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61,005 resultsShowing papers similar to Distribution of microplastics in benthic sediments of Qinghai Lake on the Tibetan Plateau, China
ClearMicroplastic contamination in lacustrine sediments in the Qinghai-Tibet Plateau: Current status and transfer mechanisms
Researchers investigated microplastic contamination in lacustrine sediments across the Qinghai-Tibet Plateau, finding abundances ranging from 17 to 2,644 items/kg dry weight and identifying atmospheric deposition and river transport as key transfer mechanisms to these remote high-altitude lakes.
New insights into the distribution, potential source and risk of microplastics in Qinghai-Tibet Plateau
Researchers surveyed microplastic pollution across the Qinghai-Tibet Plateau, one of the world's most remote regions, and found contamination in water, sediment, and soil samples. Water samples had the highest concentrations, averaging over 7,000 particles per cubic meter. The presence of microplastics even in this isolated high-altitude environment shows how far plastic pollution has spread globally.
Heterogenization of microplastic communities in lakes of the Qinghai-Tibetan Plateau driven by tourism and transport activities
Researchers surveyed microplastic pollution in lakes across the Qinghai-Tibetan Plateau and found that tourism and transportation activities were the primary drivers of contamination differences between sites. Lakes near tourist attractions had significantly higher and more diverse microplastic communities than remote lakes. The study demonstrates that human activity is introducing heterogeneous microplastic pollution even into high-altitude plateau ecosystems.
Spatial characteristics of microplastics in the high-altitude area on the Tibetan Plateau
Researchers surveyed microplastic contamination across water bodies and sediments on the Tibetan Plateau, one of the most remote high-altitude regions on Earth, and found microplastics in every sample tested. Contamination levels were highest in turbid rivers and agricultural channels, and decreased at higher altitudes where there is less human activity. The study highlights that even remote, high-altitude areas are not free from microplastic pollution.
Distribution and potential sources of microplastics in sediments in remote lakes of Tibet, China
Researchers assessed microplastic contamination in sediments from 12 remote lakes on the Tibetan Plateau in China, an area with minimal human activity. Despite the isolation, they found between 17 and 2,644 microplastic particles per kilogram of dried sediment, levels considered high compared to some other freshwater systems. The findings suggest that long-range atmospheric transport and limited local sources like tourism contribute to microplastic pollution even in some of Earth's most remote environments.
Microplastics in Qinghai-Tibet Plateau and Yunnan-Guizhou Plateau lakes, China
Researchers surveyed microplastic pollution in lakes across two major Chinese plateaus and found contamination even in these remote, high-altitude environments. Lakes near more human activity (Yunnan-Guizhou Plateau) had significantly higher microplastic levels than the more remote Qinghai-Tibet Plateau, with sewage, agriculture, and fishing being the main sources. The study shows that microplastic pollution reaches even supposedly pristine environments, largely through human activity and atmospheric transport.
Microplastic pollution in surface water and sediments of Qinghai-Tibet Plateau: Current status and causes
A survey of microplastic pollution across rivers and lakes on the Qinghai-Tibet Plateau found surface water concentrations averaging 856 items/m³ and sediment concentrations averaging 362 items/m², with river sediments more contaminated than lake sediments and domestic wastewater and tourism identified as primary sources.
Microplastic pollution of lakeshore sediments from remote lakes in Tibet plateau, China
Researchers sampled lakeshore sediments from remote lakes on the Tibetan Plateau, one of the least populated regions on Earth, and found microplastic contamination at every site. The most common plastics identified were polyethylene terephthalate, polypropylene, and polyethylene, likely transported by atmospheric processes from distant sources. The findings demonstrate that microplastic pollution has reached even the most isolated environments on the planet.
Microplastics in a remote lake basin of the Tibetan Plateau: Impacts of atmospheric transport and glacial melting
Researchers investigated microplastic contamination in a remote Tibetan Plateau lake basin, finding that both atmospheric transport via rainfall and glacial melting contribute microplastics to this pristine environment, with concentrations increasing in glacial meltwater areas.
Microplastics Footprints in a High-Altitude Basin of the Tibetan Plateau, China
Microplastics were detected in surface waters and sediments of a remote high-altitude basin on the Tibetan Plateau, with fibers as the dominant type and atmospheric deposition identified as the likely primary transport pathway to this pristine area far from direct human activity.
Microplastic convergence in high-altitude lakes of the Tibetan Plateau: Mechanisms, indicators, and risk stratification
Researchers assessed microplastic pollution in 14 high-altitude freshwater lakes above 4,500 meters on the Tibetan Plateau, a region far from major human activity. Microplastics were detected at every site, with PET as the dominant polymer type, suggesting long-range atmospheric transport and local textile sources. The study developed a geospatial risk model showing that precipitation, surface runoff, and proximity to roads are key factors driving microplastic accumulation even in these remote environments.
Analysis of microplastics in a remote region of the Tibetan Plateau: Implications for natural environmental response to human activities
Researchers analyzed microplastic contamination in a remote region of the Tibetan Plateau and found plastic particles in surface water, sediment, and soil even in this sparsely populated area. Tourism was identified as the primary source of water contamination, while agriculture and historical industrial activity contributed to soil pollution. The study demonstrates that microplastic pollution from human activities extends even to some of the most remote environments on Earth.
Environmental fate of microplastics in high-altitude basins: the insights into the Yarlung Tsangpo River Basin
Researchers mapped microplastic pollution across the Yarlung Tsangpo River Basin in Tibet, finding contamination in water, sediment, and soil even in remote high-altitude areas. Below 4,000 meters, human activity was the main source, while above 4,500 meters, microplastics arrived through the atmosphere. The study shows that microplastic pollution has reached some of Earth's most remote regions, meaning no freshwater source is truly free from contamination.
Microplastics in a Remote Lake Basin of the Tibetan Plateau: Impacts of Atmospheric Transport and Glacial Melting
Microplastics were found in a remote Tibetan Plateau lake basin and the researchers identified both long-range atmospheric transport and glacial meltwater as delivery pathways, with meltwater becoming an increasingly significant release mechanism as climate-driven glacier retreat accelerates.
Lake sediments act as a sink of microplastics in the High-Altitude Himalayan Dal Lake, India
Researchers quantified microplastic concentrations in surface water and sediments of Dal Lake, a high-altitude Himalayan urban lake in India at 1,583 meters elevation, finding sediment concentrations up to nearly 13,000 particles per kilogram dry weight and concluding that lake sediments act as a long-term sink for microplastic accumulation.
Distribution and characteristics of microplastics in the sediments of Poyang Lake, China
Researchers found microplastic contamination in sediments across Poyang Lake, China, with abundances ranging from 11 to 3,153 items per kilogram dry weight, and identified significant spatial variability linked to human activity and hydrological conditions.
Alpine ponds as overlooked hotspots of microplastic hazards: Evidence from the Eastern Qinghai-Tibetan Plateau
Researchers surveyed microplastic contamination in alpine ponds on the Qinghai-Tibetan Plateau across zones of varying human activity, finding ubiquitous microplastic pollution (up to 594 items/L in water) that directly correlated with anthropogenic pressure, identifying high-altitude ponds as overlooked microplastic hotspots.
Vertical distribution of microplastics in the sediment profiles of the Lake Taihu, eastern China
Researchers analyzed vertical microplastic distribution in sediment cores from Lake Taihu, China, finding microplastics at all depths down to 50 cm with total abundances of up to 8,100 particles/kg dry weight, suggesting that surface sediment sampling significantly underestimates total microplastic storage.
Levels And Distribution Characteristics of Microplastics In Water And Sediment of A Typical Shallow Lake In Northern China
Scientists measured microplastic levels in the water and sediment of Baiyangdian Lake, a shallow lake in northern China. They found between 1,000 and 20,000 microplastic particles per cubic meter of water and up to 2,200 particles per kilogram of sediment. Despite pollution control efforts, microplastics remain widespread in this lake ecosystem.
Microplastic footprints in the Qinghai-Tibet Plateau and their implications to the Yangtze River Basin
Microplastic surveys of 28 water sampling sites on the Qinghai-Tibet Plateau found MPs in 25 locations at relatively low average abundances (585 items/m³), with higher concentrations and greater proportions of small fragments in salt lakes, suggesting salt-induced accelerated fragmentation.
Microplastic distribution in large shallow lake sediments: Variations with offshore distance and implications for microbial communities
Researchers analyzed microplastic distribution in sediments of Taihu Lake at varying distances from shore and examined the effects on microbial communities. They found that microplastic abundance decreased with increasing distance from the shoreline, ranging from 240 to 1,120 items per kilogram. The study suggests that microplastic contamination in lake sediments can significantly alter the composition and diversity of local microbial communities.
Effects of lakeshore landcover types and environmental factors on microplastic distribution in lakes on the Inner Mongolia Plateau, China
This study measured microplastic contamination in lakes across the Inner Mongolia Plateau and found levels ranging from 0.5 to 12.6 particles per liter in water, with polypropylene being the most common type. Lakes near farmland and human activity had the highest contamination, showing that agriculture and tourism are major sources of microplastic pollution. The findings are relevant because these lakes serve as water sources for surrounding communities.
Distribution and risk assessment of microplastics in water, sediment and brine shrimps in a remote salt lake on the Tibetan Plateau, China
Microplastics were found in the water, sediment, and brine shrimp of a remote salt lake on the Tibetan Plateau, one of the most isolated ecosystems on Earth. Over 93% of the particles were tiny fragments under 0.5 mm, mostly polypropylene, carried to the lake by runoff. The finding demonstrates that microplastic pollution reaches even the most pristine environments, where salt layers in the water may actually increase how much plastic tiny organisms consume.
The Distribution of Microplastic Pollution and Ecological Risk Assessment of Jingpo Lake—The World’s Second Largest High-Mountain Barrier Lake
Scientists surveyed microplastic contamination in Jingpo Lake, a remote high-mountain lake in China, finding an average of about 305 particles per cubic meter of water and 162 per kilogram of sediment. Microplastics were also found in the digestive tracts of local fish, averaging 11.4 particles per fish. While levels were relatively low compared to urban lakes, the presence of microplastics in this remote location underscores how far plastic pollution has spread.