Rapid ecological and evolutionary divergence during a poleward range expansion

Sheffer, Monica M; Zander, Linda; Schulze, Brian; Mouginot, Pierick; Naef, Thomas; Kozub, Łukasz; Gillespie, Rosemary G.; Hoff, Katharina J.; Prost, Stefan; Krehenwinkel, Henrik; Uhl, Gabriele

doi:10.1101/2021.11.04.467261

Cited by 3 publications

(4 citation statements)

References 109 publications

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“…Nevertheless, sub‐lethal injuries from prolonged cold exposure may accumulate and affect winter survival (Marshall & Sinclair, 2012), although studies on such effects in seemingly freeze‐avoidant animals are rare. Existing studies have shown lack of accumulated effects in two nymphalid butterflies (Pullin & Bale, 1989) but also substantial mortality in temperatures well above supercooling points in the spider Argiope bruennichi (Sheffer et al, 2021, preprint) and the spruce budworm Choristoneura fumiferana (Marshall & Sinclair, 2015; but see Delisle et al, 2022). Marshall and Sinclair (2015) also demonstrated strong effects of repeated cold exposure, which may have operated in our experiment too, given our fluctuating temperatures.…”

Section: Discussionmentioning

confidence: 99%

A range‐expanding butterfly is susceptible to cold and long winters but shows no signs of local adaptation to winter conditions

Ittonen,

Roberts,

Lehmann

et al. 2023

Functional Ecology

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Numerous species shift or expand their ranges poleward in response to climate change. Even when expanding species follow their climatic niches, expanding range margin populations are likely to face unfamiliar environmental conditions and thus natural selection for local adaptation. The wall brown butterfly (Lasiommata megera) has expanded northward in Sweden in the years 2000–2020, most likely as a result of climate change, and has previously been shown to have evolved local adaptations to northern daylength conditions. This evolution has occurred despite hypothesised genetic constraints to adaptation at range margins. We studied local adaptation to winter conditions in four of the previously‐studied L. megera populations, using a common garden laboratory experiment with a warm and short, an intermediate, and a cold and long winter treatment. We compared the winter and post‐winter survival of caterpillars from two southern core range and two northern range margin populations in Sweden. During the experiment, we measured metabolic rates of a subset of diapausing caterpillars to test whether populations differ in metabolic suppression during diapause. Further, we measured supercooling points, which reflect lower lethal temperature in L. megera, of the same subset of caterpillars. We also compared supercooling points between L. megera and three closely related species with more northern distributions. Few individuals survived the coldest treatment all the way to successful adult emergence, so L. megera seems susceptible to cold winters. Individuals of northern descent did not survive cold winters any better than individuals from southern populations. Similarly, there were no signs of local adaptation in metabolic rates or supercooling points. The comparison among species did not reveal any clear relationship between geographical distribution and supercooling point. Although northern winters probably exert strong selection on L. megera, we provide comprehensive evidence for the lack of local adaptation to winter conditions. This contrasts with the previous finding of quickly evolved local adaptation in diapause timing, highlighting the need to consider how traits associated with different seasons differ in how they may evolve and facilitate climate change‐induced range expansions. Read the free Plain Language Summary for this article on the Journal blog.

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Section: Discussionmentioning

confidence: 99%

A range‐expanding butterfly is susceptible to cold and long winters but shows no signs of local adaptation to winter conditions

Ittonen,

Roberts,

Lehmann

et al. 2023

Functional Ecology

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“…Programmed environmental chambers provide the additional benefit of being able to test realistic thermal regimes from any geographic position or point in time independent of physical location. While some laboratory studies have simulated detailed and realistic thermal regimes (Bradshaw et al, 2004 ; Maguire et al, 2015 ; Sheffer et al, 2021 ; Williams et al, 2015 ), we are unaware of other studies using growth chambers to simulate different, realistic, climate change scenarios for multiple locations. This is likely in part because its feasibility depends on modern environmental chamber control software and a study system with some a priori knowledge of phenology, but we encourage this design as a means of increasing the realism of climate change ecophysiology studies in controlled experimental settings.…”

Section: Discussionmentioning

confidence: 99%

“…While other environmental factors that potentially contribute to changes in development and fitness (e.g., light, nutrient resources, water availability, air flow) are controlled in this type of growth chamber simulation, this allows for the effect of future temperature regimes on development and fitness to be evaluated independently. Despite its potential, however, the use of realistic temperature regimes in growth chamber has been underutilized (but see Bradshaw et al, 2004 ; Maguire et al, 2015 ; Sheffer et al, 2021 ; Williams et al, 2015 ).…”

Section: Introductionmentioning

confidence: 99%

Growth and development of an invasive forest insect under current and future projected temperature regimes

Walter

Thompson

Powers

et al. 2022

Ecology and Evolution

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Temperature and its impact on fitness are fundamental for understanding range shifts and population dynamics under climate change. Geographic climate heterogeneity, behavioral and physiological plasticity, and thermal adaptation to local climates make predicting the responses of species to climate change complex. Using larvae from seven geographically distinct wild populations in the eastern United States of the non‐native forest pest Lymantria dispar dispar (L.), we conducted a simulated reciprocal transplant experiment in environmental chambers using six custom temperature regimes representing contemporary conditions near the southern and northern extremes of the US invasion front and projections under two climate change scenarios for the year 2050. Larval growth and development rates increased with climate warming compared with current thermal regimes and tended to be greater for individuals originally sourced from southern rather than northern populations. Although increases in growth and development rates with warming varied somewhat by region of the source population, there was not strong evidence of local adaptation, southern populations tended to outperform those from northern populations in all thermal regimes. Our study demonstrates the utility of simulating thermal regimes under climate change in environmental chambers and emphasizes how the impacts from future increases in temperature can vary based on geographic differences in climate‐related performance among populations.

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“…A comparison with A. bruennichi populations in southern Europe might be revealing here. Argiope bruennichi has undergone a massive range expansion during the last decades and only recently colonized northern Europe, including northern Germany, probably due to adaptive introgression, and facilitated by global warming (Kumschick et al 2011; Sheffer et al 2021). The mating season at the northern range of the species' distribution is very short with a peak mating period of about two weeks (Zimmer et al 2012).…”

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confidence: 99%

Pheromone dynamics in virgin and mated females of the sexually cannibalistic orb-web spider Argiope bruennichi (Araneidae)

Weiß

Schneider

2023

The Journal of Arachnology

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Female chemical signals are crucial for sexual communication in spiders and convey detailed information about females' mating status or age. However, evidence for chemical communication in spiders is largely behavioral. Only a few spider pheromones are known and quantitative chemical analyses of individual spiders are especially scarce. In the European wasp spider, Argiope bruennichi (Scopoli, 1772), females emit the volatile trimethyl methylcitrate, which attracts males from a distance. A recent study on the role of this pheromone in close-range male mate choice revealed that older virgin females approaching oviposition produce higher amounts of pheromone than younger ones, thereby increasing their attractiveness to males, and stop pheromone signaling shortly after copulation. Here we provide more detailed analyses of temporal dynamics in pheromone production in both virgin and mated female A. bruennichi. Our results corroborate previous observations indicating that male mating behavior in this species is guided by variation in female signaling effort.

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Rapid ecological and evolutionary divergence during a poleward range expansion

Cited by 3 publications

References 109 publications

A range‐expanding butterfly is susceptible to cold and long winters but shows no signs of local adaptation to winter conditions

A range‐expanding butterfly is susceptible to cold and long winters but shows no signs of local adaptation to winter conditions

Growth and development of an invasive forest insect under current and future projected temperature regimes

Pheromone dynamics in virgin and mated females of the sexually cannibalistic orb-web spider Argiope bruennichi (Araneidae)

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