Acacia Explained

Acacia, commonly known as wattles or acacias, is a genus of about of shrubs and trees in the subfamily Mimosoideae of the pea family Fabaceae. Initially, it comprised a group of plant species native to Africa, South America, and Australasia, but is now reserved for species mainly from Australia, with others from New Guinea, Southeast Asia, and the Indian Ocean. The genus name is Neo-Latin, borrowed from the Greek (Greek, Ancient (to 1453);: akakia), a term used in antiquity to describe a preparation extracted from Vachellia nilotica, the original type species.

A number of species of Acacia have been introduced to various parts of the world, and two million hectares of commercial plantations have been established.^[1]

Description

Plants in the genus Acacia are shrubs or trees with bipinnate leaves, the mature leaves sometimes reduced to phyllodes or rarely absent. There are 2 small stipules at the base of the leaf, but sometimes fall off as the leaf matures. The flowers are borne in spikes or cylindrical heads, sometimes singly, in pairs or in racemes in the axils of leaves or phyllodes, sometimes in panicles on the ends of branches. Each spike or cylindrical head has many small golden-yellow to pale creamy-white flowers, each with 4 or 5 sepals and petals, more than 10 stamens, and a thread-like style that is longer than the stamens. The fruit is a variably-shaped pod, sometimes flat or cylindrical, containing seeds with a fleshy aril on the end.^{[2] [3] [4] [5] [6] [7]}

Taxonomy

The genus was first validly named in 1754 by Philip Miller in The Gardeners Dictionary.^[8] In 1913 Nathaniel Lord Britton and Addison Brown selected Mimosa scorpioides (≡ Acacia scorpioides = Acacia nilotica), a species from Africa, as the lectotype of the name.

History

Genus Acacia was considered to contain some leading to 1986. That year, Leslie Pedley questioned the monophyletic nature of the genus, and proposed a split into three genera: Acacia sensu stricto (161 species), Senegalia (231 species) and Racosperma (960 species), the last name first proposed in 1829 by Carl Friedrich Philipp von Martius as the name of a section in Acacia,^[9] but raised to generic rank in 1835.^{[10] [11] [12]} In 2003, Pedley published a paper with 834 new combinations in Racosperma for species, most of which were formerly placed in Acacia.^[13] All but 10 of these species are native to Australasia, where it constitutes the largest plant genus.^[6]

In the early 2000s, it had become evident that the genus as it stood was not monophyletic and that several divergent lineages needed to be placed in separate genera. It turned out that one lineage comprising over 900 species mainly native to Australia, New Guinea, and Indonesia was not closely related to the much smaller group of African lineage that contained A. nilotica – the type species. This meant that the Australasian lineage (by far the most prolific in number of species) would need to be renamed. Pedley's proposed name of Racosperma for this group had received little acclaim in the botanical community. Australian botanists proposed a less disruptive solution, setting a different type species for Acacia (A. penninervis) and allowing this largest number of species to remain in Acacia, resulting in the two pan-tropical lineages being renamed Vachellia and Senegalia, and the two endemic American lineages renamed Acaciella and Mariosousa.^[14]

In 2003, Anthony Orchard and Bruce Maslin filed a proposal to conserve the name Acacia with a different type, in order to retain the Australasian group of species in the genus Acacia. Following a controversial decision to choose a new type for Acacia in 2005, the Australian component of Acacia s.l. now retains the name Acacia.^{[15] [16]} At the 2011 International Botanical Congress held in Melbourne, Australia, the decision to use the name Acacia, rather than the proposed Racosperma for this genus, was upheld.^{[17] [18]} Other Acacia s.l. taxa continue to be called Acacia by those who choose to consider the entire group as one genus.^[18]

The Australian species of the genus Paraserianthes s.l. (namely P. lophantha) are deemed its closest relatives.^[19] The nearest relatives of Acacia and Paraserianthes s.l. in turn include the Australian and South East Asian genera Archidendron, Archidendropsis, Pararchidendron and Wallaceodendron, all of the tribe Ingeae.^[20]

Etymology

The genus name is Neo-Latin, borrowed from the Greek akakia, a name used by Dioscorides for some prickly species growing in Egypt, from acacis meaning "a point".^[21] In his Pinax (1623), Bauhin mentioned the Greek from Dioscorides as the origin of the Latin name.^[22]

The origin of "wattle" may be an Old Teutonic word meaning "to weave".^[23] From around 700 CE, English, Old (ca.450-1100);: watul was used in Old English to refer to the flexible woody vines, branches, and sticks which were interwoven to form walls, roofs, and fences. Since about 1810 it has been used as the common name for the Australian legume trees and shrubs that can provide these branches.^[23]

Species

See also: List of Acacia species. There are about of Acacia, mostly native to Australia.

Fossil record

An Acacia-like long fossil seed pod has been described from the Eocene of the Paris Basin.^[24] Acacia-like fossil pods under the name Leguminocarpon are known from late Oligocene deposits at different sites in Hungary. Seed pod fossils of †Acacia parschlugiana and †Acacia cyclosperma are known from Tertiary deposits in Switzerland.^[25] †Acacia colchica has been described from the Miocene of West Georgia. Pliocene fossil pollen of an Acacia sp. has been described from West Georgia (including Abkhazia).^[26] The oldest fossil Acacia pollen in Australia are recorded as being from the late Oligocene epoch, 25 million years ago.^[27]

Distribution and habitat

Species of Acacia occurs in all Australian states and territories, and on its nearby islands. About 20 species occur naturally outside Australia and also occur in Australia. One species (Acacia koa) is native to Hawaii^[28] and one (Acacia heterophylla) is native to Mauritius and Réunion in the Indian Ocean.^{[5] [29]}

They are present in all terrestrial habitats, including alpine settings, rainforests, woodlands, grasslands, coastal dunes and deserts.^[7] In drier woodlands or forests they are an important component of the understory. Elsewhere they may be dominant, as in the Brigalow Belt, Myall woodlands and the eremaean Mulga woodlands.^[7]

In Australia, Acacia forest is the second most common forest type after eucalypt forest, covering 980000km2 or 8% of total forest area. Acacia is also the nation's largest genus of flowering plants with almost found.^[30]

Ecology

Acacia is a common food source and host plant for butterflies of the genus Jalmenus. The imperial hairstreak, Jalmenus evagoras, feeds on at least 25 acacia species.^[31] Many reptiles feed on the sap, such as the native house gecko in Australia.^[32] The sap is also consumed by bugs (Hemiptera), such as Hackerobrachys viridiventris^[33] and Sextius virescens.^[34]

Toxicity

Some species of acacia contain psychoactive alkaloids, and some contain potassium fluoroacetate.^[35]

Uses

The seed pods, flowers, and young leaves are generally edible either raw or cooked.^[36]

Aboriginal Australians have traditionally harvested the seeds of some species, to be ground into flour and eaten as a paste or baked into a cake. Wattleseeds contain as much as 25% more protein than common cereals, and they store well for long periods due to the hard seed coats.^[37] In addition to using the edible seed and gum, the people employed the timber for implements, weapons, fuel and musical instruments. A number of species, most notably Acacia mangium (hickory wattle), A. mearnsii (black wattle) and A. saligna (coojong), are economically important and are widely planted globally for wood products, tannin, firewood and fodder.^[15] A. melanoxylon (blackwood) and A. aneura (mulga) supply some of the most attractive timbers in the genus. Black wattle bark supported the tanning industries of several countries, and may supply tannins for production of waterproof adhesives.^[7]

In Vietnam, Acacia is used in plantations of non-native species that are regularly clear-cut for paper or timber uses.^{[38] [39]}

Wattle bark collected in Australia in the 19th century was exported to Europe where it was used in the tanning process. One ton of wattle or mimosa bark contained about 150order=flipNaNorder=flip of pure tannin.^[40]

Cultivation

Some species of acacia – notably Acacia baileyana, A. dealbata and A. pravissima – are cultivated as ornamental garden plants. The 1889 publication Useful Native Plants of Australia describes various uses for eating.^[41]

External links

• Acacias of Australia . WATTLE . Lucid web player. — multi-access key for identifying Australian Acacias

Notes and References

1. Midgley . S.J. . Turnbull . J.W. . 2003 . Domestication and use of Australian acacias: Case studies of five important species . Australian Systematic Botany . 16 . 1 . 89–102 . 10.1071/SB01038 .
2. Web site: Kodela . Phillip G. . Harden . Gwen J. . Genus Acacia . . Sydney, NSW, AU . 9 December 2023.
3. Web site: Entwisle . Timothy J. . Maslin . Bruce R. . Cowan . Richard S. . Court . Arthur B. . Walsh . Neville G. . Acacia . . Melbourne, VIC, AU . 9 December 2023.
4. Web site: Acacia . . Adelaide, SA, AU . 9 December 2023 .
5. Web site: Kodela . Phillip G. . Maslin . Bruce R. . n.d. . Acacia . Flora of Australia . Australian Biological Resources Study . Department of Climate Change, Energy, the Environment, and Water . Canberra, AU . Kodela . Philip G. . 9 December 2023.
6. Murphy . Daniel J. . A review of the classification of Acacia (Leguminosae, Mimosoideae) . Muelleria . 2008 . 26 . 1 . 10–26 . 20 July 2024 .
7. Book: Orchard . Anthony E. . Wilson . Annette J.G. . 2001 . Flora of Australia . 11A, Mimosaceae, Acacia . CSIRO . Melbourne, VIC, AU . 9780643067172 . part 1, . en .
8. Book: Miller, P. . Philip Miller . 1754 . The Gardeners Dictionary . abridged, 4th . 1 . 25 . — only gives the name of the genus. Miller did not validly publish names of species in this book, as he did not consistently use binomial names.
9. Book: von Martius, Carl Friedrich P. . Hortus regius Monacensis . 1829 . 188.
10. Book: von Martius, C.F.P. . 1835 . Hortus regius Monacensis seminifer . 4 . dead . 2020-06-19 . https://web.archive.org/web/20220110231945/https://seedlists.naturalis.nl/sites/seedlists/files/Munchen%201835%20page%204.jpg . 2022-01-10 .
11. Pedley . L. . 1986 . Derivation and dispersal of Acacia (Leguminosae), with particular reference to Australia, and the recognition of Senegalia and Racosperma . Botanical Journal of the Linnean Society . 92 . 3 . 219–254 . 10.1111/j.1095-8339.1986.tb01429.x . 32362685 . 7188348 .
12. Orchard . A.E. . Maslin . B.R. . 2003 . Proposal to conserve the name Acacia (Leguminosae: Mimosoideae) with a conserved type . Taxon . 52 . 362–363 . 10.2307/3647418 . 3647418 .
13. Pedley . L. . 2003 . A synopsis of Racosperma (Leguminosae: Mimosoideae). . Austrobaileya . 6 . 3 . 445–496 . 10.5962/p.299681 . free . 41738994 .
14. Kyalangalilwa . B. . Boatwright . J.S. . Daru . B.H. . Maurin . O. . van der Bank . M. . 2013 . Phylogenetic position and revised classification of Acacia s.l. (Fabaceae: Mimosoideae) in Africa, including new combinations in Vachellia and Senegalia. . Botanical Journal of the Linnean Society . 172 . 4 . 500–523 . 10.1111/boj.12047 . free . 10566/3454 . free .
15. Thiele . Kevin R. . February 2011 . The controversy over the retypification of Acacia with an Australian type: A pragmatic view . Taxon . 60 . 1 . 194–198 . 15 November 2015. 10.1002/tax.601017 .
16. Brummitt . R.K. . December 2010 . (292) Acacia: A solution that should be acceptable to everybody . Taxon . 59 . 6 . 1925–1926 . 10.1002/tax.596050 . free . 19 November 2015 .
17. The Acacia debate . IBC2011 Congress News . 5 May 2016 .
18. Smith . Gideon F. . Figueiredo . Estrela . amp . 2011 . Conserving Acacia with a conserved type: What happened in Melbourne? . Taxon . 60 . 5 . 1504–1506 . 10.1002/tax.605033 . 2263/17733 . free .
19. Brown, Gillian K.. Daniel J. Murphy. Pauline Y. Ladiges. amp . 2011 . Relationships of the Australo-Malesian genus Paraserianthes (Mimosoideae: Leguminosae) identifies the sister group of Acacia sensu stricto and two biogeographical tracks . Cladistics . 27 . 4 . 380–390 . 10.1111/j.1096-0031.2011.00349.x . free . 34875795. 85416700 .
20. Brown . Gillian K. . Murphy . Daniel J. . Miller . Joseph T. . Ladiges . Pauline Y. . October 2008 . Acacia s.s. and its relationship among tropical legumes, tribe Ingeae (Leguminosae: Mimosoideae) . Systematic Botany . 33 . 4 . 739–751 . 10.1600/036364408786500136 . 85910836 .
21. Book: Sharr . Francis Aubi . George . Alex . Western Australian Plant Names and Their Meanings . 2019 . Four Gables Press . Kardinya, WA . 9780958034180 . 56 . 3rd.
22. Book: Bauhin, Caspar . Gaspard Bauhin . 1623 . Pinax theatri botanici Caspari Bauhini . Basileae Helvet . 391 .
23. Book: Austin . Daniel F. . 2004 . Florida Ethnobotany . CRC Press . Boca Raton, FL . 9780203491881 . 58 .
24. Book: Paul . Kenrick . Paul . Davis . 2004 . Fossil Plants . . London, UK . 0-565-09176-X .
25. Book: Hably, L. . 1992 . Distribution of Legumes in the Tertiary of Hungary . Advances in Legume Systematics . Part 4, The fossil record . P.S. . Herendeen . Dilcher . . London, UK . 0947643400 .
26. Book: Alexandra K. . Shakryl . 1992 . . Advances in Legume Systematics . Part 4, The fossil record . P.S. . Herendeen . Dilcher . . London, UK . 0947643400 .
27. Book: White, M.E. . Mary E. White . 1988 . The Greening of Gondwanana . . Australia . reprint . 0730101541 .
28. Web site: Acacia koa . Kew Science . Plants of the World online (powo.science.kew.org) . . London, UK . 10 December 2023.
29. Web site: Acacia heterophylla . Kew Science . Plants of the World online (powo.science.kew.org) . . London, UK . 10 December 2023.
30. Web site: Acacia forest . 6 February 2017 . agriculture.gov.au . . . 19 April 2017.
31. Book: Kitching, Roger Laurence . Biology of Australian Butterflies . 1999 . CSIRO Pub . 978-0643050273 . Collingwood, VIC, AU . en-AU . 40792921 .
32. Alamy Limited (agency) . Flat-headed house gecko (Hemidactylus platycephalus) adult feeding on solidified sap of acacia tree. Kafue N.P. Zambia . stock photo . 2022-03-25 . alamy.com . en .
33. Constant . J. . 2006 . Revision of the Eurybrachidae (VII). The Australian genera Hackerobrachys and Fletcherobrachys (Hemiptera: Fulgoromorpha: Eurybrachidae) . Bulletin de l'Institut Royal des Sciences Naturelles de Belgique, Entomologie . 76 . 31–40 . researchgate.net .
34. Web site: Acacia horned treehopper – Sextius virescens . brisbaneinsects.com . 2023-02-12 .
35. Leong . L.E. . Khan . S. . Davis . C.K. . Denman . S.E. . McSweeney . C.S. . 2017 . Fluoroacetate in plants – a review of its distribution, toxicity to livestock and microbial detoxification . Journal of Animal Science and Biotechnology . 8 . 55 . 10.1186/s40104-017-0180-6 . free . 5485738 . 28674607 .
36. Book: The Complete Guide to Edible Wild Plants . reprint . 2009 . United States Department of the Army (original publisher) . 978-1-60239-692-0 . New York, NY . . 16 . en-US . 277203364 .
37. Web site: Tan . Ria . Acacia auriculiformis, black wattle . Naturia . dead . 17 November 2015 . https://web.archive.org/web/20150505110838/http://www.naturia.per.sg/buloh/plants/acacia.htm . 5 May 2015 .
38. Nambiar . E.K. Sadanandan . Harwood . Christopher E. . Kien . Nguyen Duc . 2015 . Acacia plantations in Vietnam: Research and knowledge application to secure a sustainable future . Southern Forests . 77 . 1 . 1–10 . Sustaining the future of acacia plantation forestry . 10.2989/20702620.2014.999301 . 2015SFJFS..77....1N . 84167231 .
39. News: Tatarski . Michael . 20 May 2021 . Drastic forest development: Vietnam to plant 1 billion trees – but how? . . 5 November 2023.
40. Book: Charles . Knight . 1847 . The National Cyclopaedia of Useful Knowledge . London, UK . II . 873 .
41. Book: Maiden, J.H. . 1889 . Useful Native Plants of Australia, including Tasmania . Turner & Henderson . Sydney, AU . en-UK .