Species range expansion constrains the ecological niches of resident butterflies

Audusseau, Hélène; Vaillant, Maryline Le; Janz, Niklas; Nylin, Sören; Karlsson, Bengt; Schmucki, Reto

doi:10.1101/026765

Cited by 2 publications

(2 citation statements)

References 37 publications

(43 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…levana and V. atalanta. Previous work on this study system hypothesized that a change in 408 the composition of this community, namely, the arrival of A. levana, would influence the 409 dynamics and spatial distribution of the resident butterflies through apparent competition 410(Audusseau et al, 2017). The association between host community composition and parasitism 411 of A. io and A. urticae is consistent with this prediction.…”

supporting

confidence: 64%

Altered parasitism of a butterfly assemblage associated with a range-expanding species

Audusseau

Ryrholm

Stefanescu³

et al. 2020

Preprint

Self Cite

View full text Add to dashboard Cite

AimBiotic interactions are an important factor structuring ecological communities but data scarcity limits our understanding of the impact of their response to climate and land use changes on communities. We studied the impact of a change in species assemblage on biotic interactions in a community of closely-related butterflies. Specifically, we examined the impact of the recent range expansion of Araschnia levana on the resident species, with a particular focus on natural enemies, parasitoids, shared with other butterfly species in the assemblage.LocationSweden.Time periodTwo years (2017-2018).Major taxa studiedNettle-feeding butterflies (Aglais urticae, Aglais io, Araschnia levana, and Vanessa atalanta) and their parasitoids.MethodsWe assessed parasitism in 6777 butterfly larvae sampled in the field from 19 sites distributed along a 500 km latitudinal gradient, and every two weeks throughout species’ reproductive seasons. We identified the parasitoid complex of each butterfly species and their overlap, and analysed how parasitism rates were affected by species assemblage, variations in abundance, time, and the arrival of A. levana.ResultsParasitoids caused high mortality, with substantial overlap across the four host species. The composition of the host community influenced parasitism rates and this effect was specific to each species. In particular, the rate of parasitism in resident species was comparatively higher at sites where A. levana has been established for longer.Main conclusionsParasitoid pressure is a significant source of mortality in the nettle-feeding butterfly community studied. Variations in butterfly species assemblages are associated with substantial variations in rates of parasitism. This is likely to affect the population dynamics of their butterfly host species, and, potentially, the larger number of species with which they interact.

show abstract

supporting

confidence: 64%

Altered parasitism of a butterfly assemblage associated with a range-expanding species

Audusseau

Ryrholm

Stefanescu³

et al. 2020

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…Poleward range shifts in herbivorous insects, particularly butterflies, have been documented for a number of species (Parmesan et al , 1999;Warren et al , 2001;Pöyry et al , 2009;Breed et al , 2012) . Additionally, northward expansions of other butterfly species have been shown to have dramatic impacts on community composition through linked biotic interactions (Audusseau et al , 2017) , which could be happening in this system as well, but would require further examination to determine. While studies demonstrating range shifts in multiple taxa provide valuable insights into the magnitude and direction of shifts for different taxa, gaps in knowledge remain (Pöyry et al , 2009) .…”

Section: Discussionmentioning

confidence: 99%

Climate change and local host availability drive the northern range boundary in the rapid northward expansion of the eastern giant swallowtail butterfly

Wilson

Casajus

et al. 2019

Preprint

View full text Add to dashboard Cite

Word count: 4369Data and Code Availability: Data and R scripts for all analyses are archived on Zenodo ( ABSTRACT AimsSpecies distributions result from both biotic and abiotic interactions across large spatial scales.The interplay of these interactions as climate changes quickly has been understudied, particularly in herbivorous insects. Here, we investigate the relative impacts these influences on the putative northern range expansion of the giant swallowtail butterfly in North America. LocationNorth America. Time period 1959-2018. Major taxa studiedEastern Giant swallowtail, Papilio cresphontes (Lepidoptera: Papilionidae); common hop tree, Ptelea trifoliata ; common prickly ash, Zanthoxylum americanum ; southern prickly ash, Zanthoxylum clava-herculis (Saphidales: Rutaceae). MethodsWe used data from museum collections and citizen science repositories to generate species distribution models. Distribution models were built for each species over two time periods (T1 = 1959-1999; T2 = 2000-2018). Results Models for P. cresphontes and associated host plants had high predictive accuracy onspatially-explicit test data (AUC 0.810-0.996). Occurrence data align with model outputs, providing strong evidence for a northward range expansion in the last 19 years (T2) by P.cresphontes . Host plants have shifted in more complex ways, and result in a change in suitable habitat for P. cresphontes in its historic range. P. cresphontes has a northern range which now closely aligns with its most northern host plant -continued expansion northward is unlikely, and historic northern range limits were likely determined by abiotic, not biotic, factors. Main conclusionsBiotic and abiotic factors have driven the rapid northern range expansion in the giant swallowtail butterfly across North America in the last 20 years. A number of bioclimatic variables are correlated with this expansion, notably an increase in mean annual temperature and minimum winter temperature. We predict a slowing of northward range expansion in the next 20-50 years as butterflies are now limited by the range of host plants, rather than abiotic factors.

show abstract

Species range expansion constrains the ecological niches of resident butterflies

Cited by 2 publications

References 37 publications

Altered parasitism of a butterfly assemblage associated with a range-expanding species

Altered parasitism of a butterfly assemblage associated with a range-expanding species

Climate change and local host availability drive the northern range boundary in the rapid northward expansion of the eastern giant swallowtail butterfly

Contact Info

Product

Resources

About