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Intraspecific variation of thermal tolerance along elevational gradients: the case of a widespread diving beetle (Coleoptera: Dytiscidae). | LitMetric

AI Article Synopsis

  • - The study investigates thermal adaptation and plasticity in the water beetle Agabus bipustulatus across a 2000 m elevational gradient in Iberia, aiming to understand how various populations cope with different temperature extremes.
  • - Researchers predicted that beetle populations at higher elevations would have lower heat tolerance and higher cold tolerance compared to those at lower elevations due to decreasing temperatures with elevation.
  • - The findings revealed significant variation in thermal limits among populations, but no evidence of local adaptation, indicating that the species may have limited resilience to global warming despite being widespread across diverse environments.

Article Abstract

Species distributed across wide elevational gradients are likely to experience local thermal adaptation and exhibit high thermal plasticity, as these gradients are characterised by steep environmental changes over short geographic distances (i.e., strong selection differentials). The prevalence of adaptive intraspecific variation in thermal tolerance with elevation remains unclear, however, particularly in freshwater taxa. We explored variation in upper and lower thermal limits and acclimation capacity among Iberian populations of adults of the widespread water beetle Agabus bipustulatus (Dytiscidae) across a 2000 m elevational gradient, from lowland to alpine areas. Since mean and extreme temperatures decline with elevation, we predicted that populations at higher elevations will show lower heat tolerance and higher cold tolerance than lowland ones. We also explored whether acclimation capacity is positively related with climatic variability across elevations. We found significant variation in thermal limits between populations of A. bipustulatus, but no evidence of local adaptation to different thermal conditions across the altitudinal gradient, as relationships between thermal limits and elevation or climatic variables were largely nonsignificant. Furthermore, plasticities of both upper and lower thermal limits were consistently low in all populations. These results suggest thermal niche conservatism in this species, likely due to gene flow counteracting the effects of divergent selection, or adaptations in other traits that buffer exposure to climate extremes. The limited adaptive potential and plasticity of thermal tolerance observed in A. bipustulatus suggest that even generalist species, distributed across wide environmental gradients, may have limited resilience to global warming.

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Source
http://dx.doi.org/10.1111/1744-7917.13466DOI Listing

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