New insights into the distribution, potential source and risk of microplastics in Qinghai-Tibet Plateau: Fid-Bau Portal

New insights into the distribution, potential source and risk of microplastics in Qinghai-Tibet Plateau

Li, Qianqian / Han, Ziwei / Su, Guijin / Hou, Meifang / Liu, Xihui / Zhao, Xu / Hua, Yukang / Shi, Bin / Meng, Jing / Wang, Mengjing

Abstract

Graphical abstract Display Omitted

Highlights • Microplastics distribution in QTP region was fully explored with mainly PP and PET. • Human activities and exogenous tributaries primarily contributed to MPs in QTP. • The contribution of the unique prayer flag culture to MPs in QTP was nonnegligible. • PERI model can evaluate the risk of MPs more objectively and comprehensively. • Qinghai Lake featured the highest ecosystem risk due to more PVC.

Abstract Microplastics (MPs) as emerging contaminants have become a major global concern, however, the distribution and origin of MPs in Qinghai-Tibet Plateau (QTP) and their impacts on ecosystem are poorly known. Hence, we systematically evaluated the profile of MPs on the representative metropolitan locations of Lhasa and Huangshui Rivers and the scenic sites of Namco and Qinghai Lake. The average abundance of MPs in the water samples was 7020 items/m³, which was 34 and 52 times higher than those for the sediment (206.7 items/m³) and soil samples (134.7 items/m³), respectively. Huangshui River had the highest levels, followed by Qinghai Lake, Lhasa River and Namco. Human activities rather than altitude and salinity impacted the distribution of MPs in those areas. Besides the consumption of plastic products by locals and tourists, laundry wastewater and exogenous tributary inputs, the unique prayer flag culture also contributed to the MPs emission in QTP. Notably, the stability and fragment of MPs were crucial for their fate. Multiple assessment models were employed to evaluate the risk of MPs. PERI model took MP concentration, background value and toxicity into account, comprehensively describing the risk differences of each site. The large PVC proportion in Qinghai Lake posed the highest risk. Furthermore, concerns should be raised about PVC, PE and PET in Lhasa and Huangshui Rivers, and PC in Namco Lake. Risk quotient suggested that aged MPs in sediments slowly released biotoxic DEHP and should be cleaned up promptly. The findings offer baseline data of MPs in QTP and ecological risks, providing important support for the prioritization of future control measures.