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Temperature drives caste-specific morphological clines in ants.

Author(s): Brassard F, Francoeur A, Lessard JP

1. The morphology of organisms relates to most aspects of their life history and autecology. As such, elucidating the drivers of morphological variation along environmental gradients might give insight into processes limiting species distributions. In eusoc...

Article GUID: 32858759

The Odonata of Quebec: Specimen data from seven collections.

Author(s): Favret C, Moisan-De Serres J, Larrivée M, Lessard JP

Biodivers Data J. 2020;8:e49450 Authors: Favret C, Moisan-De Serres J, Larrivée M, Lessard JP

Article GUID: 32174757

Shared mycorrhizae but distinct communities of other root-associated microbes on co-occurring native and invasive maples.

Author(s): DeBellis T, Kembel SW, Lessard JP

PeerJ. 2019;7:e7295 Authors: DeBellis T, Kembel SW, Lessard JP

Article GUID: 31392089

Ant community response to disturbance: A global synthesis.

Author(s): Lessard JP

J Anim Ecol. 2019 Mar;88(3):346-349 Authors: Lessard JP

Article GUID: 30854640


Title:Temperature drives caste-specific morphological clines in ants.
Authors:Brassard FFrancoeur ALessard JP
Link:https://www.ncbi.nlm.nih.gov/pubmed/32858759
DOI:10.1111/1365-2656.13330
Category:J Anim Ecol
PMID:32858759
Dept Affiliation: BIOLOGY
1 Department of Biology, Concordia University, Montreal, QC, Canada.
2 Department of Biology, University of Quebec at Chicoutimi, Chicoutimi, QC, Canada.

Description:

Temperature drives caste-specific morphological clines in ants.

J Anim Ecol. 2020 Aug 28; :

Authors: Brassard F, Francoeur A, Lessard JP

Abstract

1. The morphology of organisms relates to most aspects of their life history and autecology. As such, elucidating the drivers of morphological variation along environmental gradients might give insight into processes limiting species distributions. In eusocial organisms, the concept of morphology is more complex than in solitary organisms. Eusocial insects such as ants exhibit drastic morphological differences between reproductive and worker castes. How environmental selection operates on the morphology of each caste, and whether caste-specific selection has fitness consequences is largely unknown, but potentially crucial to understand what limits ant species' distributions. 2. Here, we aimed to examine whether ant shape and body size co-varies with climate at the scale of an entire continent, and whether such relationship might be caste-specific. 3. We used 26,472 georeferenced morphometric measurements from 2206 individual ants belonging to 32 closely related North American species in the genus Formica to assess how ant morphology relates to geographic variation in the abiotic environment. 4. Although precipitation and seasonality explained some of the geographic variation in morphology, temperature was the best predictor. Specifically, geographic variation in body size was positively related to temperature, meaning that ants are smaller in cold than in warm environments. Moreover, the strength of the relationship between size and temperature was stronger for the reproductive castes (i.e. queens and males) than for the worker caste. The shape of workers and males also varied along these large-scale abiotic gradients. Specifically, the relative length of workers' legs, thoraxes and antennae positively related to temperature, meaning that they had shorter appendages in cold environments. In contrast, males had smaller heads, but larger thoraxes in more seasonal environments. 5. Overall, our results suggest that geographic variation in ambient temperature influences the morphology of ants, but that the strength of this effect is caste-specific. In conclusion, whereas ant ecology has traditionally focused on workers, our study shows that considering the ecology of the reproductive castes is imperative to move forward in this field.

PMID: 32858759 [PubMed - as supplied by publisher]