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声学虚拟围栏对大黄鱼海洋牧场养殖的围控效能OA

Containment efficiency of acoustic virtual fence for large yellow croaker(Larimichthys crocea)mariculture in marine ranching

中文摘要英文摘要

温州妩人岙声波海洋牧场是全球首个大黄鱼无网声学虚拟围栏生产模式,克服了传统网衣设施养殖所面临的生态污染、设施易损及鱼类逃逸等问题.为评估该声波围栏系统对大黄鱼的围控效能,该研究放养了3万尾平均体长22.32 cm、体重186.75 g的岱衢族大黄鱼苗种,并在声波围栏外围敷设高10 m的定置三重刺网以捕获逃逸个体.基于岙口水域横截面积构建单位捕捞努力量渔获量(catch per unit effort,CPUE)模型,估算总体逃逸数量,进而计算苗种保全率.结合持续监测与捕获大黄鱼生长分析,对牧场内大黄鱼开展了为期2个月的跟踪评估.结果显示,牧场内的大黄鱼保全率达97.98%,特定生长率最大达到0.5%,表明声学虚拟围栏系统能够有效将大黄鱼限制在目标水域,具备低逃逸率与高保全率的优势,具有替代传统网衣养殖设施的潜力.该技术路径为实现海洋牧场绿色、智能化养殖提供了创新解决方案,对推动水产养殖可持续发展具有重要实践意义.

Net-free aquaculture has promising potential for an acoustic virtual fence.The Wuren'ao Acoustic Marine Ranch in Wenzhou,China,has implemented on the large yellow croaker(Larimichthys crocea).The net-free aquaculture mode can be expected to solve the severe ecological pollution from concentrated organic wastes,the structural vulnerability of conventional netting facilities under marine hydrodynamic forces,particularly for the escapement risks of farmed fish populations.In this study,a field aquaculture experiment was designed to quantitatively evaluate the practical containment efficacy of the acoustic virtual fence.The subjects were taken as the 30,000 juveniles of the Daiqu strain of large yellow croaker,with an average body length of 22.32 cm and an average body weight of 186.75 g.A 10-meter-high stationary trammel net was strategically deployed along the outer periphery of the acoustic fence zone.The precise monitoring and physical capture of any escaped fish were facilitated to combine continuous escapement monitoring with growth trait analysis.An uninterrupted two-month tracking was evaluated over the experimental period.The escapement was assessed to measure the cross-sectional area of the water column at the primary inlet channel of the marine ranch.The spatial data was integrated with the effective interception area of the trammel nets and their exact deployment duration.The Catch Per Unit Effort(CPUE)model was constructed to accurately estimate the absolute total escapement volume.The retention rate of juvenile stock was calculated in the cycle.Concurrently,a growth assessment protocol was implemented to measure body length and weight during periodic sampling.Specific Growth Rate(SGR)was obtained under the physiological and general health status of the fish within the acoustic fence environment.The results demonstrated that the retention rate of juvenile stock achieved an extraordinarily high level of 97.98%during the two-month experimental period.Simultaneously,the maximum recorded SGR exceeded 0.50%.The acoustic virtual fence effectively restricted the spatial activities of the large yellow croaker in the target waters.The low escapement rate with a maximally high biological retention rate was realized without adverse impacts on normal physiological growth.In conclusion,an acoustic virtual fence can be expected to serve as a highly viable alternative to conventional physical cage aquaculture.Environmental and engineering benefits are obtained for the technical pathway for the green,intelligent,and sustainable transformation of the marine ranching industry.The large-scale application can often require assessing the performance under varying seasonal hydrological conditions,different developmental fish sizes,extended aquaculture cycles,and its broader impacts on the surrounding ecosystem.Ultimately,the findings can also provide a strong theoretical and practical support to enhance the cultivation efficiency and ecological safety of high-value marine finfish.

付子萍;陈逸平;严小军;宋伟华;陈俊宇;周庆澔;石福明;柳意樊;祝捍皓;马家志;张纯;司烨仪

浙江海洋大学国家海洋设施养殖工程技术研究中心,舟山 316022||温州市洞头区海洋开发研究院,温州 325702浙江海洋大学国家海洋设施养殖工程技术研究中心,舟山 316022||温州市洞头区海洋开发研究院,温州 325702浙江海洋大学国家海洋设施养殖工程技术研究中心,舟山 316022温州市洞头区海洋开发研究院,温州 325702浙江海洋大学国家海洋设施养殖工程技术研究中心,舟山 316022||温州市洞头区海洋开发研究院,温州 325702温州市洞头区渔农技术推广中心,温州 325700黄鱼岛海洋渔业集团有限公司,温州 325704浙江海洋大学国家海洋设施养殖工程技术研究中心,舟山 316022||温州市洞头区海洋开发研究院,温州 325702浙江海洋大学国家海洋设施养殖工程技术研究中心,舟山 316022浙江海洋大学国家海洋设施养殖工程技术研究中心,舟山 316022中国科学院声学研究所,北京 100190浙江海洋大学国家海洋设施养殖工程技术研究中心,舟山 316022||温州市洞头区海洋开发研究院,温州 325702

农业科技

声学虚拟围栏海洋牧场大黄鱼保全率围控效能智能养殖

acoustic virtual fencemarine ranchLarimichthys crocearetention ratecontrol effectivenessintelligent breeding

《农业工程学报》 2026 (9)

295-301,7

洞头区科技计划项目(N2022K04)国家重点研发计划项目(2023YFD2401905).

10.11975/j.issn.1002-6819.202511070

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