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Publication
The role of papyrus plants (Cyperus papyrus) and internal waves in the nutrient balance of Lake Victoria, East Africa
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Authors
Advisor(s)
Abstract(s)
Amounts of nitrogen and phosphorus removed by the papyrus dominated wetlands of
Lake Victoria basin were quantified. Lake levels and frequency of upwelling were
assessed because they contribute to eutrophication. In the 10,235.17 km2 area of papyrus
dominated wetlands, denitrification removes 53% annual nitrogen input, while aboveground
biomass harvest can remove 26% and 19% annual nitrogen and phosphorus input
per year respectively. To remove the existing load of nitrogen, it requires 1.3 years by
denitrification alone while through above-ground biomass harvest; it requires 3.8 and 5.2
years for nitrogen and phosphorus respectively. Overdrawing of water through Jinja
outlet caused a lake level decrease of 2.5 m from 2004 to 2006. Because they were out of
water, papyrus wetlands lost 80% of their functionality as refuge and breeding grounds
for tilapia. Because dried out papyrus die, burn, and are returned into the water, they can
add 17 to 18,500 years in one year of current levels of nitrogen input into the lake, and
emit 5.2 * 107 tonnes of CO2 to the atmosphere. Wedderburn number application shows
upwell occurs when mean winds over the lake blows for 6 consecutive days by a speed of
at least 5 m/s without the lake-land breeze. Surface water temperature recorded at hourly
basis around Rubondo Island gives a lowest temperature value of 21.79oC, and shows
patchy; island generated internal waves causing upwelling. Both lake level decrease and
upwelling enhance eutrophication, emphasizing the need to conserve papyrus wetlands
for the future health of Lake Victoria basin.
Description
Dissertação mest., Gestão da água e da costa, Universidade do Algarve, 2007
Keywords
Teses Zonas úmidas Eutrofização Azoto Fósforo Ondas Papiro África