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鄱阳湖湿地水体高精度识别与景观格局高频率动态分析OA

High-accuracy identification of water bodies and high-frequency dynamic analysis of landscape patterns in Poyang Lake wetlands

中文摘要英文摘要

鄱阳湖作为国际重要洪泛湿地,其水体年内季节性变化显著,精准识别其水体及景观格局动态变化,对水生态系统稳定至关重要.构建了兼具高空间分辨率与高时频信息的水体动态识别模型:基于全球地表水数据集JRC-GSW,结合多源遥感数据制定规则化自动采样策略,获取高置信度的水体训练数据集;基于随机森林算法训练分类模型,融合多源时序数据,构建水体季节性动态特征识别模型;以鄱阳湖南矶湿地国家级自然保护区为对象,以 10 天为周期,在 10 m分辨率下对其 2023 年丰水期进行识别分析.结果表明,模型在湿地复杂环境下具有强鲁棒性和识别能力,显著改善了JRC-GSW产品中存在的水体漏判与误判问题,能直观揭示水体动态变化过程;在该年枯水期提前的背景下,水体景观格局整体呈现出"主湖退缩—洼地汇水"的特征,反映了南矶湿地水文过程对季节性水体波动和极端干旱事件的敏感响应,可为重要湿地保护规划与成效评价提供重要科学参考.

As a globally significant floodplain wetland,Poyang Lake features pronounced seasonal variations in its water bodies throughout the year.Accurate identification of the dynamic changes in its water bodies and landscape patterns is crucial to maintaining the stability of its aquatic ecosystem.This paper presents a water body dynamic identification model that we have constructed combining high spatial resolution with high spatiotemporal information.Based on the global surface water dataset JRC-GSW,we first develop a rule-based automatic sampling strategy using multi-source remote sensing data to obtain a high-confidence water body training dataset.Then,a classification model is trained using the Random Forest algorithm,integrating multi-source time-series data to construct a seasonal dynamic feature recognition model for water bodies.In a case study of the Poyang Lake Nanji Wetland National Nature Reserve,this recognition model is applied to examine the 2023 flood season using the data at 10-day intervals and 10-meter resolution.Results demonstrate that it has an enhanced robustness and recognition capability in handling complicated wetland environments,and improves significantly the JRC-GSW products that suffer from water body under-detection and misclassification,enabling intuitive visualization of water body dynamic processes.We reveal the overall water body landscape varies in a pattern characterized by main lake retreat-depression convergence under the condition of an earlier onset of the dry season in this year.This means that the Nanji Wetland's hydrological process is sensitive to seasonal water fluctuations and extreme drought events,a useful factor to the conservation planning and effectiveness evaluation of important wetlands.

祝嘉宁;毛劲乔;田明明;张培培

河海大学 水利水电学院,南京 210098河海大学 水利水电学院,南京 210098河海大学 水利水电学院,南京 210098河海大学 水利水电学院,南京 210098

建筑与水利

鄱阳湖碟形湖时空分布特征识别

Poyang Lakedisc-shaped lakesspatiotemporal distributionfeature identification

《水力发电学报》 2026 (5)

1-15,15

国家自然科学基金项目(52279013)中央高校基本科研业务费项目(B240201103)

10.11660/slfdxb.20260501

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