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Effects of habitat modifications on the movement behavior of animals: the case study of Fish Aggregating Devices (FADs) and tropical tunas
Pérez, G.; Dagorn, L.; Deneubourg, J.-L.; Forget, F.; Filmalter, J.D.; Holland, K.; Itano, D.; Adam, S.; Jauharee, R.; Beeharry, S.P.; Capello, M. (2020). Effects of habitat modifications on the movement behavior of animals: the case study of Fish Aggregating Devices (FADs) and tropical tunas. Movement Ecology 8(1): 47. https://hdl.handle.net/10.1186/s40462-020-00230-w
In: Movement Ecology. BioMed Central: London. e-ISSN 2051-3933, more
Peer reviewed article  

Available in  Authors 

Keyword
    Marine/Coastal
Author keywords
    Acoustic tagging; Associative behavior; Density of floating objects; Movement behavior; Tropical tuna

Authors  Top 
  • Pérez, G.
  • Dagorn, L.
  • Deneubourg, J.-L., more
  • Forget, F.
  • Filmalter, J.D.
  • Holland, K.
  • Itano, D.
  • Adam, S.
  • Jauharee, R.
  • Beeharry, S.P.
  • Capello, M., more

Abstract

    Background

    Aggregation sites represent important sources of environmental heterogeneity and can modify the movement behavior of animals. When these sites are artificially established through anthropogenic actions, the consequent alterations to animal movements may impact their ecology with potential implications for their fitness. Floating objects represent important sources of habitat heterogeneity for tropical tunas, beneath which these species naturally aggregate in large numbers. Man-made floating objects, called Fish Aggregating Devices (FAD), are used by fishers on a massive scale to facilitate fishing operations. In addition to the direct impacts that fishing with FADs has on tuna populations, assessing the effects of increasing the numbers of FADs on the ecology of tuna is key for generating sound management and conservation measures.

    Methods

    This study investigates the effects of increasing numbers of FADs (aggregation sites) on the movements of tunas, through the comparison of electronic tagging data recorded from 146 individuals tunas (yellowfin tuna, Thunnus albacares, and skipjack tuna, Katsuwonus pelamis) tagged in three instrumented anchored FAD arrays (Mauritius, Oahu-Hawaii and Maldives), that differed according to their distances among neighboring FADs. The effect of increasing inter-FAD distances is studied considering a set of indices (residence times at FADs and absence (travel) times between two visits at FADs) and their trends.

    Results

    When inter-FAD distances decrease, tuna visit more FADs (higher connectivity between FADs), spend less time travelling between FADs and more time associated with them. The trends observed for the absence (travel) times appear to be compatible with a random-search component in the movement behaviour of tunas. Conversely, FAD residence times showed opposite trends, which could be a result of social behavior and/or prey availability.

    Conclusion

    Our results provide the first evidence of changes in tuna associative behavior for increasing FAD densities. More generally, they highlight the need for comparing animal movements in heterogeneous habitats in order to improve understanding of the impacts of anthropogenic habitat modifications on the ecology of wild animals.


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