MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems

Peter Deines; Raju Sekar; Henriette S. Jensen; Simon Tait; Joby B. Boxall; A. Mark Osborn; Catherine A. Biggs

MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems

Peter Deines, Raju Sekar, Henriette S. Jensen, Simon Tait, Joby B. Boxall, A. Mark Osborn, Catherine A. Biggs^*

^*Corresponding author for this work

Research output: Chapter in Book or Report/Conference proceeding › Conference Proceeding › peer-review

1 Citation (Scopus)

Abstract

Microbiology in Urban Water Systems (MUWS) is an integrated project, which aims to characterize the microorganisms found in both potable water distribution systems and sewer networks. These large infrastructure systems have a major impact on our quality of life, and despite the importance of these systems as major components of the water cycle, little is known about their microbial ecology. Potable water distribution systems are large, highly interconnected and dynamic, and difficult to control. Sewer systems are also large and subject to time varying inputs and demands. Their performance also faces increasing loading due to increasing urbanization and longer-term environmental changes. Therefore, understanding the link between microbial ecology and any potential impacts on short or long-term engineering performance is important. By combining the strengths and research expertise of civil-, biochemical engineers and molecular microbial ecologists, we aim to link the abundance and diversity of microorganisms to physical and engineering variables so that novel insights into the ecology of microorganisms within both water distribution systems and sewer networks can be explored. By presenting the details of this multidisciplinary approach, and the principals behind the molecular microbiological methods and techniques that we use, this paper will demonstrate the potential of an integrated approach to better understand urban water system function and so meet future challenges.

Original language	English
Title of host publication	Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009
Pages	397-403
Number of pages	7
Publication status	Published - 2010
Externally published	Yes
Event	10th International Conference on Computing and Control for the Water Industry: Integrating Water Systems, CCWI 2009 - Sheffield, United Kingdom Duration: 1 Sept 2009 → 3 Sept 2009

Publication series

Name	Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009

Conference

Conference	10th International Conference on Computing and Control for the Water Industry: Integrating Water Systems, CCWI 2009
Country/Territory	United Kingdom
City	Sheffield
Period	1/09/09 → 3/09/09

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

Deines, P., Sekar, R., Jensen, H. S., Tait, S., Boxall, J. B., Osborn, A. M., & Biggs, C. A. (2010). MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems. In Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009 (pp. 397-403). (Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009).

Deines, Peter ; Sekar, Raju ; Jensen, Henriette S. et al. / MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems. Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009. 2010. pp. 397-403 (Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009).

@inproceedings{344801fd81f64fcda449e9244553d718,

title = "MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems",

abstract = "Microbiology in Urban Water Systems (MUWS) is an integrated project, which aims to characterize the microorganisms found in both potable water distribution systems and sewer networks. These large infrastructure systems have a major impact on our quality of life, and despite the importance of these systems as major components of the water cycle, little is known about their microbial ecology. Potable water distribution systems are large, highly interconnected and dynamic, and difficult to control. Sewer systems are also large and subject to time varying inputs and demands. Their performance also faces increasing loading due to increasing urbanization and longer-term environmental changes. Therefore, understanding the link between microbial ecology and any potential impacts on short or long-term engineering performance is important. By combining the strengths and research expertise of civil-, biochemical engineers and molecular microbial ecologists, we aim to link the abundance and diversity of microorganisms to physical and engineering variables so that novel insights into the ecology of microorganisms within both water distribution systems and sewer networks can be explored. By presenting the details of this multidisciplinary approach, and the principals behind the molecular microbiological methods and techniques that we use, this paper will demonstrate the potential of an integrated approach to better understand urban water system function and so meet future challenges.",

author = "Peter Deines and Raju Sekar and Jensen, {Henriette S.} and Simon Tait and Boxall, {Joby B.} and Osborn, {A. Mark} and Biggs, {Catherine A.}",

year = "2010",

language = "English",

isbn = "9780415548519",

series = "Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009",

pages = "397--403",

booktitle = "Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009",

note = "10th International Conference on Computing and Control for the Water Industry: Integrating Water Systems, CCWI 2009 ; Conference date: 01-09-2009 Through 03-09-2009",

}

Deines, P, Sekar, R, Jensen, HS, Tait, S, Boxall, JB, Osborn, AM & Biggs, CA 2010, MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems. in Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009. Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009, pp. 397-403, 10th International Conference on Computing and Control for the Water Industry: Integrating Water Systems, CCWI 2009, Sheffield, United Kingdom, 1/09/09.

MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems. / Deines, Peter; Sekar, Raju; Jensen, Henriette S. et al.
Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009. 2010. p. 397-403 (Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009).

Research output: Chapter in Book or Report/Conference proceeding › Conference Proceeding › peer-review

TY - GEN

T1 - MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems

AU - Deines, Peter

AU - Sekar, Raju

AU - Jensen, Henriette S.

AU - Tait, Simon

AU - Boxall, Joby B.

AU - Osborn, A. Mark

AU - Biggs, Catherine A.

PY - 2010

Y1 - 2010

N2 - Microbiology in Urban Water Systems (MUWS) is an integrated project, which aims to characterize the microorganisms found in both potable water distribution systems and sewer networks. These large infrastructure systems have a major impact on our quality of life, and despite the importance of these systems as major components of the water cycle, little is known about their microbial ecology. Potable water distribution systems are large, highly interconnected and dynamic, and difficult to control. Sewer systems are also large and subject to time varying inputs and demands. Their performance also faces increasing loading due to increasing urbanization and longer-term environmental changes. Therefore, understanding the link between microbial ecology and any potential impacts on short or long-term engineering performance is important. By combining the strengths and research expertise of civil-, biochemical engineers and molecular microbial ecologists, we aim to link the abundance and diversity of microorganisms to physical and engineering variables so that novel insights into the ecology of microorganisms within both water distribution systems and sewer networks can be explored. By presenting the details of this multidisciplinary approach, and the principals behind the molecular microbiological methods and techniques that we use, this paper will demonstrate the potential of an integrated approach to better understand urban water system function and so meet future challenges.

AB - Microbiology in Urban Water Systems (MUWS) is an integrated project, which aims to characterize the microorganisms found in both potable water distribution systems and sewer networks. These large infrastructure systems have a major impact on our quality of life, and despite the importance of these systems as major components of the water cycle, little is known about their microbial ecology. Potable water distribution systems are large, highly interconnected and dynamic, and difficult to control. Sewer systems are also large and subject to time varying inputs and demands. Their performance also faces increasing loading due to increasing urbanization and longer-term environmental changes. Therefore, understanding the link between microbial ecology and any potential impacts on short or long-term engineering performance is important. By combining the strengths and research expertise of civil-, biochemical engineers and molecular microbial ecologists, we aim to link the abundance and diversity of microorganisms to physical and engineering variables so that novel insights into the ecology of microorganisms within both water distribution systems and sewer networks can be explored. By presenting the details of this multidisciplinary approach, and the principals behind the molecular microbiological methods and techniques that we use, this paper will demonstrate the potential of an integrated approach to better understand urban water system function and so meet future challenges.

UR - http://www.scopus.com/inward/record.url?scp=84859919874&partnerID=8YFLogxK

M3 - Conference Proceeding

AN - SCOPUS:84859919874

SN - 9780415548519

T3 - Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009

SP - 397

EP - 403

BT - Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009

T2 - 10th International Conference on Computing and Control for the Water Industry: Integrating Water Systems, CCWI 2009

Y2 - 1 September 2009 through 3 September 2009

ER -

Deines P, Sekar R, Jensen HS, Tait S, Boxall JB, Osborn AM et al. MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems. In Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009. 2010. p. 397-403. (Integrating Water Systems - Proceedings of the 10th International on Computing and Control for the Water Industry, CCWI 2009).

MUWS (Microbiology in Urban Water Systems) - An interdisciplinary approach to study microbial communities in urban water systems

Abstract

Publication series

Conference

UN SDGs

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