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Towards Sustainable Reservoir Management Under Future Climate: A Modelling Approach

  • Zati SharipEmail author
  • A. J. Hassan
  • M. N. M. Noh
Conference paper
Part of the Water Resources Development and Management book series (WRDM)

Abstract

Climate change is affecting inland waterbodies such as reservoirs worldwide by altering the hydrological processes such as rainfall amount and the surface water evaporation. These changes shape the reservoir water level and subsequently affect dam storage capacity and functioning and the overall lake ecosystem including pattern of aquatic plant occurrence. In this study, the application of numerical modelling was performed to improve understanding on the impact of climate change on lake hydrology and water level in Beris Reservoir, Kedah in Malaysia. By incorporating land use pattern, hydrology, dam characteristics and operations as the variable parameters, hydrologic-hydraulic model was constructed using the integrated catchment model (ICM) approach. Calibration was performed using reservoir water level and rainfall amount at 2 rainfall stations near the catchment over 6 months. Two future hydroclimate projection data at the lake catchment (6 km grid resolution) are used to simulate the climate change impacts on the reservoir. Based on the simulation, the water balance of Beris reservoir is very sensitive to rainfall changes and the river water release for downstream water intakes. Frequency of changes in water level between the two scenarios provided better understanding on the potential occurrence of aquatic plants requiring reservoir management. The findings show that the numerical model predicts well the different climate change impacts on lake basin hydrology and ecosystem.

Keywords

Beris reservoir Climate change Lake management Macrophyte 

Notes

Acknowledgement

The author acknowledges the Department of Irrigation and Drainage, Malaysia (DID) and National Hydraulic Research Institute of Malaysia (NAHRIM) for provision of data used for this study. Special thanks are accorded to Haizum Zulkarnain and Afizi Jamadin for their assistance in the study. We would like to thank Ir Baharuddin Abdullah, Ir Dr Lee Hin Lee and Ir Mohd Zaki Mat Amin for their support in the project.

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Copyright information

© Springer Nature Singapore Pte Ltd. 2020

Authors and Affiliations

  1. 1.Lake Research UnitWater Quality and Environment Research Centre, NAHRIMSeri KembanganMalaysia
  2. 2.River Net Consulting Sdn BhdShah AlamMalaysia
  3. 3.Director General Office, National Hydraulic Research Institute of Malaysia (NAHRIM)Seri KembanganMalaysia

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