Journal
REGIONAL STUDIES IN MARINE SCIENCE
Volume 62, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.rsma.2023.102972
Keywords
Pacific sardine; Temperate stock; Harvest control rule; Population status
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Understanding the population dynamics and abundance variations of the Pacific sardine is crucial for effective fishing management. Through statistical analysis, it was found that there are different stocks of Sardinops sagax in the southern California Current System. The total biomass and spawning biomass of the sardine showed significant interannual variability, but overall, fishing was found to be sustainable during the analyzed period, except for the 2014 and 2017 fishing seasons. The use of an integrated analysis model (ACE) can estimate the biologically acceptable catch and a biomass-based harvest control rule is considered a suitable management strategy.
Knowing the population dynamics and the variations in the abundance of the Pacific sardine is essential for suitable fishing management. Due to the possibility that the different stocks of Sardinops sagax that can inhabit the south of California Current System (CCS) were present in the catches, the caught of the temperate stock were discriminated from the total landed and, subsequently was assessed the dynamics of temperate stock of Pacific sardine (TSPS) for the period from 1989 to 2021. For the above, we use a statistical analysis of catch-at-age (ACE), which is an integrated analysis model that includes three indices of relative abundance (catch rate, acoustic surveys and evaluations of eggs and larvae). Acoustic indices and capture rate (CPUE) denoted changes in population abundance better than the index of eggs and larvae. The total biomass has shown great interannual variability oscillating between 853,476 and 1,592,519 t; a similar trend was shown by the spawning biomass, oscillating between 404,189 t and 770,484 t. With the modified Ricker Stock-Recruitment model, the minimum biomass Bmin = 50,000 t and the exploitation rate in Emrsy = 0.251 year-1 were estimated. Considering behavior of proportion between the recorded catch and the estimated biologically acceptable catch to each year (Cobs/BAC), we can infer that the TSPS has been sustainably exploited throughout analyzed period, except for 2014 and 2017 fishing seasons, when the BAC was exceeded by around 20%. Harvest control rule, by depending on a biomass fraction, estimated with an integrated model ACE, is considered a management suitable strategy to TSPS.(c) 2023 Elsevier B.V. All rights reserved.
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