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It is important to find a reliable method to estimate maximum sustainable yield(MSY) or total allowable catch(TAC) for fishery management, especially when the data availability is limited which is a case in China. A recently developed method(CMSY) is a data-poor method, which requires only catch data, resilience and exploitation history at the first and final years of the catch data. CMSY was used in this study to estimate the biological reference points for Largehead hairtail(Trichiurus lepturus, Temminck and Schlegel) in the Yellow Sea and Bohai Sea, based on the fishery data from China Fishery Statistical Year Books during 1986 to 2012. Additionally,Bayesian state-space Schaefer surplus production model(BSM) and the classical surplus production models(Schaefer and Fox) performed by software CEDA and ASPIC, were also projected in this study to compare with the performance of CMSY. The estimated MSYs from all models are about 19.7×104–27.0×104 t, while CMSY and BSM yielded more reasonable population parameter estimates(the intrinsic population growth rate and the carrying capacity). The biological reference points of B/BMSY smaller than 1.0, while F/FMSY higher than 1.0 revealed an over-exploitation of the fishery, indicating that more conservative management strategies are required for Largehead hairtail fishery. 相似文献
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A continuous time delay-diff erence model (CTDDM) has been established that considers continuous time delays of biological processes. The southern Atlantic albacore (Thunnus alalunga) stock is the one of the commercially important tuna population in the marine world. The age structured production model (ASPM) and the surplus production model (SPM) have already been used to assess the albacore stock. However, the ASPM requires detailed biological information and the SPM lacks the biological realism. In this study, we focus on applying a CTDDM to the southern Atlantic albacore (T. alalunga) species, which provides an alternative method to assess this fishery. It is the first time that CTDDM has been provided for assessing the Atlantic albacore (T. alalunga) fishery. CTDDM obtained the 80% confidence interval of MSY (maximum sustainable yield) of (21 510 t, 23 118t). The catch in 2011 (24 100 t) is higher than the MSY values and the relative fishing mortality ratio (F 2011/F MSY) is higher than 1.0. The results of CTDDM were analyzed to verify the proposed methodology and provide reference information for the sustainable management of the southern Atlantic albacore stock. The CTDDM treats the recruitment, the growth, and the mortality rates as all varying continuously over time and fills gaps between ASPM and SPM in this stock assessment. 相似文献
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基于渔业统计数据的南海区渔业资源可捕量评估 总被引:6,自引:1,他引:5
科学确定海洋渔业可捕量是开展捕捞限额管理的前提和关键。南海区渔业资源种类繁多,无明显大宗经济鱼种,且产量统计不够完善,使得可捕量的量化评估较为困难。根据渔业产量统计数据,利用一种简化的产量模型对南海区渔业资源总可捕量以及11个重要经济类群的可捕量进行了评估。结果表明,南海区渔业资源最大可持续产量为308.6万t,总可捕量为246.9万~277.8万t。从11个重要经济类群的评估结果来看,这些类群在20世纪90年代后均遭受过不同程度的过度捕捞。目前状态较好,未处于过度捕捞状态的有蓝圆鲹和竹荚鱼、沙丁鱼类、马面鲀类、鲷类、鳓类和鲐类等6个恢复力较高的类群;而其他5个恢复力较低的类群,尤其是海鳗类和石斑鱼类,目前处于过度捕捞状态。 相似文献
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