There is consensus that loss of biodiversity is a defining feature of the Anthropocene, with potentially severe consequences for human food security and well-being. Of particular concern are global declines in insect pollinators, such as bees, flies, beetles and butterflies, as their roles in sustaining ecosystem functions and ensuring food production are indispensable. A wide array of abiotic and biotic stressors likely govern the observed insect declines and losses of wild and managed insect pollinators, respectively. For instance, habitat destruction and fragmentation can not only lead to smaller and isolated populations that are vulnerable to environmental stochasticity or inbreeding depression, but also lead to poor nutrition as floral abundance and diversity are reduced. Further key stressors are pests and pathogens, climate change, intensified agriculture and environmental pollution (e.g., pesticides). These environmental stressors may interact with one another and generate complex effects that amplify the direct consequences of a single given stressor. Unfortunately, there is a lack of knowledge concerning how even the most important environmental stressors may interact to affect insect pollinators.
The goal of this effort is to develop a platform that brings together the latest information on how abiotic and biotic stressors interact to impact insect pollinator health. Only by bringing together different lines of evidence will we be able to better predict how these environmental stressors will affect insect pollinators. An improved understanding will also facilitate the development of more effective and sustainable management strategies that will enable stakeholders to implement adequate and sustainable measures to safeguard insect pollinators.
This Research Topic welcomes both Original Research and Reviews, as well as Commentary or Opinion articles that address the topic of environmental stressor interactions, and their impact on insect pollinator health. Submissions should be based on, but not limited to:
- How combined environmental stressors affect insect pollinators using molecular, physiological, behavioral, ecological or evolutionary approaches
- Experimental or survey work conducted under laboratory, semi-field, or field conditions
- Unravelling the mechanisms underlying combined stressor interactions
- What can be done to limit the impact of combined environmental exposure in the field
There is consensus that loss of biodiversity is a defining feature of the Anthropocene, with potentially severe consequences for human food security and well-being. Of particular concern are global declines in insect pollinators, such as bees, flies, beetles and butterflies, as their roles in sustaining ecosystem functions and ensuring food production are indispensable. A wide array of abiotic and biotic stressors likely govern the observed insect declines and losses of wild and managed insect pollinators, respectively. For instance, habitat destruction and fragmentation can not only lead to smaller and isolated populations that are vulnerable to environmental stochasticity or inbreeding depression, but also lead to poor nutrition as floral abundance and diversity are reduced. Further key stressors are pests and pathogens, climate change, intensified agriculture and environmental pollution (e.g., pesticides). These environmental stressors may interact with one another and generate complex effects that amplify the direct consequences of a single given stressor. Unfortunately, there is a lack of knowledge concerning how even the most important environmental stressors may interact to affect insect pollinators.
The goal of this effort is to develop a platform that brings together the latest information on how abiotic and biotic stressors interact to impact insect pollinator health. Only by bringing together different lines of evidence will we be able to better predict how these environmental stressors will affect insect pollinators. An improved understanding will also facilitate the development of more effective and sustainable management strategies that will enable stakeholders to implement adequate and sustainable measures to safeguard insect pollinators.
This Research Topic welcomes both Original Research and Reviews, as well as Commentary or Opinion articles that address the topic of environmental stressor interactions, and their impact on insect pollinator health. Submissions should be based on, but not limited to:
- How combined environmental stressors affect insect pollinators using molecular, physiological, behavioral, ecological or evolutionary approaches
- Experimental or survey work conducted under laboratory, semi-field, or field conditions
- Unravelling the mechanisms underlying combined stressor interactions
- What can be done to limit the impact of combined environmental exposure in the field