Yoni Brandt scite author profile

Honest-signalling theory asserts that threat displays reliably advertise attributes that influence fighting success. Endurance, as measured by treadmill performance, predicts the outcome of agonistic interactions among lizards. If threat displays in lizards function to advertise endurance capacity then variation in threat displays should correlate with endurance. I tested this prediction for the duration of threat posturing in male side-blotched lizards (Uta stansburiana) and examined whether threat displays act as quality handicaps, reliable signals that expend the attribute that is advertised. Individual variation in the duration of threat posturing correlated with endurance, while an experimental reduction of endurance diminished the duration of threat posturing. As expected of a quality handicap, endurance fell below baseline after display production. A restriction of aerobic metabolism can account for this effect. In threat posturing, lateral compression of the thorax may interfere with respiration or with circulation, limiting aerobic metabolism and causing a compensatory increase in anaerobic metabolism, thereby generating lactate and diminishing locomotor capacity. Concentrations of lactate measured after display production were higher than baseline, consistent with the proposed mechanism. By restricting aerobic metabolism, the threat posture can act as a quality handicap, simultaneously advertising and expending the endurance capacity of displaying lizards.

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Gaping Displays Reveal and Amplify a Mechanically Based Index of Weapon Performance

Lappin¹,

Brandt²,

Husak³

et al. 2006

The American Naturalist

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Physical prowess, a key determinant of fight outcomes, is contingent on whole-organism performance traits. The advertisement of performance, via display, is poorly understood because it is unclear how information about performance is encoded into display characteristics. Previous studies have shown that weapon performance (i.e., bite force) predicts dominance and reproductive success in male lizards. We tested the hypothesis that gaping displays by adult male collared lizards (Crotaphytus) can provide an index of weapon performance by exposing the major jaw-adductor muscle complex and that white patches at the mouth corners amplify this index. For territorial adult males, the breadth of the muscle complex, which is not correlated with body size, was a strong predictor of bite force. For nonterritorial yearling males and females, however, measures of body and head size predicted bite force. The patches are highly conspicuous, exhibit UV-reflecting properties within the visual range of lizards, and provide size-independent information about bite force only in adult males. We conclude that exposure of the muscle complex during gaping displays can provide rival males with a reliable, body-size independent, biomechanically based index of weapon performance, an index that the mouth-corner patches amplify. Indexes that transmit information through mechanistic links to performance are expected to be widespread among animals.

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Testing the gravity hypothesis of sexual size dimorphism: are small males faster climbers?

Brandt

Andrade

2007

Functional Ecology

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Summary1. Moya-Laraño et al . (2002; Evolution 56 , 420-425) showed that female-biased sexual size dimorphism is more pronounced in tree-dwelling spider species than in species inhabiting lower-lying substrates. They proposed the Gravity Hypothesis for sexual size dimorphism: small size should be advantageous for males in habitats where successful mate searching requires climbing, because mass-specific power and hence the speed of climbing against gravity, must decrease with increasing size. 2. Their biomechanical model is based on a false premise, that the cross-sectional area of a muscle determines its power output. In fact, muscle power is proportional to muscle volume, and hence mass-specific power should be independent of size. We therefore predict, contrary to the Gravity Hypothesis, that climbing speed should be independent of body size. 3. We tested these contrasting predictions using adult male Western black widow spiders Latrodectus hesperus , a species in which males span a broad range of sizes. 4. In accordance with our prediction, and contrary to the Gravity Hypothesis, we found no relationship between vertical climbing speed and any of a series of size measures, whereas on a horizontal surface, speed was positively related to size. 5. Our results, as well as the error we exposed in the biomechanical model underlying the Gravity Hypothesis, indicate that selection for vertical climbing speed in males cannot account for patterns of sexual size dimorphism in spiders.

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Conspicuousness of Dickerson's collared lizard (Crotaphytus dickersonae) through the eyes of conspecifics and predators

Macedonia

Lappin

Loew

et al. 2009

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Selection should favour coloration in organisms that is more conspicuous to their own visual system than to those of their predators or prey. We tested this prediction in Dickerson's collared lizard (Crotaphytus dickersonae), a sexually dichromatic desert reptile that preys on insects and smaller lizard species, and which in turn is prey for birds and snakes. We modelled the spectral sensitivities of the lizards and their avian and snake predators, and compared the conspicuousness of the lizards' entire colour patterns with each class of viewers. Almost all comparisons involving females strongly supported our prediction for greater chromatic and brightness conspicuousness against local terrestrial visual backgrounds to their own modelled visual system than to those of avian and snake predators. Males, in contrast, exhibited far fewer cases of greater conspicuousness to their own visual system than to those of their predators. Our own perception of spectral similarity between blue C. dickersonae males and a local nonterrestrial visual background (i.e. the Sea of Cortéz) prompted a further investigation. We compared sea (and sky) radiance with dorsum radiance of C. dickersonae males and with males from two distantly-related Crotaphytus collaris populations in which males possess blue bodies. In all three visual models, C. dickersonae males exhibited significantly lower chromatic contrast with the sea (and sky) than did their noncoastal, blue-bodied congeners. Among potential explanations, the blue body coloration that is unique to male C. dickersonae may offset, if only slightly, the cost of visibility to predators (and to prey) through reduced contrast against the extensive, local, nonterrestrial blue backgrounds of the sea and sky.

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Yoni Brandt

Lizard threat display handicaps endurance

Gaping Displays Reveal and Amplify a Mechanically Based Index of Weapon Performance

Testing the gravity hypothesis of sexual size dimorphism: are small males faster climbers?

Conspicuousness of Dickerson's collared lizard (Crotaphytus dickersonae) through the eyes of conspecifics and predators

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