Cora M. Allard scite author profile

Several hypotheses have been put forward to explain the evolution of extreme sexual size dimorphism (SSD). Among them, the gravity hypothesis (GH) explains that extreme SSD has evolved in spiders because smaller males have a mating or survival advantage by climbing faster. However, few studies have supported this hypothesis thus far. Using a wide span of spider body sizes, we show that there is an optimal body size (7.4 mm) for climbing and that extreme SSD evolves only in spiders that: (1) live in high‐habitat patches and (2) in which females are larger than the optimal size. We report that the evidence for the GH across studies depends on whether the body size of individuals expands beyond the optimal climbing size. We also present an ad hoc biomechanical model that shows how the higher stride frequency of small animals predicts an optimal body size for climbing.

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Mass-mediated sex differences in climbing patterns support the gravity hypothesis of sexual size dimorphism

Moya-Laraño

cacute

Allard

et al. 2007

Web Ecol.

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The gravity hypothesis of sexual size dimorphism can explain the patterns of extreme sexual size dimorphism in spiders (males smaller than females) because small males climb faster and therefore may be better at reaching females that live in high habitats. Recently, the main prediction of a negative relationship between climbing speed and body size in spiders has been called into question. Here we induced males and females of the spider <i>Leucauge venusta</i> (Tetragnathidae) to run on vertical surfaces and found partial support for the gravity hypothesis. As predicted, males climb faster than females and we demonstrated that this effect is an indirect effect mediated by the negative relationship between body mass and climbing speed. We validate our results using simulated data showing that there is enough statistical efficiency in our data set to support our conclusions. We distinguished between direct and indirect effects (through mass) on sex differences in climbing speed by means of path analysis. Thus, we provide empirical evidence that by being smaller, males are able to climb faster than females. However, we found only a barely significant negative relationship between climbing speed and body size when only males were considered. Reasons for such results are discussed within the text

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Effect of Diet on Development and Reproduction of the HarvestmanPhalangium opilio(Opiliones: Phalangiidae)

Allard

Yeargan

2005

Environ Entomol

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Comparison of Common Milkweed and Honeyvine Milkweed (Asclepiadaceae) as Host Plants for Monarch Larvae (Lepidoptera: Nymphalidae)

Yeargan

Allard

2005

Journal of the Kansas Entomological Society

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Gravity still matters

et al. 2007

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Cora M. Allard

Optimal climbing speed explains the evolution of extreme sexual size dimorphism in spiders

Mass-mediated sex differences in climbing patterns support the gravity hypothesis of sexual size dimorphism

Effect of Diet on Development and Reproduction of the HarvestmanPhalangium opilio(Opiliones: Phalangiidae)

Comparison of Common Milkweed and Honeyvine Milkweed (Asclepiadaceae) as Host Plants for Monarch Larvae (Lepidoptera: Nymphalidae)

Gravity still matters

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