Laura A. Richards
Water quality across the River Ganga basin in India: Trends, dominant geochemical processes and impacts
Richards, Laura A.; Fox, Bethany; Reynolds, Darren; Thorn, Robin; Clayton, Gillian; Perrin, Eva; Dutta, Tapan K; Bowes, Michael J; Read, Daniel S; Nicholls, David J.E.; Armstrong, Linda K; Hazra, Moushumi; Joshi, Himanshu; Richards, Laura A; Polya, David A; Ghosh, Ashok; Kumar, Arun; Kumari, Rupa; Gaurav, Aman; Kumar, Siddhu; Kumar, Sumant; Chakravorty, Biswajit; Gooddy, Daren; Krause, Stefan; Khamis, Kieran; Nel, Holly; Schneidewind, Uwe; Howard, Ben; Mewes, Danielle; Hannah, David; Magnone, Daniel
Authors
Bethany Fox Bethany.Fox@uwe.ac.uk
Occasional Associate Lecturer - HAS - DAS
Darren Reynolds Darren.Reynolds@uwe.ac.uk
Professor in Health and Environment
Dr Robin Thorn Robin2.Thorn@uwe.ac.uk
Director of Research and Enterprise
Dr Gillian Clayton Gillian.Clayton@uwe.ac.uk
Occasional Associate Lecturer - HAS DAS
Eva Perrin
Tapan K Dutta
Michael J Bowes
Daniel S Read
David J.E. Nicholls
Linda K Armstrong
Moushumi Hazra
Himanshu Joshi
Laura A Richards
David A Polya
Ashok Ghosh
Arun Kumar
Rupa Kumari
Aman Gaurav
Siddhu Kumar
Sumant Kumar
Biswajit Chakravorty
Daren Gooddy
Stefan Krause
Kieran Khamis
Holly Nel
Uwe Schneidewind
Ben Howard
Danielle Mewes
David Hannah
Daniel Magnone
Abstract
In a basin-wide survey of the River Ganga and key tributaries, from the Himalayan source to the Bay of Bengal in India, we aim to improve the conceptual understanding of downstream water quality trends along > 2000 km. Here we explore the spatial distribution of a suite of inorganic and organic chemicals, nutrients and wastewater indicators to determine the dominant geochemical process controls across the basin. Sampling was undertaken at 81 sites in the post-monsoon period of 2019. We use chemical signatures to identify likely sources, characterise potential higher-pollution zones and to determine the relative importance of regional versus localized controls on the observed water quality parameters, including in relation to contaminant type. The influence from key tributaries is determined. We seek to unravel the relative importance of mechanisms such as dilution, evaporation, water-rock interactions and anthropogenic inputs in controlling contaminant distribution. We assess the representativeness of river bank sampling in comparison to cross-river transects in select locations. We compare our data to historical records across previous annual cycles, noting differences in extent of agreement according to contaminant type. This coordinated, catchment-wide survey presents a much broader and more comprehensive dataset than typically reported, hence leading to substantially improved process understanding of dominant controls on contaminant distribution across the catchment. This work may have implications on informing future monitoring efforts and in identifying future remediation priorities.
| Presentation Conference Type | Presentation / Talk |
|---|---|
| Conference Name | EGU General Assembly 2021 |
| Start Date | Apr 19, 2021 |
| End Date | Apr 30, 2021 |
| Deposit Date | Feb 21, 2022 |
| DOI | https://doi.org/10.5194/egusphere-egu21-10642 |
| Public URL | https://uwe-repository.worktribe.com/output/9045349 |
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