Maximum intrinsic rate of population increase in sharks, rays, and chimaeras: the importance of survival to maturity


Back to previous page
Authors: Pardo, SA; Kindsvater, HK; Reynolds, JD; Dulvy, NK
Year: 2016
Journal: Canadian Journal of Fisheries and Aquatic Sciences 73: 1159-1163   Article Link (DOI)
Title: Maximum intrinsic rate of population increase in sharks, rays, and chimaeras: the importance of survival to maturity
Abstract: The maximum intrinsic rate of population increase (r(max)) is a commonly estimated demographic parameter used in assessments of extinction risk. In teleosts, r(max) can be calculated using an estimate of spawners per spawner, but for chondrichthyans, most studies have used annual reproductive output (b) instead. This is problematic as it effectively assumes all juveniles survive to maturity. Here, we propose an updated r(max) equation that uses a simple mortality estimator that also accounts for survival to maturity: the reciprocal of average life-span. For 94 chondrichthyans, we now estimate that r(max) values are on average 10% lower than previously published. Our updated r(max) estimates are lower than previously published for species that mature later relative to maximum age and those with high annual fecundity. The most extreme discrepancies in r(max) values occur in species with low age at maturity and low annual reproductive output. Our results indicate that chondrichthyans that mature relatively later in life, and to a lesser extent those that are highly fecund, are less resilient to fishing than previously thought.
Back to previous page
 

Please send suggestions for improving this publication database to sass-support@sfu.ca.
Departmental members may update their publication list.