Identifying shark mating behaviour using three-dimensional acceleration loggers Article

Whitney, NM, Pratt, HL, Pratt, TC et al. (2010). Identifying shark mating behaviour using three-dimensional acceleration loggers . ENDANGERED SPECIES RESEARCH, 10(1), 71-82. 10.3354/esr00247

cited authors

  • Whitney, NM; Pratt, HL; Pratt, TC; Carrier, JC

authors

abstract

  • Little is known about the reproductive strategies and mating behaviour of most sharks. Understanding mating behaviour is important as it can determine reproductive success and possibly rates of multiple paternity and fecundity. Additionally, some sharks appear to have specific habitat requirements for mating activities. We tested the utility of a 3-dimensional acceleration logger to identify mating events in free-living nurse sharks Ginglymostoma cirratum in an area where behaviours can be observed directly, thus allowing corroboration of acceleration data. Loggers were attached to 4 adult females and were recovered after recording periods of 23.2 to 99.8 h (mean ± SD = 50.0 ± 35.1 h). We used acceleration data to classify several behaviours, including swimming, resting, resting in a surge zone, and mating, with examples of each behaviour confirmed via direct observation. Twenty-six mating events were inferred from acceleration data, ranging from 21 s to 20.1 min in duration (median = 2.22 min), with no events taking place during the nighttime hours between 23:00 and 07:00 h. Four events lasted longer than 9 min and took place during periods when loggerequipped sharks were not acoustically detected within the shallow study site. The similarity in mating behaviours between this and some other species raises the possibility that accelerometry could be used to quantify mating in a variety of shark species. This is the first study to classify mating and other behaviours in free-living sharks from acceleration data. © Inter-Research 2010.

publication date

  • May 20, 2010

published in

Digital Object Identifier (DOI)

start page

  • 71

end page

  • 82

volume

  • 10

issue

  • 1