Dr Isabel Douterelo Soler (she/her)
BSc, PhD
School of Mechanical, Aerospace and Civil Engineering
Lecturer in Water & Applied Microbiology
+44 114 222 9728
Full contact details
School of Mechanical, Aerospace and Civil Engineering
Room MezC4a
Sir Frederick Mappin Building (Broad Lane Building)
Mappin Street
91探花
S1 3JD
- Profile
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My research aims to understand and solve water quality problems in urban water systems to contribute protecting public health and the environment.
Dr Isabel Douterelo-Soler
Isabel's expertise lies in interdisciplinary knowledge that brings together microbial research and water engineering.
She joined the Department of Civil & Structural Engineering in 2010, as a Research Associate in an EPSRC Challenging Engineering funded project and in 2016 she was awarded an independent EPSRC-Living with Environmental Change Fellowship.
During her career to date, she has worked with a range of public bodies, commercial companies, and academic departments delivering impact from her research. Her research has generated cutting-edge discoveries on the impact of climate change on drinking water distribution systems, whilst informing water practitioners on decision making and water management strategies.
Currently, Isabel is investigating public health risks associated with urban flooding, the use of molecular methods to monitor pollution in UK rivers in collaboration with Yorkshire Water and the Environment Agency, and the use of constructed wetlands to treat surface runoff pollution.
- Research interests
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The scope of Isabel鈥檚 work covers drinking water supply, sewage systems, and groundwater, and how these three interact. For example, drinking water supply pipes and sewage infrastructure are often located near each other underground. Extreme weather events such as flooding combined with damaged buried infrastructure can cause cross-contamination from one system to the other and compromise public health.
The ultimate goal of Isabel鈥檚 research is to develop new management, monitoring and risk mitigation technologies to protect public health and enhance climate change adaptation of urban water systems.
- Publications
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Journal articles
- . Science of The Total Environment, 168565-168565.
- . Water Research, 201.
- . Water Research, 187.
- . npj Biofilms and Microbiomes, 6(1).
- . Science of The Total Environment, 754.
- . Access Microbiology, 2(7A).
- . Water, 12(5).
- . Water, 12(4).
- . Water Research.
- . Frontiers in Microbiology, 11, 599091.
- . Journal of Hazardous Materials.
- . Access Microbiology, 1(1A).
- . Wiley Interdisciplinary Reviews: Water, 6(1).
- . Environmental Science Water Research & Technology, 4(12), 2080-2091.
- . Water Research, 141, 74-85.
- . Water Research, 144, 36-45.
- . Science of The Total Environment, 616-617, 345-354.
- . Science of the Total Environment, 581-582, 277-288.
- . Water Science and Technology: Water Supply, 16(4), 942-950.
- . Applied and Environmental Microbiology, 82(14), 4155-4168.
- . Applied Microbiology and Biotechnology, 100(7), 3301-3311.
- . PLOS ONE, 10(2), e0115824-e0115824.
- . Water Research, 65, 134-156.
- . J Appl Microbiol, 117(1), 286-301.
- . Water Res, 54, 100-114.
- . Water Research, 47(2), 503-516.
- . Proceedings of the National Academy of Sciences, 108(50), 20236-20241.
- Enzyme activities and compositional shifts in the community structure of bacterial groups in English wetland soils associated with preservation of organic remains in archaeological sites. International Biodeterioration Biodegradation.
- . International Biodeterioration and Biodegradation, 65(3), 435-443.
- . APPL SOIL ECOL, 44(3), 219-227.
- . INT BIODETER BIODEGR, 63(6), 795-805.
- Molecular studies on the Niphargus kochianus group (Crustacea: Amphipoda: Niphargidae) in Great Britain and Ireland.. Cave and Karst Science, 35(1), 35-40.
- Molecular studies on the Niphargus kochianus group (Crustacea: Amphipoda: Niphargidae) in Great Britain and Ireland. Cave and Karst Science, 35(1-2), 35-40.
- . J PHYCOL, 42(1), 61-66.
- . ENVIRON POLLUT, 127(3), 377-384.
- . Frontiers in Environmental Science, 10.
- . Water, 13(21), 3069-3069.
- . Frontiers in Microbiology, 12.
Conference proceedings papers
- . Access Microbiology, Vol. 4(5). virtual, 26 April 2021 - 30 April 2021.
- . Access Microbiology, Vol. 4(5). virtual, 26 April 2021 - 30 April 2021.
- Monitoring biofilm communities in operational drinking water distribution systems and the impact on water quality. 1st International WDSA / CCWI 2018 Joint Conference
- . Procedia Engineering, Vol. 89 (pp 135-142)
- . Conservation and Management of Archaeological Sites, Vol. 14(1-4) (pp 126-149)
- Impact of hydraulic events on organic and inorganic material in distribution systems. AWWA Water Quality Technology Conference. Long Beach, California, USA, 4 November 2013 - 7 November 2013.
- Biofilms and Discolouration Material Accumulation Processes in Drinking Water Distribution Systems and Modelling the Hydraulic. IWA Specialist Conference Biofilms in Drinking Water systems from treatment to tap. Arosa, Switzerland, 23 August 2015 - 26 August 2015.
- The impact of hydraulic conditions upon drinking water distribution system biofilms. biofilms鈥 IWA Specialist Conference Biofilms in Drinking Water systems from treatment to tap. Arosa, Switzerland, 23 August 2015 - 26 August 2015.
Other
Preprints
- Research group
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Groundwater Protection & Restoration
SuDS (Sustainable drainage systems) & Uran Drainage
- Grants
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NBIC proposal with Welsh Water
The aim of this project is to facilitate novel research investigating the impact of phosphate dosing and lead leaching on drinking water quality and safety. Phosphate is added to control plumbosolvency and corrosion in metallic pipes hence it is used to protect consumer鈥檚 health and water quality.
The Addition of Phosphate Dosing to Dwr Cymru Welsh Water zone B10
This provides an opportunity to investigate how the addition of phosphate can impact the microbial community and subsequent water quality interactions. The project will also benefit with support from the PODDS project that will investigate the impact of phosphate dosing on discolouration risk. This project therefore offers multiple mutual benefits to both parties investigating the poorly understood impact of phosphate dosing.
This research is developing a fundamental understanding of the microbial ecology of intermittently operated water distribution systems to inform operational or construction risk reduction strategies. Funded by US NSF and EPSRC, this project is a collaboration between the University of Massachusetts Amherst and the University of 91探花.
- Teaching activities
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CIV235 Water and Wastewater
CIV61015 Water Quality Processes and Treatment
- Potential PhD offerings
Unfortunately I am not seeking any PhD Students at this time, however please contact me if you are interested in doing a project in my research area.