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  • 标题:Organophosphate (OP) diesters and a review of sources, chemical properties, environmental occurrence, adverse effects, and future directions
  • 本地全文:下载
  • 作者:Yaxin Liu ; Shuai Gong ; Langjie Ye
  • 期刊名称:Environment International
  • 印刷版ISSN:0160-4120
  • 电子版ISSN:1873-6750
  • 出版年度:2021
  • 卷号:155
  • 页码:106691
  • DOI:10.1016/j.envint.2021.106691
  • 出版社:Pergamon
  • 摘要:Over the course of the continual phase-outs of toxic halogenated flame retardants (HFRs), there has been an increasing demand for organophosphate esters (OPEs) in global FR markets. OPE-FRs have largely been identified as OP triesters, which have a basic chemical structure of O = P(OR) 3 . In addition to OP triesters, OPEs can refer to another class of related substances, namely, OP diesters that have a typical chemical structure of O = P(OR) 2 (OH)). OP diesters are known as biotic or abiotic degradation products of OP triesters. In recent years, environmental scientists have proven that OP diesters widely exist in a variety of environmental matrices and biotic samples around the world, implying the potential risks from OP diester exposure to biota and humans in the environment. Here, we have reviewed the scientific literature for studies involving OP diesters and up to the end of 2020. The aim of the present review is to assess the present understanding of the physicochemical properties, sources (industrial production and degradation), environmental occurrence of OP diesters, and adverse effects to exposed organisms. Based on the literature in the Web of Science core collection, we found that at least 23 OP diesters have been reported as contaminants in various environments or as degradation products of OP triesters. The physicochemical properties of OP diesters vary depending on their specific chemical structures. OP diesters containing halogen atoms and aryl groups seem to be more persistent (with greater estimated half-life ( t 1/2 ) values) in environmental matrices. There were multiple sources of OP diesters, including industrial production and biotic or abiotic degradation from OP triesters. Specifically, we found that ten OP diesters are produced somewhere in the world, and the total annual output was estimated to be 17,050 metric tons (this number is underestimated due to the limitation of the available information). In addition, the wide application of OP triesters worldwide makes the degradation of OP triesters another critical source of OP diesters to the environment and to organisms. Current monitoring studies have demonstrated that some OP diesters were detectable in the human body (via both blood and urine samples), indoor dust, wastewater, or sewage sludge worldwide. The highest concentrations of diphenyl phosphate (DPHP) in human urine have been reported as high as 727 ng/mL (children (aged 0–5 years) urine samples from Australia). In addition, adverse effects following direct or indirect exposure to 11 OP diesters in organisms (including animals, bacteria, and algae) have been reported, and the recorded adverse outcomes following exposure to OP diesters included developmental toxicity, alteration of gene expression, and disturbance of nuclear receptor activity. Biomonitoring studies regarding human samples have frequently reported statistically significant associations between the concentrations of OP diesters and markers of human health (mainly related to reproductive toxicity). Finally, on the basis of current knowledge on OP diesters, we propose prospects for related research directions in future studies.
  • 关键词:Organophosphate diesters ; Industrial status ; Sources ; Environmental occurrence ; Biomonitoring ; Adverse effects ; OP Organophosphate ; FRs Flame retardants ; H Halogenated ; HFRs Halogenated flame retardants ; E Esters ; OPEs Organophosphate esters ; PBDEs Polybrominated diphenyl ethers ; HBCDs Hexabromocyclododecanes ; BCFs Bioconcentration factors ; DMP Dimethyl phosphate ; DEP Diethyl phosphate ; DPrP Dipropyl phosphate ; DnBP Di-n-butyl phosphate ; DiBP Di;iso -butyl phosphate ; BEHP Bis(2-ethylhexyl) phosphate ; BBOEP Bis(2-butoxyethyl) phosphate ; DPHP Diphenyl phosphate ; DBzP Dibenzyl phosphate ; ip-PPP 2-((isopropyl) phenyl) phenyl hydrogen phosphate ; ip-DPHP Isopropyl diphenyl phosphate ; tBPPP 4-(( tert -butyl) phenyl) phenyl hydrogen phosphate ; tb-DPHP T-butyl diphenyl phosphate ; DoCP Di;ortho -cresyl phosphate ; DmCP Di;meta -cresyl phosphate ; DpCP Di;para -cresyl phosphate ; BMPP Bis(methylphenyl) phosphate ; B2;4DtBPP Bis(2;4-di;tert -butylphenyl) phosphate ; BCEP Bis(2-chloroethyl) phosphate ; BCIPP Bis-(1-chloro-2-propyl) phosphate ; BDCIPP Bis(1;3-dichloro-2-propyl) phosphate ; BDBPP Bis(2;3-dibromopropyl) phosphate ; BDBBP Bis(3;4-dibromobutyl) phosphate ; ww wet weight ; dw dry weight ; TCEP Tris(2-chloroethyl) phosphate ; PTE Phosphotriesterase ; TMP Trimethyl phosphate ; TEP Triethyl phosphate ; TDCIPP Tris(1;3-dichloro-2propyl) phosphate ; TpCP Tri;para -cresyl phosphate ; CEHs Embryonic hepatocytes ; TnBP Tributyl phosphate ; BEHPP Bis-(2-ethylhexyl)-phenyl phosphate ; TPHP Triphenyl phosphate ; TEHP Tris(2-ethylhexyl) phosphate ; TBOEP Tris(2-butoxyethyl) phosphate ; EHDPP 2-ethylhexyl diphenyl phosphate ; HS;Bisulfide ; PhS;Thiophenolate ; TCIPP Tris(1-chloro-2-propyl) phosphate ; TMPP Tris(methylphenyl) phosphate ; AO168 = O or TDTBPP Tris(2;4-di;tert -butylphenyl) phosphate ; DF Detection frequency ; HPA Hypothalamic-pituitary-adrenocortical ; HPG Hypothalamic-pituitary–gonadal ; PCR Polymerase chain reaction ; qRT-PCR Quantitative Real-Time PCR ; CHO Chinese hamster ovary ; TDBPP Tris(2;3-dibromopropyl) phosphate ; ERα Estrogenic receptor alpha ; MR Mineralocorticoid receptor ; IVF In vitro fertilization ; TT Total testosterone ; E 2 Estradiol ; SHBG Sex hormone binding globulin ; CKD Chronic kidney disease ; eGFR Estimated glomerular filtration rate ; ACR Albumin-to-creatinine ratio ; TT 4 Total thyroxine ; TT 3 Total triiodothyronine ; TAP Triazophos ; tRNA Transfer RNA ; ncRNA non-coding RNA ; RfDs Reference doses
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