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Ontogenetic milestones of chemotactic behaviour reflect innate species-specific response to habitat cues in larval fish


O'Connor, JJ and Booth, DJ and Swearer, SE and Fielder, DS and Leis, JM, Ontogenetic milestones of chemotactic behaviour reflect innate species-specific response to habitat cues in larval fish, Animal Behaviour, 132 pp. 61-71. ISSN 0003-3472 (2017) [Refereed Article]

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Copyright 2017 The Association for the Study of Animal Behaviour

DOI: doi:10.1016/j.anbehav.2017.07.026


The distribution and connectivity of marine populations are largely dependent on biophysical factors affecting pelagic larval dispersal between spawning at adult spawning sites and settlement to juvenile nursery habitats. Behaviour and swimming ability of pelagic larvae are increasingly understood to influence patterns of dispersal, but it is unclear which sensory cues are involved and when during ontogeny these abilities first develop. Here we studied the early ontogenetic development of responses to olfactory cues from coastal and estuarine waters in larvae of two temperate estuarine-associated fish species, Australian bass, Macquaria novemaculeata, and mulloway, Argyrosomus japonicus, to determine when olfaction begins to influence dispersal. Olfactory responses to habitat-associated cues were not present when larvae first transitioned from nonswimming to swimming (indicated by flexion of the notochord), but emerged after ca. 7 days in a species-specific manner that was consistent across different cohorts. Based on general additive models (GAMs), age (in days posthatch) best explained the ontogenetic pattern in both species. The emergence of chemotactic responses coincides with an exponential increase in swimming endurance reported for these species. This suggests the existence of ontogenetic milestones during larval development that, once reached, trigger active influence on dispersal. Salinity and pH did not influence choice behaviour after these ontogenetic milestones; however, the presence of cues generated by seagrass harvested from the estuary habitat elicited strong responses in fish larvae consistent with species-specific habitat preferences, indicating an important role for aquatic vegetation in driving these behaviours.

Item Details

Item Type:Refereed Article
Keywords:larval biology, dispersal, population connectivity, fisheries, olfaction, ontogenetic milestone, seagrass, sensory ecology
Research Division:Biological Sciences
Research Group:Ecology
Research Field:Marine and estuarine ecology (incl. marine ichthyology)
Objective Division:Environmental Management
Objective Group:Marine systems and management
Objective Field:Marine biodiversity
UTAS Author:Leis, JM (Dr Jeff Leis)
ID Code:121221
Year Published:2017
Web of Science® Times Cited:6
Deposited By:Ecology and Biodiversity
Deposited On:2017-09-18
Last Modified:2018-05-29

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