TY - JOUR T1 - Devil in the details: growth, productivity, and extinction risk of a data-sparse devil ray JF - bioRxiv DO - 10.1101/043885 SP - 043885 AU - Sebastián A. Pardo AU - Holly K. Kindsvater AU - Elizabeth Cuevas-Zimbrón AU - Oscar Sosa-Nishizaki AU - Juan Carlos Pérez-Jiménez AU - Nicholas K. Dulvy Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/03/17/043885.abstract N2 - Devil rays (Mobula spp.) face rapidly intensifying fishing pressure to meet the ongoing international trade and demand for their gill plates. This has been exacerbated by trade regulation of manta ray gill plates following their 2014 CITES listing. Furthermore, the paucity of information on growth, mortality, and fishing effort for devil rays make quantifying population growth rates and extinction risk challenging. Here, we use a published size-at-age dataset for a large-bodied devil ray species, the Spinetail Devil Ray (Mobula japanica), to estimate somatic growth rates, age at maturity, maximum age and natural and fishing mortality. From these estimates, we go on to calculate a plausible distribution of the maximum intrinsic population growth rate (rmax) and place the productivity of this large devil ray in context by comparing it to 95 other chondrichthyan species. We find evidence that larger devil rays have low somatic growth rate, low annual reproductive output, and low maximum population growth rates, suggesting they have low productivity. Devil ray maximum intrinsic population growth rate (rmax) is very similar to that of manta rays, indicating devil rays can potentially be driven to local extinction at low levels of fishing mortality. We show that fishing rates of a small-scale artisanal Mexican fishery were up to three times greater than the natural mortality rate, and twice as high as our estimate of rmax, and therefore unsustainable. Our approach can be applied to assess the limits of fishing and extinction risk of any species with indeterminate growth, even with sparse size-at-age data. ER -