ABSTRACT
The ban and restriction of polychlorinated biphenyls (PCBs) and major brominated flame retardants (BFRs), including hexabromocyclododecane (HBCD) and polybrominated diphenyl ethers (PBDEs), due to their confirmed detrimental effects on wildlife and humans have paved the way for the wide application of organophosphate esters (OPEs). OPEs have been extensively used as alternative flame retardants, plasticizer, and antifoaming agents in various industrial and consumer products, which leads to an increase in production, usage, and discharge in the environment. We compile recent information on the production/usage and physicochemical properties of OPEs and discussed and compared the available sample treatment and analysis techniques of OPEs, including extraction, clean-up, and instrumental analysis. The occurrence of OPEs in sediment, aquatic biota, surface, and drinking water is documented. Toxicity, human exposure, and ecological risks of OPEs were summarized; toxicological data of several OPEs shows different adverse health effects on aquatic organisms and humans. Much attention was given to document evidence regarding the bioaccumulation and biomagnification potential of OPEs in aquatic organisms. Finally, identified research gaps and avenues for future studies are forwarded.
Subject(s)
Environmental Monitoring , Flame Retardants , Bioaccumulation , Esters , Flame Retardants/analysis , Flame Retardants/toxicity , Humans , Organophosphates/toxicityABSTRACT
Ecological assessment was performed in different thermal springs located in the Ethiopian Rift Valley area: Gergedi, Sodere, Halaba, and Gara. We assessed the habitat conditions, physicochemical characteristics, and macroinvertebrate composition at 12 sampling sites in four thermal spring systems. The physicochemical properties of the water samples varied among the sampling stations. Temperature ranged from 38.5 to 90°C among the 12 sites. Dissolved oxygen, which is essential to aquatic ecosystem normal functioning, was not detected at three sampling sites. An average of 109 macroinvertebrates were identified in three sampling campaigns. Relatively higher macroinvertebrate abundance 94 (86.2%) was registered in Gergedi than any other thermal spring sites. The macroinvertebrate abundance was 9 (8.3%) and 6 (5.5%) for the Gara and Sodere thermal springs. No macroinvertebrate communities were observed in all sites of Halaba thermal spring. From all macroinvertebrate groups, 82 (75.2%) were dipterans, 20 (18.4%) Oligochaeta, 5 (4.6%) Gastropoda, and the rest Hemipterans and Coleopterans, which comprises 2 (1.8%) individuals. Chironomidae was the dominant invertebrate taxa at all sites, and when the water temperature exceeds 42°C, it becomes the only taxon in the thermal springs. Macroinvertebrates were absent in thermal springs where the water temperature is 52°C or higher. Other diversity measures were not sensitive enough to discriminate sampling sites regardless of physicochemical variabilities except the richness and abundance. Water temperature, chloride, pH, and phosphate were identified as major determinants of macroinvertebrate richness in the Ethiopian Rift Valley region.