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huan jing ke xue= huanjing kexue

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Acta Cardiologica Sinica

[1] Early life and adolescent arsenic exposure from drinking water and blood pressure in adolescence.

[2] Biological and molecular modifications induced by cadmium and arsenic during breast and prostate cancer development.

[3] Importance of considering circadian rhythm in the design of in vivo transcriptional studies of acute effects of environmental exposures: Commentary to "The acute effects of ultraviolet radiation on the blood transcriptome are independent of plasma 25OHD3" published in Environmental Research 2017 Nov:159:239-248. doi: 10.1016/j.envres.2017.07.045.

[4] Contents of Chromium and Arsenic in Tea (Camellia sinensis L.): Extent of Transfer into Tea Infusion and Health Consequence.

[5] Health risk assessments of arsenic and toxic heavy metal exposure in drinking water in northeast Iran.

[6] Occurrence, migration, and allocation of arsenic in multiple media of a typical semi-enclosed bay.

[7] Market Basket Survey of Arsenic Species in the Top Ten Most Consumed Seafoods in the United States.

[8] Arsenic induces human chondrocyte senescence and accelerates rat articular cartilage aging.

[9] How do data-mining models consider arsenic contamination in sediments and variables importance?

[10] Characterisation of the impact of dissolved organic matter on iron, manganese, and arsenic mobilisation during bank filtration.

[11] [Spatial Distribution and Pollution Assessment of As at a Small Scale in Agricultural Soils of the Karst Region].

[12] Lacustrine Arcellinina (Testate Amoebae) as Bioindicators of Arsenic Contamination.

[13] Biomining: metal recovery from ores with microorganisms.

[14] Dissemination and conservation of cadmium and arsenic resistance determinants in Listeria and other Gram-positive bacteria.

[15] Removing arsenic and co-occurring contaminants from drinking water by full-scale ion exchange and point-of-use/point-of-entry reverse osmosis systems.

[16] Environmental Exposure of Arsenic in Groundwater Associated to Carcinogenic Risk in Underweight Children Exposed to Fluorides.

[17] Application of graphene/zinc-based metal-organic framework nanocomposite for electrochemical sensing of As(III) in water resources.

[18] Electrochemical adsorption of cadmium and arsenic by natural Fe-Mn nodules.

[19] Effects of spatial expansion between Phragmites australis and Cyperus malaccensis on variations of arsenic and heavy metals in decomposing litters in a typical subtropical estuary (Min River), China.

[20] Modeling arsenic removal by nanoscale zero-valent iron.

[21] Studying the metabolism of toxic chemical warfare agent-related phenylarsenic chemicals in vitro in cod liver.

[22] Increased health threats from land use change caused by anthropogenic activity in an endemic fluorosis and arsenicosis area.

[23] A Scientometric Analysis of Recent Literature on Arsenic Bioaccumulation and Biotransformation in Marine Ecosystems.

[24] Biotic and Abiotic Factors Influencing Arsenic Biogeochemistry and Toxicity in Fluvial Ecosystems: A Review.

[25] Analysis of saliva samples and cluster of differentiation 3 (CD3)+ lymphocytes as a source of germline DNA in myeloproliferative neoplasms.

[26] Mitigating arsenic accumulation in rice (Oryza sativa L.) using Fe-Mn-La-impregnated biochar composites in arsenic-contaminated paddy soil.

[27] hepatic and nephric nrf2 pathway up-regulation, an early antioxidant response, in acute arsenic-exposed mice

[28] arsenic and chromium in canned and non-canned beverages in nigeria: a potential public health concern

[29] risk assessment for children exposed to beach sands impacted by oil spill chemicals

[30] contents of arsenic and some other elements in stream sediments and waters

[31] acute and chronic toxicities assessment of arsenic (iii) to catfish, silurus lanzhouensis in china

[32] removal of arsenic from groundwater with low cost multilayer media

[33] an insight of environmental contamination of arsenic on animal health

[34] glutathione s-transferases: role in combating abiotic stresses including arsenic detoxification in plants

[35] promotion of arsenic phytoextraction efficiency in the fern pteris vittata by the inoculation of as-resistant bacteria: a soil bioremediation perspective.

[36] arsÊnio e arroz: toxicidade, metabolismo e seguranÇa alimentar

[37] electrozymographic evaluation of the attenuation of arsenic induced degradation of hepatic sod, catalase in an in vitro assay system by pectic polysaccharides of momordica charantia in combination with curcumin

[38] posibles efectos en la salud asociados con la metalurgia precolombina.

[39] a study on the relationship of arsenic accumulation with protein, lipid, ash and moisture contents in muscle of eight species of fish in iran

[40] using ionic liquid modified zeolite as a permeable reactive wall to limit arsenic contamination of a freshwater lake—pilot tests

[41] sensitivity of selected crops to lead, cadmium and arsenic in early stages of ontogenesis

[42] an integrated approach to identify water resources for human consumption in an area affected by high natural arsenic content

[43] thiomonas sp. cb2 is able to degrade urea and promote toxic metal precipitation in acid mine drainage waters supplemented with urea

[44] graphene–platinum nanocomposite as a sensitive and selective voltammetric sensor for trace level arsenic quantification

[45] unraveling health risk and speciation of arsenic from groundwater in rural areas of punjab, pakistan

[46] association between hypertension and chronic arsenic exposure in drinking water: a cross-sectional study in bangladesh

[47] arsenomics: omics of arsenic metabolism in plants

[48] archaeal and bacterial diversity in an arsenic-rich shallow-sea hydrothermal system undergoing phase separation

[49] groundwater nanofiltration process efficiency improvement with additional concentrate membrane treatment

[50] long-term low-level arsenic exposure is associated with poorer neuropsychological functioning: a project frontier study

[51] a simple and effective approach for treatment of situs tumor and metastasis：to promote intratumor pus formation

[52] as(v) and p competitive sorption on soils, by-products and waste materials

[53] factors affecting arsenic methylation in arsenic-exposed humans: a systematic review and meta-analysis

[54] using generation 3 polyamidoamine dendrimer as adsorbent for the removal of pentavalent arsenic from aqueous solutions

[55] microbial community of high arsenic groundwater in agricultural irrigation area of hetao plain, inner mongolia

[56] determinação de arsênio em águas contaminadas usando fluorescência de raios-x por energia dispersiva determination of arsenic in contaminated waters using energy dispersive x-ray fluorescence

[57] biomethylation and volatilization of arsenic by model protozoan tetrahymena pyriformis under different phosphate regimes

[58] paper-based microfluidic device with a gold nanosensor to detect arsenic contamination of groundwater in bangladesh

[59] zirconium oxide-coated sand based batch and column adsorptive removal of arsenic from water: isotherm, kinetic and thermodynamic studies

[60] Aortic Elasticity and Arsenic Exposure: A Step Function rather than a Linear Function.

[61] Assessment of Diastolic Function and Thiol-Disulphide Homeostasis in Arsenic-Exposed Workers.

[62] Evaluation of digital camera as a portable colorimetric sensor for low-cost determination of inorganic arsenic (III) in industrial wastewaters by chemical hydride generation assisted-Fe(III) − 1, 10-phenanthroline as a green color agent

[63] Education, fish consumption, well water, chicken coops, and cooking fires: Using biogeochemistry and ethnography to study exposure of children from Yucatan, Mexico to metals and arsenic

[64] Label-free gold nanorod-based plasmonic sensing of arsenic(iii) in contaminated water.

[65] Biodegradation of phenyl arsenicals in groundwater-natural attenuation of chemical warfare agents

[66] Synthesis and application of Iron/copper bimetallic nanoparticles doped natural zeolite composite coupled with ultrasound for removal of arsenic (III) from aqueous solutions

[67] Phytoremediation of arsenic-contaminated water by Lemna Valdiviana: An optimization study

[68] Dietary determinants of inorganic arsenic exposure in the Strong Heart Family Study.

[69] A pH-responsive supramolecular draw solute that achieves high-performance in arsenic removal via forward osmosis.

[70] Response surface methodology and optimization of arsenic continuous sorption process from contaminated water using chitosan

[71] Differential responses of growth, photosynthesis, oxidative stress, metals accumulation and NRAMP genes in contrasting Ricinus communis genotypes under arsenic stress.

[72] Valuing health damages due to groundwater arsenic contamination in Bihar, India

[73] Correction to: Regeneration of commercial SCR catalyst deactivated by arsenic poisoning in coal-fired power plants (Korean Journal of Chemical Engineering, (2019), 36, 3, (377-384), 10.1007/s11814-018-0227-9)

[74] Photo-induced redox coupling of dissolved organic matter and iron in biochars and soil system: Enhanced mobility of arsenic.

[75] Contrasting controls on hydrogeochemistry of arsenic-enriched groundwater in the homologous tectonic settings of Andean and Himalayan basin aquifers, Latin America and South Asia.

[76] Evaluation of the fate of arsenic-contaminated groundwater at different aquifers of Thar coalfield Pakistan.

[77] Linking geochemical processes in mud volcanoes with arsenic mobilization driven by organic matter.

[78] Total arsenic and inorganic arsenic speciation in groundwater intended for human consumption in Uruguay: Correlation with fluoride, iron, manganese and sulfate.

[79] Arsenic accumulation in rice: Consequences of rice genotypes and management practices to reduce human health risk.

[80] Potential phosphorus and arsenic mobilization from Bangladesh soils by particle dispersion.

[81] Development of a magnetic core-shell FeO@TA@UiO-66 microsphere for removal of arsenic(III) and antimony(III) from aqueous solution.

[82] Arsenic in Argentina: Technologies for arsenic removal from groundwater sources, investment costs and waste management practices

[83] Early life and adolescent arsenic exposure from drinking water and blood pressure in adolescence.

[84] Biological and molecular modifications induced by cadmium and arsenic during breast and prostate cancer development.

[85] Contents of Chromium and Arsenic in Tea (Camellia sinensis L.): Extent of Transfer into Tea Infusion and Health Consequence.

[86] Facile inverse micelle fabrication of magnetic ordered mesoporous iron cerium bimetal oxides with excellent performance for arsenic removal from water

[87] Health risk assessments of arsenic and toxic heavy metal exposure in drinking water in northeast Iran.

[88] Cutaneous Malignancy due to Arsenicosis in Bangladesh: 12-Year Study in Tertiary Level Hospital.

[89] Occurrence, migration, and allocation of arsenic in multiple media of a typical semi-enclosed bay.

[90] Market Basket Survey of Arsenic Species in the Top Ten Most Consumed Seafoods in the United States.

[91] Arsenic mobilization from soils in the presence of herbicides.

[92] Multilaboratory Validation of First Action Method 2016.04 for Determination of Four Arsenic Species in Fruit Juice by High-Performance Liquid Chromatography-Inductively Coupled Plasma-Mass Spectrometry.

[93] Arsenic removal from groundwater in Kütahya, Turkey, by novel calcined modified hydrotalcite.

[94] Arsenic induces human chondrocyte senescence and accelerates rat articular cartilage aging.

[95] Environmental Risk Perceptions and Community Health: Arsenic, Air Pollution, and Threats to Traditional Values of the Hopi Tribe

[96] How do data-mining models consider arsenic contamination in sediments and variables importance?

[97] Water management of alternate wetting and drying reduces the accumulation of arsenic in brown rice - as dynamic study from rhizosphere soil to rice

[98] Phosphate-modified ferric-based material remediates lead and arsenic co-contaminated soil and enhances maize seedling growth.

[99] Sucrose plays key role in amelioration of arsenic induced phytotoxicity through modulating phosphate and silicon transporters, physiological and biochemical responses in C<inf>3</inf> (Oryza sativa L.) and C<inf>4</inf> (Zea mays L.)

[100] Functionalized silver nanoparticles as an effective medium towards trace determination of arsenic (III) in aqueous solution

[101] Occurrence, origin and health risk of arsenic and potentially toxic elements (PTEs) in sediments and fish tissues from the geothermal area of the Khiav River, Ardebil Province (NW Iran)