Abstract
Widespread use of neonicotinoid insecticides, such as imidacloprid, is often associated with diminishing populations of bees; this loss of pollinators presents a concern for food security and may cause unpredictable changes in ecological networks. However, little is known about the potential behavioural mechanisms behind the neonicotinoid-associated pollinator decline. We quantified the effects of low-dose (1 ppb) imidacloprid exposure on the foraging behaviour of bumblebees (Bombus terrestris). Individual bumblebees were released into a flight arena containing three patches of robotic flowers whose colour (yellow, orange, blue) indicated whether the flower delivered a reward (sugar solution). Exposure to imidacloprid had no significant effect on measures of bumblebee physical performance (such as flight speed) or learning (identifying rewarding flowers). However, pesticide-treated bumblebees had reduced foraging motivation compared with the control bumblebees, as they visited fewer robotic flowers, were slower to start foraging and did not visit all three flower colours as often. Neonicotinoid concentrations of 1 ppb, often reported in plant nectar near agricultural lands, can thus affect the foraging behaviour of bumblebees. Even without a notable impact on flight performance and learning, a reduction in foraging motivation could explain the poor performance of colonies of bumblebees exposed to neonicotinoids.
Highlights
Populations of insect pollinators are declining in many agricultural regions [1,2]
We found no obvious decline on bumblebee physiological performance in the flight arena associated with the low-dose imidacloprid exposure
There is some indication that bumblebees exposed to imidacloprid had shorter foraging periods (1394 s versus 911 s), with foraging duration approaching statistical significance (LMM, estimate: 2473.2, s.e.: +187.5, p 1⁄4 0.061)
Summary
Crop pollination services in Europe and North America are dominated by the honeybee Apis mellifera [3,4,5] and common species of wild bee [6,7,8,9], notably bumblebees (Bombus spp.) [10,11]. One of the most prominent drivers of insect pollinator declines is the use of pesticides for crop protection [2,5,14 –16]. Since their introduction in the 1990s, neonicotinoids have become the most widely used class of insecticides globally [5]. The review states that imidacloprid residues in nectar and
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