Abstract
Age and growth data are central to any management or conservation strategy for a species. Circumstantial evidence suggests that male whale sharks grow to asymptotic sizes much smaller than those predicted by age and growth studies and that consequently, there may be sex-specific size and growth patterns in the species. We tested this hypothesis by using stereo-video and photo-identification studies to estimate the growth rates of 54 whale sharks that were resighted over a period of up to a decade at Ningaloo Reef. We found that male growth patterns were consistent with an average asymptotic total length (TL) of approximately 8-9 m, a size similar to direct observations of size at maturity and much smaller than the sizes predicted by earlier modelling studies. Females were predicted to grow to an average asymptotic length of around 14.5 m. Males had growth coefficients of K = 0.088 yr-1, whereas limited resighting data suggested a growth coefficient of K = 0.035 yr-1 for females. Other data including re-sightings of an individual male over two decades, records of sex-specific maximum sizes of individuals captured in fisheries and data from juveniles growing in aquaria were also consistent with the suggestion of sex-specific growth profiles for the species. We argue that selection for sex-specific growth patterns could explain many of the otherwise enigmatic patterns in the ecology of this species including the tendency of the species to form aggregations of juvenile males in coastal waters.
Highlights
Whale sharks are the world’s largest fish, growing to maximum known sizes of 18 m total length (TL) (McClain et al, 2015)
We found that fork length (FL) was a more consistent and reliable measurement, as TL was more prone to bias from tail flexion
Six females were remeasured across years, and these ranged in TL from 4.00 to 8.04 m, with times at liberty spanning 1–5 years
Summary
Whale sharks are the world’s largest fish, growing to maximum known sizes of 18 m total length (TL) (McClain et al, 2015). Data on the growth patterns of whale sharks is very limited. It is mostly derived from age analysis of the vertebrae of a few individuals (n = 15) that have been stranded on shorelines in the western Indian Ocean (Wintner, 2000) and from sharks (n = 92) that were captured during a fishery ( closed) off the coast of Taiwan (Hsu et al, 2014). Interpretation of some of these data is complicated by problems in estimating ages from vertebrae (as is the case with other large sharks; Harry, 2018; Natanson et al, 2018). New research that has validated aging techniques using a bomb radiocarbon approach (Ong et al, 2020) shows that in analyses where biannual patterns in the deposition of bands growth has been assumed, growth rates were overestimated
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