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close this bookNitrogen Fixing Trees Highlights (Winrock, 1990-1997, 100 p.)
View the document(introduction...)
View the documentAcacia koa - Hawaii's most valued native tree
View the documentAcacia leucophloea - shade and fodder for livestock in arid environments
View the documentAlnus acuminata: valuable timber tree for tropical highlands
View the documentAlbizia saman: pasture improvement, shade, timber and more
View the documentCasuarina junghuhniana: a highly adaptable tropical casuarina
View the documentEnterolobium cyclocarpum: the ear pod tree for fasture, fodder and wood
View the documentErythrina variegata: more than a pretty tree
View the documentInga edulis: a tree for acid soils in the humid tropics
View the documentPithecellobium dulce - sweet and thorny
View the documentPterocarpus indicus - the majestic n-fixing tree
View the documentRobinia pseudoacacia: temperate legume tree with worldwide potential
View the documentAcacia nilotica - pioneer for dry lands
View the documentAcacia saligna - for dryland fodder and soil stabilization
View the documentAcacia senegal: gum tree with promise for agroforestry
View the documentAcacia seyal - multipurpose tree of the Sahara desert
View the documentAcacia tortilis: fodder tree for desert sands
View the documentAlnus nepalensis: a multipurpose tree for the tropical highlands
View the documentCasuarina equisetifolia: an old-timer with a new future
View the documentCasuarina glauca: a hardy tree with many attributes
View the documentChamaecytisus palmensis: hardy, productive fodder shrub
View the documentDalbergia latifolia: the high-valued Indian rosewood
View the documentDalbergia melanoxylon: valuable wood from a neglected tree
View the documentErythrina edulis: multipurpose tree for the tropical highlands
View the documentErythrina sandwicensis - unique Hawaiian NFT
View the documentHippophaƫ rhamnoides: an NFT valued for centuries
View the documentLeucaena diversifolia - fast growing highland NFT species
View the documentLeucaena: an important multipurpose tree
View the documentOlneya tesota - a potential food crop for hot arid zones
View the documentHoney mesquite: a multipurpose tree for arid lands
View the documentPongamia pinnata - a nitrogen fixing tree for oilseed
View the documentGuazuma ulmifolia: widely adapted tree for fodder and moreli
View the documentFaidherbia albida - inverted phenology supports dryzone agroforestry
View the documentGleditsia triacanthos - honeylocust, widely adapted temperate zone fodder tree
View the documentAndira inermis: more than a beautiful ornamental tree
View the documentErythrina poeppigiana: shade tree gains new perspectives
View the documentAlbizia procera - white siris for reforestation and agroforestry
View the documentAlbizia odoratissima - tea shade tree
View the documentAdenanthera pavonina: an underutlized tree of the humid tropics
View the documentAcacia mangium: an important multipurpose tree for the tropic lowlands
View the documentAcacia auiculiformis - a multipurpose tropical wattle
View the documentPentaclethra microphylla: a multipurpose tree from Africa lwith potential for agroforestry in the tropics
View the documentMyroxylon balsam and much more
View the documentOugeinia dalbergioides: a multipurpose tree for sub-tropical and tropical mountain regions
View the documentProsopis alba and prosopis chilensis: subtropical semiarid fuel and fodder trees
View the documentSesbania sesban: widely distributed multipurpose NFT
View the documentProsopis cineraria: a multipurpose tree for arid areas
View the documentJuliflorae acacias: new food source for the sahel
View the documentSesbania grandiflora: NFT for beauty, food, fodder and soil improvement
View the documentAcacia aneura - a desert fodder tree

Prosopis cineraria: a multipurpose tree for arid areas

Prosopis cineraria is a versatile species, providing fodder, fuel food, timber, and shade, as well as affecting soil improvement and sand dune stabilization. It is commonly used in dryland agroforestry in India and Pakistan. The tree is known locally as jandi or khejri (India), jand (Pakistan), and ghaf (Arabic). Its synonym is P. spicigera.


Prosopis cineraria (L.) Druce (family Leguminosae, subfamily Mimosoideae) is one of 44 species of leguminous trees and shrubs in the genus. It is a small, thorny, irregularly branched tree, 5-10 m high. Evergreen or nearly so, it forms an open crown and has thick, rough gray bark with deep fissures.

Leaves are alternate, bipinnately compound with 1-3 pairs of pinnae. Each pinna has 7-14 pairs of leaflets, 15 mm long and 2-4 mm broad. The thorns are straight with a conical base and distributed sparsely along the length of the stem. They first become visible when the seedlings are 6-8 weeks old. In this respect, P. cineraria differs from the thorny New World species of Prosopis (e.g., P. juliflora) which have thorns in pairs at the nodes but thornless internodes.

Young branches of (A) Prosopis cineraria and (B) P. juliflora, showing the differing position of thorns.

The 0.6 cm yellow-green flowers are borne on 5-23 cm spike-like racemes. Up to 25 dull brown seeds, 03-0.8 cm long, are contained in each of the light yellow pods, which are long (8-19 cm), narrow (0.4-0.7 cm), and cylindrical. As with other Prosopis, rooting can be very deep; the tap root of P. cineraria may penetrate vertically up to 20 m or more (Mahoney 1990).


P. cineraria occurs naturally in the dry and arid regions of India, Pakistan, Afghanistan, Iran, and Arabia. It is one of the principal species on higher and older alluvium in the Indus river valley. It is extremely drought tolerant, growing in areas with as little as 75 mm annual rainfall generally 150400 mm (FFN 1991), with dry seasons of eight months or more (NAS 1980).

Slightly frost hardy and tolerant of temperatures up to 50°C, it grows at altitudes from sea level to 600 m. The tree is found in alluvial and coarse, sandy, often alkaline soils where the pH may reach 9.8. In vitro studies have confirmed the nodulation of P. cineraria with Rhizobium.

In areas such as the Wahiba Sands in Oman there exist isolated, ancient P. cineraria trees. It also grows gregariously on sand. Under less extreme conditions, P. cineraria, often in association with Acacia tortilis, may form open dry, woodlands, which are important communities within the desert ecosystem. There is considerable phenotypic variation between individuals in crown shape, growth rate, and branching. Ecotypes growing in highly saline coastal areas have also been identified.



P. cineraria provides excellent firewood (calorific value, cat 5,000 kcal/kg) and charcoal Its wood is favored for cooking and domestic heating (Mahoney 1990). Hard and reasonably durable, the wood has a variety of uses for house building, posts, tool handles, and boat frames, although poor tree form limits its usefulness as timber.


The leaves are an available, excellent, and nutritious fodder, readily eaten by many animals including camels, goats, and donkeys. The tree produces leaves during the extremely dry summer months when most other trees are leafless. Leaves contain 13.8% crude protein, 20% crude fiber, and 18% calcium (FFN 1991). The pods also provide a good fodder, containing a dry, sweet pulp.


Pods are eaten as a vegetable in the human diet in some areas. In Rajasthan, green pods called sangri are boiled and dried (FFN 1991). The flowers are valuable for honey production. The bark can be used in leather tanning and yields an edible gum. Bark and flowers are used medicinally (NAS 1980). In times of famine, the powdered bark has been mixed with flour and made into cakes (Bhandari 1978).

Land use:

P. cineraria effectively stabilizes sand dunes and can withstand periodic burial (Gates and Brown 1988). Because of a deep taproot, trees are not believed to compete for moisture or nutrients with crops grown dose to the trunk. During the growing season it casts only light shade and is therefore suitable as an agroforestry species. Farmers in arid and semi-arid regions of India and Pakistan have long believed it to increase soil fertility in crop fields. Yields of sorghum or millet increased when grown under P. cineraria, as a result of higher organic matter content, total nitrogen, available phosphorus, soluble calcium, and lower pH (Mann and Shankarnarayan 1980). Other crops traditionally grown amid scattered khejri are maize, wheat, and mustard.


Seeds (25,000/kg) remain viable for decades in dry storage and establish well with 80-90% germination (Mahoney 1990). Soaking seeds in tepid water for 24 h is recommended as a pre-germination treatment. The round end of the seed may also be scarified by scratching or nicking with a file or knife.

P. cineraria is difficult to propagate by cuttings, although treatment with rooting hormones has proved successful in India. Propagation by root suckers and by air layering has been reported. Recent attention has also been given to micropropagation of this species, but it appears that in vitro propagation is more difficult with P. cineraria than with many other Prosopis species. The tree is also considered slower growing than other Prosopis.

Seedlings are raised in a nursery and transplanted when 2-3 months old at the onset of the rainy season. Trees can be planted in close lines as a hedge with 1 m spacing between trees (Mahoney 1990), but tree densities of 50-100/ha are recommended for both agroforestry and silvopastoral systems. One or two weedings are necessary during the first year owing to slow initial growth rate. Early pruning to encourage straight growth is recommended (NAS 1980). The tree responds well to irrigation, tolerating up to 50% sea water.

The tree coppices readily (NAS 1980). Maximum yields of fodder are obtained when the trees are pollarded on a threeyear-rotation. Villagers traditionally lop their trees in winter and store the sun-dried leaves for dry season fodder.


The trees reach 3-5 m high in 5-6 years with an average diameter of 6 cm. Annual firewood yields of up to 2.9 m³/ha have been reported (NAS 1980). A moderate sized tree may yield 45 kg of dry leaf fodder per year.


Although P. cineraria plays a vital role as an agroforestry species in some parts of its natural range, little success has been achieved in planting it elsewhere. Further work is needed to establish the range of conditions under which it might prove useful. P. cineraria displays considerable genetic variation, particularly in populations close to the edge of its natural range, which are often threatened by overgrazing. Genetic conservation of this valuable resource is considered a priority.


Desert locusts (Shistocarica gregaria) and Melolonthidae beetles attack the foliage, and bruchid beetles feed on the mature dried seeds. Termites (Odontoteomen obesus), white grubs (Halorachia spp.), and the gallfly (Goccidomulid gall)) arc also important pests. There is little information on diseases of P. cineraria. This NFT is not suitable for planting in riverine areas or subhumid environments where it can become an aggressive colonizer and spread rapidly.


Bhandari, MM. 1978. Flora of the Indian Desert. Scientific Publishers, Jodhpur, India.

Burkart, A. 1976. A monograph of the genus Prosopis (Leguminosae, subfam. Mimosoideae). J. Am. Arb. 57(3/4): 219-249; 450-525.

FFN. 1991. Spotlight on species: Prosopis cineraria. Farm Forestry News Vol. 4, No. 3.

Gates, P.J. and K Brown. 1988. Acacia tortilis and Prosopis cineraria: Leguminous trees for arid areas. Outlook on Agriculture 17:61 64.

Leakey, R.R.B. and F.T. T. Last. 1980. Biology and potential of Prosopis species in arid environments with particular reference to P. cineraria. 1. Arid Environments 3:9-24.

Mahoney, D. 1990. Trees of Somalia - A field guide for development workers. Oxfam/HDRA, Oxford. p. 133-136.

Mann, H.S. and K.A. Shankarnarayan. 1980. The role of Prosopis cineraria in an agropastoral system in Western Rajasthan. In Browse in Africa, edited by H.N LeHouerou, International Livestock Centre for Africa, Addis Ababa, Ethiopia. p. 437442.

NAS (National Academy of Sciences). 1980. Firewood Crops. Vol. 1. National Academy Press, Washington, D.C. p. 150

NFTA 93-01 March 1993