A systems-based approach to the environmental risk assessment of multiple stressors in honey bees

null EFSA Scientific Committee; Simon More; Vasileios Bampidis; Diane Benford; Claude Bragard; Thorhallur Halldorsson; Antonio Hernández-Jerez; Susanne Hougaard Bennekou; Kostas Koutsoumanis; Kyriaki Machera; Hanspeter Naegeli; Søren Saxmose Nielsen; Josef Schlatter; Dieter Schrenk; Vittorio Silano; Dominique Turck; Maged Younes; Gerard Arnold; Jean-Lou Dorne; Angelo Maggiore; Stephen Pagani; Csaba Szentes; Simon Terry; Simone Tosi; Domagoj Vrbos; Giorgia Zamariola; Agnes Rortais

doi:10.2903/j.efsa.2021.6607

A systems-based approach to the environmental risk assessment of multiple stressors in honey bees

EFSA Scientific Committee, Simon More, Vasileios Bampidis, Diane Benford, Claude Bragard, Thorhallur Halldorsson, Antonio Hernández-Jerez, Susanne Hougaard Bennekou, Kostas Koutsoumanis, Kyriaki Machera, Hanspeter Naegeli, Søren Saxmose Nielsen, Josef Schlatter, Dieter Schrenk, Vittorio Silano, Dominique Turck, Maged Younes, Gerard Arnold, Jean-Lou Dorne, Angelo MaggioreStephen Pagani, Csaba Szentes, Simon Terry, Simone Tosi, Domagoj Vrbos, Giorgia Zamariola, Agnes Rortais

Sektion, Animal Welfare and Disease Control

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning

33 Citationer (Scopus)

16 Downloads (Pure)

Abstract

Abstract The European Parliament requested EFSA to develop a holistic risk assessment of multiple stressors in honey bees. To this end, a systems-based approach that is composed of two core components: a monitoring system and a modelling system are put forward with honey bees taken as a showcase. Key developments in the current scientific opinion (including systematic data collection from sentinel beehives and an agent-based simulation) have the potential to substantially contribute to future development of environmental risk assessments of multiple stressors at larger spatial and temporal scales. For the monitoring, sentinel hives would be placed across representative climatic zones and landscapes in the EU and connected to a platform for data storage and analysis. Data on bee health status, chemical residues and the immediate or broader landscape around the hives would be collected in a harmonised and standardised manner, and would be used to inform stakeholders, and the modelling system, ApisRAM, which simulates as accurately as possible a honey bee colony. ApisRAM would be calibrated and continuously updated with incoming monitoring data and emerging scientific knowledge from research. It will be a supportive tool for beekeeping, farming, research, risk assessment and risk management, and it will benefit the wider society. A societal outlook on the proposed approach is included and this was conducted with targeted social science research with 64 beekeepers from eight EU Member States and with members of the EU Bee Partnership. Gaps and opportunities are identified to further implement the approach. Conclusions and recommendations are made on a way forward, both for the application of the approach and its use in a broader context.

Originalsprog	Engelsk
Artikelnummer	e06607
Tidsskrift	EFSA Journal
Vol/bind	19
Udgave nummer	5
Sider (fra-til)	1-75
Antal sider	75
ISSN	1831-4732
DOI	https://doi.org/10.2903/j.efsa.2021.6607
Status	Udgivet - 2021

Emneord

agent-based simulation
Apis mellifera
ApisRAM
bee biological agents
EU Bee Partnership
plant protection products
sentinel hives

Adgang til dokumentet

10.2903/j.efsa.2021.6607Licens: CC BY-ND

A systems-based approach to the environmental risk assessment of multiple stressors in honey beesForlagets udgivne version, 8,72 MBLicens: CC BY-NC-ND

Citationsformater

EFSA Scientific Committee, More, S., Bampidis, V., Benford, D., Bragard, C., Halldorsson, T., Hernández-Jerez, A., Bennekou, S. H., Koutsoumanis, K., Machera, K., Naegeli, H., Nielsen, S. S., Schlatter, J., Schrenk, D., Silano, V., Turck, D., Younes, M., Arnold, G., Dorne, J.-L., ... Rortais, A. (2021). A systems-based approach to the environmental risk assessment of multiple stressors in honey bees. EFSA Journal, 19(5), 1-75. Artikel e06607. https://doi.org/10.2903/j.efsa.2021.6607

EFSA Scientific Committee, More, S, Bampidis, V, Benford, D, Bragard, C, Halldorsson, T, Hernández-Jerez, A, Bennekou, SH, Koutsoumanis, K, Machera, K, Naegeli, H, Nielsen, SS, Schlatter, J, Schrenk, D, Silano, V, Turck, D, Younes, M, Arnold, G, Dorne, J-L, Maggiore, A, Pagani, S, Szentes, C, Terry, S, Tosi, S, Vrbos, D, Zamariola, G & Rortais, A 2021, 'A systems-based approach to the environmental risk assessment of multiple stressors in honey bees', EFSA Journal, bind 19, nr. 5, e06607, s. 1-75. https://doi.org/10.2903/j.efsa.2021.6607

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abstract = "Abstract The European Parliament requested EFSA to develop a holistic risk assessment of multiple stressors in honey bees. To this end, a systems-based approach that is composed of two core components: a monitoring system and a modelling system are put forward with honey bees taken as a showcase. Key developments in the current scientific opinion (including systematic data collection from sentinel beehives and an agent-based simulation) have the potential to substantially contribute to future development of environmental risk assessments of multiple stressors at larger spatial and temporal scales. For the monitoring, sentinel hives would be placed across representative climatic zones and landscapes in the EU and connected to a platform for data storage and analysis. Data on bee health status, chemical residues and the immediate or broader landscape around the hives would be collected in a harmonised and standardised manner, and would be used to inform stakeholders, and the modelling system, ApisRAM, which simulates as accurately as possible a honey bee colony. ApisRAM would be calibrated and continuously updated with incoming monitoring data and emerging scientific knowledge from research. It will be a supportive tool for beekeeping, farming, research, risk assessment and risk management, and it will benefit the wider society. A societal outlook on the proposed approach is included and this was conducted with targeted social science research with 64 beekeepers from eight EU Member States and with members of the EU Bee Partnership. Gaps and opportunities are identified to further implement the approach. Conclusions and recommendations are made on a way forward, both for the application of the approach and its use in a broader context.",

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AU - EFSA Scientific Committee, null

AU - More, Simon

AU - Bampidis, Vasileios

AU - Benford, Diane

AU - Bragard, Claude

AU - Halldorsson, Thorhallur

AU - Hernández-Jerez, Antonio

AU - Bennekou, Susanne Hougaard

AU - Koutsoumanis, Kostas

AU - Machera, Kyriaki

AU - Naegeli, Hanspeter

AU - Nielsen, Søren Saxmose

AU - Schlatter, Josef

AU - Schrenk, Dieter

AU - Silano, Vittorio

AU - Turck, Dominique

AU - Younes, Maged

AU - Arnold, Gerard

AU - Dorne, Jean-Lou

AU - Maggiore, Angelo

AU - Pagani, Stephen

AU - Szentes, Csaba

AU - Terry, Simon

AU - Tosi, Simone

AU - Vrbos, Domagoj

AU - Zamariola, Giorgia

AU - Rortais, Agnes

PY - 2021

Y1 - 2021

N2 - Abstract The European Parliament requested EFSA to develop a holistic risk assessment of multiple stressors in honey bees. To this end, a systems-based approach that is composed of two core components: a monitoring system and a modelling system are put forward with honey bees taken as a showcase. Key developments in the current scientific opinion (including systematic data collection from sentinel beehives and an agent-based simulation) have the potential to substantially contribute to future development of environmental risk assessments of multiple stressors at larger spatial and temporal scales. For the monitoring, sentinel hives would be placed across representative climatic zones and landscapes in the EU and connected to a platform for data storage and analysis. Data on bee health status, chemical residues and the immediate or broader landscape around the hives would be collected in a harmonised and standardised manner, and would be used to inform stakeholders, and the modelling system, ApisRAM, which simulates as accurately as possible a honey bee colony. ApisRAM would be calibrated and continuously updated with incoming monitoring data and emerging scientific knowledge from research. It will be a supportive tool for beekeeping, farming, research, risk assessment and risk management, and it will benefit the wider society. A societal outlook on the proposed approach is included and this was conducted with targeted social science research with 64 beekeepers from eight EU Member States and with members of the EU Bee Partnership. Gaps and opportunities are identified to further implement the approach. Conclusions and recommendations are made on a way forward, both for the application of the approach and its use in a broader context.

AB - Abstract The European Parliament requested EFSA to develop a holistic risk assessment of multiple stressors in honey bees. To this end, a systems-based approach that is composed of two core components: a monitoring system and a modelling system are put forward with honey bees taken as a showcase. Key developments in the current scientific opinion (including systematic data collection from sentinel beehives and an agent-based simulation) have the potential to substantially contribute to future development of environmental risk assessments of multiple stressors at larger spatial and temporal scales. For the monitoring, sentinel hives would be placed across representative climatic zones and landscapes in the EU and connected to a platform for data storage and analysis. Data on bee health status, chemical residues and the immediate or broader landscape around the hives would be collected in a harmonised and standardised manner, and would be used to inform stakeholders, and the modelling system, ApisRAM, which simulates as accurately as possible a honey bee colony. ApisRAM would be calibrated and continuously updated with incoming monitoring data and emerging scientific knowledge from research. It will be a supportive tool for beekeeping, farming, research, risk assessment and risk management, and it will benefit the wider society. A societal outlook on the proposed approach is included and this was conducted with targeted social science research with 64 beekeepers from eight EU Member States and with members of the EU Bee Partnership. Gaps and opportunities are identified to further implement the approach. Conclusions and recommendations are made on a way forward, both for the application of the approach and its use in a broader context.

KW - agent-based simulation

KW - Apis mellifera

KW - ApisRAM

KW - bee biological agents

KW - EU Bee Partnership

KW - plant protection products

KW - sentinel hives

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DO - 10.2903/j.efsa.2021.6607

M3 - Journal article

C2 - 34025804

SN - 1831-4732

VL - 19

SP - 1

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JO - EFSA Journal

JF - EFSA Journal

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