Microplastic occurrence in selected aquatic species of the Persian Gulf: No evidence of trophic transfer or effect of diet.

Microplastic (MP) contamination in the aquatic ecosystems is a growing global environmental issue that can cause detrimental effects on aquatic species. In this study, MPs in fish (six species, 195 specimens), molluscs (one species, 21 specimens), and crustaceans (three species, 264 specimens) with various biometry, trophic levels, feeding habits, and habitat characteristics were investigated in three habitats: a river, an estuary, and a harbor in the Persian Gulf. Gastrointestinal tracts, gills and skin of targeted samples were chemically digested and the MPs recovered were counted and analyzed with optical microscopy, Raman spectroscopy and SEM/EDX. MPs counted in species of the Bushehr Port (11.4 ± 4.4 MPs/10 g) were significantly higher than in the other locations. The total abundance of MPs ranged from 4.0 ± 2.3 MPs/10 g for Metapenaeus affinis to 28.0 ± 6.4 MPs/10 g for Sepia pharaonis. Importantly, no significant relationships were found between the number of MPs in different inedible tissues, trophic levels, and types of feeding habit. Nevertheless, MPs were more abundant (p < 0.05) in benthos (34.7 MPs/10 g) than benthopelagic (25.9 MPs/10 g) and pelagic species (22.6 MPs/10 g). A total of 96.6 % of the identified MPs were fibers, these were generally ≥1000 µm and were mainly black/grey. Fibers may come from municipal wastewater effluents and fishing activities. The findings of this study present new insights into MP contamination routes in aquatic species.

Chronic arsenic toxicity in sheep of Kurdistan province, western Iran.

After the detection of arsenic (As) toxicity in sheep from Ebrahim-abad and Babanazar villages in Kurdistan province, the concentration of this element in drinking water, cultivated soil, alfalfa hay, wool, and blood samples was evaluated. Total As concentrations ranged from 119 to 310 µg/L in drinking water, 46.70-819.20 mg/kg in soil 1.90-6.90 mg/kg in vegetation 1.56-10.79 mg/kg in sheep's wool, and 86.30-656 µg/L in blood samples. These very high As contents, in all parts of the biogeochemical cycle, exceed the recommended normal range for this element compared with a control area. Results indicate that As has moved through all compartments of the biogeochemical cycle by way of direct or indirect pathways. The present investigation illustrated decreased packed cell volume and hemoglobin in sheep from the As-contaminated zone. It was concluded that sheep from the contaminated areas suffer from anemia. Chronic As exposure of the liver was determined by liver function tests. For this purpose, blood aspartate transaminase (AST) and alanine transaminase (ALT) were measured. The results show that serum ALT and AST activities are increased significantly (p < 0.01) in the sheep population exposed to As in the contaminated zone. Moreover, chronic As exposure causes injury to hepatocytes and damages the liver.