Effect of introduced exotic species

Following human occupation, the introduction of exotic plants and animals has been deliberate or accidental, with consequent alterations of the natural ecological communities of the Pantanal (ALHO et al., 2011ALHO, C. J. R. Biodiversity of the Pantanal: Its magnitude, human occupation, environmental threats and challenges for conservation. Brazilian Journal of Biology=Revista Brasileira de Biologia, São Carlos, SP: v. 71, p. 229-232. 2011. Suplemento.c).

Our field experience showed that there are considerable numbers of exotic species introduced into the Pantanal. They include plants, mollusks, fish, feral pigs, cats, dogs, cattle and others. We have observed the presence of these exotic animals even in protected areas, which conflicts with the management plan. This interrelationship is evidenced by the protozoan parasite Trypanosoma evansi, which infects horses, cattle, dogs, capybaras, coatis, and small wild rodents of the Pantanal. The vector of disease - “mal-das-cadeiras” - is the hematophagous fly mutuca, of the genus Tabanus. In addition to the problem of zoonosis, among other effects, it weakens and kills horses with anemia, causing socioeconomic losses for farmers (SILVA et al., 1995SILVA, R. A. M. S.; BARROS, A. T. M.; HERRERA, H. M. Trypanosomosis outbreaks due to Trypanosoma evansi in the Pantanal, Brazil. A preliminary approach on risk factors. Revue d’Elevage et de Médecine Vétérinaire des Pays Tropicaux, Montpellier, France: v. 48, p. 315-319, 1995.; ALHO, 2012bALHO, C. J. R.; SILVA, J. S. V. Effects of severe floods and droughts on wildlife of the Pantanal wetland (Brazil) - A Review. Animals, Basel, Switzerland, v. 2, p. 591-610, 2012.)

Two African forage species were introduced as pasture for cattle ranching: Urochloa decumbens (former Brachiaria decumbens) and Urochloa humidicola (former Brachiaria humidicola), converting the natural vegetation into cultivated pasture. The common pig (Sus scrofa), which becomes feral, locally called porco-monteiro, is commonly seen in large open areas, being present in all areas sampled by us for this study. The golden mussel (Limnoperna fortunei) is an Asian mollusk that reached the Pantanal through the La Plata-Paraguay river system, and has spread to aquatic habitats. Another invader is the Amazonian tucunaré fish (Cichla cf. ocellaris), introduced in the Pantanal, and which is a voracious predator, feeding on prey of the local ecosystem. Another Amazonian fish that has been seen in fisheries in the Pantanal is the tambaqui Colossoma macropomum.

7. Threat: Unregulated traffic on roads that cross the Pantanal

Anyone who crosses the Pantanal by the major highways, like the Transpantaneira, which goes from Poconé to the interior of the plain, and many others, such as highways BR-262, BR-060, BR-267, is faced with road-killed animals. In addition to run-over wildlife, the barrier effect, and the artificial environments created by incoming soil, we can also observe deforestation along the roads, creating the so-called border effect (MMA, 2003).

Roads do not have animal passages under the highway or other forms of management to mitigate roadkill. On only one of our trips we recorded 21 mammals (anteaters, foxes, armadillos, capybaras and others) run over on highways BR 267 and 060. Reptiles and birds were recorded killed along highway BR 262, which cuts through the Cerrado towards the Pantanal (Campo Grande to Corumbá), showing 930 animals run over, 29 reptiles and 47 birds (FISCHER et al., 2018bFISCHER, W.; GODOI, R. F.; PARANHOS-FILHO, A. C. Roadkill records of reptiles and birds in Cerrado and Pantanal landscapes. Check List, Open access journal, v. 14, n. 5, p. 845-876, 2018b.). This monitoring, which lasted four years (1996-2000), indicated 20 run-over species that did not appear in previous records.

On the paved roads, the degradation of palm trees that form the buritizal is verified by soil compaction, sediment transport, water retention, and other factors.

8. Threat: Effect of hunting and trafficking of wildlife

Although illegal, hunting is still practiced in some parts of the Pantanal. There is indirect evidence of the intensity of the trafficking of wild animals. The CRAS (Center for the Recovery of Wild Animals) of Campo Grande receives seized animals that are captured for illegal trade, mostly parrot chicks. Inspection is poor. Trafficking in wild animals is considered to be one of the most important illicit acts, along with drug and arms trafficking (RENCTAS, 2001).

Legislative and enforcement agencies, such as the Environmental Military Police and IMASUL of Mato Grosso do Sul and FEMA of Mato Grosso, along with Ibama, have shown institutional deficiency to inspect the immense Pantanal.

9. Threat: Climate change

Although this theme is broad, yet its perception, to a certain extent, can be detected in the field. The variability of annual and inter-annual flood patterns that influence the Pantanal can be evidenced in the field through the occurrence of certain vegetation patterns. This occurs in places with abnormally long-term floods, such as in the Taquari River, or in prolonged drought sites, as well as along the Transpantaneira highway in the Pantanal sub-region of Poconé. Two trends are observed: (1) in prolonged drought events, some woody plants colonize the former seasonally flooded fields with homogeneous formations. These species are documented in the published literature: Annona dioica, Bowdichia virgilioides, Buchenavia tomentosa, Curatella americana, Hymenaea stigonocarpa, Luehea paniculata (POTT et al., 2011aPOTT, A.; OLIVEIRA, A. K. M.; DAMASCENO-JUNIOR, G. A.; SILVA, J. S. V. Plant diversity of the Pantanal wetland. Brazilian Journal of Biology=Revista Brasileira de Biologia, v. 71, p. 265-273. 2011a. Suplemento.); (2) in prolonged periods of flood, water-tolerant trees, such as Vochysia divergens, are observed to form homogeneous or monodominant blocks; as well as being documented in the literature (ABDON et al., 2005ABDON, M. M.; SILVA, J. S. V.; SOUSA, M. P. Impacto da inundação sobre as fitofisionomias da planície do baixo Taquari. In: S. GALDINO, L. M. VIEIRA, (Orgs.). Impactos Ambientais e Socioeconômicos na Bacia do Rio Taquari - Pantanal. Corumbá: Embrapa-Pantanal, 2005, p. 295-302.; ALHO, SILVA, 2012ALHO, C. J. R.; SILVA, J. S. V. Effects of severe floods and droughts on wildlife of the Pantanal wetland (Brazil) - A Review. Animals, Basel, Switzerland, v. 2, p. 591-610, 2012.).

While fires in the Pantanal and surrounding areas contribute to the greenhouse effect of climate change, this huge wetland can play a key role in the regional and global climate as elements for its conservation (KEDDY; FRASER, 2005KEDDY, P. A.; FRASER, L. H. Introduction: Big is beautiful. In: FRASER, L. H.; KEDDY, P. A. (Eds.) The World’s Largest Wetlands -- Ecology and Conservation. Cambridge, UK: Cambridge University Press, 2005.; KEDDY et al., 2009).

Conclusion

The effects of the threats involve the ecological focus, but also the socioeconomic focus, since many elements of the Pantanal’s biodiversity serve to leverage factors of use.

There is extensive legislation relevant to the biodiversity of the Pantanal, starting with the international conventions signed and ratified: the Convention on Biological Diversity, the RAMSAR Treaty on Wetlands, and the UNESCO Biosphere Reserve. In addition, there is a whole legislation focusing on the protection of biodiversity, such as Federal Law 9.985 of the National System of Conservation Units and others.

Among the large projects carried out in the Pantanal that deal with the biodiversity issue are: (1) EDIBAP - Study for the Integrated Development of the Upper Paraguay Basin, executed between 1977 and 1989; (2) PCBAP - Plan for the Conservation of the Upper Paraguay Basin, 1997; (3) GEF-Pantanal (ANA / GEF / UNEP / OAS) - Strategic Action Program for the Integrated Management of the Pantanal and Upper Paraguay Basin, executed by the National Water Agency - ANA, in 2005. In addition, regional organizations, including universities, have contributed to studies and activities on biodiversity.

The results of this study reinforce the scope of the assumptions established in light of these documents and the knowledge disseminated (Table).

Table.
Relevance and magnitude of the environmental threats identified and analyzed and their relationship to biodiversity.

The overall negative impacts of human activity on the natural environment of the Pantanal produce three effects: (1) degradation of natural habitats, affecting biodiversity; (2) predatory use of natural resources; (3) introduction of alien species into the ecosystem. Three other major impacts are commonly perceived: (4) occurrence of zoonoses; (5) increase of toxic elements in the environment and (6) climate change. These factors involve the degradation of biodiversity by human activity: the association with human population growth and its multiple unsustainable uses of natural resources.

The threats analyzed are generally linked to ineffective control and the lack of implementation of existing legislation, due to inefficient institutional infrastructure. Lack of law enforcement is evident in relation to illegal deforestation, trafficking in wild species, illegal fishing (commercial and sporting), hunting and other factors. Inefficient surveillance is the most apparent cause. Lack of environmental awareness is another factor. Better institutional capacity building is needed to put the legislation into practice.

The conservation action plan should integrate the actors involved in the search for the implementation of legislation and normative instructions, including inspection and control.

The conservation and management plan for the Pantanal’s biodiversity must face certain inherent difficulties, such as: (a) political-institutional lack related to the environmental theme and insufficient knowledge on the part of decision-makers regarding biodiversity conservation and ecosystem services; (b) lack of ability of local human communities and other actors to be prepared and effectively participate in the conservation agenda; and (c) insufficient political motivation and low levels of citizen participation.

Finally, there are at least two reasons for optimism: (1) the growing awareness of the Brazilian people in general, and of the local people (pantaneiros) in particular, regarding the need to protect biodiversity in the region and (2) the growing certainty that biodiversity, besides its intrinsic value, can also promote socioeconomic benefits, due to the region’s ability to promote the sustainable use of tourism, fishing and other rational uses of the Pantanal’s biological wealth.

References

  • ABDON, M. M.; SILVA, J. S. V.; SOUSA, M. P. Impacto da inundação sobre as fitofisionomias da planície do baixo Taquari. In: S. GALDINO, L. M. VIEIRA, (Orgs.). Impactos Ambientais e Socioeconômicos na Bacia do Rio Taquari - Pantanal. Corumbá: Embrapa-Pantanal, 2005, p. 295-302.
  • ALHO, C. J. R. The Pantanal. In: FRASER, L. H., KEDDY, P. A., (Eds.) The World’s Largest Wetlands - Ecology and Conservation; New York: Cambridge University Press. 2005. p. 203-271.
  • ALHO, C. J. R. Biodiversity of the Pantanal: Its magnitude, human occupation, environmental threats and challenges for conservation. Brazilian Journal of Biology=Revista Brasileira de Biologia, São Carlos, SP: v. 71, p. 229-232. 2011. Suplemento.
  • ALHO, C. J. R. Importance of biodiversity for the human health: an ecological perspective. Estudos Avançados, São Paulo: v. 26, p.151-165, 2012a.
  • ALHO, C. J. R. Seasonal Pantanal flood pulse: Implications for biodiversity conservation - a review. Oecologia Australis, Rio de Janeiro: v.16, n. 4, p. 958-978, 2012b.
  • ALHO, C. J. R.; GONÇALVES, H. C. Biodiversidade do Pantanal: Ecologia & Conservação. Campo Grande: UNIDERP, 2005.
  • ALHO, C. J. R.; PASSOS, F. Primates of the South American Pantanal Wetland: Seasonal Effects on their Habitats and Habits. In: NOWAK, K.; BARNETT, A.; MATSUDA, I. (Eds.), Primates in Flooded Habitats: Ecology and Conservation. Cambridge: Cambridge University Press, 2019. p. 163-171.
  • ALHO, C. J. R.; REIS, R. E. Exposure of Fishery Resources to Environmental and Socioeconomic Threats within the Pantanal Wetland of South America. Int J Aquac Fish Sci, Los Angeles: v. 3, n. 2, p. 022-029, 2017.
  • ALHO, C. J. R.; SILVA, J. S. V. Effects of severe floods and droughts on wildlife of the Pantanal wetland (Brazil) - A Review. Animals, Basel, Switzerland, v. 2, p. 591-610, 2012.
  • ALHO, C. J. R.; VIEIRA, L. M. Fish and wildlife resources in the Pantanal wetlands of Brazil and potential disturbances from the release of environmental contaminants. Environmental Toxicology and Chemistry, Hoboken: v. 16 n. 1, p. 71-74, 1997.
  • ALHO, C. J. R.; CAMARGO, G.; FISCHER, E. Terrestrial and aquatic mammals of the Pantanal. Brazilian Journal of Biology=Revista Brasileira de Biologia, São Carlos, SP:v. 71, p. 297-310, 2011a. Suplemento.
  • ALHO, C. J. R.; FISCHER, E.; OLIVEIRA-PISSINI, L. F.; SANTOS, C. F. Bat-species richness in the Pantanal floodplain and its surrounding uplands. Brazilian Journal of Biology=Revista Brasileira de Biologia, São Carlos, SP: v. 71, p. 311-320, 2011b. Suplemento.
  • ALHO, C. J. R.; MAMEDE, S.; BITENCOURT, K.; BENITES, M. Introduced species in the Pantanal: Implications for conservation. Brazilian Journal of Biology=Revista Brasileira de Biologia, São Carlos, SP: v. 71 p. 321-325, 2011c. Suplemento.
  • ANA/GEF/UNEP/OAS. Strategic Action Program for the Integrated Management of the Pantanal and the Upper Paraguay River Basin. Brasília, DF: ANA - Agência Nacional de Águas, 2005.
  • ANEEL - AGÊNCIA NACIONAL DE ENERGIA ELÉTRICA. Quadro de acompanhamento de autorizações das PCH’s. Ministério de Minas e Energia. 2016. Disponível em: http://www.aneel.gov.br/aplicacoes/autorizacoes/default_aplicacao_acompanhamento.cfm?IDACOMPANHAMENTOTIPO=4 Acesso em: 10 jul. 2017.
    » http://www.aneel.gov.br/aplicacoes/autorizacoes/default_aplicacao_acompanhamento.cfm?IDACOMPANHAMENTOTIPO=4
  • BRITSKI, H. A.; SILIMON, K. Z. S.; LOPES, B. S. Peixes do Pantanal: manual de identificação. 2. ed. Brasília: Embrapa Informação Tecnológica, 2007.
  • CALHEIROS, D. F.; ARNDT, E.; RODRIGUEZ, E. O.; SILVA, M. C. A. Influências de Usinas Hidrelétricas no Funcionamento Hidro-Ecológico do Pantanal Mato-Grossense - Recomendações. Documentos, Brasília: v. 102, p. 1-21, 2009.
  • CHIARAVALLOTI, R. M.; HOMEWOOD, K.; ERIKSON, K. Sustainability and Land tenure: Who owns the floodplain in the Pantanal, Brazil? Land Use Policy, Open access journal, v. 64, p. 511-524, 2017.
  • CI - CONSERVAÇÃO INTERNACIONAL; ECOA - ECOLOGIA E AÇÃO; FUNDACIÓN AVINA; INSTITUTO SOS PANTANAL; WWF-BRASIL. Monitoramento das alterações da cobertura vegetal e uso do solo na Bacia do Alto Paraguai - Porção Brasileira - Período de Análise: 2002 a 2008. Brasília: 2009.
  • FISCHER, E.; SILVEIRA, M.; MUNIN, R. L.; CAMARGO, G.; SANTOS, C. F.; PEREIRA, M. J. R.; FISCHER, W.; ERIKSSON, A. F. Bats in the dry and wet Pantanal. HYSTRIX-Italian Journal of Mammalogy, Open access journal, v. 29, n. 1, p. 11-17, 2018a.
  • FISCHER, W.; GODOI, R. F.; PARANHOS-FILHO, A. C. Roadkill records of reptiles and birds in Cerrado and Pantanal landscapes. Check List, Open access journal, v. 14, n. 5, p. 845-876, 2018b.
  • GALETTI, L. S. G. Nos confins da “civilização”: sertão, fronteira e identidade nas representações sobre Mato Grosso. Tese (Doutorado em História Social). Faculdade de Filosofia, Letras e Ciências Humanas, Universidade de São Paulo, São Paulo: 2000.
  • GALETTI, M.; DONATTI, C. I.; PIZO, M. A.; GIACOMINI, H. C. Big fish are the best seed dispersal of Bactris glaucescens by the pacu fish (Piaractus mesopotamicus) in the Pantanal, Brazil. Biotropica, (Wiley open access journal) v.40, n. 3, p. 386-389, 2008.IBAMA - INSTITUTO BRASILEIRO DO MEIO AMBIENTE. Programa Prevfogo. 2017. Disponível em: http://www.ibama.gov.br/incendios-florestais/prevfogo. Acesso em 12 de julho de 2017.
  • IBGE - INSTITUTO BRASILEIRO DE GEOGRAFIA E ESTATÍSTICA. Produção da Pecuária Municipal. 2017. Disponível em: http://biblioteca.ibge.gov.br/visualizacao/periodicos/84/ppm_2015_v43_br.pdf Acesso em 12 de julho de 2017.
    » http://biblioteca.ibge.gov.br/visualizacao/periodicos/84/ppm_2015_v43_br.pdf
  • ICMBio/MMA - INSTITUTO CHICO MENDES DE CONSERVAÇÃO DA BIODIVERSIDADE/MINISTÉRIO DO MEIO AMBIENTE. Livro Vermelho da Fauna Brasileira Ameaçada de Extinção. Brasília. ICMBio/MMA, 2018 vol.II Mamíferos.
  • INPE - INSTITUTO NACIONAL DE PESQUISA ESPACIAL. Monitoramento de queimadas. 2017. Disponível em: http://www.inpe.br/queimadas/ Acesso em 12 de julho de 2017.
    » http://www.inpe.br/queimadas/
  • JUNK, W. J.; SILVA, C. J. O conceito do pulso de inundação e suas implicações para o Pantanal de Mato Grosso. In: Simpósio sobre recursos naturais e socioeconômicos do Pantanal. Anais., 2, Corumbá: Embrapa Pantanal, 1999, p. 17-28.
  • JUNK, W. J.; CUNHA, C. N.; WANTZEN, K. M.; PETERMANN, P.; STRÜSSMANN, C.; MARQUES, M. I.; ADIS, J. Biodiversity and its conservation in the Pantanal of Mato Grosso, Brazil. Aquatic Sciences, Dübendorf, Switzerland: v. 68, p. 278-309, 2006.
  • KEDDY, P. A.; FRASER, L. H. Introduction: Big is beautiful. In: FRASER, L. H.; KEDDY, P. A. (Eds.) The World’s Largest Wetlands -- Ecology and Conservation. Cambridge, UK: Cambridge University Press, 2005.
  • KEDDY, P. A.; FRASER, L. H.; SOLOMESHCH, A. I.; JUNK, W. J.; CAMPBELL, D.; ARROYO, T. K.; ALHO, C. J. R. Wet and Wonderful: The World’s Largest Wetlands Are Conservation Priorities. BioScience, Washington, DC: v. 59, n. 1, p. 39-51, 2009.
  • KUKKALA, A. S.; MOILANEN, A. Core concepts of spatial prioritization in systematic conservation planning. Biological Reviews. Cambridge: v. 88, n. 2, p. 443-464, 2013.
  • LIMA, C. R. N.; ZEILHOFER, P.; DORES, E.; FANTIN-CRUZ, I. Variabilidade espacial da qualidade de água em escala de bacias - rio Cuiabá e São Lourenço, Mato Grosso. Revista Brasileira de Recursos Hídricos, Porto Alegre: v. 20, n. 1, p. 169-178, 2015.
  • MACEDO, H. A.; STEVAUX, F. N.; BERGIER, I. Methodology for analysis of distribution and classification of the intensity of dequada fish kill events in the Pantanal wetland. Geografia, Rio Claro: v. 40, p. 163-176, 2015. Número Especial.
  • MARGOULIS, R.; STEM, C.; SWAMINATHAN, V.; BROWN, M.; JOHNSON, A.; PLACCI, G.; SALAFSKY, N.; TILDERS, I. Results chains: a tool for conservation action design, management, and evaluation. Ecology and Society, Wolfville, Canada: v.18, n. 3, art. 22, 2013.
  • MMA - MINISTÉRIO DO MEIO AMBIENTE. Fragmentação de Ecossistemas. Causas, Efeitos sobre a Biodiversidade e Recomendações de Políticas Públicas, Brasília, DF: 2003. Série Biodiversidade 6.
  • MMA - MINISTÉRIO DO MEIO AMBIENTE. Monitoramento do desmatamento nos biomas brasileiros por satélite acordo de cooperação técnica MMA/IBAMA monitoramento do bioma Pantanal 2008-2009. Centro de Sensoriamento Remoto - CSR/IBAMA, Brasília, DF: 2011.
  • MMA - MINISTÉRIO DO MEIO AMBIENTE. Bioma Pantanal. Brasília, DF: 2017. Disponível em: http://www.mma.gov.br/biomas/pantanal Acesso em 13 de julho de 2017.
    » http://www.mma.gov.br/biomas/pantanal
  • NUNES, A. P. Quantas espécies de aves ocorrem no Pantanal brasileiro? Atualidades Ornitológicas, Ivaiporã, PR: v. 160, p. 45-54. 2011.
  • OLIVEIRA, A. K. M.; OLIVEIRA, N. A.; RESENDE, U. M.; MARTINS, P. F. R. B. Ethnobotany and traditional medicine of the inhabitants of the Pantanal Negro sub-region and the raizeiros of Miranda and Aquidauana, Mato Grosso do Sul, Brazil. Brazilian Journal of Biology=Revista Brasileira de Biologia., v. 71, n. 1 p. 283-289, 2011. Suplemento.
  • POTT, A.; OLIVEIRA, A. K. M.; DAMASCENO-JUNIOR, G. A.; SILVA, J. S. V. Plant diversity of the Pantanal wetland. Brazilian Journal of Biology=Revista Brasileira de Biologia, v. 71, p. 265-273. 2011a. Suplemento.
  • POTT, V. J.; POTT, A.; LIMA, L. C. P.; MOREIRA, S. N.; OLIVEIRA, A. K. M. Aquatic macrophyte diversity of the Pantanal wetland and upper basin. Brazilian Journal of Biology=Revista Brasileira de Biologia. v. 71, p. 255-263. 2011b. Suplemento.
  • RENCTAS - REDE NACIONAL DE COMBATE AO TRÁFICO DE ANIMAIS SILVESTRES. Relatório Nacional sobre o Tráfico de Fauna Silvestre. Brasília, 2001.
  • ROQUE, F. O.; OCHOA-QUINTERO, J.; RIBEIRO, D. B.; SUGAI, L. S. M.; COSTA-PEREIRA, R.; LOURIVAL, R. Upland habitat loss as a threat to Pantanal wetlands. Conservation Biology, v. 30, n. 5, p. 1131-1134, 2016.
  • SALAFSKY, N.; SALZER, D.; STATTERSFIELD, A. J.; HILTON-TAYLOR, C.; NEUGARTEN, R.; BUTCHART, S. H. M.; COX, N.; MASTER, L. L.; O ́CONNOR, S.; WILKIE, D. A standard Lexicon for Biodiversity Conservation: Unified Classification of Threats and Actions. Conservation Biology, Washington, DC: v. 22, n. 4, p. 897-911, 2008.
  • SCREMIN-DIAS, E.; LORENZ-LEMKE, A. P.; OLIVEIRA, A. K. M. The floristic heterogeneity of the Pantanal and the occurrence of species with different adaptive strategies to water stress. Brazilian Journal of Biology=Revista Brasileira de Biologia. v. 71, p. 275-282, 2011. Suplemento.
  • SILVA, J. S. V.; ABDON, M. M. Delimitação do Pantanal brasileiro e suas sub-regiões. Pesquisa Agropecuária Brasileira, v. 33, p. 1703-1711, 1998. Número Especial.
  • SILVA, R. A. M. S.; BARROS, A. T. M.; HERRERA, H. M. Trypanosomosis outbreaks due to Trypanosoma evansi in the Pantanal, Brazil. A preliminary approach on risk factors. Revue d’Elevage et de Médecine Vétérinaire des Pays Tropicaux, Montpellier, France: v. 48, p. 315-319, 1995.
  • SILVA, J. S. V.; ABDON, M. M.; SILVA, S. M. A.; MORAES, J. A. Evolution of deforestation in the Brazilian Pantanal and surroundings in the timeframe 1976-2008. Geografia, Rio Claro: v. 36, p. 35-55, 2011. Número Especial.
  • SILVEIRA, M.; TOMAS, W. M.; FISCHER, E.; BORDIGNON, M. O. Habitat occupancy by Artibeus planirostris bats in the Pantanal wetland, Brazil. Mammalian Biology, Berlin, Germany: v. 91, p. 1-6, 2018. TOMAS, W. M.; ANTUNES, P.; BORDIGNON, M. O.; CAMILO, A. R.; CAMPOS, Z.; CAMARGO, G.; CARVALHO, L. F. A. C.; CUNHA, N. L.; FISCHER, E.; GODOI, M.; HANNIBAL, W.; MOURÃO, G. M.; RÍMOLI, J.; SANTOS, C. F.; SILVEIRA, M.; TOMAS, M. A. Checklist of mammals from Mato Grosso do Sul, Brazil. Iheringia Série Zoologia, Porto Alegre: v. 107, p. 1-17, 2017.
  • TORTATO, F. R.; IZZO, T. J.; HOOGESTEIJN, R.; PERES, C. A. The numbers of the beast: valuation of jaguar (Panthera onca) tourism and cattle depredation in the Brazilian Pantanal. Global Ecology and Conservation Science Direct v. 11, p. 106-114, 2017.
  • TUFAILE, E. L. Análise da pesca amadora em um trecho do Pantanal: diagnóstico e proposições de conservação. 2011. Dissertação (Mestrado em Meio Ambiente e Desenvolvimento Regional). Universidade Anhanguera Uniderp, Campo Grande.
  • WWF-BRASIL; SOS-PANTANAL. Monitoramento das Alterações da Cobertura vegetal e uso do Solo na Bacia do Alto Paraguai - Porção Brasileira - Período de Análise: 2012-2014. Brasília:2015.
  • WWF-BRASIL; UNIVERSIDADE CATÓLICA DOM BOSCO; FUNDAÇÃO TUIUIÚ. Bacia do Alto Paraguai - Uso e ocupação do solo. Brasília, DF, 2017.

Publication Dates

  • Publication in this collection
    25 Nov 2019
  • Date of issue
    2019

History

  • Received
    08 Sept 2017
  • Accepted
    31 May 2019
ANPPAS - Revista Ambiente e Sociedade Anppas / Revista Ambiente e Sociedade - São Paulo - SP - Brazil
E-mail: revistaambienteesociedade@gmail.com