Resilience of a tropical sport fish population to a severe cold event varies across five estuaries in southern Florida

Resilience of a tropical sport fish population to a severe cold event varies across five estuaries in southern Florida

For species that are closely managed, understanding population resilience to environmental and anthropogenic disturbances (i.e., recovery trajectories across broad spatial areas) can guide which suite of management actions are available to mitigate any impacts. During January 2010, an extreme cold e...

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Bibliographic Details
Published in:Ecosphere (Washington, D.C) Vol. 7; no. 8
Main Authors: Stevens, P. W., Blewett, D. A., Boucek, R. E., Rehage, J. S., Winner, B. L., Young, J. M., Whittington, J. A., Paperno, R.
Format: Journal Article
Language:English
Published: Washington John Wiley & Sons, Inc 01-08-2016
Subjects:
Algae
Anthropogenic factors
Aquatic ecosystems
Centropomus undecimalis
Climate change
Climate effects
coastal areas
Coasts
Cold
Commercial fishing
common snook
disturbance
Estuaries
Extreme cold
Fish
Fish populations
Fisheries
fishes
Fishing
Geomorphology
Habitat availability
Mortality
Overwintering
Population
Recreation
Shorelines
Special Feature: Extreme Cold Spells
Sport fishing
Trends
Tropical fish
Everglades
Florida
United States > US
Indian River
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Summary:For species that are closely managed, understanding population resilience to environmental and anthropogenic disturbances (i.e., recovery trajectories across broad spatial areas) can guide which suite of management actions are available to mitigate any impacts. During January 2010, an extreme cold event in south Florida caused widespread mortality of common snook, Centropomus undecimalis, a popular sport fish. Interpretation of trends using fishery‐independent monitoring data in five south Florida estuaries showed that changes in catch rates of adult snook (>500 mm standard length) varied between no effects postevent to large effects and 4‐yr recoveries. The reasons for the variation across estuaries are unknown, but are likely related to differences in estuary geomorphology and habitat availability (e.g., extent of deep rivers and canals) and differences in the proportions of behavior contingents (i.e., segments of the population that use divergent movement tactics) that place snook in different areas of the estuary during winter. Emerging awareness of the presence of behavior contingents, identification of overwintering sites, and improvements of abundance indices in remote nursery habitats should provide a better understanding of population resilience to disturbance events for snook. Given that changes in the frequency of short‐lived, severe cold events are currently unknown, the findings and management actions described here for a tropical species living at the edge of its distribution should be useful to scientists forecasting the effects of climate change.
ISSN:2150-8925
2150-8925
DOI:10.1002/ecs2.1400