A multidimensional concept for mercury neuronal and sensory toxicity in fish - From toxicokinetics and biochemistry to morphometry and behavior.

TL;DR: In this article, the authors used 50 nm polystyrene nanoparticles with distinct surface functionalization (pristine, PS-Plain, carboxylic and amino PS-NH2) alone or combined with the metals arsenic (As) and methylmercury (MeHg), which possess an environmental risk to marine life.

TL;DR: The results obtained in this study confirm the suspected presence of insecticides in waters and fish from Milazzo Gulf, which may lead to a considerable hazard to humans.

TL;DR: The results showed that dietary MeHg induced significant alterations in O. niloticus behavior, the swimming behavior was significantly decreased, while scratching, biting, and fin tugging behaviors were significantly augmented; chasing, mouth pushing, and butting behaviors were significant increased in all the exposed groups.

TL;DR: This review paper focuses on major tissue histopathology changes in response to mercury toxicity and their potential use as a mercury contamination indicator in fish.

TL;DR: In vitro effect of divalent metals, mercury and cadmium on Ca/sup 2 +/-ATPase in the brain of catfish, Ictalurus punctatus is evaluated to evaluate the disruptive action of heavy metals on calcium pump in fish brain.

TL;DR: Results indicate that the 203Hg2+ is taken up in the olfactory neurones from the Olfactory receptor cells in theOlfactory rosettes and is transported to the terminal parts of the ofactory neurone bulbs in theolfactory bulbs.

TL;DR: The present findings that organic and inorganic mercury compounds were deposited in the olfactory system along its whole length, from the receptor cell apices to the brain, support the electrophysiological results presented elsewhere.