Design and Planning of a Transdisciplinary Investigation into Farmland Pollinators: Rationale, Co-Design, and Lessons Learned

Hodge, Simon; Schweiger, Oliver; Klein, Alexandra‐Maria; Potts, Simon G.; Costa, Cecília; Albrecht, Matthias; Miranda, Joachim Rodrigues De; Mänd, Marika; Rúa, Pilar De la; Rundlöf, Maj; Attridge, Eleanor; Dean, Robin; Bulet, Philippe; Michez, Denis; Paxton, Robert J.; Babin, Aurélie; Cougoule, Nicolas; Laurent, Marion; Martel, Anne‐Claire; Paris, Laurianne; Rivière, Marie‐Pierre; Dubois, Éric; Chauzat, Marie‐Pierre; Arafah, Karim; Askri, Dalel; Voisin, Sébastien; Kiljanek, Tomasz; Bottero, Irene; Dominik, Christophe; Tamburini, Giovanni; Pereira-Peixoto, Maria Helena; Wintermantel, Dimitry; Breeze, Tom D.; Cini, Elena; Senapathi, Deepa; Prisco, Gennaro Di; Mędrzycki, Piotr; Hagenbucher, Steffen; Knauer, Anina; Schwarz, Janine Melanie; Raimets, Risto; Martínez-López, Vicente; Ivarsson, Kjell; Hartfield, Chris; Hunter, Pamela; Brown, Mark J. F.

doi:10.3390/su141710549

Cited by 12 publications

(35 citation statements)

References 154 publications

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“…Our site network spanned 128 agricultural sites in eight European countries encompassing many biogeographic zones with differing climates and seasonality 47 (Fig. 1a ).…”

Section: Methodsmentioning

confidence: 99%

“…In each focal crop, sites were selected to occur along a gradient of proportion of cropland within 1 km radius landscapes. This proportion is an established proxy for the agricultural management intensity typical of each country 47 . We chose oilseed rape and apple as our focal crops to reflect annual and perennial cropping practices and, therefore, different pest pressures, pest management strategies and pesticide use 27 , 48 .…”

Section: Methodsmentioning

confidence: 99%

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Pesticide use negatively affects bumble bees across European landscapes

Nicholson,

Knapp,

Kiljanek

et al. 2023

Nature

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Sustainable agriculture requires balancing crop yields with the effects of pesticides on non-target organisms, such as bees and other crop pollinators. Field studies demonstrated that agricultural use of neonicotinoid insecticides can negatively affect wild bee species1,2, leading to restrictions on these compounds3. However, besides neonicotinoids, field-based evidence of the effects of landscape pesticide exposure on wild bees is lacking. Bees encounter many pesticides in agricultural landscapes4–9 and the effects of this landscape exposure on colony growth and development of any bee species remains unknown. Here we show that the many pesticides found in bumble bee-collected pollen are associated with reduced colony performance during crop bloom, especially in simplified landscapes with intensive agricultural practices. Our results from 316 Bombus terrestris colonies at 106 agricultural sites across eight European countries confirm that the regulatory system fails to sufficiently prevent pesticide-related impacts on non-target organisms, even for a eusocial pollinator species in which colony size may buffer against such impacts10,11. These findings support the need for postapproval monitoring of both pesticide exposure and effects to confirm that the regulatory process is sufficiently protective in limiting the collateral environmental damage of agricultural pesticide use.

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“…Our site network spanned 128 agricultural sites in eight European countries encompassing many biogeographic zones with differing climates and seasonality 47 (Fig. 1a ).…”

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Pesticide use negatively affects bumble bees across European landscapes

Nicholson,

Knapp,

Kiljanek

et al. 2023

Nature

Self Cite

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“…This means that eight sites per country for two crops were selected: 8 sites × 8 countries × 2 crops, leading to a total of 128 sites. At each site, three honey bee colonies were installed following the PoshBee protocols and over 50 measurements and samples related to the nutritional, toxicological, pathogenic and landscape components of the bees' environment were collected [ 18 ]. In the following list, we provide examples of collected information: data on the abundance and diversity of field margin floral resources (floral survey); survey of wild pollinators as an indicator of general ‘pollinator community health (pollinator survey); total and per hectare crop yields and inputs of agrochemicals (farmer survey) [ 18 ].…”

Section: Methodsmentioning

confidence: 99%

“…At each site, three honey bee colonies were installed following the PoshBee protocols and over 50 measurements and samples related to the nutritional, toxicological, pathogenic and landscape components of the bees' environment were collected [ 18 ]. In the following list, we provide examples of collected information: data on the abundance and diversity of field margin floral resources (floral survey); survey of wild pollinators as an indicator of general ‘pollinator community health (pollinator survey); total and per hectare crop yields and inputs of agrochemicals (farmer survey) [ 18 ]. Adult honey bees were sampled in each colony and nest two times in 2019 for the detection and quantification of various IPAs at two sampling times: before bees were deployed on the sites (T0) and after bloom of the focal crop (T1).…”

Section: Methodsmentioning

confidence: 99%

Building composite indices in the age of big data – Application to honey bee exposure to infectious and parasitic agents

Nguyet¹,

Bougeard²,

Babin³

et al. 2023

Heliyon

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“…Given the scale and number of people involved, the "Agriculture and pollinators" field study was well conducted and highlighted a many of advantages of conducting large-scale collaborative projects. The challenges encountered in designing projects of this scale may require the establishment of common planning methods to best conduct these field study monitoring and involve social sciences to identify some constraints to their implementation (Hodge et al, 2022;Correia, 2021). It should be noted that it is difficult to set up an ideal monitoring device without any constraints.…”

Section: Management Of a Long-term Monitoring Survey And Perspectivesmentioning

confidence: 99%

Effect of agroecological measures on honey bee colony development and survival in the Swiss context

Hernandez¹

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Agroecological measures refer to all techniques that permit agricultural practices to be more respectful to the environment and biodiversity. Agroecological measures such as delayed mowing or providing floral resources in fields for pollinators to reduce the impact on the entomofauna can be implemented. In western Switzerland, farmers have implemented agroecological measures in meadows to be tested in the field of the “Agriculture & Pollinisateurs” project to verify their effectiveness on honey bee pollinator health. The measures tested concern specifically relinquishing the non-use of conditioner while mowing, implementing floral resource strips, and delayed mowing without conditioner in meadows. For this, volunteer beekeepers provided access to 300 honey bee colonies in order to determine how these agroecological measures influence their development and their winter survival. The general objective of this thesis is to analyze the influence of this set of agroecological measures in meadows on (i) colony development in summer, (ii) winter mortality, and (iii) to determine the landscape types under which these agroecological measures are effective in supplying resources to honey bees. To measure the colony development, the ColEval method was developed, tested, and implemented. Before being able to evaluate the effect of these agroecological measures on honey bee colonies, it was important to consider the effect of the ectoparasitic mite Varroa destructor, which negative impact on colonies can mitigate the beneficial effects of agroecological measures on colony development. Therefore, we also verified if the treatment recommendations against V. destructor were followed by beekeepers and measured potential deviation in compliance and their consequences for the colonies. The results obtained show that compliance with recommended V. destructor treatment regimens decreases infestation rates by this parasite and improves the survival of honey bee colonies over winter. After communicating the apparent link between low compliance and poor colony survival at the end of the first year to the beekeepers, we observed better compliance and increased colony survival in the second year. Following these observations on the treatments and therefore on the improvement of the sanitary conditions in the monitored apiaries, we described and statistically measured the varroa factor in order to be able to determine the effect on colony size in summer and autumn of the no-conditioner use, the implementation of floral resource strips and the delayed mowing combined with the use of no-conditioner while mowing temporary meadows. These measures had a positive effects on colony size likely contributed to the increased overwintering success. Moreover, our data suggest that in summer, areas where more than 76 hectares of agroecological measures were implemented, provided additional floral resources (compared areas with low agroecological density) for honey bee colonies in the field crops landscapes. Our results show that selected agroecological measures in agricultural landscapes can benefit colonies provided that treatments against V. destructor are under control to ensure honey bee colony health. The originality and interest of this study lies in its spatial scale covering a large part of western Switzerland, in the long-term follow-up of the colonies and in the fact that an interdisciplinary team of scientists worked in close collaboration with beekeepers, farmers and political decision-makers.

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Design and Planning of a Transdisciplinary Investigation into Farmland Pollinators: Rationale, Co-Design, and Lessons Learned

Cited by 12 publications

References 154 publications

Pesticide use negatively affects bumble bees across European landscapes

Pesticide use negatively affects bumble bees across European landscapes

Building composite indices in the age of big data – Application to honey bee exposure to infectious and parasitic agents

Effect of agroecological measures on honey bee colony development and survival in the Swiss context

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