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Acacia auriculiformis

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(Redirected from Earleaf acacia)

Earleaf acacia
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fabales
Family: Fabaceae
Subfamily: Caesalpinioideae
Clade: Mimosoid clade
Genus: Acacia
Species:
A. auriculiformis
Binomial name
Acacia auriculiformis
Occurrence data from AVH

Acacia auriculiformis, commonly known as earleaf acacia, earpod wattle, auri (in the Philippines), karuvel (in Tamil Nadu and Karnataka) and aakashmani (in West Bengal), is a fast-growing, crooked, gnarly tree in the family Fabaceae. It is native to Australia, Philippines, Indonesia, and Papua New Guinea. It grows up to 30 metres (98 ft) tall.[2] Acacia auriculiformis has about 47,000 seeds per kilogram (21,000/lb).[3]

Identification

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Acacia auriculiformis is an evergreen tree that grows between to 15–30 metres (49–98 ft) tall, with a trunk as high as 12 m (39 ft) and 50 cm (1 ft 8 in) in diameter.[4] The trunk is crooked and the bark vertically fissured. Roots are shallow and spreading.

It has dense foliage with an open, spreading crown. Leaves 10–16 cm (4–6 in) long and 1.5–2.5 cm (0.6–1.0 in) wide with 3–8 parallel nerves, thick, leathery and curved.

Flowers are 8 cm (3.1 in) long and in pairs, creamy yellow and sweet scented. Pods are about 6.5 cm × 1.5 cm (2.6 in × 0.6 in), flat, cartilaginous, glaucous, transversely veined with undulate margins. They are initially straight but on maturity become twisted with irregular spirals. Seeds are transversely held in the pod, broadly ovate to elliptical, about 4–6 mm x 3–4 mm (0.16-0.24 in x 0.12-0.16 in). At Kozhikode (Kerala, India), flocks of jungle crow (large-billed crow, Corvus macrorhynchos), grey-headed myna (chestnut-tailed starling, Sturnia malabarica) and red-whiskered bulbul (Pycnonotus jocosus) have been observed to feed on the seeds with the aril, which is exposed when the pods are split. These birds also probably help in dispersal of seeds.[5]

The generic name Acacia comes from the Greek word akis meaning a point or a barb and the specific epithet comes from the Latin auricula- external ear of animals and forma- form, figure or shape, alluding to the shape of the pod.

Local names on the subcontinent: Telugu: Minnumaanu (మిన్నుమాను), Kondamanu (కొండ మాను), Seema Babul (సీమ బాబుల్), Maha Babul (మహా బాబుల్); Bengali: Akaashmoni; Tamil: Karuvel, Thai: กระถินณรงค์

Uses

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Flowers & leaves in Kolkata, West Bengal, India
Fruit

This plant is raised as an ornamental plant, as a shade tree and it is also raised on plantations for fuelwood throughout southeast Asia, Oceania and in Sudan. Its wood is good for making paper, furniture and tools. It contains tannin useful in animal hide tanning. In India, its wood and charcoal are widely used for fuel. Gum from the tree is sold commercially, but it is said not to be as useful as gum arabic.[2] In Thailand the small fresh leaves are eaten, often with nam prik chili sauce or papaya salad. The tree is used to make an analgesic by indigenous Australians.[6] Extracts of Acacia auriculiformis heartwood inhibit fungi that attack wood.[7] Aqueous extracts of A. auriculiformis show developmental inhibitory effects on Bactrocera cucurbitae (the melon fly).[8]

Functional uses

Products

  • Fodder: Not widely used as fodder, but in India 1-year-old plantations are browsed by cattle. Apiculture: The flowers are a source of pollen for honey production.
  • Fuel: A major source of firewood, its dense wood and high energy (calorific value of 4,500–4,900 kilocalories per kilogram (2,000–2,200 kcal/lb)) contribute to its popularity. It provides very good charcoal that glows well with little smoke and does not spark.
  • Fibre: The wood is extensively used for paper pulp. Plantation-grown trees have been found promising for the production of unbleached kraft pulp and high-quality, neutral, sulphite semi-chemical pulp. Large-scale plantations have already been established, as in Kerala, India, for the production of pulp.
  • Timber: The sapwood is yellow; the heartwood light brown to dark red, straight grained and reasonably durable. The wood has a high basic density (500–650 kilograms per cubic metre (31–41 lb/cu ft)), is fine-grained, often attractively figured and finishes well. It is excellent for turnery articles, toys, carom coins, chessmen and handicrafts. Also used for furniture, joinery, tool handles, and for construction if trees of suitable girth are available. Awang et al 1994 reports the most significant provenance-by-environment effect for any Acacia.[9] Awang located a strain of A. auriculiformis with statistically significantly faster growth when planted according to its provenance, which has been achieved for very few Acacia cultivars.[9] Even so no cultivar's provenance interaction has been taken very seriously by breeders.[9]
  • Tannin or dyestuff: The bark contains sufficient tannin (13-25%) for commercial exploitation and contains 6-14% of a natural dye suitable for the soga-batik industry. In India, the bark is collected locally for use as tanning material. A natural dye, used in the batik textile industry in Indonesia, is also extracted from the bark.
  • Other products: An edible mushroom, Tylopilus felleus, is common in plantations of A. auriculiformis in Thailand.

Services

  • Erosion control: Its spreading, superficial and densely matted root system makes A. auriculiformis suitable for stabilizing eroded land.
  • Shade or shelter: The dense, dark-green foliage, which remains throughout the dry season, makes it an excellent shade tree. Planted to provide shelter on beaches and beachfronts.
  • Reclamation: The spreading, densely matted root system stabilizes eroding land. Its rapid early growth, even on infertile sites, and tolerance of both highly acidic and alkaline soils make it popular for stabilizing and revegetating mine spoils.
  • Soil improver: Plantations of A. auriculiformis improve soil physio-chemical properties such as water-holding capacity, organic carbon, nitrogen and potassium through litter fall. Its phyllodes provide a good, long-lasting mulch.
  • Nitrogen fixing: A. auriculiformis can fix nitrogen after nodulating with a range of Rhizobium and Bradyrhizobium strains. It also has associations with both ecto- and endo-mycorrhizal fungi.
  • Ornamental: It is used for shade and ornamental purposes in cities where its hardiness, dense foliage and bright yellow flowers are positive attributes.
  • Intercropping: The effect of intercropping with annual crops varies. Increased tree growth has been found with kenaf (Hibiscus cannabinus), upland rice and groundnut in Thailand; reduced growth with maize in Cameroon.

Pests and diseases

In Indonesia, growth rate has been impaired by a rust fungus, Uromyces digitatus; in India, root rot caused by a fungus (Ganoderma lucidum) has been reported. A beetle (Sinoxylon spp.) can girdle young stems and branches, causing them to break. The insect is of concern, because the tree will develop multiple leaders if the main stem is damaged and the length of the bole will be reduced.[citation needed] Nambiar and Harwood 2014 find severe disease losses in plantations in Indonesia and Malaysia.[9] This is serious enough to require resistance breeding be a high priority in Acacia breeding.[9]

References

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  1. ^ Contu, S. (2012). "Acacia auriculiformis". IUCN Red List of Threatened Species. 2012: e.T19891902A19997222. doi:10.2305/IUCN.UK.2012.RLTS.T19891902A19997222.en. Retrieved 19 November 2021.
  2. ^ a b Purdue University Horticulture department
  3. ^ "Growing Process of Tropical Trees-(Compiled Version)". ftbc.job.affrc.go.jp. Archived from the original on 2008-04-12. Retrieved 2008-04-26.
  4. ^ "| World Agroforestry | Transforming Lives and Landscapes with Trees". Worldagroforestrycentre.org. Retrieved 2022-03-27.
  5. ^ Devasahayam, S. & Rema, J. (1991) Acacia seeds-A new food source for birds at Calicut. Newsletter for Birdwatchers 31 (1 & 2): 12-13
  6. ^ Analgesic Plants Archived April 23, 2007, at the Wayback Machine Australian New Crops Newsletter
  7. ^ Active antifungal substances from natural sources
  8. ^ Kaur, A.; Sohal, S.K; Singh, R.; Arora, S. (2010). "Development inhibitory effect of Acacia auriculiformis extracts on Bactrocera cucurbitae Coquillett (Diptera Tephritidae)". Journal of Biopesticides. 3 (2)): 499–504. doi:10.57182/jbiopestic.3.2.499-504.
  9. ^ a b c d e Harwood, Christopher E; Hardiyanto, Eko B; Yong, Wong Ching (2015-01-26). "Genetic improvement of tropical acacias: achievements and challenges". Southern Forests. 77 (1): 11–18. Bibcode:2015SFJFS..77...11H. doi:10.2989/20702620.2014.999302. S2CID 86900151.
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