The broad-spectrum insecticides in the neonicotinoid group are the most widely used worldwide because of their widely recognized advantages in the mode of action. Therefore, their use is growing on a large scale and, moreover, is often used preventively without considering the ecological impact. Studies demonstrated harmful effects on non-target organisms, which in turn negatively impact biodiversity and thus food production. The dramatic decline of honey bee colonies, for example, could be linked to the use of neonicotinoids. Ecologically sustainable solutions to this conflict must be focused by scientific research. The question arose whether the global research efforts meet these requirements on a global scale. Therefore, this review article aimed to analyze the global research landscape on neonicotinoids under ecological, economic, and temporal aspects. To this end, key players and incentives for investigations in this research field are identified. The increase in publications over time is significant and shows a dynamic citation pattern. It indicates a comparatively high interest in current research, with ecological issues becoming more and more the focus of international research. It has been shown that national publication performance and funding are in line with global market interests, with the most publishing country being China. In addition, the elevated status quo of the scientific infrastructure in high-economy countries and their willingness to support research can be linked to national research output. Lower economies are sparsely involved in published studies. The research performance accumulates with a high North-South divide. Therefore, future research projects must have a sustainable focus and take regional requirements worldwide into account. This requires greater involvement of developing countries as the most economically dependent regions with enormously increasing consumption rates. Solutions must be found to ensure sustainable food production against a backdrop of already declining biodiversity due to the large-scale use of neonicotinoids.
Keywords: Bees; Bibliometrics; Biodiversity; Environmental risks; Insecticides; Pesticides; Pollinator populations.
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