Sarah Walkington scite author profile

Climate change poses a threat to global food security with extreme heat events causing drought and direct damage to crop plants. However, by altering behavioural or physiological responses of insects, extreme heat events may also affect pollination services on which many crops are dependent. Such effects may potentially be exacerbated by other environmental stresses, such as exposure to widely used agro-chemicals. To determine whether environmental stressors interact to affect pollination services, we carried out field cage experiments on the buff-tailed bumble bee (Bombus terrestris). Using a Bayesian approach, we assessed whether heat stress (colonies maintained at an ambient temperature of 25 • C or 31 • C) and insecticide exposure (5 ng g -1 of the neonicotinoid insecticide clothianidin) could induce behavioural changes that affected pollination of faba bean (Vicia faba). Only the bumble bee colonies and not the plants were exposed to the environmental stress treatments. Bean plants exposed to heat-stressed bumble bee colonies (31 • C) had a lower proportional pod set compared to colonies maintained at 25 • C. There was also weak evidence that heat stressed colonies caused lower total bean weight. Bee exposure to clothianidin was found to have no clear effect on plant yields, either individually or as part of an interaction. We identified no effect of either colony stressor on bumble bee foraging behaviours. Our results suggest that extreme heat stress at the colony level may impact on pollination services. However, as the effect for other key yield parameters was weaker (e.g., bean yields), our results are not conclusive. Overall, our study highlights the need for further research on how environmental stress affects behavioural interactions in plant-pollinator systems that could impact on crop yields.

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Exome capture of Antarctic krill (Euphausia superba) for cost effective population genetics of historical collections

White¹,

Tarling²,

Hughes³

et al. 2023

Preprint

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Antarctic Krill (Euphausia superba) is a pivotal keystone species in the Southern Ocean ecosystem, with immense ecological and commercial significance. However, its vulnerability to climate change necessitates urgent investigation of its population genetics and adaptive responses. Historical spirit collections of Antarctic krill from the early 20th century represent an ideal opportunity for genomic research, to investigate how krill have changed over time and been impacted by predation, fishing and climate change. In this study, we assessed the utility of shotgun sequencing and exome capture for genomic analyses with historical spirit collections of Antarctic krill. Because the krill genome is very large (48Gb) two full-length transcriptomes were generated and used to identify putative targets for targeted resequencing. Skim genome sequencing allowed sample and library quality control. By comparing genome to exome resequencing of the same libraries we calculate enrichment and variant calling metrics. Full-length mitochondrial and nuclear ribosomal sequences were successfully assembled from genomic data demonstrating that endogenous DNA sequences could be assembled from historical collections. We find that exome capture provided enrichment of on-target sequence data, with increased depth and higher variant quality for targeted loci. Our findings demonstrate the feasibility of extracting genomic information from historical krill samples, despite the challenges of fragmented DNA and huge genome size unlocking such collections to provide valuable insights into past and present krill diversity, resilience, and adaptability to climate change. This approach unlocks the potential for broader genomic studies in similar samples, and for enhancing conservation efforts and fisheries management in the Southern Ocean ecosystem.

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Sarah Walkington

Rearing and foraging affects bumblebee (Bombus terrestris) gut microbiota

Equivocal Evidence for Colony Level Stress Effects on Bumble Bee Pollination Services

Exome capture of Antarctic krill (Euphausia superba) for cost effective population genetics of historical collections

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