Abstract
Full stock assessment of sharks is usually hindered by a lack of long time-series catch and effort data. In these circumstances, demographic and per-recruit analyses may provide alternate approaches to describe population status because these methods can be applied to estimate biological reference points (BRPs) for shark stocks. However, the appropriate level of BRPs for sharks is difficult to determine, given the expected low reproductive rates. To determine which BRPs are most appropriate for the CITES-listed species—bigeye thresher shark, Alopias superciliosus, a stochastic demographic model with Monte Carlo simulations and per-recruit models were used to estimate BRPs in this study. The results indicated that conventional fishing mortality-based BRPs (FBRPs) derived from per-recruit models may result in a clear population decline. Our analyses also demonstrated that the bigeye thresher population in the Northwest Pacific will stabilize only if demographic-based FBRP is implemented. The FBRP estimated based on the stochastic demographic model was 0.079–0.139 y−1, which was equivalent to SPR = 50–70%. The findings strongly suggested that more conservative threshold FBRPs should be implemented to ensure sustainable utilization of the bigeye thresher stock. The present study provides new and strategically important information on the population dynamics of the bigeye thresher in the Northwest Pacific, which can be used to help fishery managers to adopt more efficient management measures for this stock. It is also suggested that this approach can be applied to other shark species with limited catch and effort data.
Highlights
Most pelagic sharks exhibit prolonged life span, late maturity, and low fecundity [1,2,3,4], and are vulnerable to perturbations imposed by anthropogenic factors such as fisheries [5,6]
Based on the weight-specific sex ratio, a total of 20,804 bigeye thresher sharks landed at Nanfangao fish market between January 2015 and December 2019 and were divided into 13,778 females and 7026 males
Our study presents alternative approaches for assessing the population dynamics of pelagic sharks using the bigeye thresher in the Northwest Pacific as an example
Summary
Most pelagic sharks exhibit prolonged life span, late maturity, and low fecundity [1,2,3,4], and are vulnerable to perturbations imposed by anthropogenic factors such as fisheries [5,6]. Sharks are commonly exploited worldwide for their meat, skins, fins, livers, cartilage, jaws, and teeth [7]. Shark conservation and management have attracted great attention in recent years. Heavily exploited by various fisheries, remain among the least studied and managed fish due to the limited information in their biology and fishery [9]. The knowledge about the biology, stock status and population dynamics of some common bycatch shark species have been advanced, evidence of some least productive species is still insufficient and is urgently needed [10]
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