AGRICULTURE AND WATER RESOURCE DEVELOPMENT IN NORTHER SRI LANKA

AGRICULTURE AND WATER RESOURCE DEVELOPMENT IN NORTHER 

SRI LANKA

INDRODUCTION

The purpose of this study is to focus attention on issued related to water resource development for agricultural purposes in the Northern region. As this is a war torn area there is instability both about settlement and agricultural activities. But we wish to draw attention to other long term measures related to reconstruction and redevelopment in Northern Sri Lanka, once peace is restored. Firstly we deal with the agricultural system and then move on the surface water resource development in Vanni. After this we deal with development to of underground water resource in the Jaffna peninsula. Finally we put forward some concrete suggestions for water resource development in relation to agriculture.

Agriculture is the main occupation of the inhabitants of the North, part of the traditional homeland of the Tamil people; sixty per cent of the people are engaged in agricultural activities, I confine myself here to the northern region. Generally the farmers followed traditional methods of cultivation but in recent times new agricultural technology has attracted plenty of farmers and consequently changes are evident in agricultural inputs, irrigation and water management.

Agricultural activities in the North largely depend on the rainfall. The average annual rainfall in the north, which is part of the Dry Zone, is 1250mm or 55 inches. There are regional variations in the pattern of rainfall but it can safely by said that the traditional homeland of the Tamils, which includes the East, receives between 50-75 inches of rain annually. This region receives the bulk of the rainfall between October to January during the North-East monsoon. Seventy percent of the rain in this region falls during these four mouths. 20 to 25 percent of this rainfall drains off to the sea; 40-45 percent evaporates. According to some estimates, only the balance is available for agricultural purpose. It is only by conserving this sole water resource as surface water and as underground water that agriculture can be developed in this region.

WATER RESOURCE IN THE VANNI REGION AND THE DEVELOPMENT OF IRRIGATION FACILITIES

The water resources available in the north can be classified into two main categories; 1) Surface water resource and 2) Underground water resources. Surface water is the main resource in the mainland, excluding the Jaffna Peninsula, (Vanni region). In the Jaffna Peninsula, underground water resources are the main source of irrigation.

When one talks of surface water resources, one is referring to rivers and tanks. In the North East province, with the exception of the Mahaweli Ganga all the other rivers have their source in the Dry Zone. The monsoonal rains fill the rivers and the tanks. The waters of these rivers and their tributaries are dammed in their catchment areas enabling tanks to be filled with water. Some rivers have been diverted. This system of irrigation had been prevalent in the Tamil regions even before the Christian era, as the Pali chronicle Mahavamsa rectifies. According to the Mahavamsa, Kuveni had met Vijaya when she was sitting on a dam and weaving. That tank was situated in Mannar (Manthai) according to the description given in the Mahavamsa.

The tanks located in the Vanni region (mainland of the Northern Province) can be classified into three types;

1) Small tanks (these are less than 200 acres in extent) II) Intermediate tanks (those between 200 to 1500 acres in extent) and III) Major tanks (over 1500 across in extent).  The maintenance of small tanks (or minor irrigation works, as they are sometimes called) is the responsibility of the Department of Agrarian Services of the respective region. The other two types of tanks are the direct responsibility of the Irrigation departments. This Department which was set up in 1900 has drawn up and implemented several irrigation schemes to foster the agricultural development of the country. In 1959 the Irrigation Department published a map, with comments on the inherent irrigation potentialities. In this map, out of the 103 possible catchment areas in Sri Lanka 61 are located in the North and East.

The irrigation Department has published a map showing the annual discharge of waters for one square mile. According to this map, a line has been drawn between Vavuniya and Elephantpass and the map indicates that on the Western side of the line, it has an up-per capacity of  holding 500-acre feet. This shows that there is greater irrigation potentiality on the eastern side of the line. Through further research we can estimate how much water can ge conserved for irrigation purposes.

Generally the Vanni region possesses water resource potentialities to a large extent. Reservoirs have been built in the catchment areas of only some of these sites. Apart from the small and intermediate tanks which can be redeveloped, there are 10 major tanks in the Northern province. Some of the major tanks can be further expanded; many of them can be linked with one another so that their capacity to hold water can be increased. This linkage can take the form of connecting one catchment area with another. As the surface area of this region is largely low-lying and has a wave shape there is good scope for development.

The major portion of the Vanni region that covers the traditional homeland offers great potential for agricultural development in the future. There are two ways in which agricultural development can be expanded;

1) Increasing the yields of fields already under cultivation.

2) Bringing new lands under the plough. To increase the yields of fields already under cultivation, modern techniques of cultivation introduces by the green revolution can be profitably propagated among farmers. For these modern agricultural methods to be successful, fields under cultivation should be covered by irrigation schemes. For new high yields varieties of seed paddy, to be cultivated scientifically, it is imperative that the paddy fields are assured of irrigation facilities. Another way on increasing the yield is to see to it that paddy is cultivated annually during two or three seasons; this is feasible if irrigation facilities are enhances several people have successfully cultivated paddy thrice a year (the Maha season, the Yala season and Intermediate season).

With the exception of the Jaffna Peninsula, the mainland offers a lot of scope for bringing new fields under the plough, Bearing in mind that 25 percent of a country’s land surface should be reserved for forests, new agricultural settlements can be opened up in a scientific manner in areas where new fields are to be brought under the plough. It is also possible to expand already existing agricultural settlement.

It is imperative to develop irrigation facilities in a planed manner. One o the ways in which this could be done is increasing the capacity of tanks which have already been developed, another is linking up the small, medium and large tanks in the catchment areas of the region; yet another way is diverting the catchment area wherever feasible. In this manner irrigation facilities can be enhanced so that more lands can be utilized for agricultural purposes. Moreover only some of the catchment area (numbering 22 in all) have been to the maximum; several of these catchment areas have a lot of potential. For instance, Parangiaru, which has its source in Vavuniya and flows into Illupaikadavai in Mannar has not been systematically tapped so far for irrigation purposes. Irrigation experts are of the view that a major reservoir like Iranaimadhu can be constructed can be at this site. Similarly, it has been said that another reservoir can be constructed at Paliaru which falls under the Vavuikulam scheme. Hence one sees that major irrigation schemes can be successfully launched in the Vanni region to boost agricultural production.

UNDERGROUND WATER RESOURCE IN THE JAFFNA PENINSULA AND THE DEVELOPMENT OF IRRIGATION FACILITIES

From historic times, the underground water resources in the Jaffna Peninsula have been the foundation for human settlement. Seventy percent of the population of the Northern Province resides in the Jaffna Peninsula, the peninsula’s underground water resources account both for the density of the population and intensive cultivation.

If a line is drawn from Puttalam linking Paranthan and Mullaitivu, the areas lying towards the north west of this line have a limestone rock formation dating to the Miocene Age. These rock formations have the capacity to conserve large amount of water underground. Redsoil has the quality of allowing water to percolate downwards. Rainwater easily sees through and is conserved as underground water. Actually the water that seeps down is a layer of potable water floating on saline water. As one goes from the coastal area of the Peninsula towards the centre, this layer thickens the maximum thickness ranges from 100-110. This layer of potable water has been fragmented by the salt-water lagoons I the middle of the Peninsula. If these salt water lagoon can be converted into a fresh water lagoon then the layers of potable waters will merge and form a large layer of good water, thus enhancing the underground water resources several fold.

Limestone rock formation are found at a very deep level in the mainland an in the Jaffna Peninsula at not such a deep level. Therefore in the Jaffa Peninsula deep wells do not have to be dug to obtain good, drinking water. On the other hand, in the, mainland areas lying south of the line linking Puttalam, Paranthan and Mullaitivu the limestone rock formation lies very deep underground. Consequently tube wells have to be sunk at great expense to tap the underground water for irrigation purposes. For example in the Kilinochchi district 40 percent of the land area has a layer of limestone rock formation. The balance 60 per cent is comprised of Pleistocene Alluvial soil. The underground water obtained here is free of salinity. Hence even if it is costly, through the sinking of tube wells, a considerable extent of land can be irrigated, In mannar District, except for 20 per cent of the land area, the balance has underground water resources. In this district6 up to now more than 125 tube wells have been successfully sunk. In the Mullaitivu District underground water resources are available at a very deep level. Tapping this underground water resource will be very expensive.

Human settlement in Jaffna predate the dawn of the Christian era. From that time onwards, people have sunk wells to tap the underground water resources for drinking purposes and for agricultural purposes. Plenty of evidence testifies to this. The underground water has been drawn up through well sweeps and locally improvised machines for irrigation purposes. In the course of time, with the cultivation of subsidiary food crops the water pump has  come to be increasingly uses in Jaffna. Even in the villages, the use of the water pump has increased. This has led to problems in recent times in many areas of the Jaffna Peninsula; the underground water is turning saline. This is a very grave threat; to meett this threat successfully, intensive research has to be management, and the possibilities of developing these resources. In 1965, the Water Resource Board carried out some research on the underground water resources available in Jaffna and the possibilities of sinking tube wells for irrigation purposes but up to date the reports have not been formally published. More than ever before today we are forced to think seriously about the problems caused by the depletion of Jaffna’s underground water resources and ways and means of solving these problems. There is also a necessity to undertake development in a planned manner.

 DEVELOPMENT PROPOSALS

We put forward here certain development proposals for consideration. The proposals fall under two main heads;

a) the development of the Jaffna Peninsula’s underground water resources and

b) the development of the mainland’s surface water resources and its underground  water resources

It is a mistake to think that the land under cultivation in the Peninsula can be further increased. This can only lead to disaster consequence. The only course is to modernize existing agricultural practices and the use and management of water resources. The waste of valuable water resources should be avoided at all costs; agricultural practices should be modernized so as to yield maximum returns. Hereafter agricultural extension activities should concentrate on the main land. Since the density of the main land population is low, people should be given incentives to encourage them to settle in the main land. To attract the population to settle in the fertile areas of the mainland, several development schemes should be launched.

The efficiency of land utilization in the Jaffna Peninsula should be maximized. Cultivation in the peninsula is carried out at great expense, therefore every inch of land must be made to yield the maximum. Agricultural development should be viewed as agro business. Instead of cultivating paddy in the Peninsula, farmers should be encouraged to concentrate on cash crops and the cultivation on subsidiary food crops, vegetables, fruits etc. This production could serve as the basis for the development of agro industries by supplying the raw materials. Tobacco cultivation should be encouraged because tobacco cultivation doesn’t need large extents of land or much use of water. Tobacco cultivation is not only profitable but also helps the expansion of agro industries. Like tea and rubber, tobacco too can earn foreign exchange for the country. Cultivation in village close to towns should be geared to the urban markets. Jaffna’s cultivation should take into account the needs of the market.

Experts are of the opinion that steps should be taken to replenish Jaffna’s underground water resources. The only replenishment available is the meager rainfall during the north east monsoon period. Special care should be taken to ensure that the rainwater doesn’t drain off into the sea but is conserved to augment the underground water resources of the Peninsula. There are 1050 pounds in Jaffna. The built of the water that fills these ponds seeps downwards and replenishes the underground water resources. Some of these ponds are drying up due to sitting and dumping of garbage so that their capacity to let the water seep underground in curtailed. An urgent task is to delist these ponds which function as a replenishment for Jaffna’s underground water resources. The organization named Ootru took some constructive measures in this regard a few years ago. These tasks should be carried out in the village.

There is a practice here of allowing the soil from the ponds to be taken away for use in garden farms. Great caution should be exercised in this regard. Ponds should not be deepened to the extent where their underground water table is exposed. If that is allowed to happen, underground water will evaporate; therefore, permission should be given to remove soil only up to a certain depth.

In the certain areas of the Jaffna Peninsula, the top portion of the caverns through which underground water flows is I a state of collapse.

In a study undertaken of the Puttur tidal well, it was found that 30,000 to 40,000 gallons of water could be pumped out in ten hours to irrigate garden farms. Such wells (which are also found in Kurmabasiddy, Punnalaikadduwn, Alvai and Karaveddy) can be used not only for irrigation purpose but also for augmenting Jaffna’s underground water resources during the rainy season, in a systematic manner.

Underground water also flows into the sea through the underground caverns. An example is the water that comes through the kerni at keerimala. The caverns, which allow underground water to flow into the sea, should be identified and underground dams built to prevent this recurring. Such proposals have been put forward earlier but unfortunately not implement.

Anyone who has thought about Jaffna and its planned development for the future could not but come to the conclusion that the lagoons have to be converted into fresh water lagoons. Through such conversion (desalination) not only will Jaffna’s underground water resources be augmented but also the rain water that drains off into the sea can be a source of replenishment, after desalinization, for Jaffna underground water resources.

As the result, underground water resources will not be fragmented in pockets but will form a continuous layer. Consequently, the salinisation of fresh water will become less of a problem that it in now and barren lands will become fertile. The extent of land that can be brought under the plough in the Peninsula will increase and so will the fresh water resources. Desalinisation of the lagoons will bring as all these benefits. This idea of converting the salt lagoons into fresh water lagoons was put forward nearly a century ago. In 1922 when the dam of the Iranaimadu tank was being constructed the idea was mooted of turning the Elephant Pass lagoon into a fresh water one.

There are 13 lagoons that can be converted into fresh water ones and 33 dams to prevent salt water coming in. Planning for the long term, out of these 13 lagoons, the following four lagoons can be desalinized, without much expenditure- (1) The Elephant Pass west lagoon (2) The Elephant Pass east lagoon (3) Thondainanar lagoon and (4) Upparu lagoon. Several plans were formulated to desalinize the above lagoons and parts of these plans have been implemented. As fisher folk believe that salt water is conducive to the catching of fish, they allow salt water to come in; as a result these plans have not been fully successful. It is necessary that the plans be fully implemented. Moreover, some of the other lagoons surrounding the Peninsula can be converted into fresh water ones, without much expense, For example, the lagoon that separates Velanai and Mandaitivu can be easily converted into a frsh water lagoon. By closing the Pannai and Araly causeways, a large fresh water lagoon can be formed south west of Jaffna Town.

Through the implementation of such schemes, not only can the supplies of fresh water be augmented but also salinity can be eliminated, thus making hitherto barren lands fertile one. This will be a blessing for Jaffna starves as it is of arable land and a shortage of fresh water.

Those who oppose the conversion of salt-water lagoons into fresh water ones put forward two main objections.

The first objection they put forward is that if the entry of water into the lagoons is blocked, during the dry spell, the lagoon will completely dry up and the strong blowing will create dust storms, thereby polluting the residential environment.

This threat can be easily overcome conserving fresh water in such a manner that there is no complete  drying up and by identifying the areas which are prone to drying up completely and growing grass in these areas in a systematic manner. The example of the Netherlands is instructive here. There, the lagoons have been reclaimed grass systematically cultivated and animal husbandry encouraged.

The second main objection is that the livelihood of people who fish in the salt-water lagoon will be adversely effected. The answer to this objection that groups of people who will be adversely affected should be identified and they should be relocated in suitable coastal area. They should be encouraged to take to deep sea fishing instead of fishing in the shallow lagoon. This will also benefit them economically. Fisher folk who are likely to be affected should be relocated either in the Peninsula or in the Eastern coast of the mainland and encouraged to pursue deep-sea fishing. This might cause difficulties in the short run but in the development of the region in the long term will be highly beneficial.

It is true water management is not what it should be either in the Peninsula or the mainland. We can consider water management under two heads, (1) the management of reservoirs and the release of water from these reservoirs. (2) water management at field level.

As far as the first is concerned, the responsibility for water management lies largely with the State. Where field level water management is concerned, it depends largely on the educational level of the farmer, their participation and co-operation. Generally it can be said that water management has not kept pace with the development of water resources. After the introduction of the water pump. It is felt that in Jaffna excessive draw off of water is taking place to irrigate the crops. This is one factor in the increase of salinisation. Farmers in a particular region should be educated about what crop should be used and how much water should be used to irrigate it during a particular season. Such education of farmers is necessary in view of the fact that the prevalent system of irrigation accelerates evaporation. To prevent  this the system of sprinkler irrigation and other modern techniques used in Israel should be adopted.

Planning for the development of water resources calls for the systematic collection of data. This calls for co-operation among experts of several different disciplines, thus it is essentially an inter disciplinary task involving expertise in varied fields ranging from Geography to Agriculture. This inter disciplinary task force should work together as a team to ensure success.

As far as the mainland is concerned, not enough work has been done to estimate the available water resources. In the forests of the Vanni, there are several old tanks, which have silted up. Desilting has to be carried out in such cases. The capacity of tanks presently operational should be increased as was done in 1980/81 in the case of some tanks. New reservoirs too should be constructed by damming the catchment areas of Parangiaru and Paliaru.

By enhancing the lift irrigation facilities of certain selected tanks in the mainland, the cultivation of subsidiary food crops could be encouraged. In the agricultural settlements in the North, it is noteworthy that the most successful where the educated youth settlement which were provided with left irrigation facilities for the cultivation of subsidiary food crops.

In conclusion, it has to be said that the planned development both of agriculture and of water resources in the North will be fully successfully only if they are the outcome of decisions taken by the people of the region. Only if administrative control is in the hands of the people, that we can attain only self-sufficiency but also produce a surplus.

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