Pueraria montana

Pueraria montana is a species of plant in the botanical family Fabaceae.[3] At least three sub-species (alternatively called varieties) are known. It is closely related to other species in the genus Pueraria (P. edulis and P. phaseoloides) and the common name kudzu is used for all of these species and hybrids between them. The morphological differences between them are subtle, they can breed with each other, and it appears that introduced kudzu populations in the United States have ancestry from more than one of the species.[4][5]

Pueraria montana
Pueraria montana var. lobata
Scientific classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fabales
Family: Fabaceae
Genus: Pueraria
Species:
P. montana
Binomial name
Pueraria montana
(Lour.) Merr.
Synonyms[1][2]
  • Bujacia anonychia E. Mey.
  • Dolichos grandifolius Graham
  • Dolichos hirsutus Thunb.
  • Dolichos lobatus Willd.
  • Dolichos montanus Lour.
  • Neustanthus chinensis Benth.
  • Pachyrhizus thunbergianus Siebold & Zucc.
  • Pachyrhizus trilobus DC.
  • Phaseolus trilobus (L.) Aiton
  • Pueraria argyi H.Lév. & Vaniot
  • Pueraria bodinieri H.Lév & Vaniot
  • Pueraria caerulea H.Lév & Vaniot
  • Pueraria chinensis Ohwi
  • Pueraria harmsii Rech.
  • Pueraria hirsuta (Thunb.) Matsum.
  • Pueraria koten H.Lév & Vaniot
  • Pueraria lobata (Willd.) Ohwi
  • Pueraria neo-caledonica Harms
  • Pueraria omeiensis T.Tang & Wang
  • Pueraria thomsonii Benth.
  • Pueraria thunbergiana (Siebold & Zucc.) Benth.
  • Pueraria tonkinensis Gagnep.
  • Pueraria triloba (Houtt.) Makino
  • Pueraria volkensii Hosok.
  • Stizolobium montanum (Lour.) Spreng.
  • Zeydora agrestis Gomes

Description

It is a seasonal climbing plant, growing high where suitable surfaces (trees, cliffs, walls) are available, and also growing as ground cover where there are no vertical surfaces. It is a perennial vine with tuberous roots and rope-like, dark brown stems to 20 m (65 ft) long. It grows up to 20 metres per year and can achieve a height of 30 metres. It has markedly hairy herbaceous stems.

Pueraria montana is native to East Asia, primarily subtropical and temperate regions of China, Japan, and Korea,[6][7] with trifoliate leaves composed of three leaflets.[8][9] Each leaflet is large and ovate with two to three lobes each and hair on the underside.[8][10] The species can fix atmospheric nitrogen, which can supply up to 95% of leaf nitrogen to the plant in poor soils.[8] Along the vines are nodes, points at which stems or tendrils can propagate to increase support and attach to structures.[8] As a twining vine, kudzu uses stems or tendrils that can extend from any node on the vine to attach to and climb most surfaces.[6][8][11] In addition, the nodes of the kudzu vine have the ability to root when exposed to soil, further anchoring the vine to the ground.[6][8] The roots are tuberous and are high in starch and water content, and the twining of the plant allows for less carbon concentration in the construction of woody stems and greater concentration in roots, which aids root growth.[8] The roots can account for up to 40% of total plant biomass.[6]

Close-up on flowers of Pueraria montana var. lobata

Flowers are reddish-purple and yellow, fragrant, similar to pea flowers, about 20–25 millimetres (0.79–0.98 in) wide and are produced at the leaf axis in elongated racemes about 20 centimetres (7.9 in) long. The flowering period extends from July through October. The fruit is a flat hairy pod about 8 centimetres (3.1 in) long with three seeds.

Kudzu's primary method of reproduction is asexual vegetative spread (cloning) which is aided by the ability to root wherever a stem is exposed to soil.[8] For sexual reproduction, kudzu is entirely dependent on pollinators.[8]

Although kudzu prefers forest regrowth and edge habitats with high sun exposure, the plant can survive in full sun or partial shade.[6][8] These attributes of kudzu made it attractive as an ornamental plant for shading porches in the Southeastern United States, but they facilitated the growth of kudzu as it became a “structural parasite” of the southern states,[8] enveloping entire structures when untreated[10] and often referred to as “the vine that ate the south”.[12]

Subspecies and varieties

  • Pueraria montana var. chinensis (Ohwi) Sanjappa & Pradeep
  • Pueraria montana var. lobata (Willd.) Sanjappa & Pradeep
  • Pueraria montana var. thomsonii (Benth.) Wiersema ex D.B. Ward

[13]

Taxonomy

The Latin specific epithet montana refers to mountains or coming from mountains.[14]

Invasive species

The natural range of Pueraria montana can be found in India, Myanmar, Indochina, China, Korea, Japan, Thailand, Malaysia, the Pacific Islands, and in north Australia.[15] In its native habitat, it and its closely related species occur across wide areas; the species have diverged genetically due to vicariance. Its invasiveness can be attributed to similarities between both native and newly invaded niches, effectively expanding its habitable range into areas with climates it may not be able to endure otherwise.[16]

Like other exotic species, the introduction to other areas is due to human actions. Seeds are spread by mammals and birds. Kudzu are plants adapted to drought. Only above ground portions are damaged by frost; thick storage roots grow as deep as 1 metre. It forms new perennial root crowns from stem nodes touching the ground.

The ecological requirements of the species are those of the subtropical and temperate habitat areas.[17]

In Europe, Pueraria montana grows in several places in the warm regions of Switzerland and Italy near Lake Maggiore and Lake Lugano.

During World War II, kudzu was introduced to Vanuatu and Fiji by United States Armed Forces to serve as camouflage for equipment. It is now a major weed there.[18]

Pueraria montana is also becoming a problem in Queensland.

In the United States, Pueraria montana is extensively reported in the coastal states from eastern Texas to Florida, North to Maryland, as well as inland in Arkansas, Kentucky, Missouri, Pennsylvania, Tennessee, Washington, D.C., and West Virginia. Since 2004, Kudzu has moved farther North along the Ohio River, appearing in Illinois, Indiana, and Ohio.[19] Of all affected states, three in the southeast have the heaviest infestations: Georgia, Alabama, and Mississippi.

Effects on Biodiversity

Pueraria montana (Kudzu) growing over trees in a forest.

Due to the aggressive, climbing nature of P. montana it often causes shading and death of native vegetation, resulting in a monoculture of P. montana. As P. montana spreads, it shades and crushes its competitors with its weight, eliminating everything in its path. As a result of growing over native plants and trees, it blocks their access of vital resources such as sunlight, killing off young vegetation. These result in dramatic reductions in native biodiversity at the local level.[20]

Other than the loss of biodiversity of plant species, P. montana may have a negative effect on animals. Many plant species that are suppressed by P. montana because of its uncontrolled and rapid growth negatively impacts some wildlife animals that have specific mutualisms or feeding relationships with these plant species.[20] This potentially could lead to the death of certain animal species, specifically herbivores, that depend on some vegetation as a resource for both food and shelter. These are important factors that lead to habitat destruction and reduction in animal biodiversity.

Impacts of Global Changes

Changes in the global environment such as higher CO2 levels, higher temperatures, greater rates of nitrogen deposition, and greater fragmentation of natural habitats are predicted to increase the spread of P. montana.

Carbon Dioxide

Kudzu is highly responsive to increased CO2 levels as it results in maximal leaf expansion, increase in leaf size, and an overall 12% increase in leaf production.  In turn, the plant has higher turgor pressure which results in the improvements in its growth potential. As the atmospheric CO2 concentration continues to rise, it is possible for the potential enhancement of P. montana’s invasiveness. [21]

Temperature

With global warming, overnight temperatures tend to increase. Data collected in the United States over the past few decades showed a reduction in frost days, an earlier date for the last freeze in spring, and a later date for the first freeze in fall.[20] These favour the spread of  P. montana.  

The northward distribution of P. montana is hypothesized to be limited by low temperatures. Cold temperatures cause their leaves to be killed off and their leaf expansion to be lagged. However, with the continuous rise in global temperature, it is predicted that P. montana will rapidly spread northward as a result of the increased number of warmer days.[22]

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References

  1. "The Plant List: A Working List of All Plant Species".
  2. "The International Plant Names Index (2012)". Retrieved 29 November 2013.
  3. Denight, Michael L.; Guertin, Patrick J.; Gebhart, Dick L.; Nelson, Linda (2008-11-01). "Invasive Species Biology, Control, and Research. Part 2. Multiflora Rose (Rosa multiflora)". Fort Belvoir, VA. Cite journal requires |journal= (help)
  4. Jewett, D. K.; Jiang, C. J.; Britton, K. O.; Sun, J. H.; Tang, J. (2003). "Characterizing Specimens of Kudzu and Related Taxa with RAPD's". Castanea. 68 (3): 254–260. JSTOR 4034173.
  5. Sun, J H; Li, Z-C; Jewett, D K; Britton, K O; Ye, W H; Ge, X-J (2005), "Genetic diversity of Pueraria lobata (kudzu) and closely related taxa as revealed by inter-simple sequence repeat analysis", Weed Research, 45 (4): 255, doi:10.1111/j.1365-3180.2005.00462.x
  6. Harrington, Timothy B., Laura T. Rader-Dixon, and John W. Taylor. “Kudzu (Pueraria montana) Community Responses to Herbicides, Burning, and High-density Loblolly Pine.” Weed Science,965-974, 2003.
  7. Hickman, Jonathan E., Shiliang Wu, Loretta J. Mickey, and Manuel T. Lerdau. “Kudzu (‘‘Pueraria Montana’’) Invasion Doubles Emissions of Nitric Oxide and Increases Ozone Pollution.” Proceedings of the National Academy of Sciences of the United States of America, Vol. 107.22, 10115-10119, 2010.
  8. Forseth. Jr., I.N. and Innis, Anne F.“Kudzu (‘‘Pueraria montana’’): History, Physiology, and Ecology Combine to Make a Major Ecosystem Threat” Critical Reviews in Plant Sciences, Vol. 23, 401-413, 2004.
  9. Conservation Commission of Missouri. “Kudzu.” Archived 2011-05-26 at the Wayback Machine Missouri Department of Conservation,2011.
  10. Mitich, Larry W. (2000). "Kudzu [Pueraria lobata (Willd.) Ohwi]". Weed Technology. 14 (1): 231–235. doi:10.1614/0890-037X(2000)014[0231:KPLWO]2.0.CO;2. JSTOR 3988532.
  11. Black, R.J. and Meerow, A.W. “Landscaping to Conserve Energy” Proceedings of the Florida State Horticultural Society, Vol. 102, 142-144. 1989.
  12. McGroarty, Michael J. “Kudzu, the Vine That Ate the South.” ‘‘How To Control Kudzu’’, 2010
  13. Varieties on The Plant List
  14. Archibald William Smith A Gardener's Handbook of Plant Names: Their Meanings and Origins, p. 239, at Google Books
  15. United States. Forest Service. Alaska Region. (1994). Sitga Ranger District : USDA Forest Service information. The Region. OCLC 31702167.
  16. Callen, Steven T.; Miller, Allison J. (2015). "Signatures of niche conservatism and niche shift in the North American kudzu (Pueraria montana) invasion". Diversity and Distributions. 21 (8): 853–863. doi:10.1111/ddi.12341. ISSN 1472-4642.
  17. Aurambout, J.-P.; Endress, A.G. (2018). "A model to simulate the spread and management cost of kudzu (Pueraria montana var. lobata) at landscape scale". Ecological Informatics. 43: 146–156. doi:10.1016/j.ecoinf.2017.12.004. ISSN 1574-9541.
  18. Mazurczyk, Wojciech; Rzeszutko, Elzybieta (2015). "Security--A Perpetual War: Lessons from Nature". IT Professional. 17 (1): 16–22. arXiv:1410.4795. doi:10.1109/mitp.2015.14. ISSN 1520-9202.
  19. "Archived copy". Archived from the original on 2018-12-23. Retrieved 2018-12-23.CS1 maint: archived copy as title (link)
  20. Forseth, Irwin N.; Innis, Anne F. (2004-09-01). "Kudzu (Pueraria montana): History, Physiology, and Ecology Combine to Make a Major Ecosystem Threat". Critical Reviews in Plant Sciences. 23 (5): 401–413. doi:10.1080/07352680490505150. ISSN 0735-2689.
  21. Sasek, Thomas W.; Strain, Boyd R. (January 1989). "Effects of Carbon Dioxide Enrichment on the Expansion and Size of Kudzu (Pueraria lobata) Leaves". Weed Science. 37 (1): 23–28. doi:10.1017/S004317450005579X. ISSN 0043-1745.
  22. Forseth, Irwin N.; Innis, Anne F. (2004). "Kudzu (Pueraria montana): History, Physiology, and Ecology Combine to Make a Major Ecosystem Threat". Critical Reviews in Plant Sciences. 23 (5): 401–413. doi:10.1080/07352680490505150. ISSN 0735-2689.
  • L. J. G. van der Maesen: Pueraria, the kudzu and its relatives: an update of the taxonomy, In: Proc. 1st Int. Symp. Tuberous legumes. Guadeloupe, FWI, 1992, S. 55–86. - Pueraria montana auf S. 65.
  • Delin Wu & Mats Thulin: Pueraria in der Flora of China, Volume 10, S. 246: Pueraria montana - Online.
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