Unravelling mystery of lake color changes on the Tibetan Plateau: From mechanisms to prediction

Unravelling mystery of lake color changes on the Tibetan Plateau: From mechanisms to prediction

Lake color plays a crucial role in water quality monitoring, watershed ecological environment, tourism, and aesthetics, particularly in plateau areas. However, the patterns and mechanisms of lake color changes are still poorly understood. This study analyzed the seasonal and spatial changes of lake...

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Bibliographic Details
Main Authors: Songhua Huan, Chiwei Xiao, Zhiming Feng
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Ecological Indicators
Subjects:
Lake color
Environmental factors
Machine learning models
Prediction
Tibetan Plateau
Online Access:http://www.sciencedirect.com/science/article/pii/S1470160X25008660
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Summary:Lake color plays a crucial role in water quality monitoring, watershed ecological environment, tourism, and aesthetics, particularly in plateau areas. However, the patterns and mechanisms of lake color changes are still poorly understood. This study analyzed the seasonal and spatial changes of lake color (represented by Forel-Ule water color index changes) and employed machine learning models to evaluate the nonlinear relationship between environmental factors and lake color changes on the Tibetan Plateau. Then predictions were made for changes under different Shared Socioeconomic Pathways (SSPs). The results revealed that the lowest Forel-Ule was observed in spring of 6.65, followed by summer of 6.57 and autumn of 6.47. The top three most important factors were average lake water depth, average lake size, and average lake elevation. When these factors were respectively exceed 9.6 m, 110.89 km2, and 4675.0 m, the Forel-Ule tended to decrease. Additionally, lake water storage, water salinity, O3, precipitation, and temperature, as well as CO2, PM2.5, and vapor pressure deficit, were also vital in determining Forel-Ule. Overall future decreasing trend was found under SSP1, SSP2, and SSP5. Lakes on the Yellow, Southern Tibet, and Western Tibet basins exhibited low Forel-Ule, with the change rate of −11.2%. Our findings provide the foundation for explaining lake color changes on the Tibetan Plateau and offers valuable insights for enhancing the aesthetic appeal of the landscape and aquatic life.
ISSN:1470-160X

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