Biology:Cleome gynandra

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Short description: Species of flowering plant

Cleome gynandra
Cleome gynandra Blanco1.233-cropped.jpg
Scientific classification edit
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Brassicales
Family: Cleomaceae
Genus: Cleome
Species:
C. gynandra
Binomial name
Cleome gynandra
Cleome gynandra, verspreidingskaart, a.png
  world range[1]
Synonyms[2]
  • Cleome acuta Schumach. & Thonn.
  • Cleome affinis (Blume) Spreng. nom. illeg.
  • Cleome alliacea Blanco
  • Cleome alliodora Blanco
  • Cleome blumeana D.Dietr.
  • Cleome bungei Steud.
  • Cleome candelabrum Sims
  • Cleome denticulata Schult. & Schult.f.
  • Cleome eckloniana Schrad.
  • Cleome flexuosa F.Dietr. ex Schult. & Schult.f.
  • Cleome heterotricha Burch.
  • Cleome muricata (Schrad.) Schult. & Schult.f.
  • Cleome oleracea Welw.
  • Cleome pentaphylla L.
  • Cleome pubescens Sieber ex Steud.
  • Cleome rosea Eckl. ex Steud. nom. inval.
  • Cleome triphylla L.
  • Gymnogonia pentaphylla (L.) R. Br. ex Steud.
  • Gynandropsis affinis Blume
  • Gynandropsis candelabrum (Sims) Sweet
  • Gynandropsis denticulata DC.
  • Gynandropsis glandulosa C.Presl
  • Gynandropsis gynandra (L.) Briq.
  • Gynandropsis heterotricha DC.
  • Gynandropsis muricata Schrad.
  • Gynandropsis ophitocarpa DC.
  • Gynandropsis palmipes DC.
  • Gynandropsis pentaphylla (L.) DC.
  • Gynandropsis pentaphylla Blanco
  • Gynandropsis sinica Miq.
  • Gynandropsis triphylla DC.
  • Gynandropsis viscida Bunge
  • Pedicellaria pentaphylla (L.) Schrank
  • Pedicellaria triphylla (L.) Pax
  • Podogyne pentaphylla (L.) Hoffmanns.
  • Sinapistrum pentaphyllum (L.) Medik.

Cleome gynandra is a species of Cleome that is used as a green vegetable. It is known by many common names including Shona cabbage,[3] African cabbage, spiderwisp, cat's whiskers,[4] and stinkweed.[5] It is an annual wildflower native to Africa but has become widespread in many tropical and sub-tropical parts of the world.[6]

Description

Cleome gynandra is an erect, branching plant generally between 25 cm and 60 cm tall. Depending on environmental conditions, it can reach up to 150 cm of height.[7] Its sparse leaves are each made up of 3–7 oval-shaped leaflets. The flowers are white, sometimes changing to rose pink as they age.[8] The leaves and flowers are both edible. The leaves have a strong bitter, sometimes peppery flavor similar to mustard greens.

The fruit is a dehiscent silique, a slender and spindle-shaped capsule, and measures 12 cm in length and 8–10 mm in width. During the ripening process, the color of the pods turns from green to yellow to brown when dry. In the dry state, they dehisce longitudinally and release their seeds. Each silique can contain as many as 100-150 seeds. The seeds are round, black and with a rough surface and measure 1.0-1.5 mm in diameter.[7] Seeds of C. gynandra contain 17-19% oil.[9]

C. gynandra has a long tap root with root hairs and has few secondary roots.[10]

Uses

Cleome gynandra 1.jpg

Typically, the leaves and shoots are eaten boiled or in stews. The leaves are often eaten in Sub-Saharan Africa, where they are often dried for storage, then cooked with milk or butter to reduce its bitter taste.[11] In Kenya, Uganda and Tanzania, the leaves are cooked with groundnut paste.

The plant is useful for intercropping due to its insect repellent and anti-tick properties.[12][13] Leaves exhibit repellent, destructive and antifeedant properties to some ticks species in all their life stages (larvae, nymphs, and adults).[14]

In Thailand and Malaysia, the leaves are a popular food item fermented with rice water as a pickle known as phak sian dong.[15] The same pickle is also eaten in the northern states of Malaysia, and is known as jeruk maman. The state of Negeri Sembilan specializes in rendang maman, where the leaves are braised in spiced coconut milk for a long period of time to achieve the desirable crisp and texture.

The leaves also have antioxidative properties that can help with inflammatory diseases.[6] Because of its anti-inflammatory properties, it is sometimes used as a medicinal herb.[16] The leaves and flowers of C. gynandra have been used in traditional medicine to treat conditions including  food poisoning, rheumatism, inflammation, bacterial infections,[10][17][18] and especially pain-related conditions such as headache toothache, headache, neuralgia, stomach pain, ear-ache, rheumatoid arthritis, skeletal fractures, colic pain and chest pain.[19][20][21] In Saudi Arabia, C. gynandra extracts are used to treat the severe pain and anti-inflammatory reactions caused by scorpion stings.[22]

Special compounds & Nutritional values

Cleome gynandra is high in beta-carotene, folic acid, ascorbic acid and calcium. It also contains vitamin E, iron, and oxalic acid. Generally, the leaves are about 4.0% protein. 100 g of C. gynandra contain around 1.4 g crude fibre, 127–484 mg vitamin C and 0.76 mg zinc, 3.1-7.7 g crude protein. The contents of iron and calcium vary by zone from 1–11 mg, and 213–434 mg respectively.[10]

The seeds of C. gynandra contain fatty acids such as palmitic acid, stearic acid, oleic acid, and linoleic acid and essential amino acids including glutamic acid, arginine, leucine, valine, glycine, and proline.[23][24]

Cultivation

Cleome gynandra is normally not a cultivated crop. Leaves are in most cases harvested from the plant found as naturally growing weed. However, some studies on the most suitable cultivation techniques have been conducted.[7][25]

Soil requirements

C. gynandra requires deep, well drained fertile soils. It grows well on loose soils, with high humus content and with pH ranging from 5.5 to 7.[25]

Sowing

In cultivation, propagation of the plant is done by seed sowing. Given the small seed size, the depth of sowing and the preparation of the seedbed are important factors. The seedbed requires shallow ploughing (around 15 cm deep), weed removal and harrowing to have a fine loose soil. Seeds can be dispersed unevenly by broadcasting or shallowly drilled in rows spaced around 30 cm apart and around 1 cm deep.[7]

Weeding

Weeding is needed in the early stages of development, when the canopy coverage by C. gynandra leaves is still reduced. It can be done by hands or with suitable machinery, ensuring  shallow cultivation.[7]

Fertilization

Generous and frequent nitrogen based fertilizers can be applied to delay flowering, prolong vegetative growth and increase number and dimensions of the leaves.[26] Yield increase is more significant when nitrogen is provided in its organic form, although also inorganic nitrogen fertilizers ensure an increase in yield. Recommended fertilizers application depend on soil properties but can reach up to 30 t/ha of farm yard or compost manure or up to 120 kg/ha of inorganic fertilizers.[27]

Watering

To result in a good yield, C. gynandra needs adequate soil water content throughout the whole vegetative growing period. Frequent and controlled irrigation is desirable and must be determined depending on soil water retention properties. Over-watering can lead to yield loss due to the scarce resistance to flooding.[7]

Harvesting

Harvesting can be done in two distinct ways. The first one consists in complete uprooting of the whole plant and successive separation of the leaves from the stem. Alternatively, multiple harvesting can be done by cutting the higher part of the plant and collecting the upper leaves. This second strategy helps to increase lateral leaves growth and to delay flowering, extending the vegetative period.[7][25]

Yield

When fertilizers and water are supplied appropriately, it has been reported that cumulative foliar yield can reach up to 30 t/ha.[25]

Pest and Diseases

C. gynandra has developed through natural selection and not man-made selection for the highest yield. This makes it particularly resistant against diseases.[7] However, the following pests were found on the weed: pentatomids (Agonoselis nubilis), locustus (Schitocera gregaria), flea beetles (Phyllotreta mashonana), cabbage sawfly (Athalia spp.), bugs (Nezara spp. and Bagrada spp.), cotton jassids (Empoasca spp.), nematodes (Meloidogyne spp.).[10][28]

Pesticide attacks are generally stronger during dry periods than during the rainy season. These can, however, be controlled by firing the correct pesticides, such as Ambush, Ripcord and Rogor.[7][10] Pest and diseases can also be controlled by breeding programmes. Thanks to this method, the use of fertilizers, which are expensive and cause damage to the environment, gets reduced.[28][29]

Weaver birds eating the seeds during to vegetative stage and mildew fungus can also cause problems during Cleome gynandra’s growth.[10]

Breeding program

Despite the great potential of C. gynandra, there is a lack of information, awareness, promotion and available technologies in its cultivation.Therefore, not many studies have been done on the plant yet.[28] Research has tried to make this weed more resistant to dry weather, salt stress tolerance and lengthens its vegetative period, thus delaying flowering.[7][29]

Moreover, since the leaves have a particularly bitter taste caused by condensed tannins, breeding programmes have also tried to change this plant trait, in order to attract more potential consumers.[29][30]

Since C. gynandra is self-pollinating, inbreeding and interspecific crossing with its relatives are possible.[7] Studies on the potential number of plant chromosomes have been carried out, although the results are not yet clearly confirmed.[31] Genetic variability is wide and so are the possibilities to increase the biomass of the plant through cross-breeding. In areas where consumption is high, farmers have easily been able to select the most productive traits of the plant. Thus has confirmed good possibilities in its genetic improvement, especially within plants from different geographical origins.[28][29][32]

Socioeconomic potential

African Indigenous Vegetables (AIV) such as Cleome gynandra, which have no international trading record, play a crucial role in regional food security due to their suitability and adaptability to the local environment. In South Africa , C. gynandra was identified as the most income generating local vegetable, followed by crops like amaranth, black jack and wild jute. Producers with established recognition in Sub-Saharan African countries like Botswana, Malawi, South Africa, Zambia, and Zimbabwe secure contracts with supermarkets, restaurants, lodges, and hotels, which highlights the economic potential of this crop in regional agriculture.[33]

By enhancing the methods of conducting and sharing research on C. gynandra and employing strategies like value chain development and technology transfer programs, the establishment of sustainable collaboration frameworks for industry stakeholders are fostered. This could allow innovations to spread quickly and gain popularity. Addressing the challenges and opportunities for this crop requires the active involvement of multiple sectors, including farmer organisations, researchers, seed companies, traders, policy makers and consumers. To support AIV in sub-Saharan Africa, it is essential to support efforts through breeding, value chain development and the establishment of national frameworks.[33] Additionally, enhancing the utilization and popularity of orphan crops like C. gynandra requires diversifying products, fostering innovation, and value addition. As example, the urban younger generation showed a positive response to canned vegetable products. The strategic assumption behind is that introducing new product varieties will not only improve the acceptance of AIV but also increase consumption and demand from citizens of both the rural and urban context.[34]

Ecology and Distribution

It is an annual wildflower native to Africa but has naturalized across tropic and sub-tropical regions across Africa, Asia and America.[6] In those regions it grows at altitudes from 0 to 2400 m above sea level.[6] It grows well in disturbed, well-drained soils, but is also drought-tolerant. It does not tolerate cold temperatures well, and is frost-tender. optimal growth conditions include temperatures between 18 °C and 25 °C, with high light intensity.[7]

Cleome gynandra is considered an invasive weed in many places in the U.S.[35] and elsewhere in the Pacific.[36]

Biochemistry

Cleome gynandra uses NAD-malic enzyme type C4 photosynthesis and has the characteristic traits associated with this, including changes in leaf biochemistry, cell biology and development. The family Cleomaceae is relatively close to Brassicaceae with Arabidopsis thaliana (a C3 photosynthetic plant) and therefore offers comparison with this well studied model organism.[37] The C4 pathway in this species evolved independently from two other C4 Cleome species, C. angustifolia and C. oxalidea.[38]

See also

References

  1. "Cleome gynandra - L.". 1996–2012. https://pfaf.org/user/Plant.aspx?LatinName=Cleome+gynandra. 
  2. "The Plant List: A Working List of All Plant Species". http://www.theplantlist.org/tpl1.1/record/kew-2727343. 
  3. "dict.cc dictionary :: Shona cabbage :: German-English translation". http://www.dict.cc/english-german/Shona+cabbage.html. 
  4. {{citation | mode = cs1 | title = Gynandropsis gynandra | work = Germplasm Resources Information Network (GRIN) | url = https://npgsweb.ars-grin.gov/gringlobal/taxonomydetail.aspx?310077 | publisher = [[Organization:Agricultural Research ServAgricultural Research Service (ARS), United States Department of Agriculture (USDA) | access-date = 28 July 2015 }}
  5. "Natural pesticides from a common weed launched Kaua'i's pesticide furor". 17 November 2015. http://raisingislands.blogspot.com.au/2015/11/natural-pesticides-from-common-weed.html. 
  6. 6.0 6.1 6.2 6.3 "Spider plant (Cleome gynandra) – World Vegetable Center" (in en-US). 2016-04-25. http://avrdc.org/spider-plant-cleome-gynandra/. 
  7. 7.00 7.01 7.02 7.03 7.04 7.05 7.06 7.07 7.08 7.09 7.10 7.11 Waithaka, Kimani; Chweya, James A. (1991) (in en). Gynandropsis Gynandra (L.) Briq: A Tropical Leafy Vegetable, Its Cultivation and Utilization. Food & Agriculture Org.. ISBN 978-92-5-103023-3. https://books.google.com/books?id=70YAn8VIThYC&dq=Waithaka,+K&pg=PA31. 
  8. "Cleome gynandra L". http://www.plantzafrica.com/plantcd/cleomegynandra2.html. 
  9. Aparadh, V. T.; Naik, V. V.; Karadge, B. A. (2012). "ANTIOXIDATIVE PROPERTIES (TPC, DPPH, FRAP, METAL CHELATING ABILITY, REDUCING POWER AND TAC) WITHIN SOME Cleome SPECIES". Annali di Botanica 2: 49–56. doi:10.4462/annbotrm-9958. https://doi.org/10.4462/annbotrm-9958. 
  10. 10.0 10.1 10.2 10.3 10.4 10.5 Chweya, James A.; Mnzava, Nameus A. (1997). Cat's whiskers: Cleome gynadra L. Promoting the conservation and use of underutilized and neglected crops. Gatersleben: IPK. ISBN 978-92-9043-303-3. 
  11. Pieroni, Andrea (2005). Prance, Ghillean; Nesbitt, Mark. eds. The Cultural History of Plants. Routledge. p. 30. ISBN 0415927463. 
  12. Engels, Johannes M.M. Engels (2002). Managing plant genetic diversity. Oxon, UK: CABI Pub. p. 332. ISBN 0-85199-522-5. 
  13. "Cultivating cleome" (in en-ZA). Farmer's Weekly. 8 September 2020. https://www.farmersweekly.co.za/farm-basics/how-to-crop/cultivating-cleome/. 
  14. Mnzava, N (1990). "Studies on tropical vegetables. Part 2: Amino and fatty acid composition in seed of cleome (Gynandropsis gynandra L. Briq) selections from Zambia" (in en). Food Chemistry 35 (4): 287–293. doi:10.1016/0308-8146(90)90018-Y. https://linkinghub.elsevier.com/retrieve/pii/030881469090018Y. 
  15. "ผักเสี้ยน สรรพคุณและประโยชน์ของผักเสี้ยน 29 ข้อ !". http://frynn.com/%E0%B8%9C%E0%B8%B1%E0%B8%81%E0%B9%80%E0%B8%AA%E0%B8%B5%E0%B9%89%E0%B8%A2%E0%B8%99/. 
  16. "Cleome gynandra African Spider Flower, Spiderwisp PFAF Plant Database". https://pfaf.org/user/Plant.aspx?LatinName=Cleome+gynandra. 
  17. Meda N.T.R. (2013-02-28). "Antioxidant activity of phenolic and flavonoid fractions of Cleome gynandra and Maerua angolensis of Burkina Faso". Journal of Applied Pharmaceutical Science. doi:10.7324/JAPS.2013.30207. http://www.japsonline.com/counter.php?aid=784. 
  18. Mishra, S. S.; Moharana, S. K.; Dash, M. R., eds. "Review on Cleome gynandra". International Journal of Research in Pharmacy and Chemistry. https://worldveg.tind.io/record/46677. 
  19. Keding, G., ed (December 2007). Diversity, traits and use of traditional vegetables in Tanzania. Shanhua, Tainan: AVRDC - The World Vegetable Center. ISBN 978-92-9058-164-2. https://worldveg.tind.io/record/7481. 
  20. Sridhar, Nimmakayala; Kiran, Bondada V. V. S. Surya; Sasidhar, Donthamsetti Tharaka; Kanthal, Lakshmi Kanta (2014-03-30). "In vitro antimicrobial screening of methanolic extracts of Cleome chelidonii and Cleome gynandra" (in en). ||| Bangladesh Journal of Pharmacology ||| 9 (2): 161–166. doi:10.3329/bjp.v9i2.17759. ISSN 1991-0088. http://www.bdpsjournal.org/index.php/bjp/article/view/206. 
  21. Urso, Valeria; Signorini, Maria Adele; Tonini, Matteo; Bruschi, Piero (2016-01-11). "Wild medicinal and food plants used by communities living in Mopane woodlands of southern Angola: Results of an ethnobotanical field investigation". Journal of Ethnopharmacology 177: 126–139. doi:10.1016/j.jep.2015.11.041. ISSN 1872-7573. PMID 26639153. https://pubmed.ncbi.nlm.nih.gov/26639153/. 
  22. Al-Asmari, Abdulrahman; Manthiri, Rajamohamed Abbas; Abdo, Nasreddien; Al-Duaiji, Fawzi Abdullah; Khan, Haseeb Ahmad (2017). "Saudi medicinal plants for the treatment of scorpion sting envenomation". Saudi Journal of Biological Sciences 24 (6): 1204–1211. doi:10.1016/j.sjbs.2016.10.010. ISSN 1319-562X. PMID 28855813. 
  23. Mnzava, N. A. (1990-01-01). "Studies on tropical vegetables. Part 2: Amino and fatty acid composition in seed of cleome (Gynandropsis gynandra L. Briq) selections from Zambia". Food Chemistry 35 (4): 287–293. doi:10.1016/0308-8146(90)90018-Y. ISSN 0308-8146. https://dx.doi.org/10.1016/0308-8146%2890%2990018-Y. 
  24. Sen Gupta, A.; Chakrabarty, M. M. (1964). "The component fatty acids of Citrullus colocynthis seed fat" (in en). Journal of the Science of Food and Agriculture 15 (2): 74–77. doi:10.1002/jsfa.2740150202. ISSN 0022-5142. https://onlinelibrary.wiley.com/doi/10.1002/jsfa.2740150202. 
  25. 25.0 25.1 25.2 25.3 "Cleome gynandra". https://prota.prota4u.org/protav8.asp?h=M11,M14,M15,M16,M18,M23,M25,M26,M27,M28,M34,M36,M4,M6,M7,M8,M9&t=Cleome,gynandra,cleome&p=Cleome+gynandra#Description. 
  26. Staff Reporter (2020-09-08). "Cultivating cleome" (in en-US). https://www.farmersweekly.co.za/farming-basics/how-to-crop/cultivating-cleome/. 
  27. Schippers, R. R. (2000) (in en). African indigenous vegetables: An overview of the cultivated species. Chatham, UK: Natural Resources Institute/ACP-EU Technical Centre for Agricultural and Rural Cooperation. ISBN 978-0-85954-515-0. http://r4d.dfid.gov.uk/Output/179575/. 
  28. 28.0 28.1 28.2 28.3 Mashamaite, Chuene Victor; Manyevere, Alen; Chakauya, Ereck (2022). "Cleome gynandra: A wonder climate-smart plant for nutritional security for millions in semi-arid areas". Frontiers in Plant Science 13. doi:10.3389/fpls.2022.1003080. ISSN 1664-462X. PMID 36212376. 
  29. 29.0 29.1 29.2 29.3 Kwarteng, A. O.; Abogoom, J.; Adu Amoah, R.; Nyadanu, D.; Ghunney, T.; Nyam, K. C.; Ziyaaba, J. Z.; Danso, E. O. et al. (2018-06-01). "Current knowledge and breeding perspectives for the spider plant (Cleome gynandra L.): a potential for enhanced breeding of the plant in Africa" (in en). Genetic Resources and Crop Evolution 65 (5): 1529–1550. doi:10.1007/s10722-018-0626-5. ISSN 1573-5109. https://doi.org/10.1007/s10722-018-0626-5. 
  30. Kutsukutsa, R. T.; Gasura, E.; Mabasa, S.; Ngadze, E. (2014-12-02). "Variability in condensed tannins and bitterness in spider plant genotypes" (in en). African Crop Science Journal 22 (4): 275–280. ISSN 2072-6589. https://www.ajol.info/index.php/acsj/article/view/110404. 
  31. Omondi, Emmanuel O.; Debener, Thomas; Linde, Marcus; Abukutsa‐Onyango, Mary; Dinssa, Fekadu F.; Winkelmann, Traud (2017). Havey, M.. ed. "Mating biology, nuclear DNA content and genetic diversity in spider plant ( Cleome gynandra ) germplasm from various African countries" (in en). Plant Breeding 136 (4): 578–589. doi:10.1111/pbr.12485. ISSN 0179-9541. https://onlinelibrary.wiley.com/doi/10.1111/pbr.12485. 
  32. Wasonga, D. O.; Ambuko, J. L.; Chemining’wa, G. N.; Odeny, D. A.; Crampton, B. G. (2015). "Morphological Characterization and Selection of Spider Plant (Cleome Gynandra) Accessions from Kenya and South Africa" (in en). Asian Journal of Agricultural Sciences 7 (4): 36–44. doi:10.19026/ajas.7.2198. ISSN 2041-3882. https://oar.icrisat.org/9261/. 
  33. 33.0 33.1 Makaza, William; Gasura, E; Nyakurwa, CS; Masekesa, RT (2022-02-27). "Prospects in cultivation and utilization of spiderplant (Cleome gynandra L.) in sub-Saharan Africa: A review.". African Journal of Food, Agriculture, Nutrition and Development 22 (106): 19370–19385. doi:10.18697/ajfand.106.20040. ISSN 1684-5374. https://doi.org/10.18697/ajfand.106.20040. 
  34. Mazike, Hamily Gwendoline; Chipurura, Batsirai; Macheka, Lesley (2023-09-08). "Value Addition of African Indigenous Vegetables (AIVs) and their Utilization as Food to Improve Food and Nutrition Security: A Review" (in en). Food Reviews International 39 (8): 5164–5184. doi:10.1080/87559129.2022.2062765. ISSN 8755-9129. https://www.tandfonline.com/doi/full/10.1080/87559129.2022.2062765. 
  35. USDA-NRCS: Invasive and noxious weeds
  36. Cleome gynandra: Plant threats to Pacific ecosystems (Pacific Island Ecosystems at Risk project (PIER) )
  37. Marshall, D.M.; Muhaidat, R.; Brown, N.J.; Liu, Z.; Stanley, S.; Griffiths, H.; Sage, R.F.; Hibberd, J.M. (2007). "Cleome, a genus closely related to Arabidopsis, contains species spanning a developmental progression from C3 to C4 photosynthesis". The Plant Journal 51 (5): 886–896. doi:10.1111/j.1365-313X.2007.03188.x. ISSN 0960-7412. PMID 17692080.  open access
  38. Feodorova, T.A.; Voznesenskaya, E.V.; Edwards, G.E.; Roalson, E.H. (2010). "Biogeographic patterns of diversification and the origins of C4 in Cleome (Cleomaceae)". Systematic Botany 35 (4): 811–826. doi:10.1600/036364410X539880. ISSN 0363-6445. http://msu-botany.ru/gallery/feodorova-5-&2010.pdf. Retrieved 16 June 2016. 

External links

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