| JOURNAL OF HYDROLOGY | 卷:594 |
| Quantifying the effect of overland flow on Escherichia coli pulses during floods: Use of a tracer-based approach in an erosion-prone tropical catchment | |
| Article | |
| Boithias, Laurie1 Ribolzi, Olivier1 Lacombe, Guillaume2,4 Thammahacksa, Chanthamousone3 Silvera, Norbert5 Latsachack, Keooudone3 Soulileuth, Bounsamay3 Viguier, Marion3 Auda, Yves1 Robert, Elodie1 Evrard, Olivier6 Huon, Sylvain5 Pommier, Thomas7 Zouiten, Cyril1 Sengtaheuanghoung, Oloth8 Rochelle-Newall, Emma5 | |
| [1] Univ Toulouse, Geosci Environm Toulouse, CNES, CNRS,IRD,UPS, Toulouse, France | |
| [2] CIRAD, UMR G EAU, F-34398 Montpellier, France | |
| [3] IRD, Dept Agr Land Management DALaM, POB 4199, Xaythany Dist, Vientiane, Laos | |
| [4] Univ Montpellier, AgroParisTech, CIRAD, INRAE,Inst Agro,IRD,G EAU, Montpellier, France | |
| [5] Univ Paris Est Creteil, Sorbonne Univ, Inst Ecol & Environm Sci Paris iEES Paris, IRD,CNRS,INRA, 4 Pl Jussieu, F-75005 Paris, France | |
| [6] Univ Paris Saclay, Unite Mixte Rech CEA CNRS UVSQ 8212, Lab Sci Climat & Environm LSCE IPSL, Gif Sur Yvette, France | |
| [7] Univ Lyon, VetAgroSup, Lab Ecol Microbienne, UCBL,UMR1418 INRA,UMR 5557 CNRS, Villeurbanne, France | |
| [8] Dept Agr Land Management DALaM, POB 4195, Xaythany Dist, Vientiane, Laos | |
| 关键词: Surface runoff; Fecal indicator bacteria; Storm flow; Land-use change; Surface-sub surface flow separation; Northern uplands of Lao PDR; | |
| DOI : 10.1016/j.jhydrol.2020.125935 | |
| 来源: Elsevier | |
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【 摘 要 】
Bacterial pathogens in surface waters threaten human health. The health risk is especially high in developing countries where sanitation systems are often lacking or deficient. Considering twelve flash-flood events sampled from 2011 to 2015 at the outlet of a 60-ha tropical montane headwater catchment in Northern Lao PDR, and using Escherichia coli as a fecal indicator bacteria, our objective was to quantify the contributions of both surface runoff and sub-surface flow to the in-stream concentration of E. coli during flood events, by (1) investigating E. coli dynamics during flood events and among flood events and (2) designing and comparing simple statistical and mixing models to predict E. coli concentration in stream flow during flood events. We found that in-stream E. coli concentration is high regardless of the contributions of both surface runoff and sub-surface flow to the flood event. However, we measured the highest concentration of E. coli during the flood events that are predominantly driven by surface runoff. This indicates that surface runoff, and causatively soil surface erosion, are the primary drivers of in-stream E. coli contamination. This was further confirmed by the step-wise regression applied to instantaneous E. coli concentration measured in individual water samples collected during the flood events, and by the three models applied to each flood event (linear model, partial least square model, and mixing model). The three models showed that the percentage of surface runoff in stream flow was the best predictor of the flood event mean E. coli concentration. The mixing model yielded a Nash-Sutcliffe efficiency of 0.65 and showed that on average, 89% of the in-stream concentration of E. coli resulted from surface runoff, while the overall contribution of surface runoff to the stream flow was 41%. We also showed that stream flow turbidity and E. coli concentration were positively correlated, but that turbidity was not a strong predictor of E. coli concentration during flood events. These findings will help building adequate catchment-scale models to predict E. coli fate and transport, and mapping the related risk of fecal contamination in a global changing context.
【 授权许可】
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【 预 览 】
| Files | Size | Format | View |
|---|---|---|---|
| 10_1016_j_jhydrol_2020_125935.pdf | 2680KB |  download |
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