COUNTRY FILES (contd.)

CAMEROON

1. GEOGRAPHY AND CLIMATE (Welcomme, 1979)

Cameroon (with a surface area of 469 440 km²) is divided into four distinct topographical regions:

in the south there is a low coastal plain covered with equatorial rain forests;
in the centre there is a transitional plateau which rises to the north to the Adamaoua Mountains;
to the west there are mountain forests peaking in Mt. Cameroon (4 050 m);
to the north of Adamaoua range, rolling savanna slopes gradually down to the marshlands surrounding Lake Chad.

The climate is as varied as the topography but tends to grade from equatorial-humid in the south to Sahelian-arid in the north. In the south there is a prolonged and heavy rainy season which is at its most intense from June to September. The uplands have less rain and two peaks in April and October.

Cameroon is a primarily agricultural country with hardwood production in the forested areas. Demand for water for irrigation is limited. Several major dams have been installed for flood control, although they also generate electricity. There is a proposal to install a major area of irrigated agriculture on the Yaèrès floodplain down-stream of the proposed Logone River Dam.

2. HYDROGRAPHY (mainly after Balarin, 1985) (see Fig. 1)

Cameroon is characterized by an extremely dry north but very wet, high-altitude western regions. There are numerous perennial rivers in the south with extensive flood-plains.

The total water area amounts to about 2% of the country, nearly 40 000 million m³ and one million hectares, divided as follows (Aubray, 1976):

Type	Area (ha)	% Total
Floodplains	550 000	55.0
Lakes	300 000	30.0
Rivers	150 000	15.0
(To this area should be added the coastal mangroves.)

Table 1 gives data on the main waterbodies and their fishery potential.

2.1 Lakes

There are a number of natural lakes in Cameroon. The largest is Lake Chad, of which 800 km² (“Little Chad” phase) to 1 800 km² (“Normal Chad” phase) are Cameroon territory, or 8–40% of the lake area, depending on the floods (Welcomme, 1979). Other minor lakes (see Table 2), amounting to about 1 500 km² (Aubray, 1976), are scattered around the western region of the country.

2.2 Rivers, Floodplains and Swamps

Cameroon is drained from the Adamaoua Range along four major drainage basins: Atlantic, Zaire/Congo, Niger and Chad (Fig. 1, Table 1). A watershed exists along the South Cameroon Plateau separating coastal and Congo systems.

Within the plateau and coastal lowlands, the Atlantic drainage system is also divided into three minor basins: West, Sanaga and South. The Sanaga is the largest single river in Cameroon (over 920–975 km), with a 140 000 km² basin. Flows range from 473 m³/s (March) to 57 000 m³/s (October), with a mean of 2 072 m³/s. The river is characterized by a numer of rapids and reservoirs. The west Atlantic rivers converge and create the vast Cameroon Estuary. In the south are numerous very small rivers, among which is the Nyong, with an extensive marshland.

The Lake Chad Basin is the smallest river system in Cameroon, with the River Logone as the main element which overflows into a number of lakes and the Yaèrès swamp. Part of this system's waters can join the Benouè system via the Mayo/Kebi. Other rivers termed “Moya” imply seasonal flows characterized by rainfall.

Generally, flow patterns of all Cameroon rivers are typified by rainfall. Equatorial conditions in the south create no flood peaks per season (i.e., Lobe and Nyong). Further north, flows are continuous all year round, with only one peak flood (i.e., Sanaga and Wouri). In the extreme north Sahelian conditions typify one peak flood with dry periods for 6–8 months (i.e., Mayo Tsanga). The ratio of flow per basin area (expressed as l/s/km²) is therefore greatest in the south, declining toward the north.

All rivers are interrupted by rapids and waterfalls; they are shallow and obstructed by sand banks, hazards to navigation.

Water quality parameters of various rivers are given in Table 8.

Characterized by hydromorphic soils and typical vegetation, large areas are prone to inundation. The major floodplains (Fig. 1) are the Yaèrès, over 7 000 km² at peak flood, the upper reaches of the Nyong, and over 1 000 km² of mangrove swamps, mainly around the Wouri Estuary. Bell and Canterbery (1976), however, estimate that the total extent of mangrove is over 5 184 km².

2.3 Reservoirs

There are several impoundments in Cameroon:

4 in the Sanaga River system (Edea, Song-Loulou, Mbakaou and Bamendjing);
Lagdo on the Garoua River (40 m-high dam; 7.7 km³ storage volume);
Maga (10 m-high dam, 360 km² area);
Bini (closed 1962; 3.0 km² area);
Dang (closed 1963; 1.0 km² area);
Mayo Oulou (80 km²);
7 reservoirs in the Mount Mandara area.

Two further large dams have been proposed: one on the Benue at Lagolo, and one on the Logone River.

Also listed (Table 2) are details of man-made reservoirs and those hydroelectric schemes proposed for construction. Two of the largest dams, Bamendjing and Mbakaou on the Sanaga River, have a marked seasonal fluctuation and the latter has also been known to dry up completely. Two of the most recent barrages, Maga and Lagdo, have recently been reviewed by De Kimpe (1980a,b; 1983).

2.4 Coastal Lagoons

Although there are extensive coastal mangrove forests/swamps (see section 2.2), there are no significant coastal lagoons.

Fig. 1. MAIN DRAINAGE BASINS AND HYDROLOGICAL STATIONS
(SOGREAH, 1983a mod. in Balarin, 1985)

Table 1. CAMEROON WATERBODIES AND THEIR FISHERY POTENTIAL
(Balarin, 1985)

BASIN				Length (km)	Width (m)	Basin area ('000 km²)	Estimated fish production	River poten. (t/yr)	Total poten. (t/yr)
	Main Rivers
		Tributaries
1.	CONGO/ZAIRE						250 kg/km	350	350
	A.	Ngoko				40.4
		Boumba		390	75
		Dja		700	120
	B.	Kaden				23.8
		Boume		300	95
2.	COASTAL BASIN (ATLANTIC)								2 173
	2.1 West
	A.	Moungo		120			380 kg/km	46
	B.	Wouri				8.2	540 kg/km	97
		Nkam
		Makombe		180
		Dibombe
	C.	Dimamba						90
		Ebo
		Ekem
	2.2 Sanaga
	D.	Sanaga		920	700	140.0	18 kg/ha	1 200
		Dierem		935
		Lom				11.0
		Mbam		495		41.0
		Mape
	2.3 South
	E.	Nyong		520	153	14.0	40 kg/ha	320
	F.	Lokoundje		160	(29.0)		250 kg/km	40
	G.	Kienke		90			220 kg/km	20
	H.	Lobo		95		1.9	210 kg/km	20
	I.	Ntem		360			940 kg/km	340
3.	NIGER							2 125	2 125
	A.	Benoue		350		64.0	47 kg/ha
		Mayo Kebi		80
		Faro		250
4.	CHAD							30 200
	A.	Logone		280		150.0	100–120 kg/ha	16 500
	B.	Chari
	C.	El Beid	(Lake Chad)					1 200
	D.	Les Yaèrès	(Lake Chad)			250–7 000	50 kg/ha	12 500
Total				7 000		602.3-7 442.3			34 818 (25–45 000)

Modified after: SOGREAH, 1983b; Laclavère and Loung, 1980; Aubray, 1976

Letters and Numbers before water-body names refer to Fig. 1.

BASIN			Potential fishery (t/yr)	Total potential fishery (t/yr)
	(Existing) waterbodies		Potential fishery (t/yr)	Total potential fishery (t/yr)
CONGO ZAIRE
	Total Rivers		350	350
	Reservoirs
	Lakes
COASTAL BASIN (ATLANTIC)				7 973
	Total Rivers		2 173
	Reservoirs
		Bamendjing	500
		Mbakaou	3 500
	Lakes
		Ossa/Mevia	800
		Mbali/Tissongo	1 000
NIGER				5 065
	Total Rivers		2 125
	Reservoirs
		Lagdo	2 900
		Bini	30
		Dang	10
	Lakes
CHAD				31 700
	Total Rivers		30 200
	Reservoirs
		Maga	1 500
	Lakes
TOTAL - 4 BASINS				45 088 (35–55 240)
	Rivers		34 818 (25–45 000)
	Reservoirs		8 440
	Lakes		1 800

BASIN			Estimated potential fishery (t/yr)
		Planned Reservoirs	Estimated potential fishery (t/yr)
COASTAL BASIN
	(West)
		Cross-River	1 000
		Song Loalou	?
	(Sanaga)
		Mape	4 000
		Njeke	1 000
		Kaleng	?
		Goife	?
	(South)
		Njock-Poume
NIGER
		Collinaires	800
		Adamaoua	?
CHAD
		Vina	2 000
Total projected			8 800

Table 2. MORPHOLOGICAL DATA AND USES OF LAKES - CAMEROON
(Abstr. SOGREAH, 1983a; Min.Econ.Plan., 1981)
(Balarin, 1985)

Waterbody	Region	Year built/filled	Volume (million m³)	Area ('000 ha)	Potential fish yield (kg/ha/yr)	Altitude (m)	Use ^a
Reservoirs
Bamendjing	(W.N. Province) (Noan R.)	1970–74	1 800	15–33.0	20.0	1 150	f,p.
Maga				12–36.0	100–110		i(rice),f.
Lagdo		(1983 est.)	4 500–7 700	22–69.7	55–60	214	p,f,i.
Mbakaou	(N. Province)(Djerem R.)	1968	2 600	50–60		870	f,p.
Bini	(N. Province)	1962		0.3	100.0		f.
Dang	(N. Province)	1963		0.1	100.0		f,w.
Merou	(Yaounde)	1952		0.005			w.
Mokolo	(Mokolo)						w.
Vina		underway		30–40	60.0		p,f.
Cross-River		underway		15–20	50.0		p,f.
Mape		(est. 1986)		50-0	80.0	724
Ndjeke		(est. 1988)		20-0	50.0	582
(90) L'Adamaoua underway				8.0	100.0		p.
Njock Poume	(Nyong R.)	proposed					p.
Kaleng	(Mbam R.)	"					p.
Goife	(Mbam R.)	"					p.
Bangangte	(Noan R.)	"					p.
Tanbassala	(Nkam R.)	"					p.
Yabassi	(Nkam R.)	"					p.
Mentchum	(Atouffi R.)	"					p.
Kikot		"					p.
Nachtigal	(Sanga R.)	"					i.
Ewana		"					i.
Mayo Tsanaga	(Gazawa plain)	"					p.
Song-loulou	Kikot rapids	"					p.
Goulet		"					p,i.
Edea
Lakes
Chad, Ossa and Meria				3.5	224 est.		f.
Barombi Mbo					10–20
Fianga, Mbali & Tissongo, Lere, Barambiba, Kotto, Benin, Ejagham

^a c = commercial;
f = fishery;
i = irrigation;
p = power;
w = water supply

2.5 Aquaculture

There are 38 state Fish Culture Centres, but a large number of these are in a state of disrepair or abandonment. There are 6 000–7 000 village ponds in Cameroon (Satia, pers.comm.). SOGREAH (1982a) lists only 1 600 ponds as functional in 1982, but Satia (pers.comm.) considers this to be more in the order of 4 000, operated by 3 200 farmers, 1.3 ponds per farmer at a size of 250–300 m² each. This adds up to a total area of 100–120 ha with an average yield of 1.7 t/ha/yr. Grover et al., (1980), lists over 250–500 ha of ponds. Njock (1979), on the other hand, claims about 6 000 rural ponds, each of 250–400 m², operated by 4 500 farmers and capable of a mean production of 1 t/ha/yr. A total 150–240 t/yr, and about 2 million seeds, were considered as the total for 1980. Statistics therefore remain confused.

3. FISHERY PRODUCTION/POTENTIAL

3.1 Fish production and per caput supply

Table 3. FISH PRODUCTION AND PER CAPUT SUPPLY - Cameroon, 1970–1987

		Nominal Production (including exports) (t) ²				Nominal Consumer Supply (including exports) (kg/person)
Year	Population '000 ¹	Inland capture	Aquaculture ³	Marine capture ⁶	Total	Inland capture	Aquaculture ³	Marine capture	Total
1970	6 745	50 000	- ⁴	20 800	70 800	7.4	-	3.1	10.5
1971	6 905	50 000	-	24 500	74 500	7.2	-	3.5	10.7
1972	7 068	50 000	-	21 600	71 600	7.1	-	3.0	10.1
1973	7 235	50 000	-	21 600	71 600	6.9	-	3.0	9.9
1974	7 407	50 000	-	21 600	71 600	6.7	-	2.9	9.6
1975	7 582	50 000	-	21 600	71 600	6.6	-	2.8	9.4
1976	7 780	50 000	-	21 600	71 600	6.4	-	2.8	9.2
1977	7 982	50 000	-	20 168	70 168	6.3	-	2.5	8.8
1978	8 190	50 000	-	18 996	68 996	6.1	-	2.3	8.4
1979	8 404	20 000	-	73 214	93 214	2.4	-	8.7	11.1
1980	8 623	20 000	-	73 045	93 045	2.3	-	8.5	10.8
1981	8 860	20 000	-	71 761	91 761	2.3	-	8.1	10.4
1982	9 103	19 813	187 ⁵	75 012	95 012	2.2	0.02	8.2	10.4
1983	9 353	19 744	256 ⁵	69 277	89 277	2.1	0.03	7.4	9.5
1984	9 609	19 718	282 ⁵	67 299	87 299	2.1	0.03	7.0	9.1
1985	9 873	19 870	130 ⁵	65 955	85 955	2.0	0.01	6.7	8.7
1986	10 154	19 876	124 ⁵	63 980	83 980	1.9	0.01	6.3	8.2
1987	10 443	19 863	137 ⁵	62 529	82 529	1.9	0.01	6.0	7.9

¹ Source: FAO
² Source: FAO Fisheries Department FISHDAB
Reliable catch data exist only for industrial fishery. Yields from inland water bodies known to be reduced as a result of Sahelian drought, but data on annual variations in catch are not available.
³ included in “Inland capture” if not specified.
⁴ - = data not available.
⁵ Vincke, 1989 (pers.comm.)
⁶ From 1980 to 1983, marine exports were as follows: 1980: 1 783 t; 1981: 1 434 t; 1982: 1 800 t; 1983: 2 002 t.

3.2 Inland catch range and potential yield

Table 4. INLAND CATCH RANGE AND POTENTIAL YIELD

Water body		Period	Annual catch range (t)	Potential annual yield (t)
Lake Chad		late 1960's	5 000 ¹	8 000 ² to 18 000 ¹
Benue River		late 1960's	3 000	1 450–3 000
Chari and Logone Rivers and Yaèrès Floodplain		early 1960's	20 000–30 000	12 500
Sanaga River		-	-	1 200
Bamendjing Reservoir		-	-	500
Bini Reservoir		-	-	30
Dang Reservoir		-	-	10
Lagdo Reservoir		-	-	2 900
Maga Reservoir		-	-	1 500
Mbakaou Reservoir		-	-	3 500
No information available for
Lakes Bambili, Barombi Koto, Barombi Mbo, Benakuma, Dissoni, Fianga, Mboandong, Nyos and Oku;
Rivers Cross and Sangha;
Reservoir Mayo Oulou.
	Total Lakes	-	-	1 800 ³
	Total Rivers	-	-	34 818 ³
	Total Reservoirs	-	-	8 440 ³

(Sources: see text)
¹ before the Sahelian drought: “Normal Chad” phase
² during the Sahelian drought: “Little Chad” phase.
³ Balarin, 1985 (see Table 1)

Total annual yield:
40 000–50 000 t - before the Sahelian drought;
20 000 t - during the Sahelian drought, and present (see Table 3).

Potential annual yield:
45 000–80 000 t in normal (no-drought) climatic situation (Balarin, 1985).

4. STATE OF THE FISHERY (mainly after Welcomme, 1979; Balarin, 1985)

4.1 Yield

Some statistical confusion arises from the situation around Lake Chad and the Yaèrès. These are international waters with free passage of fishermen and their produce. The site of capture of any lot of fish is therefore very difficult to determine and there has undoubtedly been some duplication in recording of catches from this region. The estimated catch from the Yaèrès, equivalent to 43 kg/ha, falls within the range known from other African floodplains (i.e., 40–60 kg/ha of flooded area), but some authorities place it somewhat lower (about 11 500 t, equivalent to 25 kg/ha). The Benue River catch of about 3 000 t appears to be close to the maximum potential. Forest rivers produce a combined catch of about 2 000 t. Some of the small crater lakes support fisheries, but catch data is unavailable.

Inland capture fishery is a non-industrial, artisanal industry which forms one of the main activities of the rural economy throughout Cameroon. Although accurate statistics are not possible, production is believed to have stabilized around 40–50 000 t/yr from 1970 to 1978. However, the recent Sahelian drought dramatically decreased the inland production to an estimated 20 000 t/yr. The actual status of the fishery is not really known. A composite picture for 1982 is proposed in Table 5, together with estimates of potential.

Table 5. TOTAL INLAND FISH PRODUCTION IN 1982
(adapted from Balarin, 1985)

	Artisanal	Aquaculture
Area, ha	5.0 million ^a	1 700.0 (120 ha)
Number of ponds	-	4 000 (+ 7 000)
Fishermen/fishfarmers	12–20 000 ^b	3 200
Total catch, t/yr	20 000 ^c	200 ^d;
		187 ^e;
		23 ^f
Exports t/yr	12 000 ^f;	-
	15 000 ^d
Total locally consumed	(5–8 000)	23–200
Max. potential t/yr	45–80 000	-
Yield potential kg/ha/yr	80 ^d;	-
	40 ^g

^a Min.Econ.Plan (1981)
^b FAO (1979)
^c FAO, Fisheries Statistics
^d Satia (pers.comm.)
^e Vincke (pers.comm.)
^f SOGREAH (1982b)
^g Welcomme (1979)

Fish farming in Cameroon has a long history but is largely practiced at a subsistence level; few large farms exist and production is low. National production is modest and does not significantly contribute to the national requirement.

SOGREAH (1982b) suggests an aquaculture production of 23 t/yr, while Satia (pers.comm.) is of the opinion that the total is close to 200 t/yr; this is close to the 1982–1987 estimates of Vincke (1989, pers.comm.), with production varying from 124 to 282 t/yr (see Table 6).

Table 6. PRODUCTION FROM AQUACULTURE IN CAMEROON, BY SPECIES (t)

Species	1982	1983	1984	1985	1986	1987
Oreochromis niloticus	97	134	147	91	87	96
Cyprinus carpio	64	86	95	26	31	34
Clarias gariepinus	26	36	40	13	6	7
Total	187	256	282	130	124	137

Source: Vincke (1989, pers.comm.)

4.2 Factors influencing yield

Several factors affect the yield in Cameroon. Firstly, the forest rivers are mostly blackwater rivers and are generally unproductive. Thus, although there is a very extensive network of large rivers in the south of the country, they do not contribute much to the potential. Secondly, the recent Sahelian drought caused the reduction in area of Lake Chad and failure of the floods over the Yaèrès. This has meant loss of the Yaèrès fishery and, after a temporary increase in catch, a loss in production and potential in Lake Chad.

There is a lack of understanding in the importance of regulation explosives and poisons being used. A shortage of trained personnel to supervise and offer advice, as well as poor supply of equipment and absence of marketing infrastructure for shipment to distant markets, hamper development.

4.3 Future development possibilities

The future of capture fisheries depends very much on the climatic developments of the Sahelian region. Improvements cannot be anticipated during the Little Chad phase but, with the restoration of a period of higher rainfall, stocks may once again build up both in the lake and on the Yaèrès floodplain. Such a rebirth of the fishery may well be endangered by the proposed development of the Yaèrès for irrigated agriculture.

5. KEY BIBLIOGRAPHY

Balarin, 1985

6. WATER BODIES DIRECTORY

(Physico-chemical data of various rivers are given in Table 8.)

Lakes
Baleng	Chad	Mboandong
Bambili	Debundsha	Nyos
Barombi Koto (= Kotto)	Dissoni (= Soden)	Oku
Barombi Mbo (= Kumba)	Ejagam	Tibati
Benakuma	Fianga	Tizono

Rivers
Benue (and floodplain)	Logone (and Yaèrès floodplain)
Chari (and Yaèrès floodplain)	Sanaga
Cross	Sangha

Reservoirs
Bamendjing	Edea	Mayo Oulou
Bini	Lagdo	Mbakaou
Dang	Maga	Song-Loulou

LAKE BALENG

Geographical data
Location:	Cameroon - 5° 33'N; 10° 27'E

LAKE BAMBILI

Geographical data
Location:	Cameroon - 5° 56'N; 10° 15'E
Surface area:	0.2 km²
Max. length:	0.5 km
Max. width:	0.5 km

LAKE BAROMBI KOTO (= KOTTO)

Geographical data
Location:	Cameroon - 4° 28'N; 9° 16'E
Altitude:	110 m
Surface area:	3.3 km²
Depth:	6 m (max)
Max. length:	2.0 km
Max. width:	2.0 km
Inflowing rivers:	Tung Nsuia, Tung Nsuria
Special features:	Crater lake

Physical and chemical data:
Surface temperature:	29–32° C
Conductivity:	K₂₀ 145–162 μ S/cm

LAKE BAROMBI MBO (= KUMBA)

Geographical data
Location:	Cameroon - 4° 38'N; 9° 22'E
Altitude:	300 m
Surface area:	4.53 km²
Depth:	111 m (max)
Max. length:	2.5 km
Max. width:	2.5 km
Annual fluctuation in level: 1 m
Outflowing river:	Kumba
Special features:	Crater lake

Physical and chemical data:
Surface temperature:	29.5 ° C
Conductivity:	K₂₀ 39 μ S/cm

LAKE BENAKUMA

Geographical data
Location:	Cameroon - 6° 26'N; 9° 57'E
Surface area:	1.8 km²
Max. length:	1.7 km
Max. width:	1.5 km

Fig. 2. LAKE CHAD
(Welcomme, 1972)

LAKE CHAD
(International water)

Geographical data
Location:	12° 30'–14° 30'N; 13° 00'–15° 30' E
	Cameroon, Chad, Niger, Nigeria
Surface area:	2 000–22 000 km². The dimensions of Lake Chad vary with the rainfall over its basin. The lake seems to exist in two phases: the “Normal Chad” phase, with an area of about 18 000 km², and the “Little Chad”, with an area of about 2 000 km². In 1907, the northern parts dried out completely, and although by 1961 the level had risen markedly (and reached an area of 22 000 km²), the lake was once again reduced in area to reach a minimum in 1973. The level has since risen slightly, but the northern part still remained unflooded in 1983. The hydrographic system now formed by Lake Chad and its rivers is the remnant of what was once probably the greatest lake in the world. (See Fig. 2)

	During the “Normal Chad” phase, the area of open water is distributed as follows:
		(Welcomme, 1972)
	Chad	11 000 km² (50%)
	Nigeria	5 500 km² (25%)
	Niger	3 898 km² (17%)
	Cameroon	1 800 km² ( 8%)

	During the “Little Chad” phase, the area of open water is distributed as follows:
	Chad	1 200 km² (60%)
	Cameroon	800 km² (40%)

(indicates data are for “Normal Chad” phase)*
Depth:	9.5 m (max); 3.9 m (mean)
Volume:	*75 km³
Max. length:	*224 km
Max. width:	*144 km
Shoreline:	*1 000 km
Annual fluctuation in level: *1 m approx.
Catchment area:	2 500 000 km²
Major inflowing rivers: Chari, Yobe, Komadougou, Ngadd, Yedseram

Physical and chemical data: *
Surface temperature:	18.7–32.3° C (Dussart, 1969)
Conductivity:	Conductivity increases from 50 μ S/cm (at Chari mouth) to 1 000 μ S/cm (Welcomme, 1972) (see also Table 7)
pH:	7.1–8.3 (Dussart, 1969) (see also Table 7)
Ionic composition:	(see Table 7)

Fisheries data
No. of fish species:	83 (Blache et al., 1964)
No. of fishermen:	about 10 000 during “Normal Chad” phase: (Nigeria <3 000; Chad, 5 000; Niger, 1 000; Cameroon >1 000; dates unspecified) (Welcomme, 1972)
Total annual catch and effort:
	Catch by country is very obscure because of the free movement of fishermen and produce around the lake. The catch history for 1969–75 has been estimated as follows by Stauch (1977):

Year	Total catch (t)	No. of fishermen
unspecified	-	10 000
1950	20 000	-
1951–59	-	-
1960	30 000	-
1961–66	35 000 p.a.	-
1967	35 000	-
1968	40 000	-
1969	40 000	-
1970	55 000	-
1971	85 000	-
1972	120 000	-
1973	150 000	-
1974	65 000	-
1975	50 000	-

The catch from Cameroon waters prior to the Sahelian drought was circa 5 000 t (Welcomme, 1979).

Potential annual yield:

in entire Lake:
	100–120 kg/ha	(Durand, 1980)
	80–100 kg/ha	(in “Normal” 20 000 km² Chad; 160 000–200 000 t/yr) (Van der Meeren, 1980);
	70 000 t/yr	max. sustainable yield, entire lake (Moses, 1982)
in Cameroon:
	“Normal Chad” phase:	14 400–21 600 t (80–120 kg/ha; 1 800 km²)
	“Little Chad” phase:	6 400–9 600 t (80–120 kg/ha; 800 km²)

Table 7. CHEMICAL COMPOSITION OF WATERS DURING “NORMAL” CHAD PERIOD IN MAIN LAKE ZONES
(cited in Leveque, 1987)

Values are in meq/l when not otherwise specified.
Values between parentheses () are approximate and deducted from evaporation experiments.

Zones	Cond. 10μS/cm	pH	Na	K	Ca	Mg	Total cations	Alc	Cl	SO₄	Total anions	PO₄ 10μg/l	H₄SiO₄ mM/l	Salinity mg/l
Archipelago north	687	8.7	2.83	0.86	2.09	1.72	7.30	7.34	(0.40)	(0.15)	7.89	1000–3000	1.06	695
North islets/banks	725	8.7	2.82	0.82	2.36	1.98	7.98	7.74	(0.35)	(0.14)	8.23	n.d.	1.02	700
Open waters north	407	8.1	1.59	0.47	1.32	1.10	4.48	4.35	(0.23)	(0.07)	4.65	100–1200	0.73	415
Archipelago east	237	7.7	0.84	0.24	0.91	0.59	2.58	2.53	(0.11)	(0.05)	2.69	500–1200	1.08	280
Great Barrier	190	8.0	0.68	0.21	0.66	0.52	2.07	2.03	(0.09)	(0.03)	2.15	n.d.	0.73	216
Archipelago southeast	105	7.4	0.32	0.10	0.44	0.32	1.18	1.15	(0.05)	(0.02)	1.22	100–400	0.64	135
Open waters south	83	7.2	0.28	0.09	0.32	0.24	0.93	0.89	(0.04)	(0.01)	0.94	n.d.	0.50	109
Southeast islets/banks	87	7.4	0.24	0.08	0.36	0.29	0.96	0.93	(0.04)	(0.01)	0.98	n.d.	0.53	110
Southeast open waters	58	7.2	0.16	0.06	0.24	0.18	0.64	0.62	(0.04)	<0.01	0.67	10–250	0.41	77
Chari	60	7.3	0.13	0.05	0.20	0.15	0.53	0.52	(0.03)	<0.01	0.56	n.d.	0.37	66

LAKE DEBUNDSHA

Geographical data
Location:	Cameroon

Physical and chemical data
Conductivity:	12 μ S/cm at 20° C

LAKE DISSONI (= SODEN)

Geographical data
Location:	Cameroon - 4° 43'N; 9° 17'E
Altitude:	450 m
Surface area:	1.33 km²
Depth:	81 m (max)
Max. length:	1.25 km
Max. width:	1.25 km
Special features:	crater lake

Physical and chemical data
Conductivity:	K₂₀ 27 μ S/cm

LAKE EJAGAM

Geographical data
Location:	Cameroon - 5° 47'N; 9° 59'E

LAKE FIANGA
(International water)

Geographical data
Location:	Cameroon, Chad - 9° 54'–10° 06'N; 15° 13'E
Surface area:	28 km² in Cameroon; 11 km² in Chad)
Max. length:	23 km
Max. width:	1.5 km
Inflowing river:	Mayo Kebi
Outflowing river:	Mayo Kebi

LAKE MBOANDONG

Geographical data
Location:	Cameroon - 4° 27'N; 9° 16'E
Altitude:	130 m
Surface area:	0.10 km²
Depth:	5 m (max)
Max. length:	0.35 km
Max. width:	0.35 km
Special features:	crater lake

Physical and chemical data
Surface temperature:	33° C
Conductivity:	K₂₀ 66 μ S/cm

LAKE NYOS

Geographical data
Location:	Cameroon - 6° 26'N; 10° 18'E
Surface area:	1.4 km²
Max. length:	2 km
Max. width:	1 km

LAKE OKU

Geographical data
Location:	Cameroon - 6° 12'N; 10° 27'E
Surface area:	2.1 km²
Max. length:	2 km
Max. width:	1.5 km

LAKE TIBATI

Geographical data
Location:	Cameroon

LAKE TIZONO

Geographical data
Location:	Cameroon - 7° N; 3° 35'E

BENUE RIVER AND FLOODPLAIN
(International water)

Geographical data (data mainly from Welcomme, 1972)
Source:	Adamaoua Mountains, Cameroon
Total length:	1 400 km
Basin area:	64 000 km²
Area of water:	in Nigeria: bankfull: 1 290 km²; flooded: 3 100 km²
Countries traversed:	Cameroon, Nigeria
Major tributaries:	Mayo Kebi (Cameroon); Faro and Gongola (Nigeria)
Volume of discharge at mouth: mean max: 1 920 m³/sec mean min: 32 m³/sec
Special features:	most of the course of the Benue in Cameroon is flanked laterally by a floodplain dotted with small lakes. The upper course is impounded at Lagdo.

Physical and chemical data (see Table 8)

Fisheries data
No. of fish species:	113 - Mayo Kebi (Blache et al., 1964);
	128 - Benue (Stauch, 1966)
Total annual catch:	12 570 t in 1966:
	(3 000 t in Cameroon; 9 570 t in Nigeria)
Potential annual yield:
	2 125 t (1 450–3 000 t) (Sources: see Table 1)

CHARI RIVER AND YAERES FLOODPLAIN
(International water)

Geographical data	(data mainly from Welcomme, 1972)
Source:	the Chari River is formed from the confluence of several rivers, principally the Salamat, Bahr Aouk and Ouham Rivers.
Total length:	950 km
Drainage area:	600 000 km² (Ndjamena)
Countries traversed:	Cameroon, Chad, Central African Republic (Bahr Aouk, Ouham and many other tributaries), Sudan (Wadi Tirwal, Bahr Azoum)
Discharges to:	Lake Chad
Volume of discharge at mouth: 1 011–1 181 m³/sec
Flood regime:	floods from July to February, maximum in October
Special features:	the Chari has extensive floodplains along most of its course. The main areas are centered around the Salamat and Erguig Rivers. The Total area of the Chari/Logone floodplains in Cameroon, Chad and Central African Republic is about 6 000 km².

Physical and chemical data
Temperature:	19.4–30.4°C
Conductivity:	K₂₄ 42–73 μ S/cm
pH:	6.9–7.7

Ionic composition:		mg/l
	Na	2.92
	K	1.84
	Ca	2.06
	Mg	0.94
	CO₃	31.5
	Si(OH)₄	22.2

Fisheries data

Total annual catch: the catch from the Chari/Logone system, which originates mainly from the Yaèrès floodplain (4 600 km²) was estimated (in the early 1960's) at 20–30 000 t from Cameroon and 35 000 t from Chad (Blache & Miton, 1962). The status of this fishery changed during the Sahelian drought, when much of the plain was left unflooded.

Potential annual yield: 12 500 t in Yaèrès floodplain (Sources: see Table 1)

CROSS RIVER
(International water)

Geographical data
Source:	near Dschang, Cameroon
Altitude:	1 965 m
Total length:	485 km (160 km in Cameroon; 325 km in Nigeria)
Countries traversed:	Cameroon, Nigeria
Major tributaries:	Aboine, Anyim
Discharges to:	Atlantic Ocean (Gulf of Guinea) - 4° 50'N; 8° 17'E
Special features:	in Nigeria there is a floodplain (800 km²) along the central course with several lakes (Lakes Ebom, Ujum, Bob Eric, Ibini, Egwabe, Elcan, Ekwo).

Physical and chemical data
Conductivity:	10–25 μ S/cm
pH:	6.2–7.4
Ionic composition:	(see Table 8) PO₄ 0.0–0.1 mg/l

Fisheries data
Total annual catch:	3 500–8 000 t in Nigeria (1975)

LOGONE RIVER AND YAERES FLOODPLAIN
(International water)

Geographical data
Source:	Cameroon (Mbèrè tributary) - 6° 54'N; 14° 15'E
Total length:	550 km
Drainage area:	73 700 km² (at Bongor)
Countries traversed:	Cameroon, Chad
Discharges to:	Chari River at Fort Lamy
Volume of discharge at mouth: 40–3 000 (mean: 1 500) m³/sec
Flood regime:	floods in June-January, maximum in September-October
Special features:	Yaèrès floodplain (4 600–6 000 km²)

Physical and chemical data (see Table 8)
Conductivity:	K₂₄ 41–82 μ S/cm

Fisheries data
Total annual catch:	the catch (in the early 1960's) from the floodplain Chari/Logone system, which originates mainly from the Yaèrès, is estimated at 20 000–30 000 t from Cameroon and 35 000 t from Chad (Blache and Miton, 1962). The status of this fishery changed during the Sahelian drought, when much of the plain was left unflooded.
Potential annual yield: 12 500 t in Yaèrès floodplain (Sources: see Table 1)

SANAGA RIVER

Geographical data
Source:	Adamaoua Mountains
Total length:	890 km
Drainage area:	135 000 km²
Countries traversed:	Cameroon
Major tributaries:	Djerem, Mbom, Noun
Discharges to:	Atlantic Ocean
Volume of discharge at mouth: 500–5 700 m³/sec (mean 2 000; max in October)
Special features:	the lower course of the Sanaga has a floodplain with several lakes, including Tissongo, Mbali and Ossa. Upstream, the basin is impounded at Edea and Song-Loulou (both on the Sanaga), Bamendjing on the Noun, and Mbakaou on the Djerem.

Physical and chemical data (see Table 8)

Fisheries data
Potential annual yield:	1 200 t (Sources: see Table 1)

SANGHA RIVER
(International water)

Geographical data
Source:	Karre Mountains, western Central African Republic
Total length:	1 000 km (150 km along Cameroon border)
Countries traversed:	Cameroon, Congo, Central African Republic
Major tributaries:	Likuala, Ekela and Dja Rivers
Discharges to:	Zaire/Congo River
Volume of discharge at mouth: 700–4 300 m³/sec

BAMENDJING RESERVOIR

Geographical data
Location:	Cameroon - 5° 50'N: 10° 35'E
Altitude:	1 150 m asl
Dam height:	17 m
Date closed:	1975
Surface area:	250 km² (mean varies between 150 and 300 km²)
Volume:	1.8 km³
Max. length:	32 km
Max. width:	27 km
Annual fluctuation in level: 5–6 m
Major inflowing river:	Noun (tributary of Sanaga)
Outflowing river:	Noun

Fisheries data
Potential annual yield: 500 t (Sources: see Table 1)

BINI RESERVOIR

Geographical data
Location:	Cameroon
Date closed:	1962
Surface area:	3.0 km²

Fisheries data
Potential annual yield: 30 t (Sources: see Table 1)

DANG RESERVOIR

Geographical data
Location:	Cameroon
Date closed:	1963
Surface area:	1.0 km²

Fisheries data
Potential annual yield: 10 t (Sources: see Table 1)

EDEA RESERVOIR

Geographical data
Location:	Cameroon
Volume:	0.1 km³
Outflowing river:	Sanaga

LAGDO RESERVOIR

Geographical data
Location:	Cameroon - 8° 54'N; 13° 54'E
Dam height:	40 m
Date closed:	1982
Surface area:	700 km² (at USL); 220 km² (min)
Depth:	11.0 m (mean at USL)
Volume:	7.7 km³
Annual fluctuation in level: 10 m
Major inflowing river:	Benue
Outflowing river:	Benue

Fisheries data
No. of fishermen:	1 500 in 1983; 2 625 in 1984
No. of boats:	1 050 in 1984
Potential annual yield:	2 900 t (Sources: see Table 1)

MAGA RESERVOIR

Geographical data
Location:	Cameroon - 10° 21'N; 15° 15'E
Dam height:	10 m
Date closed:	1979
Surface area:	360 km²
Major inflowing river:	diversion canal from Logone
Outflowing river:	irrigation feed to rice fields

Fisheries data
No. of fishermen:	3 000 in 1984
Potential annual yield:	1 500 t (Sources: see Table 1)

MAYO OULOU RESERVOIR

Geographical data
Location:	Cameroon
Surface area:	80 km² at USL

MBAKAOU RESERVOIR

Geographical data
Location:	Cameroon - 6° 23'N; 12° 49'E
Altitude:	870 m asl
Dam height:	19 m
Date closed:	1968
Surface area:	500 km² (mean), but can dry completely at low water
Volume:	2.6 km³
Max. length:	50 km
Max. width:	16 km
Annual fluctuation in level: up to 28 m
Major inflowing rivers:	Djerem, Beli
Outflowing river:	Djerem (tributary of Sanaga)
Catchment area:	20 390 km²
Maximum discharge:	2 090 m³/sec (September-October)

Fisheries data
Potential annual yield:	3 500 t (Sources: see Table 1)

SONG-LOULOU RESERVOIR

Geographical data
Location:	Cameroon
Volume:	10 × 10⁶ m³
Outflowing river:	Sanaga

Table 8. ANALYSES OF RIVER WATERS - CAMEROON
(SOGREAH, 1983a)

River		pH	Cond. μS/cm	Ca mg/l	Mg mg/l	K mg/l	Na mg/l	Cl mg/l	SO₄ mg/l	HCO₃mg/l	SiO₂mg/l	Fe mg/l	TDS* mg/l
	(Site)	pH	Cond. μS/cm	Ca mg/l	Mg mg/l	K mg/l	Na mg/l	Cl mg/l	SO₄ mg/l	HCO₃mg/l	SiO₂mg/l	Fe mg/l	TDS* mg/l
Choumi		7.7	48	3.6	1.8	1.1	2.5	1.4	0.5	28.6	16.2	0.38	56.0
Metchie		7.6	43	3.6	2.0	1.1	2.7	1.0	0.9	31.1	14.4	0.35	57.1
Mezam
	(Bengwi)	7.2	22	1.6	0.6	1.5	1.8	1.4	0.9	13.4	13.5	0.42	35.1
Nkam		7.5	27	2.4	1.1	1.1	1.8	0.3	1.0	18.9	16.4	0.81	43.8
	(Melong)	7.5	45	2.6	1.2	1.4	2.8	0.3	0.3	24.4	16.8	0.35	50.1
Mbam
	(Mantoum)	7.5	48	3.4	1.7	1.4	2.5	2.8	0.5	25.6	15.0	3.8	56.7
Dibamba		7.3	41	2.0	1.1	1.9	2.0	0.3	-	20.1	10 ?	-	28.4
Ndongo (Tiko)		8.2	195	14.7	8.4	2.9	9.5	1.9	0.4	87.5	37.4	0.10	162.8
Mungo
	(pont Tiko)	7.7	110	5.2	2.4	3.1	5.3	1.0	0.9	46.9	23.1	0.08	87.9
	(Mundame)	7.6	71	4.0	2.3	1.9	3.0	3.2	0.9	32.9	19.8	0.12	68.1
Mumaya
	(Akwen)	7.3	76	2.1	1.3	1.7	9.0	12.2	0.4	17.9	13.8	0.20	58.6
Cross
	(Mamfe)	7.2	32	1.7	0.7	1.5	2.2	0.6	0.4	16.5	14.6	0.13	38.3
	(Mainyu)	7.2	33	1.7	1.5	1.5	2.2	1.1	0.4	17.7	13.0	0.13	39.2
Metchum
	(Gouri)	7.5	38	2.6	1.0	1.4	2.5	2.8	0.9	22.7	17.7	0.31	51.8
Mbam (Goura)		7.4	48	4.0	1.7	2.2	3.7	0.7	0.8	24.9	16.4	0.79	51.9
Sanaga
	(Nachtigal)	7.1	30	3.1	1.0	1.6	1.8	0.7	0.8	16.3	14.4	0.78	39.0
Nyong
	(Mbalmayo)	6.3	20	1.8	0.8	0.9	1.0	0.4	1.2	5.1	7.0	0.9	19.1
Logone
	(Bongor)	7.7	50	5.6	2.1	1.8	3.5	-	0.0	45.7	?	?
Benoue (Lagdo)		7.5	122	9.0	2.0	3.0	3.9	3.0	-	55.0	20.0	-
Mape (Magba)		7.5	44	3.2	1.2	1.5	2.3	1.4	0.5	24.4	14.6	0.43	49.5
Noum
	(Bafoussam)	7.8	88	5.6	3.2	2.3	4.1	1.4	1.0	46.3	18.7	0.30	82.9
	(Baboungo)	7.6	47	3.0	1.7	1.4	2.5	0.7	1.0	26.2	16.3	0.51	53.3
Nkoup
	(Foumban)	8.2	253	17.4	10.7	3.1	12.9	1.8	1.0	92.1	25.6	0.28	164.8
Monkie
	(Bamessing)	7.5	43	2.6	1.1	1.9	2.7	2.5	0.5	24.4	17.9	0.93	54.5
Ngam
	(Bangante)	8.2	37	2.4	1.3	0.8	1.8	1.4	0.5	18.3	12.0	0.61	39.1
Meteu (Baleng)		8.1	111	9.6	5.2	2.3	5.9	2.4	0.0	73.2	21.6	0.24	120.4
Nat (Bandjoun)		7.3	32	3.0	1.0	1.9	1.6	2.8	1.0	17.7	11.2	0.40	40.6
Chris (Mbo)		7.9	51	3.2	2.9	0.4	2.7	1.4	1.5	36.6	21.6	0.12	71.8
Choumi
	(Bamendou)	7.5	30	3.0	1.7	0.8	1.6	4.6	1.0	21.3	13.2	0.63	47.8
Massa		7.6	36	3.2	1.6	1.1	2.0	1.0	1.0	25.0	12.8	0.48	48.1
Mifi (bridge)		7.7	57	3.6	2.2	1.1	3.4	1.7	0.5	31.1	13.5	0.22	57.3

* Total dissolved solids

7. BIBLIOGRAPHY

Aubray, 1976
Balarin, 1985
Bell & Canterbery, 1976
Blache et al., 1964
Blache & Miton, 1962
De Kimpe, 1980a,b; 1983
Durand, 1980
Dussart, 1969
FAO, 1979
Grover, Street & Starr, 1980
Laclavere & Loung, 1980
Leveque, 1987b
Min. Econ. Plan, 1981
Moses, 1982
Njock, 1979
SOGREAH, 1982a,b,c; 1983a,b,c
Stauch, 1966; 1977
Van der Meeren, 1980
Welcomme, 1972; 1979