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基于水动力-饵料示踪耦合模型的浮筏式贻贝养殖区布局优化

白雪岩钟威李艳姣林军

上海海洋大学学报2026，Vol.35Issue(3)：752-766,15.

上海海洋大学学报2026，Vol.35Issue(3)：752-766,15.DOI:10.12024/jsou.20250404847

基于水动力-饵料示踪耦合模型的浮筏式贻贝养殖区布局优化

Layout optimization of suspended mussel farms based on a coupled hydrodynamic-seston tracer model

白雪岩 ¹钟威 ¹李艳姣 ¹林军²

作者信息

1. 上海海洋大学海洋科学与生态环境学院,上海 201306
2. 上海海洋大学海洋科学与生态环境学院,上海 201306||上海海洋大学海洋牧场工程技术研究中心,上海 201306||自然资源部海洋生态监测与修复技术重点实验室,上海 200137
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摘要

Abstract

To address the issues of deteriorated water exchange capacity and localized seston depletion in the suspended raft mussel farming area of Gouqi Island caused by suboptimal layout design,which severely impacts mussel growth,this study employed the three-dimensional hydrodynamic model FVCOM coupled with a tracer module and a particle-tracking module to systematically evaluate optimization schemes for their effects on water exchange capacity,exogenous seston supply,and mussel condition index.The results revealed that under the current farming layout,periodic seston depletion occurs during neap tides in nearshore areas and the central farming zone,with the maximum water exchange time exceeding 30 hours.Single-factor optimizations,including removal of nearshore farming units,addition of trumpet-shaped channels,and optimization of raft orientation,reduced the area of low-seston zones during neap tides by approximately 30.3％,48.4％,and 11.3％respectively while decreasing the farming area by 7.1％,9.6％,and 0 compared to the current layout,significantly mitigating localized seston shortages.The comprehensive optimization scheme integrating all three single-factor measures reduced the total farming area by 13.7％compared to the current layout while achieving a 70％reduction in low-seston zones during neap tides and shortening the maximum water exchange time to less than 20 hours.This significantly enhanced the overall seston concentration and daily growth rate of mussels in the farming area.With increased average seston intake per mussel,the condition index across the entire farming area improved by 6.0％.The study demonstrates that the comprehensive optimization scheme effectively improves water exchange and seston replenishment in the farming area while reducing spatial disparities in mussel growth among different zones.This research provides scientific reference for the management of suspended raft mussel farming areas.

关键词

浮筏式贻贝养殖/布局优化/示踪剂衰减模型/质点追踪/枸杞岛

Key words

suspended mussel farming/layout optimization/tracer decay model/particle tracking/Gouqi Island

分类

农业科技

引用本文复制引用

白雪岩,钟威,李艳姣,林军..基于水动力-饵料示踪耦合模型的浮筏式贻贝养殖区布局优化[J].上海海洋大学学报,2026,35(3):752-766,15.

基金项目

国家自然科学基金(42376207) （42376207）

上海海洋大学学报

ISSN：1674-5566

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