Pervasive sublethal effects of agrochemicals on insects at environmentally relevant concentrations

Lautaro Gandara; Richard Jacoby; François Laurent; Matteo Spatuzzi; Nikolaos Vlachopoulos; Noa O. Borst; Gülina Ekmen; Clement M. Potel; Martin Garrido-Rodriguez; Antonia L. Böhmert; Natalia Misunou; Bartosz J. Bartmanski; Xueying C. Li; Dominik Kutra; Jean Karim Hériché; Christian Tischer; Maria Zimmermann-Kogadeeva; Victoria A. Ingham; Mikhail M. Savitski; Jean Baptiste Masson; Michael Zimmermann; Justin Crocker

doi:10.1126/science.ado0251

Pervasive sublethal effects of agrochemicals on insects at environmentally relevant concentrations

Lautaro Gandara
, Richard Jacoby
, François Laurent
, Matteo Spatuzzi
, Nikolaos Vlachopoulos
, Noa O. Borst
, Gülina Ekmen
, Clement M. Potel
, Martin Garrido-Rodriguez
, Antonia L. Böhmert
, Natalia Misunou
, Bartosz J. Bartmanski
, Xueying C. Li
, Dominik Kutra
, Jean Karim Hériché
, Christian Tischer
, Maria Zimmermann-Kogadeeva
, Victoria A. Ingham
, Mikhail M. Savitski
, Jean Baptiste Masson

Michael Zimmermann, Justin Crocker

Research output: Contribution to journal › Article › peer-review

81 Citations (Scopus)

Abstract

Insect biomass is declining globally, likely driven by climate change and pesticide use, yet systematic studies on the effects of various chemicals remain limited. In this work, we used a chemical library of 1024 molecules—covering insecticides, herbicides, fungicides, and plant growth inhibitors—to assess the impact of sublethal pesticide doses on insects. In Drosophila melanogaster, 57% of chemicals affected larval behavior, and a higher proportion compromised long-term survivability. Exposure to sublethal doses also induced widespread changes in the phosphoproteome and changes in development and reproduction. The negative effects of agrochemicals were amplified when the temperature was increased. We observed similar behavioral changes across multiple insect species, including mosquitoes and butterflies. These findings suggest that widespread sublethal pesticide exposure can alter insect behavior and physiology, threatening long-term population survival.

Original language	English
Pages (from-to)	446-453
Number of pages	8
Journal	Science
Volume	386
Issue number	6720
DOIs	https://doi.org/10.1126/science.ado0251
Publication status	Published - 25 Oct 2024
Externally published	Yes

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

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10.1126/science.ado0251

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Gandara, L., Jacoby, R., Laurent, F., Spatuzzi, M., Vlachopoulos, N., Borst, N. O., Ekmen, G., Potel, C. M., Garrido-Rodriguez, M., Böhmert, A. L., Misunou, N., Bartmanski, B. J., Li, X. C., Kutra, D., Hériché, J. K., Tischer, C., Zimmermann-Kogadeeva, M., Ingham, V. A., Savitski, M. M., ... Crocker, J. (2024). Pervasive sublethal effects of agrochemicals on insects at environmentally relevant concentrations. Science, 386(6720), 446-453. https://doi.org/10.1126/science.ado0251

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title = "Pervasive sublethal effects of agrochemicals on insects at environmentally relevant concentrations",

abstract = "Insect biomass is declining globally, likely driven by climate change and pesticide use, yet systematic studies on the effects of various chemicals remain limited. In this work, we used a chemical library of 1024 molecules—covering insecticides, herbicides, fungicides, and plant growth inhibitors—to assess the impact of sublethal pesticide doses on insects. In Drosophila melanogaster, 57\% of chemicals affected larval behavior, and a higher proportion compromised long-term survivability. Exposure to sublethal doses also induced widespread changes in the phosphoproteome and changes in development and reproduction. The negative effects of agrochemicals were amplified when the temperature was increased. We observed similar behavioral changes across multiple insect species, including mosquitoes and butterflies. These findings suggest that widespread sublethal pesticide exposure can alter insect behavior and physiology, threatening long-term population survival.",

author = "Lautaro Gandara and Richard Jacoby and Fran{\c c}ois Laurent and Matteo Spatuzzi and Nikolaos Vlachopoulos and Borst, \{Noa O.\} and G{\"u}lina Ekmen and Potel, \{Clement M.\} and Martin Garrido-Rodriguez and B{\"o}hmert, \{Antonia L.\} and Natalia Misunou and Bartmanski, \{Bartosz J.\} and Li, \{Xueying C.\} and Dominik Kutra and H{\'e}rich{\'e}, \{Jean Karim\} and Christian Tischer and Maria Zimmermann-Kogadeeva and Ingham, \{Victoria A.\} and Savitski, \{Mikhail M.\} and Masson, \{Jean Baptiste\} and Michael Zimmermann and Justin Crocker",

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Gandara, L, Jacoby, R, Laurent, F, Spatuzzi, M, Vlachopoulos, N, Borst, NO, Ekmen, G, Potel, CM, Garrido-Rodriguez, M, Böhmert, AL, Misunou, N, Bartmanski, BJ, Li, XC, Kutra, D, Hériché, JK, Tischer, C, Zimmermann-Kogadeeva, M, Ingham, VA, Savitski, MM, Masson, JB, Zimmermann, M & Crocker, J 2024, 'Pervasive sublethal effects of agrochemicals on insects at environmentally relevant concentrations', Science, vol. 386, no. 6720, pp. 446-453. https://doi.org/10.1126/science.ado0251

TY - JOUR

T1 - Pervasive sublethal effects of agrochemicals on insects at environmentally relevant concentrations

AU - Gandara, Lautaro

AU - Jacoby, Richard

AU - Laurent, François

AU - Spatuzzi, Matteo

AU - Vlachopoulos, Nikolaos

AU - Borst, Noa O.

AU - Ekmen, Gülina

AU - Potel, Clement M.

AU - Garrido-Rodriguez, Martin

AU - Böhmert, Antonia L.

AU - Misunou, Natalia

AU - Bartmanski, Bartosz J.

AU - Li, Xueying C.

AU - Kutra, Dominik

AU - Hériché, Jean Karim

AU - Tischer, Christian

AU - Zimmermann-Kogadeeva, Maria

AU - Ingham, Victoria A.

AU - Savitski, Mikhail M.

AU - Masson, Jean Baptiste

AU - Zimmermann, Michael

AU - Crocker, Justin

PY - 2024/10/25

Y1 - 2024/10/25

N2 - Insect biomass is declining globally, likely driven by climate change and pesticide use, yet systematic studies on the effects of various chemicals remain limited. In this work, we used a chemical library of 1024 molecules—covering insecticides, herbicides, fungicides, and plant growth inhibitors—to assess the impact of sublethal pesticide doses on insects. In Drosophila melanogaster, 57% of chemicals affected larval behavior, and a higher proportion compromised long-term survivability. Exposure to sublethal doses also induced widespread changes in the phosphoproteome and changes in development and reproduction. The negative effects of agrochemicals were amplified when the temperature was increased. We observed similar behavioral changes across multiple insect species, including mosquitoes and butterflies. These findings suggest that widespread sublethal pesticide exposure can alter insect behavior and physiology, threatening long-term population survival.

AB - Insect biomass is declining globally, likely driven by climate change and pesticide use, yet systematic studies on the effects of various chemicals remain limited. In this work, we used a chemical library of 1024 molecules—covering insecticides, herbicides, fungicides, and plant growth inhibitors—to assess the impact of sublethal pesticide doses on insects. In Drosophila melanogaster, 57% of chemicals affected larval behavior, and a higher proportion compromised long-term survivability. Exposure to sublethal doses also induced widespread changes in the phosphoproteome and changes in development and reproduction. The negative effects of agrochemicals were amplified when the temperature was increased. We observed similar behavioral changes across multiple insect species, including mosquitoes and butterflies. These findings suggest that widespread sublethal pesticide exposure can alter insect behavior and physiology, threatening long-term population survival.

U2 - 10.1126/science.ado0251

DO - 10.1126/science.ado0251

M3 - Article

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AN - SCOPUS:85207359471

SN - 0036-8075

VL - 386

SP - 446

EP - 453

JO - Science

JF - Science

IS - 6720

ER -

Pervasive sublethal effects of agrochemicals on insects at environmentally relevant concentrations

Abstract

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