Four-year decline in Ostrea chilensis recruits per spawner in Foveaux Strait, New Zealand, suggests a diminishing stock−recruitment relationship

Rebuilding and maintaining sufficient spawning stock to ensure recruitment is a key strategy for fisheries management and ecological restoration. We evaluated variation in Ostrea chilensis recruitment across seasons and sites over 4−6 yr in Foveaux Strait (New Zealand) to infer the relative importan...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) 2018-07, Vol.600, p.85-98
Main Authors: Michael, Keith P., Shima, Jeffrey S.
Format: Article
Language:English
Subjects:
Environmental restoration
Fish
Fisheries
Fisheries management
Fishery management
Fishing dredges
Interactions
Larvae
Marine molluscs
Ostrea chilensis
Oyster fisheries
Oysters
Recruitment
Recruitment (fisheries)
Regression analysis
Restoration
Spat
Spawning
Spawning populations
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Summary:Rebuilding and maintaining sufficient spawning stock to ensure recruitment is a key strategy for fisheries management and ecological restoration. We evaluated variation in Ostrea chilensis recruitment across seasons and sites over 4−6 yr in Foveaux Strait (New Zealand) to infer the relative importance of determinants of population recruitment. Recruitment varied significantly between seasons (p < 0.001). Most recruitment in any given year (97.8 ± 0.9%, mean ± SE) occurred in the austral spring and summer (November to February). Recruitment also varied significantly between years (p < 0.001). In a separate fishery-wide study, we investigated the effect of spawner densities on recruitment, relative to other climatic and biological factors. We deployed spat collectors at 6 sites across 3 discrete fishery areas, and estimated densities of spawning-sized oysters from dredge samples. We modelled counts of oyster spat and spawners with a negative binomial regression to evaluate the stock–recruitment relationship. Recruitment varied between years (50.8% of the deviance explained), spawner densities (13.8%), and areas (11.6%), with further 2-way interactions among these factors. Importantly, our analysis showed a continued decline in recruits per spawner, despite similar or increasing densities of spawning-sized oysters. Average recruitment for 2010–11 when spawner densities were highest was 4.6% of the level observed in 2007–08. Our data suggest that factors other than densities of oysters play a major role in the numbers of competent larvae available for settlement. Managing oyster fisheries as a single stock and maintaining oyster densities above management reference points alone may not be sufficient to ensure recruitment to rebuild populations.
ISSN:0171-8630
1616-1599
DOI:10.3354/meps12641