ECOETHOLOGICAL ASPECTS OF HOMING BEHAVIOR IN MOLLUSKS

被引：35

作者：

CHELAZZI, G

机构：

[1] Dipartimento di Biologia Animale e Genetica, Universita di Firenze, Centro di Studio per la Faunistica ed Ecologia Tropicali del C.N.R, Firenze, 50125

来源：

ETHOLOGY ECOLOGY & EVOLUTION | 1990年 / 2卷 / 01期

关键词：

Chitons; Gastropods; Homing; Mollusks; Olfaction; Trail following;

D O I：

10.1080/08927014.1990.9525491

中图分类号：

B84 [心理学]; C [社会科学总论]; Q98 [人类学];

学科分类号：

03 ; 0303 ; 030303 ; 04 ; 0402 ;

摘要：

Both intertidal chitons and gastropods, and land pulraonates adopt movement patterns centred around a refuge where physical and biotic stress can be avoided. In rocky shore chitons and gastropods the homing behaviour is the basis of a complex isozonal pattern different from the isophasic model shown by mobile arthropods and vertebrates. Homing to a scar or to a permanent and personal home reduces dehydration during exposure to air and protects from predation. The occurrence of natural homing in land pulmonates is less investigated, but some species show a distinct homing performance when displaced several tens of metres from their shelters. Both intertidal and land molluscs may also perform collective homing based on interindividual communication. Chemoreception is deeply involved in the homing of both groups. The homing of intertidal chitons and gastropods relies mostly on trail following based on chemical detection. The trail associated information may be personal in solitary homers, while it is species-specific in the collective homers. The trail may be intrinsically polarized, which allows correct homeward re-trailing. Land pulmonates also show a definite trail following capacity, but here homing relies more on the distant chemoreception of home odours. © 1990 Taylor & Francis Group, LLC.

引用

页码：11 / 26

页数：16

共 76 条

[1]

Arey L.B., Crozier W.J., On the natural history of Onchidium, Journal of Experimental Zoology, 32, pp. 443-502, (1921)

[2]

Bailey S.E.R., The seasonal and daily patterns of locomotor activity in the snail Helix aspersa Muller an their relation to environmental variables, Proceedings of the Malacological Society of London, 41, pp. 415-428, (1975)

[3]

Bailey S.E.R., Circannual and circadian rhythms in the snail Helix aspersa Muller and the photoperiodic control of annual activity and reproduction, Journal of Comparative Physiology, 142, pp. 89-94, (1981)

[4]

Bohn G., Del’orientation chezles patelles. Compte Rendu de I'Academie des Sciences, Paris, 148, pp. 868-870, (1909)

[5]

Boyle P.R., The physiology and behaviour of chitons (Mollusca: Polyplacophora, Oceanography and Marine Biology Annual Review, 15, pp. 461-509, (1977)

[6]

Branch G.M., Mechanisms reducing intraspecific competition in Patella species: Migration, differentiation and territorial behaviour, Journal of Animal Ecology, 44, pp. 575-600, (1975)

[7]

Branch G.M., The biology of limpets: Physical factors, energy flow and ecological interactions, Oceanography and Marine Biology Annual Revue, 19, pp. 235-380, (1981)

[8]

Bretz D.D., Dimock R.V., Behaviorally important characteristics of the mucous trail of the marine gastropod llyanassa obsoleta (Say, Journal of Experimental Marine Biology and Ecology, 71, pp. 181-191, (1983)

[9]

Chase R., Lessons from snail tentacles, Chemical Senses, 11, pp. 411-426, (1986)

[10]

Chase R., Boulanger C.M., Attraction of the snail Achatina fulica to extracts of conspecific pedal glands, Behavioral Biology, 23, pp. 107-111, (1978)

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