Cover Image
close this book Nitrogen Fixing Trees highlights
View the document Acacia koa - Hawaii's most valued native tree
View the document Acacia leucophloea - shade and fodder for livestock in arid environments
View the document Alnus acuminata: valuable timber tree for tropical highlands
View the document Albizia saman: pasture improvement, shade, timber and more
View the document Casuarina junghuhniana: a highly adaptable tropical casuarina
View the document Enterolobium cyclocarpum: the ear pod tree for fasture, fodder and wood
View the document Erythrina variegata: more than a pretty tree
View the document Inga edulis: a tree for acid soils in the humid tropics
View the document Pithecellobium dulce - sweet and thorny
View the document Pterocarpus indicus - the majestic n-fixing tree
View the document Robinia pseudoacacia: temperate legume tree with worldwide potential
View the document Acacia nilotica - pioneer for dry lands
View the document Acacia saligna - for dryland fodder and soil stabilization
View the document Acacia senegal: gum tree with promise for agroforestry
View the document Acacia seyal - multipurpose tree of the Sahara desert
View the document Acacia tortilis: fodder tree for desert sands
View the document Alnus nepalensis: a multipurpose tree for the tropical highlands
View the document Casuarina equisetifolia: an old-timer with a new future
View the document Casuarina glauca: a hardy tree with many attributes
View the document Chamaecytisus palmensis: hardy, productive fodder shrub
View the document Dalbergia latifolia: the high-valued Indian rosewood
View the document Dalbergia melanoxylon: valuable wood from a neglected tree
View the document Erythrina edulis: multipurpose tree for the tropical highlands
View the document Erythrina sandwicensis - unique Hawaiian NFT
View the document Hippophaë rhamnoides: an NFT valued for centuries
View the document Leucaena diversifolia - fast growing highland NFT species
View the document Leucaena: an important multipurpose tree
View the document Olneya tesota - a potential food crop for hot arid zones
View the document Honey mesquite: a multipurpose tree for arid lands
View the document Pongamia pinnata - a nitrogen fixing tree for oilseed
View the document Guazuma ulmifolia: widely adapted tree for fodder and moreli
View the document Faidherbia albida - inverted phenology supports dryzone agroforestry
View the document Gleditsia triacanthos - honeylocust, widely adapted temperate zone fodder tree
View the document Andira inermis: more than a beautiful ornamental tree
View the document Erythrina poeppigiana: shade tree gains new perspectives
View the document Albizia procera - white siris for reforestation and agroforestry
View the document Albizia odoratissima - tea shade tree
View the document Adenanthera pavonina: an underutlized tree of the humid tropics
View the document Acacia mangium: an important multipurpose tree for the tropic lowlands
View the document Acacia auiculiformis - a multipurpose tropical wattle
View the document Pentaclethra microphylla: a multipurpose tree from Africa lwith potential for agroforestry in the tropics
View the document Myroxylon balsam and much more
View the document Ougeinia dalbergioides: a multipurpose tree for sub-tropical and tropical mountain regions
View the document Prosopis alba and prosopis chilensis: subtropical semiarid fuel and fodder trees
View the document Sesbania sesban: widely distributed multipurpose NFT
View the document Prosopis cineraria: a multipurpose tree for arid areas
View the document Juliflorae acacias: new food source for the sahel
View the document Sesbania grandiflora: NFT for beauty, food, fodder and soil improvement
View the document Acacia aneura - a desert fodder tree

Pongamia pinnata - a nitrogen fixing tree for oilseed

 

Pongamia pinnata (L.) Pierre has also been called Derris indica (Lam.) Bennet and Pongamia glabra Vent., all three of these names are still commonly found in literature. Pongamia pinnate is one of the few nitrogen fixing trees (NFTs) to produce seeds containing 30-40% oil. It is often planted as an ornamental and shade tree. This species is commonly called pongam, karanga, or a derivation of these names.

 

Botany

Pongam (Leguminosae subfamily Papilionoideae) is a mediumsized tree that generally attains a height of about 8 m and a trunk diameter of more than 50 cm. However, Troup (GOI 1983) reports trees attaining heights of 18 m. The trunk is generally short, with thick branches spreading into a dense hemispherical crown of dark green leaves. The bark is thin, gray to grayishbrown, and yellow on the inside (GOI 1983). The taproot is thick and long, lateral roots are numerous and well developed.

The alternate, compound pinnate leaves consist of 5 or 7 leaflets which are arranged in 2 or 3 pairs, and a single terminal leaflet.

Leaflets are 5-10 cm long, 4-6 cm wide, and pointed at the tip. Flowers, borne on racemes, are pink, light purple, or white. Pods are elliptical 3-6 cm long and 2-3 cm wide, thick walled, and family contain a single seed. Seeds are 10-20 cm long, flat, oblong, and light brown in color.

 

Ecology

Native to humid and subtropical environments, pongam thrives in areas having an annual rainfall ranging from 500 to 2500 mm In its natural habitat, the maximum temperature ranges from 27 to 38°C and the minimum 1 to 16°C. Mature trees can withstand waterlogging and slight frost. This species grows to elevations of 1200 m, but in the Himalayan foothills is not found above 600 m (GOI 1983).

Pongam can grow on most soil types ranging from stony to sandy to clayey, including Verticals. It does not do well on dry sands. It is highly tolerant of salinity. It is common along waterways or seashores. with its roots in fresh or salt water. Highest growth rates are observed on well drained soils with assured moisture. Natural reproduction is profuse by seed and common by root suckers.

Distribution The natural distribution of pongam is along coasts and river banks in India and Burma. Native to the Asian subcontinent this species has been introduced to humid tropical lowlands in the Philippines, Malaysia, Australia, the Seychelles, the United States (Little undated), and Indonesia.


Pongamia pinnata

 

Uses

Wood.

With a calorific value of 4600 kcal per kg, pongam is commonly used as fuelwood. Its wood is beautifully grained and medium to coarse textured However, it is not durable, is susceptible to insect attack, and tends to split when sawn. Thus the wood is not considered a quality timber. The wood is used for cabinet making, cart wheels, posts (NAS 1980), agricultural implements, tool handles and combs (GOI 1983).

 

Oil.

A thick yellow-orange to brown oil is extracted from seeds. Yields of 25% of volume are possible using a mechanical expeller. However, village crushers average a yield of 20% (ICFRE, undated). The oil has a bitter taste and a disagreeable aroma. thus it is not considered edible. In India, the oil is used as a fuel for cooking and lamps. The oil is also used as a lubricant, water-paint binder, pesticide, and in soap making and tanning industries. The oil is known to have value in folk medicine for the treatment of rheumatism, as well as human and animal skin diseases. It is effective in enhancing the pigmentation of skin affected by leucoderma or scabies (ICFRE undated).

 

Fodder and feed.

Opinions vary on the usefulness of this species as a fodder. Troup (GOI 1983) reports that the leaves are eaten by cattle and readily consumed by goats. However, in many areas it is not commonly eaten by farm animals. Its fodder value is greatest in arid regions. According to Singh (1982) the leaves contain 43% dry matter, 18% crude protein, 62% neutral detergent fiber, 40% acid detergent fiber, and in vitro dry matter digestibility of 50%. The presscake, remaining when oil is extracted from the seeds, is used as a poultry feed

 

Other uses.

Incorporation of leaves and the presscake into soils improves fertility. Dried leaves are used as an insect repellent in stored grains. The presscake, when applied to the soil has pesticidal value, particularly against nematodes. String and rope can be made from the bark fiber.

Pongam is often planted in homesteads as a shade or ornamental tree and in avenue plantings along roadsides and canals. When planted as a shade or ornamental tree' branch pruning may be necessary to obtain a trunk of appropriate height. It is a preferred species for controlling soil erosion and binding sand dunes because of its dense network of lateral roots. Its root, bark, leaf, sap, and flower also have medicinal properties.

 

Silvicullture

Pongam is easily established by direct seeding or by planting nursery-raised seedlings or stump cuttings of 1-2 cm rootcollar diameter. Propagation by branch cuttings and root suckers is also possible. In peninsular India, the seeding season is April to June, and the seed yield per tree ranges from about 10 kg to more than 50 kg. There are 1500-1700 seeds per kg Seeds, which require no treatment before sowing, remain viable for about a year when stored in air-tight containers.

Seed germinates within two weeks of sowing. Seedlings attain a height of 25-30 cm in their first growing season. Transplanting to the field should occur at the beginning of the next rainy season when seedlings are 60 cm in height (GOI 1983). Seedlings have large root systems. Soil should be retained around the roots during transplanting. Seedling survival and growth benefit from annual weed control for the first three years after transplanting.

The spacing adopted in avenue plantings is about 8 m between plants. In block plantings, the spacing can range from 2 x 2 to 5 x 5 m. Pongam seedlings withstand shade very well and can be interplanted in existing tree stands. This species can be regenerated by coppice management Information on management practices to maximize seed or biomass production is not available and should be investigated Because it tolerates moderate levels of salinity, Pongam is an ideal candidate for saline soil reclamation.

 

Symbiosis

Nodulation is reported in Pongam (Dayama, 1985). In nurseries and in the field the presence of nodules on uninoculated pongam seedlings is common. Therefore, this species may not be specific in its Rhizabium strain requirement

 

Limitations

Pongam attracts many pests and diseases. Some of the important pests are Parnara mathias, Gracillaria sp., Indarbela quadrinotata Myllocerus curvicornis, and Acrocercops sp. (Anon. 1994). Attacks by these insects cause whitish streaks and the formation of galls on affected leaves. The lateral spread of roots of this species. about 9 m in 18 years, is greater than most other tree species (Misra and Singh 1987). Moreover, it produces root suckers profusely. Because of these characteristics, pongam is unsuitable for agroforestry and has the potential to become a weed if not managed carefully.

 

References

Anon. 1994. Biological control agents of social forestry insects. Entomology Research Institute, Loyola College, Madras India 11 p.

Beddome, R.H. 1869-74. The flora sylvatica for Southern India 2 volumes, illustrated Madras India.

Dayama, O. P. 1985. Effect of sucrose on the growth, nodulation and nitrogen content of Pongamia pinnata Nitrogen Fixing Tree Research Reports 3: 9.

GOI (Government of India). 1983. Troup's The Silviculture of Indian Trees, Volume IV, Leguminosae. Government of India Press, Nasik, India. 345 p.

ICFRE (Indian Council of Forestry Research and Education). Undated. Pongamia pinnata Forest Research Institute, Dehra Dun, India 12 p.

Lewis, G. P. 1988. Notes on NFT nomenclature. Nitrogen Fixing Tree Research Reports 6: 23.

Little, E. L. Jr. Undated. Common fuelwood crops. Communi Tech Associates Morgantown, West Virginia. 354 p.

Misra, C. M. and Singh, S. L. 1987. Ecological evaluation of certain leguminous trees for agroforestry. Nitrogen Fixing Tree Research Reports 5: 5.

NAS, 1980. Firewood crops: shrub and tree species for energy production, volume 1. National Academy of Sciences Washington, D.C. 237 p.

Singh, R.V. 1982. Fodder trees of India Oxford and IBH Publishing Co. New Delhi, India 663 p.

 

FACT 97-02 January 1997