应用机器学习和遥感技术评估红树林对小型鲈鱼的作用:越南一个大型河口的案例研究

IF 1.7 4区 环境科学与生态学 Q3 ECOLOGY
Anh Ngoc Thi Do, Tuyet Anh Thi Do, Long Van Pham, Hau Duc Tran
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引用次数: 0

摘要

鱼类的早期阶段对环境的任何改变都很敏感,因此了解它们在河口等动态系统中的散布情况对保护和养护鱼类多样性和渔业资源非常重要。特别是对于与红树林相关的弹涂鱼(Periophthalmus modestus)而言,其意义更为重大。弹涂鱼分布于西北太平洋沿岸的泥滩,由于气候变化和人类活动,现已被列为近危物种。本研究采用极端梯度提升(XGBoost)-人工神经网络(ANN)混合模型,预测了从越南北部一个大型河口采集的弹涂鱼幼体和幼鱼的分布,这些分布受温度和红树林变化的影响。目前的研究结果证明了 ANN-XGBoost 模型在生态研究中的实用性和适用性,其估计精度非常高。此外,通过使用生成对抗网络(GANs)模型,本研究显示 2010 年至 2023 年间,人类活动导致红树林面积减少。在此期间,随着温度的升高,这种变化会影响到莫氏栉水母的幼虫和幼体,因为它们往往分布在红树林中,并避开受人类影响的区域。因此,结论是红树林等适马鱼环境的变化对其分布和生存有重大影响。这项研究采用了生态学研究中的一种新模式,进一步说明了红树林对水生生物(尤其是弹涂鱼)的重要性。这项研究将使科学家和生物管理者能够更准确地预测弹涂鱼的扩散,同时也有助于保护弹涂鱼和其他物种。保护和发展红树林是为任何鱼类物种提供合适栖息地的首要和关键行动。这项工作中使用的模型将有助于其他相关研究获得高度精确的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assessment of the role of mangroves for Periophthalmus modestus applying machine learning and remote sensing: a case study in a large estuary from Vietnam

Assessment of the role of mangroves for Periophthalmus modestus applying machine learning and remote sensing: a case study in a large estuary from Vietnam

Assessment of the role of mangroves for Periophthalmus modestus applying machine learning and remote sensing: a case study in a large estuary from Vietnam

Early stages of fish are easily sensitive to any alteration of environments, thus understanding their dispersions in a dynamic system like estuaries are important in protection and conservation of fish diversity and fishery resources. Especially, it is more significant for a mangrove-associated mudskipper, Periophthalmus modestus, which are distributed in mudflats along the Northwest Pacific, and now are listed as near threatened due to climate change and human activities. In the present study, a hybrid model, Extreme gradient boosting (XGBoost)-Artificial neural networks (ANN), was applied to forecast the distribution of P. modestus larvae and juveniles collected from a large estuary in northern Vietnam, which are driven by temperature and mangrove changes. Present results demonstrate the usefulness and applicability of ANN-XGBoost model in ecological studies, with an excellent estimation accuracy. Furthermore, employing Generative adversarial networks (GANs) model, this study exhibits a decrease in mangrove areas due to human activities between 2010 and 2023. This change with a rise in temperatre during this period would have impacted on P. modestus larvae and juveniles, which tend to be distributed in mangroves and avoid human-affected areas. Thus, it is concluded that changes in P. modestus’ environment like mangroves have a significant influence on their distribution and survival. Applying a novel model in ecological research, this work further indicates the importance of mangrove forests for aquatic organisms, especially mudskippers. This research will allow scientists and biological managers to make more precise forecasts regarding the spread of P. modestus, while also helping to the protection of this mudskipper and other species. Protecting and developing mangrove forests are the first and crucial action to supply a suitable habitat for any fish species. The models employed in this work will be helpful for other relevant studies when obtaining a highly accurate performance.

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来源期刊
Aquatic Ecology
Aquatic Ecology 环境科学-海洋与淡水生物学
CiteScore
3.90
自引率
0.00%
发文量
68
审稿时长
3 months
期刊介绍: Aquatic Ecology publishes timely, peer-reviewed original papers relating to the ecology of fresh, brackish, estuarine and marine environments. Papers on fundamental and applied novel research in both the field and the laboratory, including descriptive or experimental studies, will be included in the journal. Preference will be given to studies that address timely and current topics and are integrative and critical in approach. We discourage papers that describe presence and abundance of aquatic biota in local habitats as well as papers that are pure systematic. The journal provides a forum for the aquatic ecologist - limnologist and oceanologist alike- to discuss ecological issues related to processes and structures at different integration levels from individuals to populations, to communities and entire ecosystems.
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