Assessment of the impact of climate change and mining activities on streamflow and selected metal’s loading in the Chindwin River, Myanmar

Friday, July 19 2024

(a) Water Engineering and Management, Asian Institute of Technology, P.O. Box 4, Klong Luang, Pathum Thani, 12120, Thailand

(b) Water Engineering and Management, Asian Institute of Technology, P.O. Box 4, Klong Luang, Pathum Thani, 12120, Thailand

(c) Stockholm Environment Institute, Asia Centre, Chulalongkorn Soi 64, Phyathai Road, Pathumwan, Bangkok, 1033, Thailand
The rapid expansion in mining activities is deteriorating the water quality in the Chindwin River of Myanmar. In addition, climate change may also aggravate this situation in future. Therefore, the aim of this study was to establish a connection between hydrology, mining area, heavy metal loading, and climate change in the Chindwin River. The hydrology of the upper Chindwin basin was modelled using SHETRAN hydrological model. Geochemical model PHREEQC was utilised to conduct speciation and saturation indexes modelling along the river in order to quantify the precipitated minerals along the river. Thereafter a regression relationship along with LOADEST model was used to quantify the heavy metal loads. Future climate was projected using four RCM’s namely ACCESS1-CSIRO-CCAM, CCSM4-CSIRO-CCAM, CNRM-CM5-CSIRO-CCAM and MPI-ESM-LR-CSIRO-CCAM. Future discharges at water quality monitoring stations were simulated using the averaged ensembles. Finally, the heavy metal loading under future climate scenarios were analysed. Results indicate that climate change is likely to reduce future discharges by 3.4%–36.5% in all stations except in the Mokekalae station which shows 1.3%–9.4% increase in the near future discharges. Also, the projected metal loading under future climate conditions shows a decreasing pattern which is similar to the projected discharge pattern. In both baseline and future climate conditions, the area between stations Naung Po Aung and Uru downstream show the highest load effluent for both arsenic and mercury while the area between stations Uru downstream and Mokekalae show the highest load of iron effluent. Although future heavy metal loadings are expected to decrease, mining activities should be carefully monitored, since they discharge a large amount of toxic heavy metal loadings into the Chindwin River which is also expected to suffer a decrease streamflow in future.

Cite

Shrestha, S., Gunawardana, S.K., Piman, T., Babel, M.S., 2019. Assessment of the impact of climate change and mining activities on streamflow and selected metal’s loading in the Chindwin River, Myanmar. Environmental Research, https://doi.org/10.1016/j.envres.2019.108942.

Keyword(s)

Climate Change, Gold Mining, Heavy Metal Load, LOADEST, SHETRAN, Streamflow

Author(s)

Sangam Shrestha, Shakthi K. Gunawardana, Thanapon Piman, Mukand S. Babel

Country(ies)

Myanmar

Publisher

Science Direct

Published Date

DOI

10.1016/j.envres.2019.108942

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