TY - JOUR
T1 - Responses of Chironomus sancticaroli to the simulation of environmental contamination by sugarcane management practices
T2 - Water and sediment toxicity
AU - Pinto, Thandy Junio da Silva
AU - Moreira, Raquel Aparecida
AU - Freitas, Juliane Silber schmidt
AU - da Silva, Laís Conceição Menezes
AU - Yoshii, Maria Paula Cardoso
AU - de Palma Lopes, Laís Fernanda
AU - Ogura, Allan Pretti
AU - de Mello Gabriel, Gabriele Verônica
AU - Rosa, Luana Maria Tavares
AU - Schiesari, Luis
AU - do Carmo, Janaina Braga
AU - Montagner, Cassiana Carolina
AU - Daam, Michiel Adriaan
AU - Espindola, Evaldo Luiz Gaeta
N1 - Funding Information:
The work was supported by the Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP, Brazil, grant n . 2015/18790-3 ). T.J.S.P., L.C.M.S., M.P.C.Y., L.F.P.·F, and A.P.·O. had a Ph.D. scholarship from the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) and Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES). R.A.M. have a post-doctoral grant from FAPESP ( 2017/24126-4 ). Financial support was also provided to M.A.D. by the Portuguese government ( Fundação para a Ciência e Tecnologia ; FCT) through the research unit UIDB/04085/2020 (CENSE).
Publisher Copyright:
© 2022 Elsevier B.V.
PY - 2023/1/20
Y1 - 2023/1/20
N2 - Sugarcane management practices include the application of pesticides, including the herbicide 2,4-D and the insecticide fipronil. In addition, a by-product from the ethanol industry, called vinasse, is commonly applied to fertilize sugarcane areas. The potential risks of these practices to the edge-of-field aquatic ecosystems were assessed in the present study. This was done by contaminating mesocosms with (single and mixtures of) both pesticides and vinasse and evaluating the effects on the midge Chironomus sancticaroli through in-situ and laboratory bioassays. To this end, outdoor mesocosms were treated with fipronil (F), 2,4-D (D), and vinasse (V) alone and with the mixture of fipronil and 2,4-D (M), as well as with both pesticides and vinasse (MV). C. sancticaroli was deployed in mesocosms before contamination in cages, which were taken out 4- and 8-days-post-contamination. Water and sediment samples were also taken for laboratory bioassays on the first day of contamination, as well as 7-, 14-, 21-, 30-, 45-, and 75-days post-contamination. The responses assessed in subchronic assays (8-day) were survival, growth, head capsule width, development, and mentum deformities. Low survival occurred in the in-situ experiments of all treatments due to the low oxygen levels. In the laboratory tests, effects on survival occurred for F, V, and M over time after exposure to both water and sediment. All organisms died post-exposure to water samples from the MV treatment, even 75-days-post-contamination. Impairments in body length and head capsule width occurred for F, V, and M for water and F, V, M, and MV for sediment samples over time. All treatments increased mentum deformities in exposed larvae for any of the sampling periods. The negative effects observed were more significant in the mixture mesocosms (M and MV), thus indicating increased risks from management practices applying these compounds together or with a short time interval in crops.
AB - Sugarcane management practices include the application of pesticides, including the herbicide 2,4-D and the insecticide fipronil. In addition, a by-product from the ethanol industry, called vinasse, is commonly applied to fertilize sugarcane areas. The potential risks of these practices to the edge-of-field aquatic ecosystems were assessed in the present study. This was done by contaminating mesocosms with (single and mixtures of) both pesticides and vinasse and evaluating the effects on the midge Chironomus sancticaroli through in-situ and laboratory bioassays. To this end, outdoor mesocosms were treated with fipronil (F), 2,4-D (D), and vinasse (V) alone and with the mixture of fipronil and 2,4-D (M), as well as with both pesticides and vinasse (MV). C. sancticaroli was deployed in mesocosms before contamination in cages, which were taken out 4- and 8-days-post-contamination. Water and sediment samples were also taken for laboratory bioassays on the first day of contamination, as well as 7-, 14-, 21-, 30-, 45-, and 75-days post-contamination. The responses assessed in subchronic assays (8-day) were survival, growth, head capsule width, development, and mentum deformities. Low survival occurred in the in-situ experiments of all treatments due to the low oxygen levels. In the laboratory tests, effects on survival occurred for F, V, and M over time after exposure to both water and sediment. All organisms died post-exposure to water samples from the MV treatment, even 75-days-post-contamination. Impairments in body length and head capsule width occurred for F, V, and M for water and F, V, M, and MV for sediment samples over time. All treatments increased mentum deformities in exposed larvae for any of the sampling periods. The negative effects observed were more significant in the mixture mesocosms (M and MV), thus indicating increased risks from management practices applying these compounds together or with a short time interval in crops.
KW - 2,4-D
KW - Fipronil
KW - Mentum deformity
KW - Mesocosms
KW - Mixture
KW - Vinasse
UR - http://www.scopus.com/inward/record.url?scp=85140910566&partnerID=8YFLogxK
U2 - 10.1016/j.scitotenv.2022.159643
DO - 10.1016/j.scitotenv.2022.159643
M3 - Article
C2 - 36306835
AN - SCOPUS:85140910566
SN - 0048-9697
VL - 857
JO - Science of the Total Environment
JF - Science of the Total Environment
M1 - 159643
ER -