Abstract
The current situation in the Lancang–Mekong River Basin is emblematic of the issues faced by many transboundary basins around the world: riparian countries prioritize national water-energy policies and provide limited information on how major infrastructures are operated. In turn, such infrastructures and their management become a source of controversy. Here, we turn our attention to the Upper Mekong River, or Lancang, where a system of eleven mainstream dams controls about 55 % of the annual flow to Northern Thailand and Laos. Yet, assessing their actual impact is a challenging task because of the chronic lack of data on reservoir storage and dam release decisions. To overcome this challenge, we focus on the ten largest reservoirs and leverage satellite observations to infer 13-year time series of monthly storage variations. Specifically, we use area-storage curves (derived from a Digital Elevation Model) and time series of water surface area, which we estimate from Landsat images through a novel algorithm that removes the effects of clouds and other disturbances. We also use satellite radar altimetry data (Jason) to validate the results obtained from satellite imagery. Our results describe the evolution of the hydropower system and highlight the pivotal role played by Xiaowan and Nuozhadu reservoirs, which make up to ~85 % of the total system's storage in the Lancang River Basin. We show that these two reservoirs were filled in only two years, and that their operations did not change in response to the drought that occurred in the region in 2019–2020. Deciphering these operating strategies could help enrich existing monitoring tools and hydrological models, thereby supporting riparian countries in the design of more cooperative water-energy policies.
Highlights
In many transboundary river basins, conflicting dynamics between riparian countries are typically the result of different views on infrastructure development and management (Warner and Zawahri, 2012)
Our results describe the evolution of the hydropower system and highlight the pivotal role played by Xiaowan and Nuozhadu reservoirs, which make up to ∼85% of the total system’s storage in the Lancang River Basin
We begin by processing the information contained 155 in the Digital Elevation Model (DEM) to estimate the relationship between water level (WL) and water surface area (WSA) for each reservoir
Summary
In many transboundary river basins, conflicting dynamics between riparian countries are typically the result of different views on infrastructure development and management (Warner and Zawahri, 2012). Basin is no exception: during the past three decades, the basin has witnessed a rapid development of its hydropower fleet (Chowdhury et al, 2021), which has altered the hydrological regime (Dang et al, 2016; Räsänen et al, 2017) and changed the sediment budget (Kondolf et al, 2018; Binh et al, 2020), thereby degrading riverine ecosystems and threatening riparian communities (Sabo et al, 2017; Soukhaphon et al, 2021) These profound and ramified changes have challenged the 25 relation between riparian countries (Wei et al, 2021). China has yet to share detailed and comprehensive data on dam operations; agreements on data sharing and quality control are only at their infancy (Johnson, 2020) Because of these reasons, the Lancang’s dams have become a source of controversy between China and downstream countries (IRN, 2002; 35 Eyler and Weatherby, 2020; Kallio and Fallon, 2020). To assess their actual impact and inform cooperative efforts, we must first quantify and understand how these dams have been operated
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