The caravan…began winding up a long but gradually inclined hill until it reached its summit, when the vast expanse of the pale-blue waters of the N’yanza burst suddenly upon my gaze. It was early morning. The distant sea-line of the north horizon was defined in the calm atmosphere between the north and west points of the compass; but even this did not afford me any idea of the breadth of the lake….This view was one which, even in a well-known and explored country, would have arrested the traveller by its peaceful beauty. Though pastoral when British explorer John Hanning Speke became the first European to explore its shores, today, Lake Victoria in East Africa is one of the most populous regions in the world. The lake provides food, transport, and electricity to more than 30 million people, but its resources are limited. Despite its impressive size—it’s the third-largest lake in the world—Lake Victoria is shallow, resembling, in Speke’s words, “the temporary deposit of a vast flood overspreading a large flat surface.” Until the Owens Falls Dam began to regulate water levels from the lake’s only outlet in 1954, the amount of water in the lake jumped drastically from year to year depending on rainfall. Though water levels continued to vary after the dam was built, they remained more than 11.9 meters above a gauge in Jinja, Uganda. But in early 2006, the Jason-1 satellite revealed that Lake Victoria had reached lows not seen since well before the dam was built. |
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The dramatic drop in water levels at Lake Victoria was revealed during routine monitoring conducted by the Global Reservoir and Lake Monitor Project, a partnership between NASA and the U.S. Department of Agriculture (USDA). “It’s a general practice [in crop monitoring] to look at the water supply, and one of the tools to do that is to look at reservoir heights. Reservoirs show how much long-term water storage is available,” says Curt Reynolds, an agricultural analyst and hydrologist who monitors crop conditions in Africa for the USDA’s Foreign Agricultural Service. But water-level data are not always easy to obtain through on-site measurements: the lakes may be hard to get to, gauges can be inaccurate, or local governments may not want to share that information. The Foreign Agricultural Service monitors lakes and reservoirs with the radar altimeter on the Jason-1 satellite, operated jointly by NASA and the Centre National d’Etudes Sptiales (CNES), the French space agency. “Jason-1 emits microwave pulses towards the Earth’s surface,” says Charon Birkett, the University of Maryland researcher that heads up the team that prepares data for the Foreign Agricultural Service. The water height influences how long it takes the microwave “echo” to return to the satellite. “Lake Victoria is such a big lake that you get lots of echoes as the satellite goes across it,” says Birkett. As a result, the water-level measurements are accurate to within 3-5 centimeters. “Considering that Jason is 1,300 kilometers up there, that’s pretty good,” Birkett adds. The accuracy means that analysts like Reynolds can use Jason-1 data—data that are immediately available on a weekly basis compared to less frequent and less timely ground measurements—to extend a lake’s historical record collected from gauges. “The fit [agreement] is good between the radar altimeter and the gauge measurements,” says Reynolds. A longer record provides the perspective that resource managers need to understand what current changes in water levels mean for a particular lake and the surrounding region. |
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In the case of Lake Victoria, the story told by water levels is complicated. Thirteen years of measurements taken by satellite radar altimeters combined with historical ground measurements reveal Lake Victoria’s volatile past. In the 105-year history of accurate measurements on the lake, water levels have fluctuated widely. In 1961 and 1962, for example, heavy rain drove water levels up by an astounding 2 meters. Since that time, levels above the gauge in Jinja, Uganda, stayed above 11.9 meters (about 1,134 meters above sea level) until December 2005. From that point, water levels dropped to alarmingly low levels and were not expected to stop dropping until the April rains arrived. |
Drought and Dams |
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The leaps and plunges in water levels happen because of Lake Victoria’s hydrology. “Lake Victoria is unique because the lake [itself] is a large majority of its rain basin,” Reynolds explains. For most lakes, the rain that falls over a broad region flows into the lake through rivers, streams, and ground water. But Lake Victoria does not get water from a broad land region; most of its water comes from rain that falls directly over the huge lake. For this reason, the lake is very sensitive to rainfall, its water levels jumping depending on how much rain falls in a particular year. |
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Low rainfall accounts for some of the drop in water levels on Lake Victoria. Drought gripped several regions in Eastern Africa and the short rainy season, from October to December, was even more dismal in the Lake Victoria region. But drought alone may not account for the drastic drop in water levels on Africa’s largest lake. |
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“Lake Victoria is operated as a reservoir,” says Reynolds. The White Nile River is the only outlet from the lake, and since 1954, the Owens Falls Dam [now Nalubaale] has controlled the flow of water out of Lake Victoria into the Nile according to the terms of a treaty between Uganda and Egypt. The policy, which was revised in 1964, ensured that the natural flow of the Nile River would not be impacted by the dam. Since the treaty, the Nalubaale Dam has operated to keep water levels near 11.9 meters above the Jinja gauge, and for 50 years, the policy successfully maintained water levels in Lake Victoria. |
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But in an effort to bring more power to its developing economy, Uganda expanded the Nalubaale Dam in 2000, adding the Kiira power station to the dam. Almost immediately, drought struck, and officials were faced with both less water to generate power and a rising demand for electricity. When water levels on Lake Victoria plunged at the end of 2005, news media began reporting that water officials and environmental groups had accused the power authority that operates the dam of taking more water than the policy allowed. According to news reports in January 2006, Uganda’s Directorate of Water Development (DWD) reported that the primary cause for falling lake waters was the power company’s failure to adhere to the 1954 water release policy, but other government officials later denied these allegations, saying that the drought was the only reason water levels were falling. Regardless of the cause, the drop in water levels means that those who rely on the lake face some difficult choices. “Reservoirs have multi-uses, and economic value can be placed on these different uses,” says Reynolds. “You have to decide which economic use is going to take highest priority during dry periods.” With Lake Victoria, the choice is complicated. The lake is a crucial resource to the more than 30 million people in Uganda, Tanzania, and Kenya who live near its shoreline. It provides an inexpensive way to transport goods between the three countries. Its fish are an important source of food, and the lure of the lake, the evasive source of the Nile, draws tourists to its shores. |
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Though the lake has long served these purposes, the extent to which people are relying on the lake is unprecedented. Since 1960, when water levels on the lake jumped due to heavy rains, the population surrounding the lake has sky-rocketed. The Lake Victoria region has the densest rural population in the world, and population growth around the lake continues to increase faster than anywhere else in Africa. The current economy—fisheries, transport, resorts, and even the Nalubaale Dam Complex—has developed to operate around a much fuller Lake Victoria. |
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“Now they have to shut down the dams and they will have less hydropower generation,” says Reynolds, pointing out a newspaper article that reported that the Kiira extension to the Nalubaale Dam will be closed. “This [the drop in the water level] places additional costs onto the other economic users.” Ships have to dock in deeper water far from the shore; beach-side resorts are a long walk from the water; and the shallow alcoves where some fish breed are gone. “What is the best operation?” Reynolds muses. “Future water releases will need to follow the 1954 policy, but first water releases need to be reduced to allow the lake to return to pre-2000 water levels.” However, he sounds as if he does not envy the task because he knows towns, governments, and power companies want more energy. Will government policies allow the lake to return to levels experienced before 2005? To answer that question, “the USDA and NASA will continue to monitor the water levels, and we can quickly report to the international community whether any progress has been made,” says Reynolds.
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