Sustainable Development on the Mekong


The Mekong River in Southeast Asia is filled with possibilities when it comes to hydropower development, but a number of concerns can make building new hydro facilities there a tricky and uncertain endeavor.

By Bob Doucette
associate editor of HRW-Hydro Review Worldwide.

As it flows south through Southeast Asia, the Mekong River — steeped in history and rich in wildlife — represents the future of progress and security for many in the region.

In terms of hydropower, it’s one of the least-developed among the world’s great rivers. Rapidly industrializing Southeast Asian nations are eager to tap into its power, and countries with few resources but ample water supply are all too happy to oblige.

Because of this, 15 projects are now in some state of development on this river in China, Myanmar, Laos, Thailand, Cambodia and Vietnam. Eight projects representing more than 10,000 MW of capacity are proposed for development in Laos alone.

But there is uncertainty surrounding hydro development on the river and the tributaries that feed it. Downstream nations fear hydro projects constructed upstream will choke off waters needed for irrigating farms. But more worry that new dams will have an adverse impact on the region’s fish populations, of which there are many species but relatively little knowledge.

The Mekong River holds great promise in terms of energy, but also a lot of questions for those concerned about its biodiversity and the welfare of the people who depend on it for daily life. That calls for careful planning, says one industry expert.

“The full benefits of hydropower can only be achieved when hydropower is developed in a sustainable way, sharing its many benefits and meeting the need to avoid, mitigate or adequately compensate for adverse impacts on local communities and environments,” says Richard Taylor, executive director of the International Hydropower Association. “Correctly conducted and responsibly implemented project impact assessments and related management plans play a significant role in ensuring that this is achieved.”

Current development

Hydro development in the Mekong River region has been active, and plans now being made are ambitious, according to figures provided by IHA. Below is a breakdown of development under way or planned in the six countries mentioned earlier.

In Vietnam, developers added nearly 2 GW of capacity last year and plan to increase total capacity to 17 GW by 2020.

Cambodia has projects representing 720 MW of capacity under construction and another 958 MW planned with 193 MW commissioned in 2011.

Thailand has been more active in signing power purchase agreements, tapping into its neighbors’ resources to fill its growing power needs, Taylor says. But that doesn’t mean the country is sitting still. Developers there are planning to add two units with a total capacity of 500 MW to the Lam Takhong pumped-storage facility by June 2017. Work is also progressing on the 12 MW Bang Lang renovation, which is expected to be completed in 2015.

China has been particularly active in its hydropower development, adding 12.25 GW in 2011 to reach a total of 230 GW, IHA reports. Significant growth is expected, as China hopes to reach 280 GW by 2015 with about 7 GW of this being newly deployed on the upper Mekong River.

Myanmar now has about 360 MW of hydropower capacity in the region, but there are plans for much more. Myanmar Electric Power Enterprise has identified about 200 potential sites for hydropower development that could bring another 38 GW of installed capacity.

One of the region’s smallest and poorest nations, Laos, is also planning big. The country has been seen as wanting to be “the battery of Southeast Asia,” generating and exporting power to its more industrialized, energy-hungry neighbors.

Laos opened the 1,070 MW Nam Thuen 2 project in 2011 and 120 MW Nam Ngum 5 in 2012. Another 1 GW of hydro projects is under construction, and many more are being planned or are in the feasibility stage, IHA reports. Two projects being developed on Laos’ border with Thailand represent a capacity of 2,951 MW, and that combined with other proposed projects could grow Laos’ hydropower capacity by more than 10 GW by 2018.

Investors have been keen to help fund Laotian hydropower, with the South Korean Economic Development Fund signing a tentative US$70 million financing deal for hydro development on the Mekong. But Laos is also a scene of conflict between developers and those opposing dam construction. The latest epicenter of that dispute is the proposed 1,260 MW Xayaburi project.

Dam construction challenges

At US$3.5 billion, Xayaburi is one of the bigger proposed projects for Laos. Plans were going forward to begin construction, but those came to a halt earlier this year over concerns about how the dam might affect the river’s ecosystem.

Under pressure from a collection of water and environmental ministers from Cambodia, Laos, Thailand and Vietnam, the Laotian government suspended construction on this project so more studies could be done regarding how the dam might affect downstream water supplies and the river’s fish populations. These issues are being assessed intensively by the Mekong River Commission.

Food security is one issue cited by Xayaburi’s critics, as some fear the project might limit water supplies to downstream farmers who needs large quantities of water for rice crops. People living along the river also depend on its abundance of fish, as that is the most plentiful source of protein in the region, says John Ferguson, an expert in fish passage issues who has studied some of the challenges facing hydro developers on the Mekong River.

Projects such as 4,200 MW Xiaowan in China, commissioned in 2010, impound water from the Mekong and generate power for an energy-hungry nation.

Ferguson says it has taken decades for American dam owners to hone the art of fish passage along western waterways like the Columbia River, which is where he has spent much of his career working. Ferguson says the standard fish ladders and turbine designs used to help preserve fish populations in the USA’s Pacific Northwest can help hydro developers in Southeast Asia, but there are several differences that make fish passage issues there much more complicated.

On the Columbia River in the USA, for example, fish passage experts study about a half-dozen species that migrate up and down the river at fairly regular times. By contrast, there are about 125 species of migratory fish that travel up and down the Mekong River at varying times, Ferguson says. And while biologists have been able to compile robust documentation on fish in the USA, very little is known about species in the Mekong River.

Mekong River Facts


— The Mekong is the 12th longest river in the world at 4,350 km.

— The Mekong runs through China, Thailand, Laos, Cambodia, Myanmar and Vietnam.

— The Mekong is thought to have the second-greatest amount of biodiversity of any river in the world. The Amazon River is first.

Sources: International Journal of Digital Earth, International Center for Environmental Management

“You really don’t have any data on these species,” he says. “You don’t know the basic requirements of these fish. Based on what I’ve seen on the Columbia, it’s going to take a lot of work and it’s going to be a big challenge. You’ve got so many fish species moving at different times into various reaches of the river.”

Ferguson says more research is needed on local fish populations to determine how they might react to fish ladders and fish bypass designs and placement, and what effects dams could have on flow volumes that fish have evolved to use to complete their life cycles, especially during the region’s dry seasons. Natural barriers to fish passage don’t occur until you get about 1,100 km upstream, Ferguson says, meaning that fish in the Mekong are accustomed to being able to migrate for very long distances to find food and conditions that foster successful breeding.

To accommodate this, dam and turbine design will be critical. “Either you have highly efficient turbines in terms of fish passage or you design your dams to allow large volumes of water that bypass the turbines to give fish a better chance of avoiding the turbines altogether,” he says.

The Mekong River in Southeast Asia is one of the world’s largest waterways but is largely untapped in terms of hydropower development. Several countries through which the Mekong flows are planning hydro projects.

With the demand for power rising, he concludes that comprehensive engineering and biological studies need to happen soon, and bolstering the region’s research institutions — which are, at this stage, far behind those in more developed nations — will be critical. “Now is the time to do the design work and the research,” Ferguson says.

Mekong Hydro Development by Country

Many hydro projects are under construction or proposed for development on the Mekong River. The list below, provided by the International Hydropower Association, gives a snapshot of hydro activity on the river.


Gongguoqiao, 750 MW, under construction

Nuozhada, 5,850 MW, under construction

Ganlanba, 155 MW, proposed


Don Sahong, 360 MW, proposed

Lat Sua, 800 MW, proposed

Luang Prabang, 1,410 MW, proposed

Pak Beng, 1,230 MW, proposed

Pak Lay, 1,320 MW, proposed

Sanakham, 700 MW, proposed

Takho, 50-60 MW, proposed

Xayaburi, 1,260 MW, proposed

Laos/Thailand border projects

Ban Koum, 1,872 MW, proposed

Pak Chom, 1,079 MW, proposed


Sambor, 2,600 MW, proposed

Stung Treng, 980 MW, proposed

Finding solutions to the Mekong’s challenges

These issues have some calling for a halt on dam construction on the river. The Washington, D.C.-based National Academy of Sciences says that up to a quarter of the migratory fish species in the lower Mekong River could die out if development plans go on as scheduled.

But IHA’s Taylor says there is a pressing need for development in the region. Balancing environmental and energy needs was a major factor in forming the IHA’s Sustainability Assessment Protocol, a set of guidelines designed to facilitate responsible and effective hydro development. Using the protocol could provide the right kind of guidance, he says.

“The hydropower Sustainability Assessment Protocol allows for a balanced review of hydropower on a case-by-case basis,” Taylor explains. “This promotes both informed dialogue and efficient decision making. IHA looks forward to working with all participants willing to engage in the application of this protocol.”

The keys to unlocking the power of the Mekong River might be similar to those which hydropower developers learned in the USA: Putting in the needed time for research and development can preserve local ecosystems, protect people’s food sources and harness badly needed renewable energy.

In the rush to provide power to a rapidly industrializing part of the world, perhaps the most critical component to success can be summed up in a single word.


More HRW Current Issue Articles
More HRW Archives Issue Articles

Previous articleSolar Plane Crosses the Moroccan Desert
Next articleREW Volume 15 Issue 4

No posts to display