净化暂养及低温离水保活运输对虾夷扇贝品质的影响

为了分析在净化、暂养及低温离水运输对接过程中,活体虾夷扇贝品质随时间的变化。采用净化暂养循环水系统进行虾夷扇贝的净化暂养,并将虾夷扇贝分成3种不同前处理方式,组1净化56 h,组2净化32 h后梯度降温暂养24 h,组3无处理,将采用不同前处理的虾夷扇贝放入装有冰袋(250 m L)的聚乙烯保温箱(3 L)模拟低温离水运输条件。结果表明,水体在净化暂养过程中通过梯度降温方式,温度由净化阶段的(15±0.13)℃降至运输前4.76℃,盐度与pH值分别在32.47‰-33.00‰和8.29-8.44之间波动,溶解氧高于8.34 mg/L,保证了贝类存活环境的要求。试验过程中的虾夷扇贝,组1在64...

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Bibliographic Details
Published in农业工程学报 Vol. 33; no. 19; pp. 301 - 307
Main Author 潘澜澜 林成新 张国琛 母刚 王洋
Format Journal Article
LanguageChinese
Published 大连海事大学交通运输装备与海洋工程学院,大连 116026 2017
大连海洋大学机械与动力工程学院,大连 116023%大连海事大学交通运输装备与海洋工程学院,大连,116026%大连海洋大学机械与动力工程学院,大连,116023
Subjects
低温离水运输
净化
品质控制
存活率
暂养
水产养殖
活体虾夷扇贝
存活率
quality control
temporary rearing
水产养殖
aquaculture
品质控制
暂养
purification
live Patinopecten yesoensis
survival rate
低温离水运输
净化
low temperature waterless-transportation
活体虾夷扇贝
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ISSN1002-6819
DOI10.11975/j.issn.1002-6819.2017.19.039

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Summary:为了分析在净化、暂养及低温离水运输对接过程中,活体虾夷扇贝品质随时间的变化。采用净化暂养循环水系统进行虾夷扇贝的净化暂养,并将虾夷扇贝分成3种不同前处理方式,组1净化56 h,组2净化32 h后梯度降温暂养24 h,组3无处理,将采用不同前处理的虾夷扇贝放入装有冰袋(250 m L)的聚乙烯保温箱(3 L)模拟低温离水运输条件。结果表明,水体在净化暂养过程中通过梯度降温方式,温度由净化阶段的(15±0.13)℃降至运输前4.76℃,盐度与pH值分别在32.47‰-33.00‰和8.29-8.44之间波动,溶解氧高于8.34 mg/L,保证了贝类存活环境的要求。试验过程中的虾夷扇贝,组1在64 h出现死亡,104 h全部死亡时细菌总数达到2 300 CFU/m L;而组2在104 h才出现死亡,在0-104 h细菌总数上升趋势较平缓,在120 h全部死亡时细菌总数仅为960 CFU/m L;组3在64 h全部死亡。组1和组2净化阶段细菌总数显著下降,组3细菌总数与组1和2有显著差异(P〈0.05)。所有组的粗蛋白、粗脂肪及糖原随时间延长总体都呈现下降趋势,与组1、3相比,组2的逐级降温暂养环节延缓了糖原的消耗(P〈0.05),因此可采用净化32 h及梯度降温暂养24 h的方法衔接活体虾夷扇贝的低温离水运输。研究结果为虾夷扇贝在净化暂养及低温离水过程中的品质提升提供参考。
Bibliography:11-2047/S
purification; quality control; aquaculture; live Patinopecten yesoensis; temporary rearing; low temperature waterless-transportation; survival rate
During fishery transportation, the alive shellfish should be stored in favorable living conditions for longer survival time. Typically, the survival rate declines over time, affected by 3 steps, i.e. water purification, temporary rearing and low temperature waterless-transportation. In this paper, the analytical results were presented by using the Patinopecten yessoensis samples to explore the efficiencies of the above procedures. The recycled water system for purification and temporary rearing consists of the aquaculture rearing pool, water circulating device, oxygenation device, temperature control and disinfection device. The recycled water system for purification and temporary rearing was used to realize both purification and temporary rearing of Patinopecten yessoensis. In the experiment, certain parameters were monitored, including water temperature,
ISSN:1002-6819
DOI:10.11975/j.issn.1002-6819.2017.19.039