Declines in invertebrates and birds – could they be linked by climate change?

Sedge Warbler, by Colin Brown / BTO

Author(s): Pearce-Higgins, J.W. & Morris, R.K.A.

Published: January 2023  

Journal: Bird Study

Digital Identifier No. (DOI): 10.1080/00063657.2022.2157373

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The long-term declines evident in many bird and invertebrate species have their origins within a suite of potential drivers, one of which is climate change. As well as impacting bird species directly, could climate change be increasingly hitting bird populations through its impacts on their invertebrate prey?

Many of the detected effects of climate change on biodiversity have occurred through impacts on food chains. We know that many birds are insectivorous during the breeding season, and various studies have shown that their breeding success is linked to the abundance of invertebrate prey. However, there have been few studies exploring the link between variation in invertebrate populations and long-term changes in bird populations, something that is examined in this paper through four case studies.

The first of these brings together a suite of studies examining the relationship between the abundance and availability of soil invertebrates, such as earthworms and cranefly larvae, and their predators (notably Song Thrush, Blackbird, Curlew and Golden Plover). The authors identify the current lack of long-term monitoring of soil invertebrates as a knowledge gap and flag this as a priority that could be addressed through citizen science.

The second case study looks at published research concerning the interactions between leaf-dwelling invertebrates, such as caterpillars, and their predators. This highlights our understanding of some familiar woodland insectivores (such as Great Tit, Blue Tit and Pied Flycatcher) and established links between breeding success and caterpillar abundance. It also recognises that current evidence points to climate change impacts on these woodland birds being mediated through variation in invertebrate populations rather than the timing of their peak availability.

The third case study examines the potential large-scale declines in the biomass of flying invertebrates, first highlighted by research in Germany. Long-term patterns in the UK appear to be more complex, as evidenced by data from the Rothamsted Insect Survey and elsewhere. The question of whether declines in UK Swift, Spotted Flycatcher, House Martin and Swallow populations are a sign of wider declines in aerial invertebrates requires further study. The final case study looks at aquatic invertebrates and their avian predators, additionally highlighting how populations of the former might help to support bird populations away from wetland habitats.

Through the review it becomes clear that our ability to understand the links between invertebrate and bird populations is hampered by a lack of extensive long-term monitoring data for many invertebrate species. The authors call for greater collaboration between entomologists and ornithologists, to support new empirical research and long-term monitoring initiatives to better link changes in insect populations and birds. Such studies will be particularly important if we are to understand likely future increasing climate change pressures on birds.

Abstract

Through case-studies that link changes in invertebrate populations to changes in bird populations, we suggest how climate change may increasingly impact bird populations through variation in their invertebrate prey. We assess whether invertebrate and bird population declines could be linked and suggest potentially emerging climate change impacts on wildlife. We draw on field experience and case-studies to illustrate how potential climate change impacts on invertebrates may cascade to affect bird populations and identify some key research gaps for urgent consideration. We highlight four invertebrate groups which may be sensitive to the impacts of climate change and that have the potential to impact bird populations that feed on them: soil invertebrates, foliar invertebrates, aerial insects and aquatic invertebrates. Our ability to understand these impacts is hampered by a lack of extensive long-term monitoring data for many invertebrates, and invertebrate data collected at scales that can be related to bird populations. We call for collaboration between entomologists and ornithologists, both non-vocational and professional, to support new empirical research and long-term monitoring initiatives to better link changes in insect populations and birds to inform future decision-making. This will be particularly important to understand likely future increasing climate change pressures on birds.

Notes

We are grateful to Andy Musgrove for commenting on this manuscript prior to submission, and for helpful comments from James Bell, an anonymous reviewer and Associate Editor following submission. JPH’s contribution to the manuscript has been supported by individual donations to the British Trust for Ornithology.
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