What question did this study set out to answer?

This study aims to understand how lake heatwaves affect dissolved oxygen levels and the underlying mechanisms.

March 18, 2026Open Access

湖泊表层溶解氧对热浪的响应及其生态反馈调控机制

Puntos clave

This study aims to understand how lake heatwaves affect dissolved oxygen levels and the underlying mechanisms.
Integrated field observation data from Taihu Lake (2000–2024) with lake surface temperature data (1950–2022).
Employed interpretable machine learning models to analyze seasonal responses of dissolved oxygen.
Observed seasonal differences in dissolved oxygen levels during winter and summer heatwaves.
Dissolved oxygen is generally lower than normal during winter heatwaves, while summer shows the opposite trend.
Winter dissolved oxygen levels are mainly affected by temperature, with high temperatures reducing oxygen solubility.
In summer, high temperatures lower ammonia nitrogen concentrations and turbidity, suppressing oxygen consumption from nitrification and enhancing oxygen production from photosynthesis.

Resumen

气候变暖加剧了湖泊中的热浪和缺氧现象，但湖泊热浪对溶解氧的短期影响仍不明确。本研究整合了富营养化浅水湖泊太湖2000–2024年的实地观测数据与1950–2022年的湖面水温数据集，运用可解释机器学习模型，揭示了溶解氧对湖泊热浪呈现的季节性差异响应机制。研究发现，冬季湖泊热浪期间，溶解氧普遍低于正常水平，而夏季则相反。可解释机器学习模型表明，冬季溶解氧主要受水温影响，湖泊热浪期间高温降低了溶解氧溶解度从而导致溶解氧下降。夏季湖泊热浪期间高温使氨氮浓度与水体浊度下降，这抑制了硝化作用耗氧且促进了光合作用产氧，最终促使溶解氧上升。这些结果凸显了湖泊热浪对溶解氧的复杂影响，强调在气候变暖背景下制定针对性管理策略的必要性。

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