Seascape diversity and configuration shape habitat selection across coastal nurseries
Mosman, Jesse, Borland, Hayden, Rummell, Ashley, Henderson, Christopher, Allan, Sam, Bannam, Alec, Bierwagen, Stacy, Bradley, Michael, Carter, Alexandra, Ceccarelli, Daniela, Coles, Robert, Emslie, Michael, Gilby, Ben, Goodridge Gaines, Lucy, Hay, Edward, Kaposi, Katrina, Konovalov, Dmitry, Murphy, Theo, Murray, Jordan, Sheaves, Marcus, Smith, Tim, Stowar, Marcus, and Olds, Andrew (2025) Seascape diversity and configuration shape habitat selection across coastal nurseries. In: [Presented at the Australian Society for Fish Biology Conference 2025]. 123912. From: ASFB 2025: Australian Society for Fish Biology Conference 2025, 18-21 August 2025, Darwin, NT, Australia.
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Abstract
Background:
Many species move among habitats to feed, shelter, reproduce, and disperse, linking ecosystems across land and seascapes. In coastal seascapes, juvenile fish movements connect habitats to form interlinked nurseries. While the concepts of nursery habitats and ontogenetic habitat shifts are widely accepted, how habitat and seascape features influence habitat selection across multiple habitats during ontogenetic shifts remains unclear.
Aims:
We tested for ontogenetic habitat shifts and examined how seascape features, habitat cover, and protection from fishing influence the abundance and distribution of juvenile fish targeted by fisheries across multiple nursery habitats.
Methods:
We surveyed fish from six habitat types using stereo-remote underwater video stations. Surveys were conducted four times over two years at 180 sites along 200 km of the inshore Great Barrier Reef, Australia.
Results:
Key fisheries species exhibited clear ontogenetic shifts, migrating from mangroves and/or back-reef habitats to coral reefs at larger body sizes. Variation in seascape properties, particularly the composition and configuration of nursery habitats was linked to changes in the distribution and abundance of key fisheries target species. These strong seascape effects were evident across all habitats and sizes and were more important for nursery function than variation in habitat cover or protection from fishing.
Conclusion:
Our findings provide strong support for the seascape nursery concept, demonstrating that seascape attributes can influence nursery function and illustrate how diverse and inter-connected habitats can form vital seascape nurseries for species that undertake ontogenetic shifts. Effective management will require a deeper understanding of how variation in seascape composition and configuration supports nursery function.
| Item ID: | 87685 |
|---|---|
| Item Type: | Conference Item (Abstract / Summary) |
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| Date Deposited: | 08 Sep 2025 00:53 |
| FoR Codes: | 31 BIOLOGICAL SCIENCES > 3103 Ecology > 310305 Marine and estuarine ecology (incl. marine ichthyology) @ 50% 41 ENVIRONMENTAL SCIENCES > 4104 Environmental management > 410401 Conservation and biodiversity @ 50% |
| SEO Codes: | 18 ENVIRONMENTAL MANAGEMENT > 1802 Coastal and estuarine systems and management > 180299 Coastal and estuarine systems and management not elsewhere classified @ 100% |
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