Predicting zebrafish spatial avoidance triggered by discharges of dairy wastewater: An experimental approach based on self-purification in a model river

Silva, Daniel C. V. R.; Queiroz, Lucas Gonçalves; Marassi, Rodrigo José; Araújo, Cristiano V. M.; Bazzan, Thiago; Cardoso-Silva, Sheila; Silva, Gilmar Clemente; Müller, Malte; Silva, Flávio T.; Montagner, Cassiana Carolina; Paiva, Teresa C. B.; Pompêo, Marcelo L. M.; Fundação de Amparo à Pesquisa do Estado de São Paulo; Coordenação de Aperfeiçoamento de Pessoal de Nível Superior; Ministerio de Ciencia, Innovación y Universidades; Agencia Estatal de Investigación; Consejo Superior de Investigaciones Científicas; Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72]

Predicting zebrafish spatial avoidance triggered by discharges of dairy wastewater: An experimental approach based on self-purification in a model river

2020

Wastewater discharges from dairy industries can cause a range of harmful effects in aquatic ecosystems, including a decline in biodiversity due to species evasion. Therefore, it is important to know the purification potential of rivers for the removal of pollutants released in dairy wastewater (DWW). The hypothesis adopted in this work was that the release of DWW into stretches of the Ribeirão dos Pombos River (São Paulo State, Brazil) might trigger an avoidance response, resulting in fish migrating to other regions, with the response being greater when the self-cleaning potential of the river is smaller. Therefore, the goals of the present study were to: (i) investigate how land use and seasonality of the rainfall regime influence the quality of the water in different areas of the river (P1: river source; P2: urban region; P3: rural region); (ii) assess the potential of the river to purify DWW; and (iii) evaluate the potential toxicity and repellency of DWW to the freshwater fish Danio rerio, using acute toxicity (mortality) and non-forced avoidance tests, respectively. P1 was shown to be the most preserved area. The chemical composition of the river varied seasonally, with higher concentrations of Cl- and SO42- at P3 during the rainy period. The river purification potential for DWW was higher at P2, due to greater microbiological activity (associated with higher BOD). The DWW was more acutely toxic in water from P2. The avoidance response was strongly determined by the concentration of DWW, especially for water from P2. The high capacity for self-cleaning at P2 did not seem sufficient to maintain the stability of the ecosystem. Finally, the non-forced exposure system proved to be a suitable approach that can assist in predicting how contaminants may affect the spatial distributions of organisms.

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Financial support for this work was provided by Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP, grant #14/22581–8). This study was financed in part by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - Brazil (CAPES, Finance Code 001). CVMA is grateful to the Spanish Ministry of Science and Innovation for a Ramón y Cajal contract (RYC-2017-22324). This study was performed within the framework of the cooperation project MultiCecotox (COOPB20444; i-COOP2019 program from CSIC).

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Peer reviewed

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