Intraspecific and interspecific chemosignals in birds: a review

Intraspecific and interspecific chemosignals in birds: a review

This review of chemosignals in birds considers intraspecific oriented chemosignals such as pheromones, interspecific chemosignals, and chemical interactions with parasites. Intraspecific chemosignals are known in some seabirds, especially burrow- or crevice-nesting auklets and petrels that breed in...

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Bibliographic Details
Published in:Veterinární medicína Vol. 52; no. 9; pp. 385 - 391
Main Author: Rajchard, J.
Format: Journal Article
Language:English
Published: Prague Czech Academy of Agricultural Sciences (CAAS) 01-09-2007
Czech Academy of Agricultural Sciences
Subjects:
Aldehydes
Aquatic birds
Birds
Chemical defense
Chemical interactions
Chemoreception
Courtship
Diesters
Ectoparasites
Fatty acids
Interspecific
Mammals
Nematodes
Nesting
Nests
Odor
Odors
olfactory
parasit
pheromone
Predators
Scents
Sexual selection
Signal quality
Waxes
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Summary:This review of chemosignals in birds considers intraspecific oriented chemosignals such as pheromones, interspecific chemosignals, and chemical interactions with parasites. Intraspecific chemosignals are known in some seabirds, especially burrow- or crevice-nesting auklets and petrels that breed in large colonies and are often nocturnal on land. Crested Auklets secrete a distinctive scent closely associated with courtship and important in sexual selection. Individually distinctive odours of petrels allow them to identify their own nest and can have a significant role in social relationships. Substances considered as sex pheromones, diesters of 3-hydroxy fatty acids, are produced by female mallards in their uropygial glands during the mating season. In many species of Charadriiformes during nesting monoester waxes are substituted with mixtures of less volatile diester waxes, less easily detected by mammals searching for nests. The tissues, mainly skin and feather of the New Guinean Passerines of the genus Pitohui and Ifrita contain steroidal alkaloids from the batrachotoxin group probably as a chemical defense. The variation of preen gland secretion in some other Passerines is apparently due to selective pressures caused by ectosymbionts. The auklets’ odour, considered as a signal of mate quality, has also a function as ectoparasite repellent: aldehyde constituents of this odour kill and repel ectoparasites. Parasitic nematodes influence grouse digestion and thereby scent emission, making parasitized birds more vulnerable to depredation by mammals. Conversely, scents of some mammalian predators can function as a bird repellent.
ISSN:0375-8427
1805-9392
DOI:10.17221/2000-VETMED