Amhara Regional Agricultural Research Institute (ARARI), P O Box 794, Bahir-Dar, Ethiopia
Received: 25 September, 2014; Accepted: 08 January, 2015; Published: 10 January, 2015
Amhara Regional Agricultural Research Institute (ARARI), P O Box, 794, Bahir-Dar, Ethiopia, Email:
Tewabe D (2015) Preliminary Survey of Water Hyacinth in Lake Tana, Ethiopia Tana, Ethiopia. Glob J Allergy 1(1): 013-018. DOI: 10.17352/2455-8141.000003
© 2015 Tewabe D. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Biological control; Copious seeds; Daughter plants; Invasive weed and Vegetative reproduction
Investigation of water hyacinth was conducted from October 27, 2011 to November 3, 2011 by interdisciplinary expedition groups. A total of 24 sites were delineated using geographical positioning system (GPS) during investigation of water hyacinth incidence along the whole periphery of Lake Tana. Water hyacinth was started from Mitreha Abawarka kebele of Gondar zuria woreda specifically around at Netseba village with an estimated of 3 hectare area coverage. Highest infestation of the weed was observed at Megech River mouth with estimated area coverage of c. 80-100 hectare. Its infestation extends up to Dirma River mouth. Especial adaptation of water hyacinth on land based conditions at which soil moisture relatively high was observed around Tana woina kebele of Gondar zuria woreda adjacent lake shore side. The incidence and depth of water hyacinth infestation in Lake Tana is still at its infant stage, because except the North and to some extent North-east direction, the other parts of Lake Tana were devoid of the water hyacinth. Generally water hyacinth remains a major problem in Lake Tana where effective control programs are not in place as soon as possible.
Background and Justification
Water hyacinth has been identified under seven species and all water hyacinth species comprise the genus Eichhornia, of which Water hyacinth (Eichhornia crassipes) species is common and widely distributed all over the world. Water hyacinth are a free-floating perennial aquatic plant native to tropical and sub-tropical South America; with bright green, waxy leaves and attractive, violet flowers that have yellow strips on the banner petals. These plants tend to form mats on the water surface. Some times water hyacinth can be found growing in muddy soils near the edge of an aquatic system. The leaves are arranged in a rosette. The leaf stem usually is some what to completely swollen and filled with spongy tissue and thus acts as afloat. The blade of the leaf is oval to round and usually much smaller than the leaf stem. The common water hyacinth (Eichhornia crassipes) is vigorous growers known to double their population in two weeks. Water hyacinth grows rapidly. Growth of more than one tone of dry matter per day per hectare is not uncommon. One plant may be able to produce enough growth to cover 600 square meters in one year. Infestation break up in to “rafts” that drift wherever the winds and currents take them, rapidly infesting entire river systems .
Water hyacinth spread through fragmentation of established plants and may resprout from rhizomes or germinate from seeds . Dispersal also occurs by water-borne seeds and by seeds that stick to the fit of birds. Migratory birds may be important in long distance dispersal . The major means of dispersal, and the most difficult to control, is active transport by people who, ignorant of its impacts, seek to propagate it in other ponds and lakes. Humans also contribute to its spread in some areas by using the plant as a packing material and as cushions in boats .
Botanists and gardeners carry plants with them in their travels, and experts suspect that this is how the water hyacinth came to East Africa in the 1980s. Due to its attractive flowers; it was probably brought over as an ornamental for garden ponds . The consensus is that Water Hyacinth entered Lake Victoria from Rwanda via the river Kagera . The exact time and place of introduction has been debated, but the plant is native to South America, and therefore reached Lake Victoria due to human activity. It has spread prolifically, due to lack of natural enemies, an abundance of space, agreeable temperature conditions, and abundant nutrients . It increased rapidly between 1992-1998, was greatly reduced by 2001, and has since resurged to a lesser degree. Management techniques include (hyacinth-eating) insect controls and manual beach cleanup efforts . A water hyacinth infestation is seldom totally eradicated. Instead, it is a situation that must be continually managed [7,8].
The weed is a major concern in other countries as well. It has resulted in tremendous losses annually in fish and paddy rice production in India. In the Sudan it had invested over 3,000 kilometers of rivers by 1979, resulting in an estimated 10 percent loss in the normal flow of the Nile River and costing more than $ 3 million per year in control efforts (Parson, 1992). Water Hyacinth affects the Lake Victorian population in many negative ways. There are economic impacts when the weed blocks boat access. The effects on transportation and fishing are immediately felt. Where the weed is prolific, there is a general increase in several diseases, as the weed creates excellent breeding areas for mosquitoes and other insects. There are increased incidents of skin rash, cough, malaria, encephalitis, bilharzias, gastro intestinal disorders, and schistosomiasis [3,9,10]. Water hyacinth also interferes with water treatment, irrigation, and water supply . It can smother aquatic life by deoxygenating the water, and it reduces nutrients for young fish in sheltered bays. It has blocked supply intakes for the hydroelectric plant, interrupting electrical power for entire cities. The weed also interrupts local subsistence fishing, blocking access to the beaches .
Lake Tana is situated on the basaltic Plateau of the north-western highlands of Ethiopia covering an area of about 3,150 km2 with an elevation of 1830 m and an average depth of 8 m. The lake is bordered by low plains in the north (Dembea), east (Fogera) and south-west (Kunzila) that are often flooded in the rainy season. Lake Tana has multidisciplinary uses for example fishing, electric power generation, transportation, communal grazing land and drinking for humans other animals, and a site for different birds. Wetlands are located all around the lake which has high potential for biodiversity and the wellbeing of the lake. Lake Tana sub basin with diverse ecosystem (the Lake, the wetland and the rivers) support unique endemic fish species in the world. 20 of the 27 fish species of Lake Tana are endemics to the Lake Tana catchment. Of economically important fish species of the lake, there is one cichlid, Oreochromis niloticus (Nile tilapia), which is the most widespread species in Africa; The catfish family (Clariidae) is also presented by one species, Clarias gariepinus (African catfish) and The largest fish family in the lake is the cyprinids which are represented by four genera: Varicorhinus, Garra, Labeobarbus and Barbus. Despite this unique fish biodiversity and its high economic value, fish resources are under pressure from several threats. The major threat is illegal fishing, habitat destruction (wetland, rivers and the lake itself) due to human intervention; encroachment and pollution are the major ones. Now the above mentioned notorious weed called water hyacinth has been introduced in Lake Tana through unknown reasons and agents at a moment. The purpose of this preliminary survey was therefore; to investigate the incidence and estimate infested area coverage of Lake Tana.
To investigate the incidence and estimate depth of infested area coverage of the lake
To build knowledge about its biology, propagation and threat to resource of Lake Tana
To show ways and means of controlling the weed as soon as possible prior to large area coverage
To create awareness for respective higher officials, different stakes and policy makers
Result and Discussions
A total of 24 sites were delineated using geographical positioning system (GPS) during investigation of water hyacinth incidence along the whole periphery of Lake Tana. As a result the weed was started from Mitreha Abawarka kebele of Gondar zuria woreda specifically around at Netseba village with an estimated of 3 hectare area coverage (Table 1). The most devastating area coverage by the weed was observed at Megech River mouth extended both east and north direction with estimated area coverage of 80-100 hectare and widely distribution of daughter plants observed that moved forward by the assistance of the wave. Especial adaptation of water hyacinth on land based conditions at which soil moisture relatively high was observed around Tana woina kebele of Gondar zuria woreda (Figure 1).
Unstructured interviews to the local fishers and inhabitants were made about its source, time of occurrence and propagation abilities. As a result almost all respondents replied its source as if it was from western part of the lake particularly from Kunzila direction, but it was confirmed by the investigators that the whole periphery of North-west, West, South-west, South, South-East and Eastern parts of the lake was totally devoid of water hyacinth (Figure 2). Therefore, the most possible explanations would be birds because the infested area is known by cross boundary bird species, fishing equipments, wastewater treatments, and ornamental purposes in general it might be again introduced by human activities. Regarding to its introduction time, about 50 percent of the respondents replied that the weed has been introduced in the area with in two years time and the other 50 percent respond, as it has only been observed since July, 2011. During the survey, water hyacinth was at its 60 percent blooming stage that is ready to set its copious seeds (Figure 3).
- Twongo T, Bugenyi FWB, Wanda F (1995) The potential for further proliferation of water hyacinth in lakes Victoria, Kyoga and Kwania and some urgent aspects for research. Afr J Trop Hydrobiol Fish 6: 1-10.
- Penfound WT, Earle TT (1948) The Biology of the Water Hyacinth. Ecological Monographs 18: 447-472.
- Ogutu-Ohwayo R, Hecky RE, Cohen AS, Kaufman L (1997) Human impacts on the African Great Lakes. Env Biol Fishs 50: 117-131.
- Phiri G (1997) An update on water hyacinth distribution and biological control. Water Hyacinth Newsletter, CAB International 6: 5.
- Opande GO, Onyang JC, Wagai SO (2004) “Lake Victoria: The water hyacinth (Echhornia crassipes (MART), its socio-economic effects, control measures and resurgence in the Winam gulf.” Limnologica 34: 105-109
- Kateregga E, Sterner T (2007) Indicators for an invasive species: Water hyacinths Lake Victoria. Ecological indicators 7; 362-370.
- LVEMP (1996) Lake Victoria Environment Management Project (Kenya, Tanzania, Uganda). Global Environment Facility (GEF) Project Document. Washington, DC: The World Bank.
- Orach-Meza FL (1996) Water hyacinth: its problems and the means of control in Uganda. In Strategies for water hyacinth control. Food and Agriculture Organization of the United Nations, Rome, Italy 105-112.
- Thompson K (1991) the options available in Uganda for water hyacinth control. The water hyacinth in Uganda: ecology, distribution, problems and strategies for control. Food and Agriculture Organization of the United Nations, Rome, Italy. TEP/UGA/9153/A. pp. 37-42.
- Willoughby NG, Watson IG, Lauer S, Grant IF (1993) Effects of water hyacinth on the biodiversity and abundance of fish and invertebrates in Lake Victoria, Uganda. Natural Resources Institute. Natural Resources Institute, London, UK 10066; AO238; 27.
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