Lake Victoria could burst its banks more often in the future. What can be done
In recent
weeks, water levels in Lake Victoria have reached unprecedented heights as a
result of heavy rains in the East African region which started in August
2019. Some
say the lake’s levels have not been this high for 50 years. According
to the Lake Victoria Basin Commission, the lake hit a new
record level of 13.42 meters – marginally higher than the 13.41 meter
mark recorded in 1964.
Nestled
between Rwanda, Burundi, Uganda, Kenya and Tanzania, Lake Victoria supports the
livelihoods of over 35
million people and is crucial for many sectors. The rising water
levels have been devastating, particularly for those that live close to the
lake and depend on it.
The lake
supports fisheries, agriculture (through providing irrigation), hydropower
(mainly for Uganda), domestic water supply and industry.
The lake
is also an important tourist destination and provides the habitat for many key
species – such as endemic cichlid fishes, birds and sitatunga antelopes.
Because
of the floods, it’s been
reported that over 200,000 people have been displaced in Kenya, Uganda
and Tanzania.
The
floods have destroyed infrastructure, farmland and crops, and property around
the lake. They have also increased the spread of pollution. This is increasing
water treatment costs and affecting those living in the surrounding areas.
There are now concerns that there will be outbreaks of
vector borne diseases – such as malaria and bilharzia – and gastrointestinal
diseases such as cholera.
Heavy rains
The rains
the region received were unusually heavy and attributable to the Indian
Ocean Dipole – a weather phenomenon caused by differences in sea
surface temperatures between the eastern and western tropical Indian Ocean. Last
year, the differences in temperatures were higher than usual, causing much more
rainfall over East Africa from September to January.
Though
the rain caused by the dipole have ended, the region then moved into its rainy
season which typically runs from March to May.
Lake
Victoria has an enormous surface area of 68,800sqkm. Rainfall is very important
for the lake as it accounts
for 80% of its recharge. The 23 rivers that recharge the lake account
for only 20% of its input.
From research my colleagues
and I have done – examining the projected changes in weather in the Lake
Victoria basin – we’ve found that these high water levels will be more frequent
in the future because there’ll be much more rainfall.
The aim
of our study was to look at how the rivers that drain into the Lake Victoria
basin will change as a result of increased greenhouse
gases in the atmosphere.
We show
that, between 2036 and 2065, there will be 25% more annual rainfall in the
eastern part of the lake Victoria catchment (Kenya and Tanzania side) area and
between 5 and 10% in the western part of the catchment (Rwanda and Burundi
side).
Our
models use data from the Rossby
Center Regional Atmospheric Model along with the global climate model
from the Coordinated
Regional Climate Downscaling Experiment project.
We
coupled this with information on how much greenhouse gas there could be in the
future. There are a series of scenarios – known as Representative
Concentration Pathways – which represent what could happen in the
future based on different emission trajectories. The more pessimistic
scenarios, for instance, assume that no climate change policies are implemented
and so there is an increase in greenhouse gases. These, more pessimistic,
scenarios are what we based our models on.
Our data
shows how much rain there could be. Lake Victoria is an open lake meaning
whenever the lake level rises, spill-off should occur – this makes it hard to
predict how much the lake will rise because the control of the spillover is
through manmade dams in Jinja.
When the
lake’s levels do get high, there are measures that countries affected can take
to mitigate the effects – but they are not easy. They require careful planning
and availability of funds.
What can be done
It’s all
about managing the inputs and outputs and developing floodplain regulations.
The first
step will be to plan how to reduce the flow of water into the lake by
creating storage within
the catchments – such as dams or reservoirs – or finding ways to
divert the water – for instance through the use of canals or
spillways.
However
this will only manage 20% of what goes into the lake, as most of the recharge
is because of rainfall. So we need to also consider outputs.
The only
surface outlet of the lake is through the Victoria Nile river which forms the upper
section of the Nile River. The Kiira and Nalubale dams, in Jinja, control the
outflow of Lake Victoria into this river. Dam management scenarios that
regulate the outflow to mimic natural lake level fluctuations are needed.
There
are currently
tensions over this, as there are accusations that Uganda could have
done more to prevent the current floods by regulating the dams better. More must
be done to ensure this does not happen again and that countries have strict
agreements in place.
In
addition to managing the lake’s levels through inputs and outputs, its
extremely important that the region increases investments in monitoring systems
that provide national early warning and communication. This will alert
residents in a timely manner.
AGM
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