Sediment source fingerprints of natural processes and anthropogenic pressures: A contribution to manage the Paraopeba River basin impacted by the B1 tailings dam collapse.

Understanding the origins of sediment transport in river systems is crucial for effective watershed management, especially after catastrophic events. This information is essential for the development of integrated strategies that guarantee water security in river basins. The present study aimed to investigate the rupture of the B1 tailings dam of the Córrego do Feijão mine, which drastically affected the Brumadinho region (Minas Gerais, Brazil). To address this issue, a confluence-based sediment fingerprinting approach was developed through the SedSAT model. Uncertainty was assessed through Monte Carlo simulations and Mean Absolute Error (MAE). Estimates of the overall average contributions of each tributary were quantified for each station and annually during the period 2019-2021. It was observed that the sampling point PT-09, closest to the dam breach, contributed to almost 80% of the Paraopeba River in 2019. Despite the dredging efforts, this percentage increased to 90% in 2020 due to the need to restore the highly degraded area. Additionally, the main tributaries contributing to sediment increase in the river are Manso River "TT-03" (almost 36%), associated with an area with a high percentage of urban land use, and Cedro stream "TT-07" (almost 71%), whose geology promotes erosion, leading to higher sediment concentration. Uncertainties arise from the limited number of available tracers, variations caused by dredging activities, and reduced data in 2020 due to the pandemic. Parameters such as land use, riparian vegetation degradation, downstream basin geology, and increased precipitation are key factors for successfully assessing tributary contributions to the Paraopeba River. The obtained results are promising for a preliminary analysis, allowing the quantification of key areas due to higher erosion and studying how this disaster affected the watershed. This information is crucial for improving decision-making, environmental governance, and the development of mitigating measures to ensure water security. This study is pioneering in evaluating this methodology in watersheds affected by environmental disasters, where restoration efforts are ongoing.

Are fish assemblages recovering after the huge disaster of mining tailing dam collapse in Mariana (Brazil-MG)?

The Doce River basin is located in the Brazilian states of Minas Gerais (MG) and Espírito Santo (ES). Anthropogenic expansion throughout the twentieth century heavily modified the bioecological configuration of the region, which was worsened in November 2015 by the collapse of the Fundão tailing dam in Mariana municipality (MG). Local ichthyofauna suffered a loss of environmental quality, which served as an alert to the possible decline of native species and transformation of fish assemblages. Through a systematic literature review, the present study aimed to investigate the recovery stage of fish assemblage after the disaster. To accomplish this, we selected 14 documents reporting species lists and fish distributions in the area principally affected by the disaster. Data collected about fish assemblage (presence/absence) were spatially (upper, middle, and lower sections) and temporally (pre- and post-disaster) arranged, followed by non-metric multidimensional scaling (NMDS) analysis to assess similarity. We applied the Analysis of Similarities (ANOSIM) non-parametric test to confirm statistically significant differences between groups. We complemented the study by searching for the main bioecological characteristics of the most frequent species raised among the selected documents. NMDS showed differences in the similarity of fish assemblages among the three spatial sections, as confirmed by ANOSIM (p < 0.05), but no differences for the temporal component were observed. Nevertheless, we detected a trend based on continental fish assemblage transformation, as determined by the presence of many non-native species in the post-disaster period, suggesting the better resilience of these species over that of native species. The missing of many native species previously easily collected, mainly from the families Characidae, Loricariidae, and Trichomycteridae, suggested the system moving toward a new condition, probably worsened than the previous one. The ichthyofauna of the estuarine environment, on the contrary, seems to have recovered faster than ichthyofauna from the continental environment.

Assessment of Health Risk and Presence of Metals in Water and Fish Samples from Doce River, Brazil, After Fundão Dam Collapse.

The rupture of the Fundão dam released about 50 million m3 of mining tailings in the Doce river basin. To assess the potential for environmental contamination and the risks of residual exposure of the human population generated by these tailings, water and fish samples from the Doce river were collected 25 days after the accident and analyzed the physicochemical parameters of the water and levels of metals by ICP-MS, in addition to the temporal variability of the concentration of these elements through other studies. This was the first study to carry out an assessment of the health risk associated with the consumption of fish contaminated by metals from the areas affected by the disaster. The values of turbidity (5460 NTU), electrical conductivity (74.8 µS cm-1), total dissolved solids (892 mg L-1) and total suspended solids (772 mg L-1) were above the maximum limit allowed by Brazilian legislation, due to the presence of large amounts of solid materials released after the dam rupture. The analysis of metals in water samples indicated high concentrations of Al (1,906.71 µg L-1), Mn (370.32 µg L-1), Fe (8,503.50 µg L-1) and Hg (34.25 µg L-1), while for the fish samples, only As (1,033.98 µg kg-1) and Hg (herbivorous: 505.32 µg kg-1; predatory: 1,184.09 µg kg-1) presented levels above those established by Brazilian legislation. The health risk assessment showed that the estimated daily intake for Hg was higher than the reference dose, reinforcing the need for monitoring the area affected by the disaster.

Changes in access to water and incidence of waterborne diseases after the Vale dam collapse in Brumadinho (MG), Brazil.

OBJECTIVE: To describe, within the Human Rights to Water and Sanitation (HRWS) framework, the access to water supply services and the incidence of waterborne diseases in the communities affected by the dam disaster in Brumadinho (MG), Brazil. METHODS: A quantitative and qualitative methodology was used, having as variables information on access to water supply services and waterborne diseases. The primary data were extracted from the "Brumadinho Health Project", using a sample stratum with 981 people interviewed, totaling 92.5% of the eligible population in the affected communities of Córrego do Feijão and Parque da Cachoeira. The secondary data from Brumadinho was extracted from the project "Sanitation conditions and the River Basin of the B1 River Basin of Mineradora Vale between 2017 and 2020", available in public databases between 2017 and 2020, and qualitative data was collected in 2022 through individual interviews with health professional also live in the communities. RESULTS: With regard to access to water supply services, the results of this combined data analysis indicate that the HRWS is being neglected, especially with regard to availability, accessibility, acceptability and quality of water. The study also shows a significant increase in the incidence of waterborne diseases in the region after the disaster. CONCLUSION: It is necessary to use the HRWS as the basis to the implementation of public policies aiming to reduce vulnerability in access to water supply services.

Brumadinho dam collapse induces changes in the microbiome and the antibiotic resistance of the Paraopeba River (Minas Gerais, Brazil).

The rupture of the Córrego do Feijão dam in Brumadinho (January 25, 2019) caused serious damage to the Paraopeba River and compromised the quality of its waters for human consumption. However, the possible effects of the dam collapse on the river microbiome and its antibiotic resistance profiles are unknown. The present study aims to analyse the possible shifts in microbial diversity and enhancement of antibiotic resistance in the Paraopeba River. To this end, two sampling campaigns (February and May 2019) were performed to obtain water across the entire Paraopeba River (eight sampling locations: Moeda, Brumadinho, Igarapé, Juatuba, Varginha, Angueretá, Retiro Baixo and Três Marias; ~464 km). This sampling scheme enabled determining the effects of the disaster on the river microbiome. Total DNA and microbial isolation were performed with these water samples. The 16S rRNA-based microbiome analyses (n = 24; 2.05 million 16S rRNA reads) showed changes in microbial diversity immediately after the disaster with the presence of metal-indicating bacteria (Acinetobacter, Bacillus, Novosphingobium, and Sediminibacterium). Matrix-assisted laser desorption ionization-time of flight (MALDI-TOF) identification of bacterial isolates (n = 170) also disclosed possible indicators of faecal contamination across the Paraopeba (Cloacibacterium, Bacteroides, Feaecalibacterium, Bifidobacterium, Citrobacter, Enterobacter, Enterococcus and Escherichia). Antibiotic resistance increased significantly to ampicillin, ampicillin/sulbactam, amoxicillin/clavulanate, ceftriaxone, and cefalotin among isolates obtained in May after the disaster. The effects of toxic mud on microbiomes were felt at all points sampled up to Anguereta. The ore mud may have exacerbated the growth of different antibiotic-resistant, metal-resistant, and faecal-indicating bacteria in the Paraopeba River.

Cultivating vegetables in tailings from the Fundão dam collapse: metal accumulation and risks to food safety.

A great amount of iron ore tailings from the collapse of the Fundão dam in Southeast Brazil was deposited in an extensive agricultural area. The presence of this material creates insecurity for the resumption of agricultural activities, especially the cultivation of vegetables, which can accumulate metals at potentially toxic levels. In this study, two vegetables consumed in the affected area, arugula and radish, were cultivated in tailings and in soil. Productivity, photosynthetic pigment content, photosynthetic performance, metal accumulation, and the possible risk to food safety were analyzed. The productivity of both vegetables, arugula and radish, did not differ between cultivation in tailings and in soil. There were no differences in pigment content nor substantial differences in the photosynthetic parameters of plants grown in the two substrates. Plants grown in tailings had higher Fe, Mn, and Na contents than those grown in soil, reflecting the higher levels of these elements in the former. There were no visual signs of metal toxicity for plants grown in the tailings. The levels of metals potentially ingested through estimated consumption of arugula and radish grown in the tailings were below the maximum allowable limits for human consumption. In addition, calculated risk indices suggest a low potential for harm to the health of consumers of cultivated vegetables in the tailings. The results presented here suggest that agricultural cultivation in the tailings is viable and contribute to the resumption of vegetable cultivation in the region affected by the tailings released with the collapse of the Fundão dam.

New insights into metal(loid) dynamics in the Doce River estuary (Brazil) after a massive iron ore-processing tailing dam collapse.

The present study investigated metal and metalloid dynamics in the estuarine water of the Doce River (Brazil) after the collapse of an iron ore-processing tailing dam in 2015. Spectroscopic and isotopic techniques were applied to bring new insights into the effects of the dam failure on the dynamics and hazardousness of particulate and dissolved metal(loid) concentrations along the fluvial-estuarine continuum. Spectroscopic analysis showed that the suspended particulate matter (SPM) of the Doce River estuary consisted of a combination of soil-delivered particles and fine tailing mud particles with small amounts of coarse tailing mud Fe oxides (~150-µm width). Enrichment and contamination factors showed that the dam failure increased particulate Fe, Pb, Cd, and As, and dissolved Pb concentrations. Total concentrations of As (15 µg/L), Pb (30 µg/L), Cd (8 µg/L), and Cr (105 µg/L) increased up to values higher than quality and regulatory guidelines. Human health risk assessment showed that local communities are exposed to a potentially chronic Cr noncarcinogenic effects, although Cr high concentrations were not linked with the dam failure by this study. The particulate Pb isotope signatures reported herein (206/207Pb ratios of 1.214 ± 0.006 and 208/206Pb ratios of 2.025 ± 0.011) can be applied to constrain metal(loid) sources in the Doce River sediment plume and continental shelf. The river-ocean mixing zone caused abrupt changes metal(loid) partitioning (Zn, Pb, Cr, Cu, Cd, and As), controlling their fate in the estuary and the Brazilian southeast coastal.

Coral growth bands recorded trace elements associated with the Fundão dam collapse.

In November 2015, the collapse of the Fundão dam (Minas Gerais, Brazil) carried over 40 × 106 m3 of iron ore tailings into the Doce river and caused massive environmental and socioeconomic impacts across the watershed. The downstream mudslide scavenged contaminants deposited in the riverbed, and several potentially toxic elements were further released through reduction and solubilization of Fe oxy-hydroxides under estuarine conditions. A turbidity plume was formed off the river mouth, but the detection of contaminants' dispersion in the ocean remains poorly assessed. This situation is specially concerning because Southwestern Atlantic's largest and richest reefs are located 70-250 km to the north of the Doce river mouth, and the legal dispute over the extent of monitoring, compensation and restoration measures are based either on indirect evidence from modeling or on direct evidence from remote sensing and contaminated organisms. Coral skeletons can incorporate trace elements and are considered good monitors of marine pollution, including inputs from open cut mining. Here, we studied a Montastraea cavernosa (Linnaeus 1767) coral colony collected 220 km northward to the river mouth, using X-rays for assessing growth bands and Laser Ablation Inductively Coupled Plasma Mass Spectrometry to recover trace elements incorporated in growth bands formed between 2014 and 2018. A threefold positive Fe anomaly was identified in early 2016, associated with negative anomalies in several elements. Variation in Ba and Y was coherent with the region's sedimentation dynamics, but also increased after 2016, akin to Pb, V and Zn. Coral growth rates decreased after the disaster. Besides validating M. cavernosa as a reliable archive of ocean chemistry, our results evidence wide-reaching sub-lethal coral contamination in the Abrolhos reefs, as well as different incorporation mechanisms into corals' skeletons.

Using NdSr isotopes in suspended sediments in the Abrolhos coral-reef (SW Atlantic, Brazil) to assess potential contamination from the 2015 Fundão dam collapse.

The Abrolhos bank is home of the richest coral reef system of the Southwestern Atlantic, where endemic coral species are found. It has been reported that Abrolhos' corals are under intense stress due to increasing of Marine Heat Waves during the last decades. Additionally, anthropic interventions along the adjacent coastal regions are a factor of concern since they contribute to the increase in the sediment load and to organic debris input in the reef domain. In November 2015, the collapse of the Fundão mining tailings dam resulted in the release of approximately 50 million m3 of iron oxide and quartz-rich slurry into the Doce River. Aiming at using a fingerprint of the tailings and to assess the presence of traces of the Fundão dam material from this event on the Abrolhos bank, this work presents new 87Sr/86Sr and 143Nd/144Nd isotope ratios of marine suspended sediment samples collected between 2016 and 2020 from a network of sediment traps throughout the reef and complementary suspended material at sea. In parallel, we monitored meteo-oceanographic parameters and modeled surface marine currents as an attempt to identify the sediment transport between the Doce River mouth and Abrolhos bank. The r isotopes were used as provenance proxies based on the fact that minerals and rocks tend to have specific isotopic signatures reflecting their own geological derivation. In this context, the isotopic ratios of various potential regional sources for the sedimentation in Abrolhos bank were evaluated. Our monitoring and isotopic measurements indicate that Doce River signatures are detected at Abrolhos bank, following the seasonal Doce River discharge at sea. Isotopic signature of Doce River at Abrolhos bank was also observed during the austral winter (July-August) when cold fronts migrate at the Brazilian coast with higher frequency and energy.

Ecological trap for seabirds due to the contamination caused by the Fundão dam collapse, Brazil.

Human-induced rapid environmental changes can disrupt habitat quality in the short term. A decrease in quality of habitats associated with preference for these over other available higher quality is referred as ecological trap. In 2015, the Fundão dam containing iron mining tailings, eastern Brazil, collapsed and released about 50 million cubic meters of metal-rich mud composed by Fe, As, Cd, Hg, Pb in three rivers and the adjacent continental shelf. The area is a foraging site for dozens of seabird and shorebird species. In this study, we used a dataset from before and after Fundão dam collapse containing information on at-sea distribution during foraging activities (biologging), dietary aspects (stable isotopes), and trace elements concentration in feathers and blood from three seabird species known to use the area as foraging site: Phaethon aethereus, Sula leucogaster, and Pterodroma arminjoniana. In general, a substantial change in foraging strategies was not detected, as seabirds remain using areas and food resources similar to those used before the dam collapse. However, concentration of non-essential elements increased (e.g., Cd and As) while essential elements decreased (e.g., Mn and Zn), suggesting that the prey are contaminated by trace elements from tailings. This scenario represents evidence of an ecological trap as seabirds did not change habitat use, even though it had its quality reduced by contamination. The sinking-resuspension dynamics of tailings deposited on the continental shelf can temporally increase seabird exposure to contaminants, which can promote deleterious effects on populations using the region as foraging sites in medium and long terms.

Using drones and ROV to assess the vulnerability of marine megafauna to the Fundão tailings dam collapse.

The ecology and life history of marine megafauna can answer the ecological importance of a region. This study assesses and monitors the abundance and home range of sea turtles, seabirds, marine mammals and the association with coastal microhabitats in potentially impacted areas at the Rio Doce river mouth, Comboios, and Piraquê-açu river mouth after the collapse of the Fundão dam. Remotely Operated Vehicles (ROV) and UAVs (Unmanned Aerial Vehicles, or drones) were used for megafauna species identification, behavior, population data, habitat characterization, and monitoring of environmental protection areas. The species Sotalia guianensis and Pontoporia blainvillei were the most recorded cetaceans, and the main observed behavior was feeding. Guiana dolphin (S. guianensis) occurs in greater density in the Rio Doce river mouth region, resulting in more than 10 sightings/km2, while franciscana (P. blainvillei) were the most concentrated Comboios area. The seabirds (all species) had up to 15 sightings/km2 at the Rio Doce river mouth, the highest density among sampled areas. The green turtle (Chelonia mydas) was the most frequently recorded, followed by the leatherback turtle (Dermochelys coriacea). The green turtle occurred at a higher concentration at the Piraquê-Açu river mouth (above 6 sightings/km2). The sites closest to Rio Doce river mouth and Comboios predominantly showed mud bottoms, while those at Piraquê-Açu mouth were mostly reef structures. The estuarine areas showed greater importance for megafauna than marine areas.

Forest restoration methods, seasonality, and penetration resistance does not influence aboveground biomass stock on mining tailings in Mariana, Brazil.

The restoration methods applied on the areas affected by the Fundão tailings dam collapse have a high priority in Mariana region. We evaluated the effect of different restoration methods and site preparation techniques, depth and seasonality on penetration resistance of tailings, and how these predictors affect tree aboveground biomass in areas affected by the Fundão dam collapse in Mariana, Brazil. No significant differences in penetration resistance and aboveground biomass between treatments were observed, but significant differences were observed between seasonal periods. The main univariate model explained the significant effects of depth and seasonality, mainly by a negatively wet effect on penetration resistance. According to the best models (univariate and multivariate) were those that had depth as a predictor. This study showed how penetration resistance can be an indicator to select the best period for restoration process in areas affected by the collapse of the Fundão dam, but no limit to the aboveground biomass recovery on tailing.

Trace metals in Rio Doce sediments before and after the collapse of the Fundão iron ore tailing dam, Southeastern Brazil.

The collapse of the Fundão Dam, in Southeastern Brazil, caused about 50 million m³ of iron ore tailings to sluice down the mountain to Rio Doce, in what is considered the greatest environmental disaster in Brazilian history. The fluvial system received an intense and sudden mudflow that was transported for more than 650 km, before reaching the Atlantic Ocean. Because the area was already impacted by the mineral activities in the region, it becomes essential to evaluate the environmental conditions before the disaster to correctly assess the disaster real damage. This study compares the concentration of trace metals in the sediments of the Rio Doce alluvial plain, before and after the dam collapse, as well as the newly deposited iron ore tailings that became part of the sedimentary framework. The data indicate that the fine particles deposited have since been incorporated into the sandy river sediments. The cadmium and arsenic contents in the sediments increased to levels above the National Environment Council thresholds. The comparison between the levels of trace metals in the situations before and after disaster shows that the mining mud is the source of cadmium while the arsenic was present before the environmental disaster, and its concentration increased due to sediment remobilization. The iron ore tailings deposited on the alluvial sediments also affected the physical parameters since the formed ferruginous crusts waterproofed the ground surface and may, gradually, release toxic metals when exposed to weathering and river reworking.

Manganese: The overlooked contaminant in the world largest mine tailings dam collapse.

Manganese (Mn) is an abundant element in terrestrial and coastal ecosystems and an essential micronutrient in the metabolic processes of plants and animals. Mn is generally not considered a potentially toxic element due to its low content in both soil and water. However, in coastal ecosystems, the Mn dynamic (commonly associated with the Fe cycle) is mostly controlled by redox processes. Here, we assessed the potential contamination of the Rio Doce estuary (SE Brazil) by Mn after the world's largest mine tailings dam collapse, potentially resulting in chronic exposure to local wildlife and humans. Estuarine soils, water, and fish were collected and analyzed seven days after the arrival of the tailings in 2015 and again two years after the dam collapse in 2017. Using a suite of solid-phase analyses including X-ray absorption spectroscopy and sequential extractions, our results indicated that a large quantity of MnII arrived in the estuary in 2015 bound to Fe oxyhydroxides. Over time, dissolved Mn and Fe were released from soils when FeIII oxyhydroxides underwent reductive dissolution. Due to seasonal redox oscillations, both Fe and Mn were then re-oxidized to FeIII, MnIII, and MnIV and re-precipitated as poorly crystalline Fe oxyhydroxides and poorly crystalline Mn oxides. In 2017, redox conditions (Eh: -47 ± 83 mV; pH: 6.7 ± 0.5) favorable to both Fe and Mn reduction led to an increase (~880%) of dissolved Mn (average for 2015: 66 ± 130 µg L-1; 2017: 582 ± 626 µg L-1) in water and a decrease (~75%, 2015: 547 ± 498 mg kg-1; 2017: 135 ± 80 mg kg-1) in the total Mn content in soils. The crystalline Fe oxyhydroxides content significantly decreased while the fraction of poorly ordered Fe oxides increased in the soils limiting the role of Fe in Mn retention. The high concentration of dissolved Mn found within the estuary two years after the arrival of mine tailings indicates a possible chronic contamination scenario, which is supported by the high levels of Mn in two species of fish living in the estuary. Our work suggests a high risk to estuarine biota and human health due to the rapid Fe and Mn biogeochemical dynamic within the impacted estuary.

First year after the Brumadinho tailings' dam collapse: Spatial and seasonal variation of trace elements in sediments, fishes and macrophytes from the Paraopeba River, Brazil.

On January 2019, the B1 iron ore tailings' dam collapsed in Brumadinho, Brazil, being one of the worst mining-related disasters, with 270 human deaths (11 of them still missing) and 12.106 m3 of tailings released to the environment. The tailings devastated the Córrego do Feijão brook and reached the adjacent Paraopeba River, the region's main watercourse and a major tributary of the São Francisco basin. Although physicochemical parameters of the river were strongly impacted, and acute toxicological effects have been reported from exposure experiments, contamination of aquatic biota had not yet been assessed. Therefore, the aim of this study was to evaluate contamination by trace elements (As, Al, Cd, Co, Cr, Cu, Fe, Hg, Mn, Ni, Pb and Zn) in sediment, fish and macrophytes along the Paraopeba River, upstream and downstream from the dam failure site, during the dry and wet season. With the exception of Cd and Hg, all elements in sediment samples had lower median concentrations downstream. An inverse pattern was observed for the aquatic biota, with significant higher concentrations of Fe, Mn, Ni and Zn in fishes, and increased concentrations of most elements in macrophytes, indicating an increase in element bioavailability. A significant seasonal variation was observed with increased concentrations of As (dry season) and Pb (wet season) in fish samples, with the same trend occurring in macrophytes. Concentrations of potentially toxic elements in fish samples in wet weight (Cr: 1.80 ± 1.31 mg kg-1, Hg: 0.21 ± 0.11 mg kg-1 and Pb: 0.79 ± 0.80 mg kg-1) were lower than those reported before the disaster. Furthermore, As and Pb concentrations exceeded the safety threshold for fish consumption in 3% and 41% of samples, respectively, representing a matter of concern for public health.

Impactos físicos e psicológicos na população de Brumadinho após rompimento da barragem de rejeitos / Physical and psychological impacts on the population of Brumadinho after rupture of the tailings dam

Objetivo: Esta revisão sistemática busca identificar os fatores que podem impactar na saúde das vítimas do rompimento da barragem, em especial aqueles riscos surgidos ou incrementados com a ruptura da barragem de rejeitos em Brumadinho. Fontes de Dados: Bases de dados informatizadas, Pubmed, Scopus e Web of Science nos idiomas Português e Inglês, restringindo-se a publicações nos últimos cinco anos. Critérios de inclusão: estudos que abordem aspectos relacionados à saúde dos envolvidos na ruptura da barragem de Brumadinho. Foram excluídos estudos que abordassem qualquer tema que escapasse desse escopo. Síntese dos Dados: Foram identificadas um total de 157 publicações. Excluíram-se 127 pelo título, por serem duplicatas e pelos critérios de exclusão. Analisou-se 30 integralmente, restando 19(63,3%). Resultados: Por meio dos critérios de elegibilidade dessa revisão foram encontrados artigos sobre as consequências do achado de metais pesados nas águas dos rios, como o favorecimento de genes multirresistentes e o comprometimento de fonte de água potável. Também foram descritos os impactos na saúde mental em Brumadinho, pois nota-se que a população está sujeita a efeitos psicológicos traumáticos secundários a desastres ambientais. Por meio dessa busca foi identificado que ainda há a necessidade de novos estudos sobre os impactos da mudança da morfologia hídrica e social para a saúde desses indivíduos. Conclusão:Alguns poucos impactos diretos e indiretos já estão descritos na literatura de forma incipiente, de forma que ações de mitigação são necessárias para dirimir os impactos já observados.

Abstract: This systematic review seeks to identify the factors that may impact on the health of the victims of the dam rupture, especially those risks arising or increased with the rupture of the tailings dam in Brumadinho. Data Sources: Computerized databases, Pubmed, Scopus and Web of Science in Portuguese and English, restricted to publications from the last five years. Inclusion criteria: studies that address aspects related to the health of those involved in the Brumadinho dam rupture. Studies that addressed any topic that fell outside this scope were excluded. Summary of Data: A total of 157 publications were identified. 127 were excluded by title, because they are duplicates and by exclusion criteria. 30 were analyzed in full and, of these, only 19 (63,3%) were eligible. Results: Through the eligibility criteria of this review, articles were found on the consequences of the finding of heavy metals in river waters, such as the favoring of multidrug-resistant genes and the impairment of drinking water sources. The impacts on mental health in Brumadinho were also described, it is noted that the population is subject to traumatic psychological effects secondary to environmental disasters. Through this search, it was identified that there is still a need for further studies on the impacts of changing water and social morphology on the health of these individuals. Conclusion: Direct and indirect impacts are shown and that actions are fundamental for their mitigation.

Efeitos tóxicos à saúde humana e ao ambiente causados pelo derramamento de rejeitos de minério da barragem de Fundão / Toxic effects to human health and the environment caused by the spillage of ore tailings from the Fundão dam

Objetivo: analisar as evidências científicas existentes até o presente momento que descrevem os efeitos tóxicos causados à saúde humana e ao ambiente, devido à liberação dos rejeitos de minério, decorrentes do rompimento da barragem de Fundão em Mariana - MG. Métodos: a revisão narrativa da literatura baseou-se na busca de artigos em quatro bases de dados: PubMed, SciELO, Science Direct e LILACS, utilizando os descritores "Dam", "Fundão" e "Mariana" junto com o operador booleano "AND". Resultados: trinta e quatro das oitenta e cinco publicações encontradas atenderam aos critérios de inclusão e foram utilizadas para compor a presente revisão. Foram observados os seguintes efeitos tóxicos: contaminação da água e do solo, principalmente, por metais pesados, potencial genotóxico, citotóxico e mutagênico da água, diminuição da diversidade microbiana, contaminação de peixes, perda da vegetação e prejuízos ao metabolismo de crescimento de plantas. Entre esses metais, foi relatado aumento na concentração de ferro, manganês, cobre, cádmio, chumbo, arsênio, cromo, magnésio, alumínio, mercúrio, cobalto, bário, níquel e selênio. Além disso, o desastre promoveu o aumento no número de casos de doenças humanas, como dengue, doenças respiratórias, dermatológicas, intestinais, psicológicas e comportamentais. Conclusão: todas as evidências científicas expostas na presente revisão sugerem que houve a contaminação ambiental, bem como da população local, por agentes tóxicos presentes nos rejeitos de minério, em especial metais pesados, liberados após o rompimento da barragem de Fundão. Assim, torna-se essencial a realização de mais estudos que visem esclarecer os efeitos tóxicos crônicos decorrentes dos rejeitos de minério liberados ao ambiente.

Objective: to analyze the scientific evidence existing to date that describes the toxic effects caused to human and the environmental health, due to the release of ore tailings, resulting from the rupture of the Fundão dam in Mariana-MG. Methods: the narrative literature review was based on a search for articles in four databases: PubMed, SciELO, Science Direct and LILACS, using the descriptors "Dam", "Fundão" and "Mariana" together with the Boolean operator "AND". Results: thirty-four, of the eighty-five publications found, met the inclusion criteria and were used to compose the present review. The following toxic effects were observed: contamination of water and soil mainly by heavy metals, genotoxic, cytotoxic and mutagenic potential of water, decrease in microbial diversity, contamination of fish, loss of vegetation, and impairment of plant growth metabolism. Among these metals, increased concentrations of iron, manganese, copper, cadmium, lead, arsenic, chromium, magnesium, aluminum, mercury, cobalt, barium, nickel and selenium were reported. In addition, the disaster promoted an increase in the number of cases of human diseases, such as dengue, respiratory, dermatological, intestinal, psychological and behavioral diseases. Conclusion: all the scientific evidence exposed in the present review that there was environmental contamination, as well as of the local population, by toxic agents present in the ore tailings, especially heavy metals, released after the collapse of the Fundão dam. Thus, further studies aimed at clarifying the chronic toxic effects resulting from the ore tailings released into the environment are essential.

Estudo experimental da translocação, percolação e lixiviação dos metais presentes no rejeito de mineração: rompimento de barragem em Mariana-MG / Experimental study of translocation, percolation and leaching of metals present in mining tailings: dam failure in Mariana-MG

A exploração mineral é uma relevante atividade econômica desenvolvida no Brasil, principalmente, no Estado de Minas Gerais. A região do Quadrilátero Ferrífero é considerada uma das maiores províncias poliminerais do Planeta e possui importantes reservas de minério de ferro, manganês, níquel, alumínio e ouro. Com o rompimento da barragem de Fundão em Mariana-MG, em 2015, milhões de toneladas de rejeitos extravasaram ficando depositados no solo e nos recursos hídricos. A carga de rejeitos atingiu, primeiramente, a Barragem de Santarém, provocando o seu galgamento, subsequentemente, alcançou o subdistrito de Bento Rodrigues, Rio Gualaxo do Norte, Rio Carmo, Rio Doce e Oceano Atlântico. Foram 663,2 km de corpos hídricos diretamente impactados, 41 municípios e dois estados atingidos: Minas Gerais e Espírito Santo. Diante da magnitude dos danos provocados ao ecossistema e carência de informações e de estudos na área da saúde, esta pesquisa tem por objetivo avaliar as concentrações de metais na área afetada pelo rompimento da barragem de rejeitos de mineração e simular, experimentalmente, a translocação, percolação e lixiviação desses metais no ambiente. Foram realizadas coletas de solo natural e rejeitos in loco, nos locais mais afetados pelo rompimento (Paracatu de Baixo-MG), para análise de parâmetros físicos e químicos. Avaliação do Fator de Translocação dos metais foi desenvolvida em hortaliças (alface, rúcula e rabanete), cultivada com solo natural de Mariana-MG e com rejeitos de mineração. Além disso, foram realizados ensaios de lixiviação e percolação de água em solo contaminado. Considerando os resultados desta pesquisa, foi possível realizar um diagnóstico básico sobre rotas de dispersão ambiental dos metais no solo após ruptura da Barragem do Fundão, Mariana, MG. Após analisar as amostras do solo e rejeitos, foi evidenciado que o As, Pb, Tl, Al e Fe apresentaram as maiores concentrações. Algumas amostras analisadas apresentaram Cu e Ni em concentrações superiores às recomendadas pela Resolução 420 do CONAMA e por normativas da Alemanha. Os resultados dos ensaios com hortaliças apontam amostras que apresentaram Fator de Translocação superior a 1, evidenciando o transporte de metais das raízes até a parte aérea dos vegetais, o que pode representar risco para saúde da população. De acordo com os resultados obtidos durante a simulação de percolação e lixiviação nos cilindros experimentais, verificou-se que ocorreu movimentação de metais na dimensão horizontal e vertical. Os resultados dos ensaios de translocação, percolação e lixiviação mostram, de maneira experimental, diferentes rotas de dispersão dos metais contidos nos rejeitos do minério. Esses resultados permitem inferir o que pode ter acontecido no ambiente após o rompimento da barragem na região de Mariana. Fica evidenciada a necessidade de se dar continuidade a estudos em áreas atingidas pelos rejeitos de mineração a médio e longo prazo, com foco em estratégias de remediação que objetivem a redução de efeitos adversos à saúde nas comunidades assentadas após esse tipo de desastres. Certamente, a obtenção de dados toxicológicos e de avaliações de risco à saúde da população subsidiarão a tomada de decisão e o desenvolvimento de ações intersetoriais, visando à promoção e proteção da saúde e melhoria das condições sociais e de vida da população afetada pelo desastre

Mineral exploration is an important economic activity developed in Brazil, mainly in the State of Minas Gerais. The Quadrilátero Ferrífero region is considered one of the largest polymineral provinces on the planet and has important reserves of iron ore, manganese, nickel, aluminum and gold. With the collapse of the Fundão dam in Mariana-MG in 2015, millions of tons of tailings overflowed, being deposited in the soil and in water resources. The tailings load first reached the Santarém Dam causing its overtopping, subsequently reaching the sub-district of Bento Rodrigues, Rio Gualaxo do Norte, Rio Carmo, Rio Doce and Oceano Atlântico. There were 663.2 km of water bodies directly impacted, 41 municipalities and two states affected: Minas Gerais and Espírito Santo. Given the magnitude of the damage caused to the ecosystem and the lack of information and studies in the area of health, this research aimed to evaluate the concentrations of metals in the area affected by the collapse of the mining tailings dam and to experimentally simulate translocation, percolation and leaching of these metals in the environment. Natural soil and tailings were collected in loco, in the places most affected by the rupture (Paracatu de Baixo-MG), for the analysis of physical and chemical parameters. Evaluation of the Translocation Factor of metals was developed in vegetables (lettuce, arugula and radish), cultivated with natural soil from Mariana-MG and with mining tailings. In addition, leaching and water percolation tests were carried out in contaminated soil. Considering the results of this research, it was possible to carry out a basic diagnosis of environmental dispersion routes of metals in the soil after the Fundão Dam rupture, Mariana, MG. After analyzing the soil and tailings samples, it was evidenced that As, Pb, Tl, Al and Fe had the highest concentrations. Some analyzed samples presented Cu and Ni at concentrations higher than those recommended by Res. 420 of CONAMA and German regulations. The results of the tests with vegetables indicate samples that presented a Translocation Factor greater than 1, showing the transport of metals from the roots to the aerial part of the vegetables, which may represent a risk to the health of the population. According to the results obtained during the simulation of percolation and leaching in the experimental cylinders, it was verified that metal movement occurred in the horizontal and vertical dimensions. The results of the translocation, percolation and leaching tests show, in an experimental way, different routes of dispersion of the metals contained in the ore tailings. These results allow us to infer what may have happened in the environment after the dam collapsed in the Mariana region. The need to continue studies in areas affected by mining tailings in the medium and long term is evidenced, with a focus on remediation strategies aimed at reducing adverse health effects in settled communities after this type of disaster. Certainly, obtaining toxicological data and health risk assessments for the population will support decision-making and the development of intersectoral actions, aimed at promoting and protecting health and improving the social and living conditions of the population affected by the disaster

Avoidable environmental disasters and infant health: Evidence from a mining dam collapse in Brazil.

We study the health consequences of one of the largest environmental disasters of the world mining industry, which largely stemmed from regulatory failure. Exploiting the timing and location of the Mariana mine tailings dam collapse in Brazil, we show that in utero exposure to the tragedy significantly reduced birth weight and increased infant mortality. The adverse effects were stronger for infants born to less educated and nonmarried mothers. These findings indicate that poorly enforced environmental regulation may have long-term welfare impacts on local communities.