N. I. Passmore scite author profile

Animal communication theory predicts that low-frequency cheating should be common in generally honest signalling systems. However, perhaps because cheats are designed to go undetected, there are few examples of dishonest signals in natural populations. Here we present what we believe is the first example of a dishonest signal which is used commonly by males to attract mates and fight sexual rivals. After losing their large claw male fiddler crabs (Uca annulipes) grow a new one which has less mass, is a less effective weapon and costs less to use in signalling than an equivalent-length claw of the original form. Males with original claws do not differentially fight males with regenerated claws even though they are likely to win. Regenerated claws effectively bluff fighting ability and deter potential opponents before they fight. During mate searching, females do not discriminate against males with low-mass, regenerated claws, indicating that they are deceived as to the true costs males pay to produce sexual signals. Up to 44% of males in natural populations have regenerated claws, a level unanticipated by current signalling theory. The apparent rarity of cheating may be an artefact of the usual difficulty of detecting cheats and dishonesty may be quite common.

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Synchronized courtship in fiddler crabs

Backwell

Jennions

Passmore

et al. 1998

Nature

114

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Female Choice in the Synchronously Waving Fiddler CrabUca annulipes

et al. 1999

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In the fiddler crab, Uca annulipes, males attract receptive females into their burrows by waving their greatly enlarged major claw. We have previously shown that males clustered around a female wave in close synchrony. Females may have a preference for leading signals and synchronised waving may arise as an epiphenomenon of competition between males to signal first. Indeed, the males in clusters that females approach and visit in their burrows are more likely to produce leading waves than are their neighbours. Here we document two other differences in the waving behaviour of visited males and their neighbours. First, visited males complete the downward component of the wave more rapidly than their neighbours. Second, the interval between the end of one wave and the start of the next is shorter for visited males. How can waving be synchronous if visited males wave faster than their neighbours? While only 9% (40/431) of waves by neighbours did not overlap those of the visited male, 22% (110/501) of visited male waves did not overlap the wave of a focal neighbour (111 visited male‐neighbour dyads). Hence, while overlapping waves are nearly synchronous, visited males produce additional, ‘nonoverlapping’ waves that result in a higher wave rate than that of their neighbours.

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Status, vocalization and breeding biology of two species of African bullfrogs (Ranidae: Pyxicephalus)

1994

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There is much confusion concerning the identity of bullfrogs in southern Africa. Currently three subspecies are recognized, and introgression has been suspected. We demonstrate that in southern Africa there are two species: Pyxicephalus adspersus which has a long call, breeds during the day, and exhibits lek behaviour; Pyxicephalus edulis which is smaller, has a short call, breeds at night and does not exhibit lek behaviour.

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N. I. Passmore

Time constraints and multiple choice criteria in the sampling behaviour and mate choice of the fiddler crab, Uca annulipes

Dishonest signalling in a fiddler crab

Synchronized courtship in fiddler crabs

Female Choice in the Synchronously Waving Fiddler CrabUca annulipes

Status, vocalization and breeding biology of two species of African bullfrogs (Ranidae: Pyxicephalus)

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