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The genus Tylosema is in the plant family Fabaceae and encompasses four accepted species of perennial legumes native to southern and central Africa. These are semi-woody viniferous plants broadly distributed from Sudan and Ethiopia south to Angola and South Africa.[1] Coetzer and Ross[2] originally described four Tylosema species:

Tylosema
Marama bean
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fabales
Family: Fabaceae
Subfamily: Cercidoideae
Tribe: Bauhinieae
Genus: Tylosema
(Schweinf.) Torre & Hillc.
Type species
Tylosema fassoglensis
(Kotschy ex Schweinf.) Torre & Hillc.
Species

4–5; see text

The range of Tylosema.

Species

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There are four documented species within the genus Tylosema (Schweinf.) Torre & Hillc.:[3][4][5]

Proposed species:

Common names

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Creeping bauhinia (English), Gwangwandiza (Shona), Marama bean, gemsbok bean, tamani berry (English), Morama bean, gami (Khoi), Mubopo (Shona), Mutukutupasi (Shona), Umbama or Umdabule (Ndebele).[7][8]

Habitat

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Habitat for Tylosema species is diverse and particular to each species. T. esculentum is found mostly on sandy plains, while T. fassoglense can be found from open grassland to desert to woodlands to roadsides. All species are found from low to moderate altitude.[6]

Tylosema species grow in mostly sandy soils with low rainfall and can tolerate scorching heat and long-term drought. Typical daily high temperatures average 37 °C during growing season and radiation frequently exceeds 2000 μmol m−2 s−1.[9] Whereas many legumes can fix atmospheric nitrogen, all Tylosema species are non-nodulating.[7]

Vegetation is a climbing vine, with some species reaching up to 6 m long. Herbaceous stems trail or climb, originating from a large underground tuber that is visible above the soil surface. Leaves are simple and 2-lobed. Forked tendrils are usually present. Inflorescence is a lateral raceme. Flowers are yellow, bisexual, heterostylous, with 5 petals. Pods are large, woody and have 1 or 2 seeds.[8] Herostyly, or flower polymorphism, occurs in all species of Tylosema, although it is unknown in the rest of the family Leguminosae.[1]

Phylogeny

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Tylosema species are in the family Leguminosae, the third largest family of flowering plants (Doyle and Luckow, 2003), in the subfamily Cercidoideae. The type species for the Tylosema genus is T. fassoglense.[6]

The phylogeny of Tylosema is somewhat disputed.[10][11][12] This is in part because it has not been widely collected or studied. Although previously located in the Bauhinia genus, now Tylosema has been established as its own genus and is strongly supported as monophyletic.[13]

Wunderlin has proposed a reorganization of the tribe Cercideae wherein 12 genera are placed into two subtribes, Cercinidae and Bauhiniinae. Bauhiniinae is divided into two clades, the first is poorly resolved and includes the genera Bauhinia, Brenierea and Piliostigma. The second clade comprises the genera Tylosema, Barklya, Gigasiphon, Lysiphyllum, Phanera, and Schnella.[14]

Biology and use

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In Botswana and Namibia T. esculentum, or Morama bean, is a staple food of the Khoisan people but plants have not been established for cultivation. The beans have high protein content (30-39%) and high oil content (36-43%)and are eaten after boiling or roasting.[7][15] Beans also have significant levels of calcium, iron, zinc, phosphate, magnesium, and B vitamins including folate.[16]

Preliminary research indicates that seeds of T. esculentum have no physiological dormancy, although germination is improved by scarification.[17] It is disputed as to whether Morama beans exhibit antiviral and antimicrobial properties.[18][19]

Research shows that T. esculentum is both drought avoidant and drought tolerant, but this has not been measured in other Tylosema species.[9][20]

References

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  1. ^ a b Hartley ML, Tshamekeng E, Thomas SM (2002). "Functional Heterostyly in Tylosema esculentum (Caesalpinioideae)". Annals of Botany. 89 (1): 67–76. doi:10.1093/aob/mcf006. PMC 4233773. PMID 12096820.
  2. ^ Coetzer, L. A., and J. H. Ross. 1977. Tylosema. In Ross, J. H., ed., Fl. Southern Africa 16(2):61-64
  3. ^ "ILDIS LegumeWeb entry for Tylosema". International Legume Database & Information Service. Cardiff School of Computer Science & Informatics. Retrieved 8 May 2014.
  4. ^ USDA, ARS, National Genetic Resources Program. "GRIN species records of Tylosema". Germplasm Resources Information Network—(GRIN) [Online Database]. National Germplasm Resources Laboratory, Beltsville, Maryland. Retrieved 5 May 2014.{{cite web}}: CS1 maint: multiple names: authors list (link)
  5. ^ "The Plant List entry for Tylosema". The Plant List. Royal Botanic Gardens, Kew and the Missouri Botanical Garden. 2013. Retrieved 5 May 2014.
  6. ^ a b c Castro S, Silveira P, Pereira Coutinho A, Figueiredo E (2005). "Systematic studies in Tylosema (Leguminosae)". Botanical Journal of the Linnean Society. 147 (1): 99–115. doi:10.1111/j.1095-8339.2005.00353.x.
  7. ^ a b c Jackson, Jose; Kwaku G. Duodu, Mette Holse, Lima de Faria, Margarida D, Danie Jordaan, Walter Chingwaru, Aase Hansen, Avrelija Cencic, Martha Kandawa-Schultz, and Selalelo M. Mpotokwane. (2010). "The morama bean (Tylosema esculentum): A potential crop for southern Africa". Advances in Food and Nutrition Research. 61 (5): 187–246. doi:10.1016/B978-0-12-374468-5.00005-2. PMID 21092905.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  8. ^ a b "Tylosema Torre & Hillc". Flora of Zimbabwe. Hyde, M.A., Wursten, B.T., Ballings, P. & Coates Palgrave, M. October 12, 2013. Retrieved October 17, 2014.
  9. ^ a b Mitchell, RAC; Keys AJ, Madgwick, PJ, Parry MAJ, and DW Lawlor. (2005). "Adaptation of photosynthesis in marama bean - Tylosema esculentum (burchell A.Schreib.) to a high temperature, high radiation, drought-prone environment". Plant Physiology and Biochemistry. 43 (10): 969–76. Bibcode:2005PlPB...43..969M. doi:10.1016/j.plaphy.2005.08.009. PMID 16310366.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  10. ^ Lewis, G., Schrire, B., Mackinder, B. & Lock, M. (eds.) (2005). "Tribe Cercideae. Lewis, G. & Forest, F.". Legumes of the World. Kew: Royal Botanic Gardens. pp. 57–67. {{cite book}}: |last= has generic name (help)CS1 maint: multiple names: authors list (link)
  11. ^ Banks, Hannah, Félix Forest, and Gwilym Lewis. (2014). "Evolution and diversity of pollen morphology in tribe cercideae (leguminosae)". Taxon. 63 (2): 299–314. doi:10.12705/632.37.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  12. ^ Bruneau, Anne, Marjorie Mercure, Gwilym P. Lewis, and Patrick S. Herendeen. (2008). "Phylogenetic patterns and diversification in the caesalpinioid legumes". Botany. 86 (7): 697–718. doi:10.1139/b08-058.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  13. ^ Sinou, Carole, Fé Forest, Gwilym P. Lewis, and Anne Bruneau. (2009). "The genus Bauhinia s.l. (leguminosae): A phylogeny based on the plastid trnL–trnF region". Botany. 87 (10): 947–60. doi:10.1139/b09-065.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  14. ^ Wunderlin, RP (2010). "Reorganization of the Cercideae (Fabaceae: Caesalpinioideae)". Phytoneuron. 2010 (48): 1–5.
  15. ^ Taatsu, Kapewangolo Petrina. 2010. Biochemical characteristics of marama bean (Tylosema esculentum). Master's degree thesis. University of Namibia. http://repository.unam.na/handle/11070/473
  16. ^ Holse; Husted S., and A. Hansen. (2010). "Chemical composition of marama bean (Tylosema esculentum)—A wild African bean with unexploited potential". Journal of Food Composition & Analysis. 23 (6): 648–57. doi:10.1016/j.jfca.2010.03.006.
  17. ^ Travlos, IS; Economou G, and AI Karamanos. (2007). "Germination and emergence of the hard seed coated Tylosema esculentum (Burch) A.Schreib. in response to different pre-sowing seed treatments". Journal of Arid Environments. 68 (3): 501–507. Bibcode:2007JArEn..68..501T. doi:10.1016/j.jaridenv.2006.07.001.
  18. ^ Chingwaru, W; Majinda RT, Yeboah SO, Jackson J, Kapewangolo PT, Kandawa-Schulz M, and A Cencic. (2011). "Tylosema esculentum (marama) tuber and bean extracts are strong antiviral agents against rotavirus infection". Evidence-Based Complementary and Alternative Medicine. 8 (1): 284795. doi:10.1155/2011/284795. PMC 3057194. PMID 21423688.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  19. ^ Mazimba, O.; Majinda RT, Modibedi C, Masesane IB, Cencič A, and W Chingwaru. (2011). "Tylosema esculentum extractives and their bioactivity". Bioorganic & Medicinal Chemistry. 19 (17): 5225–30. doi:10.1016/j.bmc.2011.07.006. PMID 21813280.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  20. ^ Karamanos, AJ; Travlos, IS. (2012). "The water relations and some drought tolerance mechanisms of the marama bean". Agronomy Journal. 104 (1): 65–72. Bibcode:2012AgrJ..104...65K. doi:10.2134/agronj2011.0194.