Seasonal and interannual dynamics of river-floodplain multispecies fisheries in relation to flood pulses in the Lower Amazon

•Fishing activities followed a clear seasonal pattern, alternating habitat and species to optimize yields.•There was a positive effect between mean water levels in a given year and fish yields two or three years later.•The lag of water level effects on fish catches is roughly proportional to species...

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Bibliographic Details
Published in:Fisheries research 2016-11, Vol.183, p.352-359
Main Authors: Isaac, Victoria J., Castello, Leandro, Santos, Paulo R. Brasil, Ruffino, Mauro L.
Format: Article
Language:English
Subjects:
Life-history
Longevity
Management
Small scale fisheries
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Summary:•Fishing activities followed a clear seasonal pattern, alternating habitat and species to optimize yields.•There was a positive effect between mean water levels in a given year and fish yields two or three years later.•The lag of water level effects on fish catches is roughly proportional to species longevity.•This study underscores the dependence of fish yields on natural river hydrological cycles.•Effective plans for the protection of natural hydrology of Amazonian rivers are necessary to avoid the loss of these important fisheries. River-floodplain fisheries are highly productive as seasonal water level changes, known as ‘flood pulses,’ increase the productivity of fish populations by providing them with feeding and reproductive opportunities in the floodplains. However, current understanding of flood pulse effects on fisheries activities at seasonal and interannual time scales remains deficient. Here, we analyze a comprehensive dataset of the Lower Amazon region to address the following questions: How flood pulses affect river-floodplain fishing strategies with respect to species composition and habitat? What is the interannual lag of hydrological effects on fisheries yields? And does that lag depend on the life-history strategy of the target fish species? A principal coordinates analysis indicated that fishing activities followed a clear seasonal pattern characterized by alternating habitat and species. Cross-correlation analyses indicated the existence of positive effects caused by mean water levels on fish catches roughly two or three years later. The lag of such water level effects on fish catches was proportional to species longevity, being 22 months for short-lived species with a mean age at catch of 21 months, 26 months for medium-lived species with a mean age at catch of 27.2 months, and 42 months for short-lived species with a mean age at catch of 33.7 months. The results of this study highlight the large seasonal and annual variability of tropical river-floodplain fisheries, and underscore the dependence of fish catches on natural river hydrological cycles. Because these fisheries are suffering increasing exploitation pressures, conservation measures are necessary to protect the hydrology of Amazonian rivers.
ISSN:0165-7836
1872-6763
DOI:10.1016/j.fishres.2016.06.017