Stabilized morphological evolution of spiders despite mosaic changes in foraging ecology

2022 | journal article. A publication with affiliation to the University of Göttingen.

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​Wolff, Jonas O., et al. "Stabilized morphological evolution of spiders despite mosaic changes in foraging ecology​." ​Systematic Biology, ​2022, , ​doi: 10.1093/sysbio/syac023. 

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Wolff, Jonas O.; Wierucka, Kaja; Paterno, Gustavo; Coddington, Jonathan A.; Hormiga, Gustavo; Kelly, Michael B. J.; Herberstein, Marie E.; Ramírez, Martín J.
Abstract A prominent question in animal research is how the evolution of morphology and ecology interact in the generation of phenotypic diversity. Spiders are some of the most abundant arthropod predators in terrestrial ecosystems and exhibit a diversity of foraging styles. It remains unclear how spider body size and proportions relate to foraging style, and if the use of webs as prey capture devices correlates with changes in body characteristics. Here we present the most extensive dataset to date of morphometric and ecological traits in spiders. We used this dataset to estimate the change in spider body sizes and shapes over deep time and to test if and how spider phenotypes are correlated with their behavioural ecology. We found that phylogenetic variation of most traits best fitted an Ornstein-Uhlenbeck model, which is a model of stabilizing selection. A prominent exception was body length, whose evolutionary dynamics were best explained with a Brownian Motion (free trait diffusion) model. This was most expressed in the araneoid clade (ecribellate orb-weaving spiders and allies) that showed bimodal trends towards either miniaturization or gigantism. Only few traits differed significantly between ecological guilds, most prominently leg length and thickness, and although a multivariate framework found general differences in traits among ecological guilds, it was not possible to unequivocally associate a set of morphometric traits with the relative ecological mode. Long, thin legs have often evolved with aerial webs and a hanging (suspended) locomotion style, but this trend is not general. Eye size and fang length did not differ between ecological guilds, rejecting the hypothesis that webs reduce the need for visual cue recognition and prey immobilization. For the inference of the ecology of species with unknown behaviours, we propose not to use morphometric traits, but rather consult (micro-)morphological characters, such as the presence of certain podal structures. These results suggest that, in contrast to insects, the evolution of body proportions in spiders is unusually stabilized, and ecological adaptations are dominantly realized by behavioural traits and extended phenotypes in this group of predators. This work demonstrates the power of combining recent advances in phylogenomics with trait-based approaches to better understand global functional diversity patterns through space and time.
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Systematic Biology 
Fakultät für Forstwissenschaften und Waldökologie ; Burckhardt-Institut ; Abteilung Biodiversität, Makroökologie und Biogeographie 



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