期刊
JOURNAL OF FISH BIOLOGY
卷 100, 期 4, 页码 935-943出版社
WILEY
DOI: 10.1111/jfb.15025
关键词
Ecklonia radiata; habitat associations; modelling; mysid shrimp; weedy seadragons
资金
- Oatley Flora and Fauna Research Council
This study investigates the influence of critical habitat and prey on the distribution of the common seadragon. The authors find that the associations between the seadragon and kelp and mysid shrimps can be extrapolated to predict their occurrence at different locations. These findings are crucial for the conservation of seadragon populations and understanding their response to climate change scenarios.
Habitat associations can be critical predictors of larger-scale organism distributions and range shifts. Here the authors consider how a critical habitat, kelp (Ecklonia radiata) and prey (mysid crustacean swarms), can influence small- and large-scale distribution on the iconic common (weedy) seadragon (Phyllopteryx taeniolatus:Syngnathidae). P. taeniolatus are charismatic fish endemic to the temperate reefs of southern Australia, reported to range from Geraldton, Western Australia (28.7667 degrees S, 114.6167 degrees E) around southern Australia to Port Stephens, New South Wales (32.614369 degrees S, 152.325676 degrees E). The authors test a previously developed model of seadragon habitat preferences to predict P. taeniolatus occurrence within four sites from Sydney to the northern limit of their range in eastern Australia. They determined that P. taeniolatus associations with Ecklonia and mysid shrimp can be extrapolated across multiple sites to predict the occurrence of individual P. taeniolatus within a location/site. For instance, the authors demonstrated a significant positive relationship between the density of mysid swarms and the density of P. taeniolatus, evident across all sites despite large differences in the density of mysid swarms among sites. The findings are the first to model P. taeniolatus habitat associations across multiple sites to the northern limit of their range and have applications in protecting P. taeniolatus populations and how they may respond under climate change scenarios, such as poleward kelp retractions.
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