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5. Insecticide-contaminated honeydew : risks for beneficial insects

Author

Calvo-Agudo, Miguel, Tooker, John F., Dicke, Marcel, Tena, Alejandro, Calvo-Agudo, Miguel, Tooker, John F., Dicke, Marcel, and Tena, Alejandro

Abstract

Honeydew is the sugar-rich excretion of phloem-feeding hemipteran insects such as aphids, mealybugs, whiteflies, and psyllids, and can be a main carbohydrate source for beneficial insects in some ecosystems. Recent research has revealed that water-soluble, systemic insecticides contaminate honeydew excreted by hemipterans that feed on plants treated with these insecticides. This contaminated honeydew can be toxic to beneficial insects, such as pollinators, parasitic wasps and generalist predators that feed on it. This route of exposure has now been demonstrated in three plant species, for five systemic insecticides and four hemipteran species; therefore, we expect this route to be widely available in some ecosystems. In this perspective paper, we highlight the importance of this route of exposure by exploring: (i) potential pathways through which honeydew might be contaminated with insecticides; (ii) hemipteran families that are more likely to excrete contaminated honeydew; and (iii) systemic insecticides with different modes of action that might contaminate honeydew through the plant. Furthermore, we analyse several model scenarios in Europe and/or the USA where contaminated honeydew could be problematic for beneficial organisms that feed on this ubiquitous carbohydrate source. Finally, we explain why this route of exposure might be important when exotic, invasive, honeydew-producing species are treated with systemic insecticides. Overall, this review opens a new area of research in the field of ecotoxicology to understand how insecticides can reach non-target beneficial insects. In addition, we aim to shed light on potential undescribed causes of insect declines in ecosystems where honeydew is an important carbohydrate source for insects, and advocate for this route of exposure to be included in future environmental risk assessments.

Published
2022

6. Melaza contaminada por insecticidas sistémicos: riesgos para los insectos beneficiosos

Author

Calvo-Agudo, Miguel, Dicke, Marcel, Tena, Alejandro, and Aguirrebengoa, Martín

Subjects
Insecticidas sistémicos, Control biológico, Pimetrozina, H10 Pests of plants, Flonicamida, Hemípteros, Melaza, Polinizadores, Insectos beneficiosos, Toxicidad, L51 Animal physiology - Nutrition, L74 Miscellaneous animal disorders, T01 Pollution, U40 Surveying methods, H50 Miscellaneous plant disorders, H20 Plant diseases, Neonicotinoides
Abstract

El control de plagas en agricultura se basa mayoritariamente en el uso de insecticidas que pueden producir efectos nocivos en insectos beneficiosos. En varios estudios recientes, se ha demostrado que la melaza excretada por los hemípteros que se alimentan de plantas tratadas con insecticidas sistémicos puede contaminarse con dichos insecticidas, y resultar tóxica para los insectos beneficiosos que se alimentan de ella. Esta ruta de exposición ha sido demostrada para tres especies de plantas distintas, cinco insecticidas sistémicos y cuatro especies de hemípteros, por lo que puede ser una ruta de exposición muy común en diferentes agroecosistemas donde el néctar es un recurso escaso y la melaza es la principal fuente de alimentación para los insectos beneficiosos.

Published
2022

7. Los neonicotinoides modifican la composición bacteriana de la melaza y la preferencia de los parasitoides por esta fuente de alimento

Author

Millán-Leiva, Anabel, Calvo-Agudo, Miguel, Tena, Alejandro, González-Cabrera, Joel, and Aguirrebengoa, Martín

Subjects
Tiametoxam, H10 Pests of plants, Hemípteros, Melaza, Insectos beneficiosos, L02 Animal feeding, Anagyrus vladimiri, Toxicidad, L51 Animal physiology - Nutrition, T01 Pollution, Bacterioma, Planococcus citri, Parasitoides, Neonicotinoides
Abstract

Los neonicotinoides son los insecticidas sistémicos más ampliamente utilizados a escala global a pesar de que resultan tóxicos para los insectos beneficiosos que se alimentan de néctar o melaza. Varios estudios han demostrado que los insectos beneficiosos no son capaces de discriminar entre néctar contaminado y no contaminado con neonicotinoides. Sin embargo, esto nunca se ha comprobado para la melaza, la principal fuente de carbohidratos en muchos ecosistemas agrícolas. Para abordar esta cuestión, recogimos la melaza excretada por Planococcus citri Risso (Hemiptera: Pseudococcidae) que se habían alimentado de plantas tratadas y no tratadas con el neonicotinoide tiametoxam.

Published
2022

9. Neonicotinoids in excretion product of phloem-feeding insects kill beneficial insects

Author

CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Generalitat Valenciana, Ministerio de Economía y Competitividad (España), Calvo-Agudo, Miguel [0000-0002-2209-0196], González-Cabrera, Joel [0000-0002-8338-370X], Picó, Yolanda [0000-0002-9545-0965], Urbaneja, Alberto [0000-0001-5986-3685], Dicke, Marcel [0000-0001-8565-8896], Tena, Alejandro [0000-0002-5001-4334], Calvo-Agudo, Miguel, González-Cabrera, Joel, Picó, Yolanda, Calatayud-Vernich, Pau, Urbaneja, Alberto, Dicke, Marcel, Tena, Alejandro, CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Generalitat Valenciana, Ministerio de Economía y Competitividad (España), Calvo-Agudo, Miguel [0000-0002-2209-0196], González-Cabrera, Joel [0000-0002-8338-370X], Picó, Yolanda [0000-0002-9545-0965], Urbaneja, Alberto [0000-0001-5986-3685], Dicke, Marcel [0000-0001-8565-8896], Tena, Alejandro [0000-0002-5001-4334], Calvo-Agudo, Miguel, González-Cabrera, Joel, Picó, Yolanda, Calatayud-Vernich, Pau, Urbaneja, Alberto, Dicke, Marcel, and Tena, Alejandro

Abstract

Pest control in agriculture is mainly based on the application of insecticides, which may impact nontarget beneficial organisms leading to undesirable ecological effects. Neonicotinoids are among the most widely used insecticides. However, they have important negative side effects, especially for pollinators and other beneficial insects feeding on nectar. Here, we identify a more accessible exposure route: Neonicotinoids reach and kill beneficial insects that feed on the most abundant carbohydrate source for insects in agroecosystems, honeydew. Honeydew is the excretion product of phloem-feeding hemipteran insects such as aphids, mealybugs, whiteflies, and psyllids. We allowed parasitic wasps and pollinating hoverflies to feed on honeydew from hemipterans feeding on trees treated with thiamethoxam or imidacloprid, the most commonly used neonicotinoids. LC-MS/MS analyses demonstrated that both neonicotinoids were present in honeydew. Honeydew with thiamethoxam was highly toxic to both species of beneficial insects, and honeydew with imidacloprid was moderately toxic to hoverflies. Collectively, our data provide strong evidence for honeydew as a route of insecticide exposure that may cause acute or chronic deleterious effects on nontarget organisms. This route should be considered in future environmental risk assessments of neonicotinoid applications.

Published
2019

10. Honeydew as a newly described route of insecticide exposure to beneficial insects

Author

Dicke, M., Tena, A., Calvo Agudo, Miguel, Dicke, M., Tena, A., and Calvo Agudo, Miguel

Abstract

A plethora of beneficial insects need carbohydrates to meet their requirements for daily physical activities and metabolic processes. In agricultural lands, beneficial insects find carbohydrates mainly in nectar and honeydew. Nectar is often scarce in most agroecosystems because it is limited to the brief flowering period of the crop (if present). This sugar can also be available in the spontaneously flowering plants that appear along crop borders, ditches and roadsides, but these plants are often removed to avoid competition with the crop. Instead, honeydew, the excretion product of many hemipteran insects such as aphids, whiteflies, coccids, mealybugs or psyllids, is highly abundant and accessible in agricultural lands throughout the year. For this reason, many beneficial insects rely on honeydew as a main carbohydrate source of their diet, especially when nectar is scarce.The use of systemic insecticides had been considered an excellent option for integrated pest management programs because once applied, they move systemically to all plant tissues, harming herbivores that feed on the plant. Yet, the fact that the insecticides move to all plant tissues, means that they also reach plant-derived food sources such as nectar or pollen. Many insects that feed on these food sources are therefore exposed to several systemic insecticides. The aim of this PhD thesis was to explore whether honeydew, like nectar, is a route of insecticide exposure for beneficial insects. This route of exposure could be more impactful than the route of nectar because honeydew is ubiquitous in agroecosystems.First, I present the newly described route of insecticide exposure to beneficial insects: honeydew excreted by hemipterans feeding on trees treated with some systemic insecticides contains insecticide residues that affect insects feeding on it. This route of exposure was demonstrated for: 1) two different crop species: citrus and soybean plants; 2) three hemipteran species: the citrus meal

Published
2021

11. Insecticide‐contaminated honeydew: risks for beneficial insects.

Author

Calvo‐Agudo, Miguel, Tooker, John F., Dicke, Marcel, and Tena, Alejandro

Subjects
*INSECTICIDES, *MEALYBUGS, *ENVIRONMENTAL risk assessment, *INSECTS, *POLLINATORS, *PARASITIC wasps, *POISONS, *PLANT species
Abstract

Honeydew is the sugar‐rich excretion of phloem‐feeding hemipteran insects such as aphids, mealybugs, whiteflies, and psyllids, and can be a main carbohydrate source for beneficial insects in some ecosystems. Recent research has revealed that water‐soluble, systemic insecticides contaminate honeydew excreted by hemipterans that feed on plants treated with these insecticides. This contaminated honeydew can be toxic to beneficial insects, such as pollinators, parasitic wasps and generalist predators that feed on it. This route of exposure has now been demonstrated in three plant species, for five systemic insecticides and four hemipteran species; therefore, we expect this route to be widely available in some ecosystems. In this perspective paper, we highlight the importance of this route of exposure by exploring: (i) potential pathways through which honeydew might be contaminated with insecticides; (ii) hemipteran families that are more likely to excrete contaminated honeydew; and (iii) systemic insecticides with different modes of action that might contaminate honeydew through the plant. Furthermore, we analyse several model scenarios in Europe and/or the USA where contaminated honeydew could be problematic for beneficial organisms that feed on this ubiquitous carbohydrate source. Finally, we explain why this route of exposure might be important when exotic, invasive, honeydew‐producing species are treated with systemic insecticides. Overall, this review opens a new area of research in the field of ecotoxicology to understand how insecticides can reach non‐target beneficial insects. In addition, we aim to shed light on potential undescribed causes of insect declines in ecosystems where honeydew is an important carbohydrate source for insects, and advocate for this route of exposure to be included in future environmental risk assessments. [ABSTRACT FROM AUTHOR]

Published
2022
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12. IPM-recommended insecticides harm beneficial insects through contaminated honeydew

Author

CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Generalitat Valenciana, Ministerio de Economía y Competitividad (España), Calvo-Agudo, Miguel, González-Cabrera, Joel, Sadutto, D., Picó, Yolanda, Urbaneja, Alberto, Dicke, Marcel, Tena, Alejandro, CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Generalitat Valenciana, Ministerio de Economía y Competitividad (España), Calvo-Agudo, Miguel, González-Cabrera, Joel, Sadutto, D., Picó, Yolanda, Urbaneja, Alberto, Dicke, Marcel, and Tena, Alejandro

Abstract

The use of some systemic insecticides has been banned in Europe because they are toxic to beneficial insects when these feed on nectar. A recent study shows that systemic insecticides can also kill beneficial insects when they feed on honeydew. Honeydew is the sugar-rich excretion of hemipterans and is the most abundant carbohydrate source for beneficial insects such as pollinators and biological control agents in agroecosystems. Here, we investigated whether the toxicity of contaminated honeydew depends on i) the hemipteran species that excretes the honeydew; ii) the active ingredient, and iii) the beneficial insect that feeds on it. HPLC-MS/MS analyses demonstrated that the systemic insecticides pymetrozine and flonicamid, which are commonly used in Integrated Pest Management programs, were present in honeydew excreted by the mealybug Planococcus citri. However, only pymetrozine was detected in honeydew excreted by the whitefly Aleurothixus floccosus. Toxicological studies demonstrated that honeydew excreted by mealybugs feeding on trees treated either with flonicamid or pymetrozine increased the mortality of the hoverfly Sphaerophoria rueppellii, but did not affect the parasitic wasp Anagyrus vladimiri. Honeydew contaminated with flonicamid was more toxic for the hoverfly than that contaminated with pymetrozine. Collectively, our data demonstrate that systemic insecticides commonly used in IPM programs can contaminate honeydew and kill beneficial insects that feed on it, with their toxicity being dependent on the active ingredient and hemipteran species that excretes the honeydew.

Published
2020

15. Neonicotinoids in excretion product of phloem-feeding insects kill beneficial insects

Author

Alejandro Tena, Alberto Urbaneja, Pau Calatayud-Vernich, Marcel Dicke, Yolanda Picó, Miguel Calvo-Agudo, Joel González-Cabrera, CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Generalitat Valenciana, Ministerio de Economía y Competitividad (España), Calvo-Agudo, Miguel [0000-0002-2209-0196], González-Cabrera, Joel [0000-0002-8338-370X], Picó, Yolanda [0000-0002-9545-0965], Urbaneja, Alberto [0000-0001-5986-3685], Dicke, Marcel [0000-0001-8565-8896], Tena, Alejandro [0000-0002-5001-4334], Calvo-Agudo, Miguel, González-Cabrera, Joel, Picó, Yolanda, Urbaneja, Alberto, Dicke, Marcel, and Tena, Alejandro

Subjects
0106 biological sciences, Honeydew, Insecta, Phloem, Biology, 010603 evolutionary biology, 01 natural sciences, Biological control agents, Toxicology, Neonicotinoids, chemistry.chemical_compound, Pollinator, Imidacloprid, Animals, Nectar, Beneficial insects, Laboratory of Entomology, Multidisciplinary, Agricultural Sciences, business.industry, Pollinators, fungi, Neonicotinoid, Pest control, food and beverages, Feeding Behavior, Biological Sciences, PE&RC, Environmental risk assessment, Laboratorium voor Entomologie, Survival Analysis, Cucurbitaceae, 010602 entomology, chemistry, Thiamethoxam, EPS, business
Abstract

Significance The use of insecticides in agriculture is one of the suggested causes of the decline in insect populations. Neonicotinoids are among the most widely used insecticides. However, they have important negative side effects, especially for pollinators and other beneficial insects feeding on floral nectar and pollen. We identified an exposure route: Neonicotinoids reach and kill beneficial insects when they feed on the most abundant carbohydrate source for insects in agroecosystems, honeydew. Honeydew is the excretion product of phloem-feeding hemipteran insects such as aphids, mealybugs, whiteflies, or psyllids. This route of exposure is likely to affect a much wider range of beneficial insects and crops than contaminated nectar. Therefore, it should be included in future environmental risk assessments of neonicotinoids., Pest control in agriculture is mainly based on the application of insecticides, which may impact nontarget beneficial organisms leading to undesirable ecological effects. Neonicotinoids are among the most widely used insecticides. However, they have important negative side effects, especially for pollinators and other beneficial insects feeding on nectar. Here, we identify a more accessible exposure route: Neonicotinoids reach and kill beneficial insects that feed on the most abundant carbohydrate source for insects in agroecosystems, honeydew. Honeydew is the excretion product of phloem-feeding hemipteran insects such as aphids, mealybugs, whiteflies, and psyllids. We allowed parasitic wasps and pollinating hoverflies to feed on honeydew from hemipterans feeding on trees treated with thiamethoxam or imidacloprid, the most commonly used neonicotinoids. LC-MS/MS analyses demonstrated that both neonicotinoids were present in honeydew. Honeydew with thiamethoxam was highly toxic to both species of beneficial insects, and honeydew with imidacloprid was moderately toxic to hoverflies. Collectively, our data provide strong evidence for honeydew as a route of insecticide exposure that may cause acute or chronic deleterious effects on nontarget organisms. This route should be considered in future environmental risk assessments of neonicotinoid applications.

Published
2019

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