The possible adaptive advantages of terrestrial egg deposition in some fluvial diadromous galaxiid fishes (Teleostei: Galaxiidae)

Several diadromous New Zealand and Australian species of Galaxias are now known, or suspected, to deposit their eggs amongst riparian vegetation or substrates either supratidally in estuaries or in forested streams in locations that are only temporarily submerged by elevated water levels. The eggs d...

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Bibliographic Details
Published in:Fish and fisheries (Oxford, England) England), 2006-09, Vol.7 (3), p.153-164
Main Authors: McDowall, RM, Charteris, SC
Format: Article
Language:English
Subjects:
adaptive value
Animal behavior
Animal reproduction
Aquatic ecosystems
diadromy
Eggs
Fish
flood flows
Galaxias
Galaxiidae
Marine
Pisces
Predation
Teleostei
terrestrial egg development
Water
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Summary:Several diadromous New Zealand and Australian species of Galaxias are now known, or suspected, to deposit their eggs amongst riparian vegetation or substrates either supratidally in estuaries or in forested streams in locations that are only temporarily submerged by elevated water levels. The eggs develop in a humid atmosphere and hatch when the egg deposition sites are resubmerged; a significant role for agitation in stimulating hatching seeming likely. There are risks from the eggs becoming dehydrated, and also from a failure by water to resubmerge the eggs before they have exhausted their energy resources. Hatching is triggered by elevated flows, perhaps being an outcome of agitation of the eggs. Elevated flows may also increase the rate of downstream transport of the larvae, facilitating survival during dispersal to sea from spawning sites in streams that may be long distances inland. Hatching during flood events may favour survival of the larvae because turbid flows may provide ‘cover’ for the larvae as they emigrate to sea. Risks from egg predation by aquatic predators may be replaced by risks from terrestrial predators.
ISSN:1467-2960
1467-2979
DOI:10.1111/j.1467-2979.2006.00217.x