We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Aquatic insects as mediator for microplastics pollution in a river ecosystem of Bangladesh
Summary
Researchers found that aquatic insects in a Malaysian river ecosystem ingest microplastics and can transport them across ecosystem boundaries as the insects emerge from water to land, functioning as biological vectors that move plastic contamination from aquatic to terrestrial food webs.
Microplastics (MPs) are emerging pollutants that threaten the aquatic ecosystem. Aquatic insects may play a crucial role in moving MPs into different trophic levels within and across the ecosystems. However, field-level evidence is still insufficient globally despite its tremendous ecological significance. Thus, for the first time in Bangladesh, MPs were explored in six species of aquatic insects along with water and sediment of the Daleshwari River. Digestion and density separation methods were used for the extraction of MPs. Microscopic inspection and Fourier transform spectroscopy (FT-IR) were done to identify and quantify MPs. The average concentration of MPs in sediment and water is 143.1 ± 28.52 of MPs/L and 30153.8 ± 2313.62 of MPs/kg, respectively. In aquatic species, the highest MPs found in D. rusticus (57.82 ± 14.98 MPs/g), followed by B. contaminate (38.53 ± 6.87 MPs/g), Ranatra sp. (34.05 ± 5.39 MPs/g), C. servilia (26.99 ± 7.88 MPs/g), D. annulatus (16.44 ± 6.95 MPs/g), and O. sabina (14.13 ± 4.52 MPs/g). A total of eight types of polymers have been identified. It was important to notice that the studied aquatic insects bear similar MPs (size, shape, and color) found in water and sediments from the river. It reveals the potential for the insects (accumulators of MPs) to be a driving factor for the transport of the MPs across different ecosystems. It has also been found that Aquatic insect's size, weight, feeding habitat, and host reserviour could be responsible for MPs ingestion. In addition, ecological risk assessment (Contamination Factor, Nemerrow Pollution Index, Pollution Load Index, Polymer Hazard Index) indicates different levels of risk for the pertaining river ecosystem.
Sign in to start a discussion.
More Papers Like This
Freshwater insects of different feeding guilds ingest microplastics in two Gulf of Guinea tributaries in Nigeria
Scientists collected freshwater insects from two Nigerian tributaries of the Gulf of Guinea and found microplastics ingested across different feeding guilds, providing rare baseline data on microplastic contamination of African freshwater ecosystems.
Using aquatic insects as indicators of microplastic pollution in rice field ecosystems
Researchers used aquatic insect communities as bioindicators of microplastic pollution in rice field ecosystems, comparing insect diversity and abundance across fields with different levels of plastic contamination. Insect assemblages responded sensitively to microplastic loads, demonstrating their potential as low-cost monitoring tools.
Characterizing microplastic ingestion, transformation, and excretion in insects using fluorescent plastics
Using fluorescent microplastics as tracers, researchers showed that insects can ingest, transform through digestion, and excrete microplastic particles, demonstrating that insects are both exposed to and potential vectors for spreading microplastics in terrestrial ecosystems.
Tracing the invisible microplastics in river water and fish organs and its implication of riverine ecosystem integrity
Researchers analyzed microplastics in river water and fish organ tissues from a river in South Asia, finding contamination throughout the aquatic food web. The study used the plastisphere framework to discuss how microbial communities colonizing microplastics may influence particle fate and biological effects.
Interactions between microplastics and Culex sp. larvae in wastewater
Researchers studied the interaction between microplastics and mosquito larvae in Egyptian wastewater treatment plants, finding that the larvae actively ingest plastic particles. They documented seasonal variation in microplastic abundance at the treatment facilities and showed that contaminated larvae could transfer plastics to adult mosquitoes. The study highlights an overlooked pathway by which microplastics in wastewater can spread into terrestrial ecosystems through flying insects.