DOI: 10.1016/j.watres.2020.115473
论文题名: Modeling wastewater temperature and attenuation of sewage-borne biomarkers globally
作者: Hart O.E. ; Halden R.U.
刊名: Water Research
ISSN: 431354
出版年: 2020
卷: 172 语种: 英语
英文关键词: Degradation
; Global health
; Modeling
; Population health
; Wastewater
Scopus关键词: Decay (organic)
; Degradation
; Health
; Models
; Reaction rates
; Sewage
; Sewers
; Wastewater
; Ambient conditions
; Biochemical reaction rate
; Global health
; Population health
; Sampling location
; Spatial and temporal variability
; Temperature range
; Wastewater temperature
; Biomarkers
; 3,4 methylenedioxy methamphetamine
; 4 methoxyamphetamine
; 4' methylmethcathinone
; 6 acetylcodeine
; 6 monoacety morphine
; amphetamine
; benzoylecgonine
; biological marker
; caffeine
; carbamazepine
; cocaine
; desmetramadol
; diclofenac
; estradiol
; ethinylestradiol
; illicit drug
; ketamine
; methamphetamine
; methiopropamine
; methoxetamine
; methoxymethamphetamine
; methylenedioxy pyrovalerone
; nicotine
; norcocaine
; norethisterone
; norketamine
; sulfamethoxazole
; tramadol
; unclassified drug
; zolpidem
; biomarker
; degradation
; epidemiology
; health status
; numerical model
; public health
; sewage
; temperature effect
; wastewater treatment
; air temperature
; Article
; degradation
; environmental temperature
; priority journal
; sewage
; soil temperature
; soil texture
; soil water content
; thermal diffusivity
; waste water
; water content
; water temperature
; sewage
; temperature
; water pollutant
; Biomarkers
; Sewage
; Temperature
; Waste Water
; Water Pollutants, Chemical
英文摘要: Accurate modeling of in-sewer degradation of sewage-borne epidemiological biomarkers requires information on local wastewater temperature. We applied a deterministic, physical model to map theoretical wastewater temperature on a monthly scale worldwide and incorporated in the model estimated changes in the decay rate of 31 biomarkers of public health relevance frequently used in wastewater-based epidemiology (WBE). Over the course of a year, 75% of the world's global wastewater temperatures were estimated to fall into the temperature range of 6.9–34.4 °C. These non-fitted results obtained purely a priori were in good agreement with empirical observations (n = 400), as indicated by coefficients for Pearson (0.81; 0.76) and Spearman (0.86; 0.78) correlations for annual minima and maxima, respectively. Application of the Q10 rule for biochemical reaction rates showed that, depending on wastewater temperature, half-lives of sewage-borne biomarkers will change significantly (range: 27%-7,010%) from the baseline at ambient conditions (21 ± 1 °C; 100%). Importantly, these temperature-related modulations of in-sewer biomarker decay changed the size of the area observable by WBE; in the extreme, changes in the distal reach observable by WBE were predicted to be as large as 49-fold over the course of a year at a given location. This first model of spatial and temporal variability in wastewater temperature has multiple suggested applications, including (i) utility for explaining literature-reported discrepancies in the detectability and levels of sewage-borne biomarkers, (ii) identification of optimal and sub-optimal wastewater-borne biomarkers depending on their varying half-lives over the course of the year at the sampling location of interest, and (iii) estimating the effective size of the sewershed capture zone in WBE studies. © 2020 Elsevier Ltd
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资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/158531
Appears in Collections: 气候变化与战略
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作者单位: Biodesign Center for Environmental Health Engineering, The Biodesign Institute, Arizona State University, 1001 S. McAllister Avenue, Tempe, AZ 85287-8101, United States
Recommended Citation:
Hart O.E.,Halden R.U.. Modeling wastewater temperature and attenuation of sewage-borne biomarkers globally[J]. Water Research,2020-01-01,172