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Photographic mark–recapture analysis of local dynamics within an open population of dolphins
Author(s) -
Fearnbach H.,
Durban J.,
Parsons K.,
Claridge D.
Publication year - 2012
Publication title -
ecological applications
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.864
H-Index - 213
eISSN - 1939-5582
pISSN - 1051-0761
DOI - 10.1890/12-0021.1
Subject(s) - mark and recapture , population , ecology , abundance (ecology) , population size , vital rates , range (aeronautics) , occupancy , biology , geography , population density , statistics , demography , fishery , population growth , mathematics , materials science , sociology , composite material
Identifying demographic changes is important for understanding population dynamics. However, this requires long‐term studies of definable populations of distinct individuals, which can be particularly challenging when studying mobile cetaceans in the marine environment. We collected photo‐identification data from 19 years (1992–2010) to assess the dynamics of a population of bottlenose dolphins ( Tursiops truncatus ) restricted to the shallow (<7 m) waters of Little Bahama Bank, northern Bahamas. This population was known to range beyond our study area, so we adopted a Bayesian mixture modeling approach to mark–recapture to identify clusters of individuals that used the area to different extents, and we specifically estimated trends in survival, recruitment, and abundance of a “resident” population with high probabilities of identification. There was a high probability ( p = 0.97) of a long‐term decrease in the size of this resident population from a maximum of 47 dolphins (95% highest posterior density intervals, HPDI = 29–61) in 1996 to a minimum of just 24 dolphins (95% HPDI = 14–37) in 2009, a decline of 49% (95% HPDI = −5% to −75%). This was driven by low per capita recruitment (average ∼0.02) that could not compensate for relatively low apparent survival rates (average ∼0.94). Notably, there was a significant increase in apparent mortality (∼5 apparent mortalities vs. ∼2 on average) in 1999 when two intense hurricanes passed over the study area, with a high probability ( p = 0.83) of a drop below the average survival probability (∼0.91 in 1999; ∼0.94, on average). As such, our mark–recapture approach enabled us to make useful inference about local dynamics within an open population of bottlenose dolphins; this should be applicable to other studies challenged by sampling highly mobile individuals with heterogeneous space use.

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