Previous Page Table of Contents Next Page


COUNTRY FILES (Contd.)

NAMIBIA

1. GEOGRAPHY AND CLIMATE

Namibia has a surface area of 823 290 km2. The country is largely semi-arid plateau and desert.

The climate is hot and dry with highly restricted rainfall. The economy is based on mineral extraction.

2. HYDROGRAPHY (see Fig. 1)

2.1 Lakes

There are no permanent freshwater lakes of any significant size. Non-permanent is Lake Liamberi, associated with Linyanti swamp.

2.2 Rivers, Floodplains and Swamps

Four large rivers flow along Namibia's borders: the Zambezi, Orange, Cunene and Okavango/Cubango.

2.3 Reservoirs

There are several impoundments: Hardop, Avis, Goreangab, Naute, Van Rhyn, Daan Viljoen, Ondangua, Okatana and Oshikango (the latter three are “saucer” dams located on the flat Ovambo tableland).

2.4 Coastal Lagoons

There is only one important lagoon at Sandwich Habour.

3. FISHERY PRODUCTION/POTENTIAL

3.1 Aquaculture

There is no aquaculture in Namibia (Vincke, 1989, pers.comm.)

3.2 Fish Production and per caput supply (see Table 1 on following page)

3.3 Inland catch range and potential yield

Total annual yield: No data available (except Table 1 and Lake Liamberi: 180 t in early 1980's).

Potential annual yield: No data available.

Table 1. FISH PRODUCTION AND PER CAPUT SUPPLY - Namibia, 1970–1987

 Nominal Domestic Production
(t) 2
Nominal Consumer Supply
(kg/person) 2
YearPopulation
'000
1
Inland captureAquaculture
3
Marine captureTotalInland captureAquaculture
3
Marine capture
4
Total
4
19701 042- 4   20 000  20 000- 4   
19711 068- 4   18 600  18 600- 4   
19721 096- 4   30 000  30 000- 4   
19731 124- 4 709 700709 700- 4   
19741 152   50 5 840 376840 4260.04   
19751 18250 760 825760 8750.04   
19761 21350 574 424574 4740.04   
19771 24550 404 095404 1450.04   
19781 27850 412 638412 6880.04   
19791 31350 351 080351 1300.04   
19801 34950 252 562252 6120.04   
19811 38650 278 549278 5990.04   
19821 42550 233 489233 5390.04   
19831 465100   364 628364 7280.07   
19841 507100   186 981187 0810.07   
19851 550100   185 420185 5200.06   
19861 596100   201 202201 3020.06   
19871 643150   519 368519 5180.09   

1 Source: FAO
2 Source: FAO Fisheries Department FISHDAB
Important note:
Inland capture: excluding export
Marine capture: export statistics not available.
The 1970–87 catch data for Namibia include most of the quantities caught by fishing craft flying the South African flag and landed in Lüderitz and Walvis Bay (Namibia). Most of these landings are utilized for reduction into fish meal, for export abroad and domestic use. No statistics are available to ascertain precisely what part of the marine capture is actually used for domestic consumption.

3 No aquaculture in Namibia
4 No data available
5 1974–1987 rough estimates for inland capture

4. STATE OF THE FISHERY

4.1 Yield

No statistical data available except for Lake Liamberi, but it seems likely that catches are only a small fraction of the potential.

4.2 Factors influencing yield

Low rainfall and also, undoubtedly, the unstable security situation.

4.3 Future development possibilities

Development of inland fisheries is likely, once national sovereignty and stable internal security have been achieved.

Fig. 1

Fig. 1. RIVERS AND LAKES OF SOUTHERN AFRICA
(Welcomme, 1972)

5. KEY BIBLIOGRAPHY (none)

6. WATER BODIES DIRECTORY

Lake
Liamberi 
  
Rivers
CuneneOrange
Okavango/CubangoZambezi
  
Floodplain, Reservoir, Lagoon
Ovambo Floodplain, Linyanti Swamp 
Hardap (Fish River) Reservoir 
Sandwich Harbour Lagoon 

LAKE LIAMBERI/LINYANTI SWAMP
(International water)

Geographical data (see Fig. 1)
Location:Botswana, Namibia -18°S; 24°20'E
Surface area:101 km2 (non-drought periods) (NORAD, 1985). Surface area very variable depending on annual flood inflow volume in any particular year; may dry out. Very little of its surface area lies in Botswana.
Inflowing river:Linyanti/Chobe
Outflowing river:Linyanti/Chobe
 
Fisheries data
No. of fish species:43 (NORAD, 1985)
Total annual catch:- about 800 t in the 1960's and early 1970's, most of it marketed in Zambia and Zimbabwe;
- no production in the late 1970's;
- about 180 t in the early 1980's (NORAD, 1985)
Potential annual yield: 
 For 101 km2 open water: 250 t (25 kg/ha/yr: NORAD, 1985)

CUNENE RIVER
(International water)

Geographical data
Source:Central Angola (Bie Plateau)
Altitude:1 800 m asl
Total length:975 km
Drainage area:83 000 km2
Countries traversed: Angola, Namibia
Major tributaries:Calonga
Discharges to:Atlantic Ocean - 17° 15'S; 11° 46'E
Volume of discharge at mouth: 6.77 km3/yr
Special features:In Angola, the Cunene is impounded at Matala (20-m-high dam), Kuene and Gove (58-m-high dam, 2 436 km3 storage volume), and on the Calonga tributary north of Cassinga.

OKAVANGO/CUBANGO RIVER
(International water)

Geographical data (Welcomme, 1972)
Source:Bie Plateau, Angola
Altitude:2 560 m asl
Countries traversed:Angola, Botswana, Namibia
Major tributaries:Cuito
Discharges to:The mouth of the Okavango splits into three main arms to form an internal delta which discharges into the Okavango Swamps. A further branch, the Thamalkane River, is connected to Lake Dow. A reversible and periodic connection exists between the Okavango and the Kwando/Cuando and Zambezi system. During the floods the Okavango sends surplus water to the Kwando/Cuando (or Chobe) River which, in turn, joins the Zambezi. If the Zambezi floods arise early, however, the process may be reversed.
Volume of discharge at mouth: 254 m3/sec

ORANGE RIVER
(International water)

Geographical data (Welcomme, 1972)
Source:Lesotho, Drakensberg Mountains
Altitude:3 300 m
Total length:2 160 km
Drainage area:640 000 km2
Countries traversed:Lesotho, Namibia (north shoreline only), South Africa
Major tributaries:Vaal River (1 200 km)
Discharges to:South Atlantic
Flood regime:Floods between November and March
Special features:Aughrabies Falls
 
Physical and chemical data
Conductivity:K25 159 μ S/cm (mean) (Keulder, 1970)
pH:7.7

ZAMBEZI RIVER
(International water)

Geographical data (Welcomme, 1972) (See map under “Mozambique Country” entry)
Source:northwest Zambia and eastern Angola
Altitude:1 600 m
Total length:2 574 km (120 km of shoreline along the Caprivi Strip belongs to Namibia)
Drainage area:1 300 000 km2
Countries traversed:Angola, Mozambique, Zambia, Botswana, Namibia, Zimbabwe
Major tributaries:Cuando, Kafue, Luangwa, Shire. The Zambezi system also communicates with the Okavango system via the Chobe River.
Discharges to:Indian Ocean - 18°47'S; 36°E
Volume of discharge at mouth: 7 070 km3/sec
Flood regime:December to July, maximum in March
Special features:Barotse floodplain (700–9 000 km2), Kafue flats (200–7 000 km2), Lukanga swamps (3 000–8 000 km2), Kariba and Cahora Bassa dams/reservoirs.

Physical and chemical data above Lake Kariba (Coche, 1968)

  FloodLow water 
Temperature: 30° C17° C 
pH: -7.4 
Conductivity:K20:     50 μ S/cm     96 μ S/cm 
Total alkalinity: 20 mg/l44 mg/l 
Total hardness:   17.9 mg/l  38.1 mg/l 
Ionic composition: mg/lmg/l 
 Na1.70     3.26      
 K-0.88      
 Ca4.93     - 
 Mg1.47     3.86      
 NO2-N  0.00376  0.00024 
 NO3-N0.00470.0158 
 PO4-P0.02950.0078 

Fisheries data
No. of fish species: Upper Zambezi: 49; Middle Zambezi: 50 (Jubb, 1961)

OVAMBO FLOODPLAIN
(International water)

Geographical data
Location:Angola, Namibia - 16° –18° S; 14° 50' –16° E
Surface area:23 000 km2 (15 000 km2 in Angola; 8 000 km2 in Namibia)
Major inflowing river:Cunene
Outflowing river:overspill and seepage to Etosha Pan.

HARDAP (= FISH RIVER) RESERVOIR

Geographical data
Location:Namibia - 24° 30'S; 17° 50'E
Surface area:42.0 km2
Max. length:15 km
Max. width:4 km
Major inflowing river:Fish
Outflowing river:Fish

SANDWICH HARBOUR LAGOON

Geographical data
Location:Namibia - 23° 22'S; 14° 29'E
Surface area:22.1 km2
Max. length:10.5 km
Max. width:3 km

7. BIBLIOGRAPHY

Coche, 1968
Jubb, 1961
Keulder, 1970
NORAD, 1985
Welcomme, 1972

REUNION

1. GEOGRAPHY AND CLIMATE

Reunion (surface area of 2 500 km2) is a mountainous island of volcanic origin. Coastal areas are forested. There are numerous torrential rivers. Maximum elevation is 3 069 m asl. The climate is tropical, but varies with altitude. Cyclones occur. The economy is based on agriculture, mainly sugar and flower oil.

2. HYDROGRAPHY

2.1 Lakes

There are no natural lakes of significant size.

2.2 Rivers, Floodplains and Swamps

There are numerous short torrential mountainous rivers.

2.3 Reservoirs

There are no large impoundments.

2.4 Coastal Lagoons

There are no lagoons.

3. FISHERY PRODUCTION/POTENTIAL

3.1 Aquaculture

Inland and marine aquaculture are practised. (See Table 1)

Table 1. AQUACULTURE PRODUCTION BY SPECIES (t)

Species1985*19861987
Inland aquaculture   
Salmo gairdneri121415
 Macrobrachium rosenbergii  4  6  7
Marine aquaculture   
 Marine fishes  1  3  5
 Chelonia mydas3050   -
Total477327

Source: Vincke, 1989 (pers.comm.)
* No data available for earlier years

3.2 Fish production and per caput supply (See Table 2)

Table 2. FISH PRODUCTION AND PER CAPUT SUPPLY - Reunion, 1970–1987

 Nominal Domestic Production
(including exports)
(t) 2
Nominal Consumer Supply
(including exports)
(kg/person)
YearPopulation
'000
1
No inland captureAquaculture
3
Marine capture
5
TotalNo inland captureAquaculture
3
Marine capture
5
Total
1970441   - 41 7001 700 -3.83.8
1971449 -2 2002 200 -4.94.9
1972457 -2 2002 200 -4.84.8
1973465 -2 5002 500 -5.45.4
1974474 -2 6772 677 -5.65.6
1975482 -2 2132 213 -4.64.6
1976487 -2 0922 092 -4.34.3
1977493 -   779   779 -1.61.6
1978499 -2 0072 007 -4.04.0
1979504 -2 4822 482 -4.94.9
1980510 -2 1202 120 -4.14.1
1981514 -3 5733 573 -6.96.9
1982518 -3 4643 464 -6.76.7
1983522 -3 0253 025 -5.85.8
1984527 -2 7322 732 -5.25.2
1985531 16 62 6252 641 0.034.94.9
1986539 20 62 0442 064 0.043.83.8
1987547 22 61 5211 543 0.042.82.8

1 Source: FAO
2 Source: FAO Fisheries Department FISHDAB
3 Inland aquaculture only
4 - = data not available
5 Marine exports were as follows: 1980: 114 t; 1981: 569 t; 1982: 894 t; 1983: 1 308 t.
6 Vincke, 1989 (pers.comm.)

3.3 Inland catch range and potential yield

No data available for annual catch or potential yield for the main rivers: Bras de la Plaine, Langevin, Marsouins, Mat and Roches.

Total annual yield: Inland catch: 0 t; Inland aquaculture: 22 t (in 1987) (Vincke, 1989, pers.comm.).

4. STATE OF THE FISHERY

4.1 Yield

Capture fisheries are probably restricted to angling, but no catch data is available. There is some marine turtle and fish farming, as well as rainbow trout and Macrobrachium culturing. Production by species is given in Table 1.

4.2 Factors influencing yield

Generally, a lack of large surface water reserves. The high potential of marine fisheries does not encourage professional inland fisheries.

4.3 Future development possibilities

Undoubtedly some aquaculture development is possible; tilapia, trout and prawns have already been introduced to the island. Tilapia species in particular now occur in all river basins. The prospect for capture fisheries are, however, minimal.

5. KEY BIBLIOGRAPHY (none)

6. WATER BODIES DIRECTORY

Rivers 
Bras de la PlaineMat
LangevinRoches
Marsouins 

BRAS DE LA PLAINE RIVER

Geographical data
Drainage area:83 km2
Countries traversed:Reunion
Discharges to:Indian Ocean
Volume of discharge at mouth: 6.09 m3/sec (mean annual)
Flood regime:peak discharge in January (7.38 m3/sec, monthly mean)

LANGEVIN RIVER

Geographical data 
Drainage area:36 km2
Countries traversed:Reunion
Discharges to:Indian Ocean
Volume of discharge at mouth: 2.46 m3/sec (mean annual)
Flood regime:peak discharge in January (3.62 m3/sec, monthly mean)

MARSOUINS RIVER

Geographical data 
Drainage area:27.5 km2
Countries traversed:Reunion
Discharges to:Indian Ocean
Volume of discharge at mouth: 5.29 m3/sec (mean annual)
Flood regime:peak discharge in March (11.5 m3/sec, monthly mean)

MAT RIVER

Geographical data
Drainage area:145 km2
Countries traversed:Reunion
Discharges to:Indian Ocean
Volume of discharge at mouth: 9.42 m3/sec (mean annual)
Flood regime:peak discharge in March (14.7 m3/sec, monthly mean)

ROCHES RIVER

Geographical data
Drainage area:24.4 km2
Countries traversed:Reunion
Discharges to:Indian Ocean
Volume of discharge at mouth: 4.18 m3/sec (mean annual)
Flood regime:peak discharge in March (11.8 m3/sec, monthly mean)

RWANDA

1. GEOGRAPHY AND CLIMATE (Welcomme, 1979a)

Rwanda has a surface area of 24 950 km2 and consists mainly of grassy uplands which form part of the watershed between the Zaire and Nile River systems. It slopes from a range of high volcanoes in the northwest to savanna plains in the east. To the west the hills descend abruptly into Lake Kivu.

The high elevation makes for a temperate climate and frost may even occur in the high mountains. There is a short dry season in January with the major rainy season occurring from February to May. The main dry season lasts from May to September and the short rains from September to December. The rainfall is far heavier on the mountainous areas to the north and northwest than on the eastern savannas.

The population of Rwanda is entirely rural with small holdings dispersed throughout most of the country. Cattle herding is also very important although limited to the highlands because of heavy Tsetse infestations in the plains. There is one extensive national park along the lower portion of the Kagera River which contains many of the more important lowland lakes.

2. HYDROGRAPHY (see Fig. 1)

2.1 Lakes

Rwandan lakes fall into four main groups and into two main river basins:

  1. Lake Kivu, Zaire River Basin - very deep and rich in nutrients;

  2. High altitude lakes in the north (i.e. Lakes Luhondo and Bulera, the latter being associated with the Rugezi Swamps), Nile River Basin. These two lakes are cold, deep and rather infertile;

  3. Upper Akagera* Lakes Complex (i.e. Lakes Birira, Cyohoha South, Gaharwa, Gashanga, Kidogo, Kirimbi, Mirayi, Mugesera, Muhazi, Murago, Rugwero, Sake), Nile River Basin. Mean altitude: 1 360 m (except Muhazi; 1 450 m). These lakes are warm, shallow and fertile. They are interspaced among the flooded papyrus plain of the Akanyaru and the Nyabarongo Valleys. The combined surface area in Rwanda is 166.5 km2;

  4. Lower Akagera Lakes Complex (i.e., Lakes Chuju, Hago, Ihema, Iwapibali (=Rwakibale), Kishanja, Kivumba, Mihindi, Nasho, Ngerenke, Muhari, Rwampanga, Rwanyakizinga, Rwehikama), Nile River Basin. Mean altitude: 1 200 m. These are warm, shallow and fertile. They are spread over the lateral floodplain of the Akagera River below the Rusumo Falls. The combined surface area is 178.4 km2.

* Also called “Kagera”

2.2 Rivers, Floodplains and Swamps

The country is dominated by the Akanyaru-Nyabarongo-Akagera River, which drains the majority of the country. The river is encased in narrow valleys for much of its upper course, but forms broad papyrus-filled swamps in its middle reaches. In its lower course, below the Rusumo Falls, it expands over large areas of savanna into a swamp mostly included in the Akagera National Park. The combined surface area of the Akagera swamps is about 1 000 km2 in Rwanda. A higher altitude swamp occurs in the north of the country: Rugezi Swamp, 80 km2, tributary of Lake Bulera. One other short but important river is the Ruzizi, which flows out of Lake Kivu toward Lake Tanganyika.

2.3 Reservoirs

Two reservoirs have been built, but are not used for fish production: Shyogwe reservoir near Gitarama (8.5 ha), drinking water reserve; and Nyabisundu reservoir near Bukare (7 ha), irrigation water reserve (Reizer, 1975).

2.4 Coastal Lagoons: None; Rwanda is landlocked.

3. FISHERY PRODUCTION/POTENTIAL

3.1 Aquaculture

In the late 1950's total pond area was circa 450 ha. There were 2 662 ponds in 1978 with a combined area of 77.64 ha, an estimated production of 18 891 kg and an average yield of 243 fish/ha/yr. (Source: Ministère de l'Agriculture et de l'Elevage, Annual Report, 1978).

3.2 Fish production and per caput supply

Table 1. FISH PRODUCTION AND PER CAPUT SUPPLY - Rwanda, 1970–1987

 Nominal Domestic Production
(excluding exports)
(t) 2
Nominal Consumer Supply
(excluding imports and exports (kg/person)
YearPopulation
'000
1
Inland captureAquaculture
2 3
Total
2
Inland captureAquaculture
3
Total
19703 7181 500  - 41 5000.4-0.4
19713 8381 600-1 6000.4-0.4
19723 963   300-   300  0.07-  0.07
19734 091   800-   8000.2-0.2
19744 2231 368-1 3680.3-0.3
19754 3601 198-1 1980.3-0.3
19764 5041 008-1 0080.2-0.2
19774 6541 325-1 3250.3-0.3
19784 811   696   19 5   7150.10.0040.1
19794 974   954-   9540.2-0.2
19805 1441 181191 2000.20.0040.2
19815 317   955-   9550.2-0.2
19825 4961 210-1 2100.2-0.2
19835 6811 175371 2120.20.0060.2
19845 872   74442      786 70.10.0070.1
19856 070   85155   9060.10.0090.1
19866 2771 42065   1 485 60.20.0100.2
19876 4911 630-1 6300.2-0.2

1 Source: FAO
2 Source: FAO Fisheries Department FISHDAB; see other sources data (bibliography) item 3.3.
3 included in “Inland capture” if not specified
4 - = data not available
5 Source: Ministère de l'Agriculture et de l'Elevage, 1978
6 Giudicelli et al., 1987: 1 800 t
7 Ministère de l'Agriculture et de l'Elevage, 1985: 1 256 t in 1984


Fig. 1

Fig. 1. RWANDA, HYDROGRAPHIC NETWORK
(adapted from Mahy, 1977)

3.3 Inland catch range and potential yield

Table 2.

Water bodyPeriodAnnual catch range (t)Potential annual yield (t)
Lake Kivu19871 500–2 000945–5 500
High altitude lakes1975100 1 200 1
Bilinga---
 Bulera--50
 Karago---
 Luhondo197450–10050
 Rugezi Swamp--10–120
Total (100)(110–220)
Upper Akagera Lakes19751 200 1   1 300 1
 Birira19757021–67   
 Cyohoha South19754070–225
 Gaharwa1975109–29
 Gashanga1975309–29
 Kidogo1975409–28
 Kirimbi19752014–42  
 Mirayi1975209–29
 Mugesera1975300  156–490   
 Muhazi19864040–200
 Murago1975109–27
 Rugwero1975200  80–90  
 Sake1975180  178
Total (960–1 200)(774–1 594)
Lower Akagera Lakes1975   650 1 22 300 1
 *Chuju-- 1–2.5
 *Hago19759064–210
 *Ihema1983186  340–900  
 Iwapibali/Rwakibare--14–50
 *Kishanja--3–9
 *Kivumba--  35–110
 *Mihindi--  44–140
 *Muhari--   2–7.5
 Nasho197550  55–160
 *Ngerenke--  5–20
 *Rukira--2–6
 Rwampanga197530  38–110
 *Rwanyakizinga--  78–250
 Rwehikama197570  77–260
Total (426–650)(758–2 235)
Akagera Swamps--(4 000) 3
Akagera River and tributaries-200
TOTAL (rounded) 3 000–3 9502 600–9 650

1 Aubray, 1976
2 Reizer, 1975
3 unaccessible; not in total
* Lakes located in Akagera National Park

4. STATE OF THE FISHERY

4.1 Yield

Present yield estimates vary from 1 630 t (Table 1) to 1 800 t (Giudicelli et al., 1987), and 3 000–3 950 t (see table 2). An average current estimate of 2 500 t/yr seems reasonable.

4.2 Factors influencing yield

A variety of factors influence the yield of Rwandan inland waters. Lake Kivu traditionally has been a poor lake for fishing and, as a consequence, only the narrow coastal fringe has been exploited in a desultory manner (about 300 t of cichlids per year) (Welcomme, 1979a).

Now that Limnothrissa miodon has become established in Lake Kivu (yield about 1 900 t in 1987), an average total yield of about 2 000 t can be expected from the Rwandese waters of Lake Kivu.

The high altitude lakes (i.e. Bulera and Luhondo) and Upper Akagera Lakes Complex are fairly intensely exploited, although with proper management they could possibly sustain higher levels of catch. The Lower Akagera Lakes Complex was barely exploited because most of it lies within the game reserve and because of the lack of transport facilities in Rwanda (fish was caught mainly by Tanzanian fishermen in Lake Ihema). More recently, a development project in Lake Ihema allows fish catching and marketing to be effective in Rwanda (186 t in 1983; 400 t in 1986).

4.3 Future development possibilities

The fish catch from Rwanda could be increased, depending mainly on fisheries management. Although some authors estimate that Lake Kivu could yield up to about 5 500 t/yr for the Rwandan waters, a recent study, based on acoustic stock assessment surveys, estimates that the catchable L. miodon stock does not exceed 945 t in Rwanda.

Overfishing and destructive fishing methods have already considerably decreased production in the Upper Akagera Lakes and in those Lower Akagera Lakes not located in the National Park. Proper fisheries management and respect of fisheries regulations would significantly increase production. Dunn (1974) simply proposes a limit of 5 fishermen/km2 for each lake and a catch limit of 12.5 t/km2/yr.

The decision to officially open lakes located in the National Park to fishing activities must consider, on one hand, the estimated yield (1 730 t/yr) and, on the other hand, the damages that may arise in the National Park (Dunn, 1974).

No great increases can be anticipated for the high altitude lakes.

5. KEY BIBLIOGRAPHY

General: Aubray, 1976; Dunn, 1974; Mahy, 1977; Reizer, 1975
Lake Kivu: Hanek et al., 1988
Akagera Basin: Burgis, Mavuti, Moreau and Moreau, 1987; Frank et al., 1984; Kiss, 1977a, b

6. WATER BODIES DIRECTORY

Lakes
BilingaKidogo*Muhazi (= Mohasi)
BiriraKirimbiMurago (= Rumira)
BuleraKishanja (= Kisanji)Nasho
ChujuKivuNgerenke
Cyohoha NorthKivumbaRugwero
Cyohoha SouthLuhondoRukira
GaharwaMihindiRwampanga (= Mponga)
GashangaMirayiRwanyakizinga (= Rwanye)
HagoMugeseraRwehikama
IhemaMuhariSake
Iwapibali (= Rwapibale = Rwakibale = Rwakibare) 
Karago  
 
Swamps
Akagera**Rugezi (= Ruguesi) 
 
Rivers
Akagera**Ruzizi 

* Mistakenly called “Murago” on some official maps (Dunn, 1974)
** Also called “Kagera”

LAKE BILINGA

Geographical data
Location:Rwanda - 1°37'S; 29° 32'E
Altitude:over 2 300 m
Surface area:0.2 km2
Max. length:0.8 km
Max. width:0.5 km
Outflowing river: none; internal basin

Fisheries data
Potential annual yield: High altitude, isolated lake. Production, if any, must be very low. No data available.

LAKE BIRIRA

Geographical data
Location:Rwanda (Upper Akagera Lakes Complex)
Surface area:5.4 km2
Depth:6.0 m (mean)
 
Physical and chemical data (Kiss, 1976a)
Surface temperature:25° C
Conductivity:157 μ S/cm
pH:8.0
 
Fisheries data
No. of fishermen:6 in 1973; recommended number: 27 (Dunn, 1974)
No. of boats:6 in 1973
Total annual catch and effort: 70 t in 1975 (Reizer, 1975)
Potential annual yield: 21 t (40 kg/ha: Aubray, 1976)
 67 t (125 kg/ha: Dunn, 1974)

LAKE BULERA

Geographical data
Location:Rwanda - 1° 26'S; 29° 46'E
Altitude:1 866 m
Surface area:54 km2
Depth:174 m (max); 80 m (mean)
Max. length:13 km
Max. width:7 km
Volume:4.5 km3
Inflowing river:Rusumu, Kabura
Outflowing river:short channel to Lake Luhondo

Physical and chemical data (Damas, 1954)
Surface temperature: 19° C
Conductivity:110 μ S/cm
pH:7.5; 8.2 (Mahy, 1977)
Oxygen:Surface: oversaturated
 -160 m: 0.52 mg/l
Ionic composition: mg/l 
 Ca7.1 
 Mg3.9 
 Cl0 
 SO40 
 
Fisheries data
Fish species:Main catches: Oreochromis niloticus, introduced in 1961
No. of fishermen:85* (Reizer, 1975)
Total annual catch:100 t* (Reizer, 1975)
Potential annual yield: For Lake Bulera: 50 t (10 kg/ha: Reizer, 1975)

* (for Lake Bulera+Lake Luhondo+Rugezi Swamp)

LAKE CHUJU

Geographical data
Location:Rwanda (Lower Akagera Lakes Complex)
Surface area:0.2 km2

Fisheries data
No. of fishermen recommended: 1 (Dunn, 1974)
Potential annual yield:   1 t (40 kg/ha: Aubray, 1976)
 2.5 t (125 kg/ha: Dunn, 1974)

LAKE CYOHOHA NORTH

Geographical data
Location:Rwanda (Upper Akagera Lakes Complex) No longer exists; dried out completely and is now cultivated area.

LAKE CYOHOHA SOUTH
(International water)

Geographical data
Location:Rwanda, Burundi - 2° 20'–2° 35'S; 29° 58'–30° 13'E (Upper Kagera Lakes Complex)
Altitude:1 380 m
Surface area:76 km2 (18 km2 in Rwanda) (Kiss, 1977a)
Depth:11 m (mean: 5.2 m) (Kiss, 1977a)
Volume:395 × 106 m3
Max. length:32 km
Max. width:2 km (Kiss, 1977a)
Shoreline:227 km total; 63 km in Rwanda (Kiss, 1977a)
Note:Lake called “Cyohoha” in Burundi.
 
Physical and chemical data (Kiss, 1976a; 1977a)
Conductivity:K20 250–256 μ S/cm; 296 (surface); 319 (bottom) μ S/cm
pH:8.5–9.5 (surface); 7.2 (bottom)
Temperature:23–27° C (surface)
Ionic composition: mg/l 
 Na25.75 
 K9.55 
 Ca9.0 
 Mg10.85 
 Cl4.30 
 SiO25.05(surface-bottom)
 HCO3152–171  

Fisheries data
No. of fish species:7: (3 Oreochromis spp., 2 Haplochromis spp.,
 1 Synodontis sp., 1 Clarias sp.) (Kiss, 1977a)
No. of fishermen:65 in Rwanda in 1973; 31 recommended (Dunn, 1974)
 20 in Rwanda in 1975 (Kiss, 1977a)
 50 in Lake in 1975 (Kiss, 1977a)
No. of boats:65 in Rwanda in 1973
Total annual catch:in Rwanda:90 t in 1968
  40 t in 1973 (Dunn, 1974)
  40 t in 1975 (Reizer, 1975)
  20 t in 1975 (Kiss, 1977a)
 in Lake:60 t in 1975 (Kiss, 1977a)
Potential annual yield:
   70 t in Rwanda (40 kg/ha: Aubray, 1976)
 225 t in Rwanda (125 kg/ha: Dunn, 1974)

LAKE GAHARWA

Geographical data
Location:Rwanda (Upper Akagera Lakes Complex)
Surface area:2.3 km2
Depth:2.0 m (mean)
 
Physical and chemical data (Kiss, 1976a)
Surface temperature:25.0° C
Conductivity:192 μ S/cm
pH:10.0

Fisheries data
No. of fishermen:26 in 1973; recommended: 11 (Dunn, 1974)
No. of boats:26 in 1973
Total annual catch:59 t in 1968
 10 t in 1973 - overexploitation (Dunn, 1974)
 10 t in 1975 (Reizer, 1975)
Potential annual yield: 29 t (125 kg/ha: Dunn, 1974)
   9 t (40 kg/ha: Aubray, 1976)

LAKE GASHANGA

Geographical data
Location:Rwanda (Upper Akagera Lakes Complex)
Surface area:2.3 km2
Depth:3.0 m (mean)
 
Physical and chemical data (Kiss, 1976a)
Surface temperature:26° C
Conductivity:134 μ S/cm
pH:7.0
 
Fisheries data
No. of fishermen:13 in 1973; recommended: 11 (Dunn, 1974)
No. of boats:13 in 1973
Total annual catch: 
 30 t in 1973 (Dunn, 1974)
 30 t in 1975 (Reizer, 1975)
Potential annual yield:
 29 t (125 kg/ha: Dunn, 1974)
   9 t (40 kg/ha: Aubray, 1976)

LAKE HAGO

Geographical data (Kiss, 1977a)
Location:Rwanda (Lower Akagera Lakes Complex), Akagera National Park
Surface area:16.1 km2
Depth:5.8 m (max); 4.5 m (mean)
Max. length:6.0 km
Max. width:5.8 km
Volume:45.2 × 106 m3
Shoreline:33.5 km
 
Physical and chemical data (Kiss, 1976a, 1977a)
Conductivity:97 μ S/cm (surface); 99 μ S/cm (bottom)
pH:8.92 (surface); 7.82 (bottom)
Ionic composition: mg/l  
  SurfaceBottom 
 Na  5.5 5.4 
 K  5.4 
 Cl    5.66   4.95 
 Ca  9.5 
 Mg  3.0   4.03 
 CO3 + HCO354.961.0 
 SiO2  5.2 
 Fe++    0.45    0.70 

Fisheries data
No. of fishermen:6 in 1975–76 (Kiss, 1977); recommended: 80 (Dunn, 1974)
Total annual catch:90 t in 1975–76 (Kiss, 1977a)
Potential annual yield: 
 210 t (130 kg/ha: Dunn, 1974)
   64 t (40 kg/ha: Aubray, 1976)

LAKE IHEMA

Geographical data (Kiss, 1977)
Location:Rwanda (Lower Akagera Lakes Complex), Akagera National Park
Altitude:1 291 m
Surface area:86 km2
Depth:7 m (max); 4.8 m (mean)
Max. length:22 km
Max. width:7.8 km
Shoreline:78 km
Volume:512.6 × 106 m3

Physical and chemical data (Kiss, 1976a, 1977b)
  SurfaceBottom 
Temperature: °C 24.6–26.723.5 
pH: 7.15  6.3 
Oxygen: (saturation %)105    8 
Conductivity: (μ S/cm)110103 
Ionic composition:

mg/l

 
 Na5.93.9       
 K1.91.0       
 Cl8.87.8       
 Ca2.466.92     
 Mg3.95.4       
 CO3+HCO342.7 
 SiO26–9.26.7–9.2    
 NO200–0.3    
 NH400.03–0.5    
 PO400–0.03  

Fisheries data
No. of fish species:35 species in 9 families:
Cichlidae (11 sp), Mormyridae (7 sp), Characidae (3 sp), Clariidae (2 sp), Cyprinidae (7 sp), Schilbeidae (1 sp), Mochokidae (2 sp), Mastacembelidae (1 sp), Ciprinodontidae (1 sp), (Frank et al., 1984)
Main catches:Cichlidae (70%): mainly Oreochromis niloticus and O. macrochir; Clariidae (25%): mainly Clarias gariepinus (Frank et al., 1984)
No. of fishermen:50 in 1968, 30 in 1970, 20 in 1971, 12 in 1972 (Kiss, 1977b)
 42 (21 fishing units) in 1981 (Micha, quoted in Frank et al., 1984)
 360 recommended (Dunn, 1974)

Total annual catch:
 YearTotal catch (t)
 1968, 1969450 
 1970180 
 1972  75(Kiss, 1977b: Tanzanian fishermen; decrease of catch due to increase of Rwandese watch on lake)
 1981168(Frank et al., 1984: catches from a fisheries development project)
 1982171
 1983186
Potential annual yield:  
 900 t = 1 200 t minus 300 t (predators) (Kiss, 1977b)
 900 t (Dunn, 1974)
 400 t (186 t for commercial species) (Micha, quoted in Frank et al., 1984)
 340 t (40 kg/ha: Aubray, 1976)

LAKE IWAPIBALI (= RWAPIBALE = RWAKIBALE = RWAKIBARE)

Geographical data (Kiss, 1977b)
Location:Rwanda (Lower Akagera Lakes Complex), Akagera National Park
Surface area:3.6 km2
Depth:6 m (max); 4.3 m (mean)
Max. length:4 km
Max. width:1.8 km
Shoreline:9.5 km
Volume:13.6 × 106 m3

Physical and chemical data (Kiss, 1976a, 1977b)
  SurfaceBottom 
Temperature: °C 23.7–26.822.7–23.6 
Conductivity: (μ S/cm) 107 
pH: 7.056.40 
Ionic composition: 

mg/l

 
 Ca  5.12  3.64 
 Mg  3.80  3.30 
 Na  4.5  4.3 
 K  1.8  1.3 
 Fe++  0.4  0.8 
 Cl  8.1  8.7 
 CO3-HCO354.939.65 
 SiO2  8.4  8.4 
 
Fisheries data
No. of fishermen: 4 in 1975/76 (Kiss, 1977a); 18 recommended (Dunn, 1974)
Potential annual catch:
 50 t (138 kg/ha: Dunn, 1974)
 14 t (40 kg/ha: Aubray, 1976)

LAKE KARAGO

Geographical data
Location:Rwanda - 1°38'S; 29°31'E
Altitude:over 2 300 m
Surface area:0.3 km2
Max. length:1 km
Max. width:0.5 km
Inflowing river:Nyamukongoro
Outflowing river:none; internal basin
 
Fisheries data:
Potential annual yield: high altitude, isolated lake; production, if any, must be very low. No data available.

LAKE KIDOGO
Mistakenly called “MURAGO” on some official maps (Dunn, 1974)

Geographical data
Location:Rwanda (Upper Akagera Lakes Complex)
Surface area:2.2 km2
Depth:3.0 m (mean)
 
Physical and chemical data
Surface temperature:24.0°C
Conductivity:129 μ S/cm
pH:6.5–7.0
 
Fisheries data
No. of fishermen:8 in 1973; recommended: 11 (Dunn, 1974)
No. of boats:8 in 1973
Total annual catch: 
 20 t in 1968 (Dunn, 1974)
 40 t in 1973 (Dunn, 1974)
 40 t in 1975 (Reizer, 1975)
Potential annual yield: 
   9 t (40 kg/ha: Aubray, 1976)
 28 t (125 kg/ha: Dunn, 1974)

LAKE KIRIMBI

Geographical data
Location:Rwanda (Upper Akagera Lakes Complex)
Surface area:3.4 km2
Depth:2.5 m (mean) (Kiss, 1976a)
 
Physical and chemical data (Kiss, 1976a)
Surface temperature:24.0°C
Conductivity:204 μ S/cm
pH:8.0

Fisheries data
No. of fishermen:15 in 1973; recommended: 11 (Dunn, 1974)
No. of boats:15 in 1973
Total annual catch: 
 20 t in 1973 (Dunn, 1974)
 20 t in 1975 (Reizer, 1975)
Potential annual yield: 
 14 t (40 kg/ha: Aubray, 1976)
 42 t (125 kg/ha: Dunn, 1974)

LAKE KISHANJA (= KISANJI)

Geographical data
Location:Rwanda (Lower Akagera Lakes Complex)
Surface area:0.7 km2
 
Fisheries data
No. of fishermen:recommended: 4 (Dunn, 1974)
Potential annual yield: 
 3 t (40 kg/ha: Aubray, 1976)
 9 t (125 kg/ha: Dunn, 1974)

LAKE KIVU
(International water)

see entry under country “ZAIRE”

LAKE KIVUMBA

Geographical data (Kiss, 1977b)
Location:Rwanda (Lower Akagera Lakes Complex), Akagera National Park
Surface area:8.7 km2
Depth:5.6 m (max); 4.2 m (mean)
Max. length:5.2 km
Max. width:3.5 km
Volume:30.3 × 106 m3
Shoreline:18.2 km
 
Physical and chemical data (Kiss, 1976a, 1977b)
  SurfaceBottom 
pH: 9.156.70 
Conductivity: (μ S/cm) 103100 
Ionic composition: 

mg/l

 
 Ca9.008.00 
 Mg2.73.3 
 Na5.45.2 
 Fe++0.550.8 
 Cl6.3- 
 CO3-HCO361.01- 
 SiO288.5 

Fisheries data
No. of fishermen:  5 in 1975 (Kiss, 1977b)
 46 recommended (Dunn, 1974)
Potential annual yield: 
 110 t (126 kg/ha: Dunn, 1974)
   35 t (40 kg/ha: Aubray, 1976)

LAKE LUHONDO

Geographical data
Location:Rwanda - 1°30'S; 29°44'E
Altitude:1 760 m
Surface area:26.1 km2
Depth:68 m (max); 30 m (mean)
Max. length:10 km
Max. width:7 km
Volume:1.0 km3
Inflowing river:Gasura, outflow from Lake Bulera
Outflowing river:Mukungwa
 
Physical and chemical data (Damas, 1954)
Surface temperature:20°C
Conductivity:200 μ S/cm
pH:8.0
Oxygen:Surface: oversaturated
 No oxygen in hypolimnion (-10 m), but not permanent, as water movement may occur (Mahy, 1977)
Ionic composition: mg/l 
 Ca10.0 
 Mg  8.4 
 Cl  0 
 SO4  0 
 
Fisheries data
Main catches:Oreochromis niloticus (mainly); Haplochromis sp.
No. of fishermen:55 in 1973 (Dunn, 1974)
 85 (Lake Lahondo+Lake Bulera+Rugezi Swamp) (Reizer, 1975)
Total annual catch:
   16 t in 1968
   50–100 t (Dunn, 1974)
 100 t in 1975 (Lake Luhondo+Lake Bulera+Rugezi Swamp)
                      (Reizer, 1975; Aubray, 1976)
Potential annual yield:   50 t (20 kg/ha: Reizer, 1975)

LAKE MIHINDI

Geographical data (Kiss, 1977b)
Location:Rwanda (Lower Akagera Lakes Complex), Akagera National Park
Surface area:10.9 km2
Depth:6.8 m (max); 4.4 m (mean)
Max. length:4.2 km
Max. width:3.9 km
Shoreline:14.5 km
Volume:41.8 × 106 m3

Physical and chemical data (Kiss, 1976a; 1977b)
Temperature:22.6–24° C
Conductivity:97 μ S/cm
pH:7.10
Ionic composition: mg/l 
 Na  3.6 
 K  0.9 
 Ca  4.34 
 Mg  4.50 
 Cl  6.40 
 CO3+HCO339.65 
 Fe++  0.9 
 
Fisheries data
No. of fishermen:  8 in 1975 (Kiss, 1977b)
 54 recommended (Dunn, 1974)
Potential annual yield:
 140 t (128 kg/ha: Dunn, 1974)
   44 t (40 kg/ha: Aubray, 1976)

LAKE MIRAYI

Geographical data
Location:Rwanda (Upper Akagera Lakes Complex)
Surface area:2.3 km2
Depth:3.5 m (mean) (Kiss, 1976a)
 
Physical and chemical data (Kiss, 1976a)
Surface temperature:25.5° C
Conductivity:144 μ S/cm
pH:7.0
 
Fisheries data
No. of fishermen:17 in 1973; recommended: 11 (Dunn, 1974)
No. of boats:17 in 1973
Total annual catch: 
 20 t in 1973 (Dunn, 1974)
 20 t in 1975 (Reizer, 1975)
Potential annual yield:
 29 t (125 kg/ha: Dunn, 1974)
   9 t (40 kg/ha: Aubray, 1976)

Previous Page Top of Page Next Page