Impacts of a pesticide on pollinator species richness at different spatial scales
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In: Basic and Applied Ecology, Vol. 11, No. 2, 03.2010, p. 106-115.
Research output: Journal contributions › Journal articles › Research › peer-review
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TY - JOUR
T1 - Impacts of a pesticide on pollinator species richness at different spatial scales
AU - Brittain, Claire
AU - Vighi, Marco
AU - Bommarco, Riccardo
AU - Settele, Josef
AU - Potts, Simon G.
PY - 2010/3
Y1 - 2010/3
N2 - Pesticides are an important potential cause of biodiversity and pollinator decline. Little is known about the impacts of pesticides on wild pollinators in the field. Insect pollinators were sampled in an agricultural system in Italy with the aim of detecting the impacts of pesticide use. The insecticide fenitrothion was over 150 times greater in toxicity than other pesticides used in the area, so sampling was set up around its application. Species richness of wild bees, bumblebees and butterflies were sampled at three spatial scales to assess responses to pesticide application: (i) the ‘field’ scale along pesticide drift gradients; (ii) the ‘landscape’ scale sampling in different crops within the area and (iii) the ‘regional’ scale comparing two river basins with contrasting agricultural intensity. At the field scale, the interaction between the application regime of the insecticide and the point in the season was important for species richness. Wild bee species richness appeared to be unaffected by one insecticide application, but declined after two and three applications. At the landscape scale, the species richness of wild bees declined in vine fields where the insecticide was applied, but did not decline in maize or uncultivated fields. At the regional scale, lower bumblebee and butterfly species richness was found in the more intensively farmed basin with higher pesticide loads. Our results suggest that wild bees are an insect pollinator group at particular risk from pesticide use. Further investigation is needed on how the type, quantity and timing of pesticide application impacts pollinators.
AB - Pesticides are an important potential cause of biodiversity and pollinator decline. Little is known about the impacts of pesticides on wild pollinators in the field. Insect pollinators were sampled in an agricultural system in Italy with the aim of detecting the impacts of pesticide use. The insecticide fenitrothion was over 150 times greater in toxicity than other pesticides used in the area, so sampling was set up around its application. Species richness of wild bees, bumblebees and butterflies were sampled at three spatial scales to assess responses to pesticide application: (i) the ‘field’ scale along pesticide drift gradients; (ii) the ‘landscape’ scale sampling in different crops within the area and (iii) the ‘regional’ scale comparing two river basins with contrasting agricultural intensity. At the field scale, the interaction between the application regime of the insecticide and the point in the season was important for species richness. Wild bee species richness appeared to be unaffected by one insecticide application, but declined after two and three applications. At the landscape scale, the species richness of wild bees declined in vine fields where the insecticide was applied, but did not decline in maize or uncultivated fields. At the regional scale, lower bumblebee and butterfly species richness was found in the more intensively farmed basin with higher pesticide loads. Our results suggest that wild bees are an insect pollinator group at particular risk from pesticide use. Further investigation is needed on how the type, quantity and timing of pesticide application impacts pollinators.
KW - Ecosystems Research
KW - Agriculture
KW - Agro-chemicals
KW - Bees
KW - Butterflies
KW - Fenitrothion
KW - Insecticide
UR - http://www.scopus.com/inward/record.url?scp=76749145484&partnerID=8YFLogxK
U2 - 10.1016/j.baae.2009.11.007
DO - 10.1016/j.baae.2009.11.007
M3 - Journal articles
VL - 11
SP - 106
EP - 115
JO - Basic and Applied Ecology
JF - Basic and Applied Ecology
SN - 1439-1791
IS - 2
ER -