key: cord-1033644-ua7711rp authors: Mataveli, Guilherme A. V.; Pereira, Gabriel; de Oliveira, Gabriel; Seixas, Hugo T.; Cardozo, Francielle da S.; Shimabukuro, Yosio E.; Kawakubo, Fernando S.; Brunsell, Nathaniel A. title: 2020 Pantanal’s widespread fire: short- and long-term implications for biodiversity and conservation date: 2021-07-02 journal: Biodivers Conserv DOI: 10.1007/s10531-021-02243-2 sha: 227cb1218a4d8d7f6495bedfb2570b22a2b10671 doc_id: 1033644 cord_uid: ua7711rp The Pantanal faced an unprecedented drought event in 2020. The hydrological year ended in July, 2020 had an annual average rainfall 26 % lower than the average from 1982 to 2020. Consequently, catastrophic wildfires burned out of control. Active fires during this year have also increased, and were 123 % higher than the 2002–2020 Pantanal’s average. Approximately 95 % of these active fires occurred in natural land covers with 28 % of them occurring in areas classified as wetlands that likely dried out due to the drought. Therefore, the development of a special policy is needed to minimize the impact of this crisis on the biodiversity, conservation, and traditional people of the Pantanal. . This situation is also occurring in wetlands, considered world biodiversity hotspots (Keddy et al. 2009 ) where most of biodiversity loss is related to anthropogenic disturbances. Located in the center of South America, the Pantanal is the largest tropical wetland in the world. This seasonally flooded wetland consists of a complex mosaic of ecosystems shaped by several interconnected natural and anthropogenic factors; therefore extremely sensitive to disturbances. The Pantanal faced an unprecedented drought event in 2020. Data from the Climate Hazards center InfraRed Precipitation with Station data (CHIRPS) (Funk et al. 2015) demonstrated that the hydrological year ended in July, 2020 was the driest one ever registered by this dataset, 26 % lower than the annual average rainfall from 1982 to 2020 (Fig. 1) . This drought event initially began with the occurrence of marine heat waves in the Northeast Pacific Ocean (Thielen et al. 2021) . Modelling studies have predicted a significant increase in the occurrence of severe and prolonged drought events in the Pantanal during the near future, triggered by warming sea surface temperatures in the Northern Hemisphere (Thielen et al. 2021; Thielen et al. 2020) . As a consequence of the unusual dry conditions, catastrophic wildfires burned out of control. The main drivers of the Pantanal´s fires are the same as those causing the Amazonian burning crisis (Barlow et al. 2020) , but this scenario is more devastating due to favorable meteorological conditions. Evidences point out to the fact that local farmers took advantage of the dry conditions to set arson fires in natural vegetation areas aiming to expand pasturelands for cattle ranching (Morel 2020) . These wildfires have impacted almost one-third of the Pantanal area exceeding 40,000 km 2 (Libonati et al. 2020) , causing several species of this biodiversity hotspot to struggle for survival (Lemos 2020) and mobilizing volunteers to rescue injured animals (Langlois 2020) . Consequently, smoke from the Pantanal´s fires covered neighbor countries and the largest and most populated city of Brazil, São Paulo (1,200 km distant from the Pantanal) in mid-September (Pinheiro 2020 ). This caused a particular risk during the COVID-19 epidemic as the respiratory health impacts of smoke pollution are likely to interact with the epidemic and worsen infection (de Oliveira et al. 2020) . According to the Brazilian official fire monitoring program (INPE 2020), Moderate Resolution Fig. 1 Annual rainfall estimated by CHIRPS in the Pantanal from 1982 to 2020. We have considered the hydrological year for the region, for example, 2020 corresponds to the period from 08/01/2019 to 07/31/2020 Imaging Spectroradiometer (MODIS) sensors have recorded the highest number of active fires detected in the Pantanal during the hydrological year ended in July, 2020 (Fig. 2) , 123 % higher than the 2002-2020 average. Active fires from August to October 2020 have also set the monthly record in this historical time series. Fig. 2 (a) Location of the Pantanal within South America and location of the active fires detected by MODIS sensors during the hydrological year ended in July, 2020, (b) Annual total of active fires detected by MODIS sensors in the Pantanal from 2002 to 2020. Active fires were clustered considering a 0.3º grid Approximately 95 % of the 2020 hydrological year active fires occurred in natural land covers (MapBiomas 2020) with, surprisingly, 28 % of them occurring in areas classified as wetlands that likely dried out due to the drought. This highlights the drought crisis in a region depending on the seasonal flooding and river levels for its functioning (Pereira et al. 2021) . The traditional peoples of the Pantanal, namely pantaneiros whose majority are cattle ranches, are still suffering severe implications from this historical drought as rainfall variability, river levels, and beef cattle production have a strong connection in the Pantanal (Araujo et al. 2018) . The impacts of this crisis on biodiversity, conservation, and Pantanal's traditional people are yet to be understood but we urge the development of a special policy to minimize them. Public policies should focus on the establishment of Protected Areas (PAs), considered the most effective tool for reducing the loss of natural vegetation (Watson et al. 2018) , and government enforcement, a crucial factor for the effectiveness of PAs (Nolte et al. 2013 ). Currently 4.3 % of the Pantanal is composed of PAs with only 3.5 % of the 2020 hydrological year's active fires occurring within them. However, the increase and effective monitoring of PAs in the Pantanal are not being considered as the current Brazilian Federal policy promotes an anti-environmental agenda (Artaxo 2019) . The endangering of wetlands by environmental setbacks is not new, as the Brazilian Forest Code of 2012 (Law 12,651/2012) protects areas only to a defined "regular" water level, opening the opportunity of destructing high-lying wetland areas (de Sousa Jr et al. 2011) . Other recommendations for the Pantanal recovery and conservation are the dialogue between scientific and traditional ecological knowledge, and to improve public participation and environmental education in and on Pantanal research (Schulz et al. 2019) . These and other concerns, including the preparation and implementation of a biodiversity policy and a social recovery plan for the Pantanal fires, were raised by several scientists across the world in an urgent request to the Brazilian Government (HAW Hamburg 2020) but no response has been received so far. The authors declare that they have no conflicts of interest. Consent for publication All authors have read and agreed to the published version of the manuscript. 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