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| 基于Ecopath模型的温州湾海域生态系统结构和功能分析 |
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陈伟峰,许开平,王维,薛峰,胡高宇,胡忠健,周小峰
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1.浙江省水利河口研究院(浙江省海洋规划设计研究院);2.浙江省近岸水域生物资源开发与保护重点实验室;3.温州市渔业技术推广站
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| 摘要: |
| 为探究温州湾生态系统整体结构,根据2019-2020年温州湾渔业资源调查结果,利用Ecopath with Ecosim 6.5(EwE)软件构建了由21个功能组组成的生态系统能流通道模型,分析了该海域生态系统总体特征、营养结构和能量流动过程。结果表明:生态系统各功能组的营养级范围为1.0-4.372,带鱼营养级最高;系统总流量为10874.67 t·km-2·a-1,系统净生产量为3392.965 t·km-2·a-1;系统能量流动呈金字塔状分布,能量流量随着营养级的升高而降低,来源于初级生产者转化效率为15.20%,来源于有机碎屑的转化效率为16.03%,系统总能量转化效率为15.49%;系统总初级生产量/总呼吸量为3.636,系统连接指数为0.298,Finn's循环指数为2.22%,Finn's平均路径长度为2.324,杂食指数为0.167。温州湾生态系统当前处于不成熟状态,系统稳定性相对较低,建议加强对关键物种的保护,以期提高能量利用效率和保障生态系统结构完整性。 |
| 关键词: Ecopath模型 温州湾 能量流动 营养级 生态系统特征 |
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| 基金项目:自然科学基金项目(41976091) |
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| Analysis of structure and energy flow in Wenzhou bay ecosystem based on Ecopath model |
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chenweifeng1,2,3,4,5,6,7,2,3,8,9,5,10, xukaiping1,2,3,4,5,6,7,2,3,8,9,5,10, wangwei1,2,3,4,5,6,7,2,3,8,9,5,10, xuefeng11, hugaoyu11, huzhongjian12, zhouxiaofeng1,2,3,4,5,6,7,2,3,8,9,5,10
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1.Zhejiang 2.Institute 3.of 4.Hydraulics 5.and 6.Estuary 7.(Zhejiang 8.Marine 9.Planning 10.Design);11.Zhejiang Key Laboratory of Exploitation and Preservation of Coastal Bioresource;12.Wenzhou Fishery technology extension Station
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| Abstract: |
| To explore the integral structure of Wenzhou Bay ecosystem, the Ecopath model of the ecosystem energy flow composed of 21 functional groups was constructed base on the survey data of fishery resources in Wenzhou Bay from 2019 to 2020 using the software of Copath with Ecosim 6.5 (EwE). And the general characteristics, nutritional structure and energy flow process of the marine ecosystem were analyzed comprehensively. The results showed that the trophic level of each functional group in the ecosystem was from 1.0 to 4.372, and the trophic level of Trichiurus lepturus was the highest. The total flow of the ecosystem was 10874.67 t?km-2?a-1, and the net production was 3392.965 t km-2?a-1. The energy flow of the ecosystem was distributed in a pyramid shape, and the flow decreases with the increase of the trophic level. The conversion efficiency of total energy in the ecosystem was 15.49%, while the conversion efficiency from primary producers and organic debris was 15.20% and 16.03%, respectively. The ratio of total primary production to total respiration of the ecosystem was 3.636, with an ecosystem connectivity index of 0.298, a Finn's circulation index of 2.22%, a mean of Finn's path length was 2.324, and an omnivorous index of 0.167. These results indicated that the condition of Wenzhou Bay ecosystem was immature, and the stability was relatively low. Thus, recommendations were made to strengthen the protection of key species to improve the efficiency of energy utilization and safeguard the structural integrity of ecosystems. |
| Key words: Ecopath model, Wenzhou Bay, Energy flow, Nutritional level, Ecosystem Characteristics |
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