Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/30420
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dc.contributor.authorBuckerfield, Sarah Jen_UK
dc.contributor.authorQuilliam, Richard Sen_UK
dc.contributor.authorWaldron, Susanen_UK
dc.contributor.authorNaylor, Larissa Aen_UK
dc.contributor.authorLi, Siliangen_UK
dc.contributor.authorOliver, David Men_UK
dc.date.accessioned2019-11-06T01:00:43Z-
dc.date.available2019-11-06T01:00:43Z-
dc.date.issued2019-12-01en_UK
dc.identifier.other100038en_UK
dc.identifier.urihttp://hdl.handle.net/1893/30420-
dc.description.abstractKarst aquifers have distinctive hydrology and supply 25% of the world’s population with drinking water, making them a critical geological setting for understanding and managing microbial water pollution. Rainfall causes elevated concentrations and loading of faecal microorganisms, e.g. E. coli, in catchment surface and groundwater systems, increasing the risk of human exposure to faecally-contaminated water. However, effective management of microbial water quality in complex karst catchments is constrained by limited understanding of E. coli - discharge responses to rainfall. We analysed how rainfall events of varying magnitude (2.4–100 mm) control E. coli-discharge dynamics at increasing spatial scales in a mixed land-use karst catchment in southwest China. During the wet season, hourly water sampling was undertaken throughout five storm events to characterise in high detail E. coli emergence with resulting flow across multiple sites of varying catchment area, stream order, and land-use. E. coli concentration was found to increase by 1–3 orders of magnitude following rainfall events. Maximum E. coli concentration and speed of E. coli recession were influenced by rainfall (amount, intensity), timing of agricultural activities, and position in the hydrological system. For high intensity events ∼90% of the cumulative E. coli export occurred within 48 h. E. coli concentration increased with increasing discharge at all sites. E. coli concentration at low discharge was higher in the headwaters than at the catchment outlet, while the rate of increase in E. coli concentration with increasing discharge appears to follow the opposite trend, being higher at the catchment outlet than the headwaters. This was attributed to the decreasing flow path gradient and increasing degree of development of the fissure network, but further event monitoring at varying catchment scales is required to confirm this relationship. The results provide novel insight into how rainfall characteristics combine with land-use and catchment hydrology to control E. coli export in karst landscapes.en_UK
dc.language.isoenen_UK
dc.publisherElsevier BVen_UK
dc.relationBuckerfield SJ, Quilliam RS, Waldron S, Naylor LA, Li S & Oliver DM (2019) Rainfall-driven E. coli transfer to the stream-conduit network observed through increasing spatial scales in mixed land-use paddy farming karst terrain. Water Research X, 5, Art. No.: 100038. https://doi.org/10.1016/j.wroa.2019.100038en_UK
dc.rightsThis is an open access article distributed under the terms of the Creative Commons CC-BY license (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. You are not required to obtain permission to reuse this article.en_UK
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/en_UK
dc.subjectCatchment hydrologyen_UK
dc.subjectFaecal indicator organismen_UK
dc.subjectFaecal pollutionen_UK
dc.subjectStorm eventen_UK
dc.subjectWater qualityen_UK
dc.titleRainfall-driven E. coli transfer to the stream-conduit network observed through increasing spatial scales in mixed land-use paddy farming karst terrainen_UK
dc.typeJournal Articleen_UK
dc.identifier.doi10.1016/j.wroa.2019.100038en_UK
dc.identifier.pmid31660535en_UK
dc.citation.jtitleWater Research Xen_UK
dc.citation.issn2589-9147en_UK
dc.citation.issn2589-9147en_UK
dc.citation.volume5en_UK
dc.citation.publicationstatusPublisheden_UK
dc.citation.peerreviewedRefereeden_UK
dc.type.statusVoR - Version of Recorden_UK
dc.contributor.funderFIOen_UK
dc.contributor.funderChinese Academy of Sciencesen_UK
dc.contributor.funderNatural Environment Research Councilen_UK
dc.contributor.funderNational Natural Science Foundation of Chinaen_UK
dc.citation.date10/10/2019en_UK
dc.contributor.affiliationBiological and Environmental Sciencesen_UK
dc.contributor.affiliationBiological and Environmental Sciencesen_UK
dc.contributor.affiliationUniversity of Glasgowen_UK
dc.contributor.affiliationUniversity of Glasgowen_UK
dc.contributor.affiliationTianjin University, Chinaen_UK
dc.contributor.affiliationBiological and Environmental Sciencesen_UK
dc.identifier.isiWOS:000504042700003en_UK
dc.identifier.scopusid2-s2.0-85073272372en_UK
dc.identifier.wtid1468527en_UK
dc.contributor.orcid0000-0001-7020-4410en_UK
dc.contributor.orcid0000-0002-6200-562Xen_UK
dc.date.accepted2019-10-03en_UK
dcterms.dateAccepted2019-10-03en_UK
dc.date.filedepositdate2019-11-05en_UK
rioxxterms.apcpaiden_UK
rioxxterms.typeJournal Article/Reviewen_UK
rioxxterms.versionVoRen_UK
local.rioxx.authorBuckerfield, Sarah J|en_UK
local.rioxx.authorQuilliam, Richard S|0000-0001-7020-4410en_UK
local.rioxx.authorWaldron, Susan|en_UK
local.rioxx.authorNaylor, Larissa A|en_UK
local.rioxx.authorLi, Siliang|en_UK
local.rioxx.authorOliver, David M|0000-0002-6200-562Xen_UK
local.rioxx.projectProject ID unknown|FIO|en_UK
local.rioxx.projectNE/N007425/1|Chinese Academy of Sciences|en_UK
local.rioxx.projectNE/L002590/1|Natural Environment Research Council|http://dx.doi.org/10.13039/501100000270en_UK
local.rioxx.project41571130072|National Natural Science Foundation of China|en_UK
local.rioxx.freetoreaddate2019-11-05en_UK
local.rioxx.licencehttp://creativecommons.org/licenses/by/4.0/|2019-11-05|en_UK
local.rioxx.filenameBuckerfield WR 2019.pdfen_UK
local.rioxx.filecount1en_UK
local.rioxx.source2589-9147en_UK
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