Riverine microplastics in the Mount Everest region affected by glacier meltwater.

Understanding the distribution and drivers of microplastics (MPs) in remote and sensitive environments is essential for assessing their ecological impacts and devising mitigation strategies. This study investigates the distribution and characteristics of MPs in streams and sediments of the Mt. Everest region. Results show that microplastic (MP) abundance during the non-monsoon season was 2-4 times higher than in the monsoon season. MPs were predominantly fragments, composed of specific polymer types (PA, PET), and fell within the 10-30 µm size range. An ecological risk assessment was conducted to better evaluate MP pollution in the Mt. Everest region. The study found that recharge sources of streams influenced MP distribution, with streams receiving non-glacial recharge exhibiting higher MP concentrations during the monsoon season, likely due to the dilution effect of glacier meltwater. Principal component analysis highlighted correlations between MP abundance and environmental factors such as wind speed, dissolved oxygen, stream order, and elevation. These findings advance our understanding of MP pollution dynamics in high-altitude streams, establish a foundation for evaluating their ecological impacts, and offer valuable insights for developing mitigation strategies. This study provides a critical reference for further exploring MP contamination in high-elevation ecosystems and addressing its challenges.