Due to the small size, high mobility and large surface area, nanoplastics (NPs) showed high
potential risks to aquatic organisms. This paper reviews the toxicity of NPs to aquatic …

Arsenic exists universally in freshwater and marine environments, threatening the survival of
aquatic organisms and human health. To elucidate arsenic bioaccumulation and …

Despite of our growing understanding of microplastic's implications, research on the effects
of fibrous microplastic (FMPs) on the environment is still in its infancy. Some scientists have …

As emerging pollutants, direct and indirect adverse impacts of micro (nano) plastics
(MPs/NPs) are raising an increasing environmental concern in recent years due to their poor …

Arsenic is a toxic metalloid that is widely distributed in the environment due to its persistence
and accumulative properties. The occurrence, distribution, and biological effects of arsenic …

The ecological risks caused by the coexistence of pollutants such as arsenic (As) and
polystyrene-nanoplastics (PSNPs) in the environment have become a non-negligible …

Heavy metals (HMs) and metalloid occur naturally and are found throughout the Earth's crust
but they are discharged into aquatic environments at high concentrations by human …

As a carrier, nanoplastics (NPs) can adsorb other toxic substances and thus modify their
biological toxicity. Numerous studies have investigated the neurotoxic of high concentrations …

There are ongoing controversies regarding the effects of microplastics (MPs) on the
bioaccumulation and toxicity of coexisting contaminants in aquatic organisms. This study …

The soil protistan community makes important contributions to the ecological functions of
soil. However, our knowledge of the effects of pollutants, especially plastic particles, on the …