环境因素决定汤加金枪鱼渔船的行为

IF 2.1 3区 农林科学 Q2 FISHERIES Fishes Pub Date : 2023-12-07 DOI:10.3390/fishes8120602
Siosaia Vaihola, Stuart Kininmonth
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引用次数: 0

摘要

了解人类捕捞活动的空间分布对监测渔业资源和实施空间管理措施具有重要意义。为了深入了解汤加专属经济区内金枪鱼延绳钓活动的空间分布及其与海洋环境的相关性,本研究利用了汤加金枪鱼延绳钓渔业2002年至2018年的数据。这些数据用于提取有关捕捞努力量的空间分布信息,并与15个海洋环境变量相结合,包括海面和地下条件。本文采用增强回归树(BRT)和一般加性模型(GAM)建立了捕捞努力度分布与海洋环境因子之间的非线性关系。此外,对金枪鱼延绳钓渔船在公海环境中所占据的生态位进行了考察和分析。因子分析结果表明,影响延绳钓金枪鱼捕捞努力度的最重要因素是海面溶解氧含量和纬度。这两个因素分别占渔船捕捞努力量的19.06%和18.62%,其次是港口距离、经度和100 m深度溶解氧,分别占10.77%、7.07%和6.30%。表层叶绿素、100 m深度海流和混合层深度的贡献最小,分别为3.63%、2.13%和1.72%。从空间和时间上看,延绳钓金枪鱼在南纬18 ~ 22°和西经172 ~ 178°区域的捕捞活动较多,3 ~ 8月的捕捞量增加。预测2018年渔船渔获量空间分布与渔船实际渔获量具有较好的空间分布。本研究有助于了解金枪鱼延绳钓渔船空间分布变化对环境的影响,为汤加金枪鱼延绳钓渔业的有效管理提供有价值的见解。
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Environmental Factors Determine Tuna Fishing Vessels’ Behavior in Tonga
Comprehending the spatial distribution of human fishing endeavors holds significant importance in the context of monitoring fishery resources and implementing spatial management measures. To gain insights into the spatial arrangement of tuna longline activities within the exclusive economic zones of Tonga and their correlation with the marine environment, this study utilizes data from the Tonga Tuna Longline Fisheries spanning from 2002 to 2018. The data are employed to extract information about the spatial distribution of fishing efforts and coupled with 15 marine environmental variables covering both sea surface and subsurface conditions. This study employs boosted regression trees (BRT) and general additive models (GAM) to establish the non-linear relationships between the distribution of fishing effort and marine environmental factors. Furthermore, it examines and analyzes the ecological niche occupied by tuna longline vessels in high-sea environments. The outcomes of the factor analysis indicate that the most important factors influencing the fishing efforts of tuna longliners are the dissolved oxygen content at the sea surface and latitude. These two factors contribute significantly, accounting for 19.06% and 18.62% of the fishing efforts of vessels, respectively, followed by distance to ports, longitude, and dissolved oxygen at 100 m depth, contributing 10.77%, 7.07%, and 6.30%, respectively. The sea surface chlorophyll, ocean current at 100 m depth, and mixed layer depth contributed the least, 3.63%, 2.13%, and 1.72, respectively. In terms of space and time, tuna longliners are more likely to operate in the 18–22° S latitudinal and 172–178° W longitudinal region, and fishing efforts increased in the months from March to August. The spatial distribution of the fishing efforts modeled for fishing vessels in 2018 is predicted to have good spatial distribution with the actual fishing efforts of these vessels. This research aids in comprehending the environmental impacts resulting from shifts in the spatial distribution of tuna longline vessels, offering valuable insights for the effective management of tuna longline fisheries in Tonga.
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来源期刊
Fishes
Fishes Multiple-
CiteScore
1.90
自引率
8.70%
发文量
311
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