The concentrations of many historically used, and now widely banned, pesticides and other toxic chemicals—called legacy contaminants—can become magnified in an animal that eats contaminated food; ...

Researchers have produced a groundbreaking study of how nanoparticles are able to biomagnify in a simple microbial food chain. An interdisciplinary team of researchers at UC Santa Barbara has produced ...

Previous studies have shown that engineered nanomaterials can be transferred from prey to predator, but the ecological impacts of this are mostly unknown. In particular, it is not known if these ...

(Santa Barbara, Calif.) –– An interdisciplinary team of researchers at UC Santa Barbara has produced a groundbreaking study of how nanoparticles are able to biomagnify in a simple microbial food chain ...

The environment and the organisms living in it are continuously exposed to a wide range of chemicals. From chlorine-based solutions that remove bacteria from water to pesticides that treat and protect ...

(Nanowerk News) An interdisciplinary team of researchers at UC Santa Barbara has produced a groundbreaking study of how nanoparticles are able to biomagnify in a simple microbial food chain. "This was ...

Some compounds are neither recycled by decomposers nor are they released into the atmosphere. Instead, they remain in the ecosystem in virtually unchanged form as they are passed from one organism to ...

The concentrations of many historically used, and now widely banned, pesticides and other toxic chemicals—called legacy contaminants—can become magnified in an animal that eats contaminated food; ...

An interdisciplinary team of researchers at UC Santa Barbara has produced a groundbreaking study of how nanoparticles are able to biomagnify in a simple microbial food chain. "This was a simple ...