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Article

The role of climate change in pollinator decline across the Northern Hemisphere is underestimated

Details

Citation

Vasiliev D & Greenwood S (2021) The role of climate change in pollinator decline across the Northern Hemisphere is underestimated. Science of The Total Environment, 775, Art. No.: 145788. https://doi.org/10.1016/j.scitotenv.2021.145788

Abstract
Pollinator biodiversity loss occurs at unprecedented rates globally, with particularly sharp declines documented in the North Temperate Zone. There is currently no consensus on the main drivers of the decline. Although climate change is expected to drive biodiversity loss in the future, current warming is often suggested to have positive impacts on pollinator assemblages in higher latitudes. Consequently, pollinator conservation initiatives in Europe and the USA tend to lack climate adaptation initiatives, an omission of which may be risky if climate change has significant negative impacts on pollinators. To gain an understanding of the impacts of climate change on pollinator biodiversity in the Northern Hemisphere, we conducted a literature review on genetic, species and community level diversity. Our findings suggest that global heating most likely causes homogenization of pollinator assemblages at all levels of pollinator biodiversity, making them less resilient to future stochasticity. Aspects of biodiversity that are rarely measured (e.g. genetic diversity, β-diversity, species evenness) tend to be most affected, while some dimensions of climate change, such as fluctuations in winter weather conditions, changes in the length of the vegetational season and increased frequency of extreme weather events, that seldom receive attention in empirical studies, tend to be particularly detrimental to pollinators. Negative effects of global heating on pollinator biodiversity are most likely exacerbated by homogenous and fragmented landscapes, widespread across Europe and the US, which limit opportunities for range-shifts and reduce micro-climatic buffering. This suggests the need for conservation initiatives to focus on increasing landscape connectivity and heterogeneity at multiple spatial scales.

Keywords
Global heating; Genetic diversity; β-Diversity; Life-history traits; Pollinator conservation; Climate adaptation

Journal
Science of The Total Environment: Volume 775

StatusPublished
Funders
Publication date25/06/2021
Publication date online12/02/2021
Date accepted by journal05/02/2021
PublisherElsevier BV
ISSN0048-9697

People (1)

Dr Sarah Greenwood

Dr Sarah Greenwood

Lecturer in Global Change Biology, Biological and Environmental Sciences