1.Phytoremediation of heavy metal polluted soils and water: progresses and perspectives.
Mohammad Iqbal LONE ; Zhen-li HE ; Peter J STOFFELLA ; Xiao-e YANG
Journal of Zhejiang University. Science. B 2008;9(3):210-220
Environmental pollution affects the quality of pedosphere, hydrosphere, atmosphere, lithosphere and biosphere. Great efforts have been made in the last two decades to reduce pollution sources and remedy the polluted soil and water resources. Phytoremediation, being more cost-effective and fewer side effects than physical and chemical approaches, has gained increasing popularity in both academic and practical circles. More than 400 plant species have been identified to have potential for soil and water remediation. Among them, Thlaspi, Brassica, Sedum alfredii H., and Arabidopsis species have been mostly studied. It is also expected that recent advances in biotechnology will play a promising role in the development of new hyperaccumulators by transferring metal hyperaccumulating genes from low biomass wild species to the higher biomass producing cultivated species in the times to come. This paper attempted to provide a brief review on recent progresses in research and practical applications of phytoremediation for soil and water resources.
Biodegradation, Environmental
;
Metals, Heavy
;
metabolism
;
Soil Pollutants
;
metabolism
;
Water Pollutants, Chemical
;
metabolism
2.Does wastewater discharge have relations with increase of Turner syndrome and Down syndrome?.
Environmental Health and Toxicology 2017;32(1):e2017012-
The purpose of this study is to examine whether water and air pollutants have a relationship with an increase in the genetic disorders Turner syndrome and Down syndrome, which are caused by congenital chromosomal abnormalities, and to generate a hypothesis about the genetic health effects of environmental pollutants. A panel regression based on random effect was conducted on Korea’s metropolitan councils from 2012 to 2014. The dependent variable was the number of Turner syndrome and Down syndrome cases, and the main independent variables were those regarding the water and air pollution. Air pollutants did not have a significant impact on the number of Turner syndrome and Down syndrome cases; however, the increase in number of wastewater discharge companies did have a significant relationship with the number of cases. The more the number of wastewater discharge companies, the more the number Turner syndrome and Down syndrome cases were observed. Therefore, scientific investigation on water and air pollutants in relation with genetic health effects needs to be performed.
Air Pollutants
;
Air Pollution
;
Chromosome Aberrations
;
Down Syndrome*
;
Environmental Pollutants
;
Turner Syndrome*
;
Waste Water*
;
Water
3.Does wastewater discharge have relations with increase of Turner syndrome and Down syndrome?
Environmental Health and Toxicology 2017;32(1):2017012-
The purpose of this study is to examine whether water and air pollutants have a relationship with an increase in the genetic disorders Turner syndrome and Down syndrome, which are caused by congenital chromosomal abnormalities, and to generate a hypothesis about the genetic health effects of environmental pollutants. A panel regression based on random effect was conducted on Korea’s metropolitan councils from 2012 to 2014. The dependent variable was the number of Turner syndrome and Down syndrome cases, and the main independent variables were those regarding the water and air pollution. Air pollutants did not have a significant impact on the number of Turner syndrome and Down syndrome cases; however, the increase in number of wastewater discharge companies did have a significant relationship with the number of cases. The more the number of wastewater discharge companies, the more the number Turner syndrome and Down syndrome cases were observed. Therefore, scientific investigation on water and air pollutants in relation with genetic health effects needs to be performed.
Air Pollutants
;
Air Pollution
;
Chromosome Aberrations
;
Down Syndrome
;
Environmental Pollutants
;
Turner Syndrome
;
Waste Water
;
Water
4.Fate and Transport of Mercury in Environmental Media and Human Exposure.
Moon Kyung KIM ; Kyung Duk ZOH
Journal of Preventive Medicine and Public Health 2012;45(6):335-343
Mercury is emitted to the atmosphere from various natural and anthropogenic sources, and degrades with difficulty in the environment. Mercury exists as various species, mainly elemental (Hg0) and divalent (Hg2+) mercury depending on its oxidation states in air and water. Mercury emitted to the atmosphere can be deposited into aqueous environments by wet and dry depositions, and some can be re-emitted into the atmosphere. The deposited mercury species, mainly Hg2+, can react with various organic compounds in water and sediment by biotic reactions mediated by sulfur-reducing bacteria, and abiotic reactions mediated by sunlight photolysis, resulting in conversion into organic mercury such as methylmercury (MeHg). MeHg can be bioaccumulated through the food web in the ecosystem, finally exposing humans who consume fish. For a better understanding of how humans are exposed to mercury in the environment, this review paper summarizes the mechanisms of emission, fate and transport, speciation chemistry, bioaccumulation, levels of contamination in environmental media, and finally exposure assessment of humans.
Air Pollutants/chemistry/metabolism
;
*Environmental Exposure
;
Environmental Remediation
;
Food Chain
;
Humans
;
Mercury/chemistry/*metabolism
;
Methylmercury Compounds/chemistry/metabolism
;
Photolysis
;
Sulfur-Reducing Bacteria/metabolism
;
Water Pollutants, Chemical/metabolism
5.Advances of using Dehalogenimonas in anaerobic degradation of chlorinated compounds and bioremediation of contaminated sites.
Yiru CUI ; Yi YANG ; Jun YAN ; Xiuying LI
Chinese Journal of Biotechnology 2021;37(10):3565-3577
The genus Dehalogenimonas (Dhgm) is a recently discovered taxonomic group within the class Dehalococcoidia of the phylum Chloroflexi. To date, Dhgm consists of three formally described species including Dehalogenimonas lykanthroporepellens, Dehalogenimonas alkenigignens and Dehalogenimonas formicexedens. All isolates of these three Dhgm species are obligate organohalide-respiring bacteria. They use hydrogen and formate as electron donors and chlorinated ethanes (e.g., 1,2,3-trichloropropane, 1,2-dichloropropane, 1,2-dichloroethane) as electron acceptors in energy-conserving reductive dechlorination reaction. Chlorinated ethanes are common groundwater contaminants in China. The unique metabolic capacities of Dhgm strains implicate it may play important roles in site remediation. The recently reported Dhgm sp. strain WBC-2 and 'Candidatus Dehalogenimonas etheniformans' strain GP are capable of dechlorinating certain chlorinated ethenes. More importantly, strain GP can completely detoxify the carcinogenic vinyl chloride (VC) to ethene. These findings expand the diversity of microorganisms involved in the respiratory VC reductive dechlorination and improve the understanding of Dhgm's ecological functions. Here, we summarize the advances in physiological and biochemical characteristics, ecological functions and genomic features of Dhgm, with the aim to develop effective and sustainable strategies to facilitate the bioremediation of chlorinated compounds contaminated sites.
Anaerobiosis
;
Biodegradation, Environmental
;
Chloroflexi
;
Water Pollutants, Chemical
7.Research on the standard limits for vinyl chloride and trichloroethylene in the "Standards for Drinking Water Quality(GB5749-2022)" in China.
Jia Yi HAN ; Lan ZHANG ; Sheng Hua GAO ; Shao Xia DONG ; Bi Xiong YE
Chinese Journal of Preventive Medicine 2023;57(6):835-838
The usage of vinyl chloride and trichloroethylene in China has been increasing year by year, and they have been detected in both drinking water and environmental water, making them important environmental pollutants. Based on the latest research results on the health effects of vinyl chloride and trichloroethylene, the newly issued, "Standards for Drinking Water Quality (GB5749-2022)" in China has adjusted the standard limit of vinyl chloride from 0.005 mg/L to 0.001 mg/L and the standard limit of trichloroethylene from 0.07 mg/L to 0.02 mg/L. This article analyzed and discussed the relevant technical contents for determining the above standard limits, including the levels and exposure conditions of vinyl chloride and trichloroethylene in the water environment, health effects, derivation of safety reference values, and determination of hygiene standard limits. Suggestions were also made for the implementation of this standard.
Humans
;
Vinyl Chloride/analysis*
;
Trichloroethylene/analysis*
;
Drinking Water
;
Environmental Pollutants
;
China
;
Water Pollutants, Chemical/analysis*