Citrullus lanatus

  • T. K. Lim


Citrullus lanatus is indigenous to tropical Africa and subtropical southern Africa, occurring naturally in South Africa, Namibia, Botswana, Zimbabwe, Mozambique, Zambia and Malawi. It was introduced into Mediterranean areas, the Middle East and West Asia more than 3,000 years ago and easterly to India and subsequently to China around the tenth century and Japan in the sixteenth century. It was introduced to the Americas in early post-Columbian times. It is now widespread in cultivation and frequently naturalized in warmer parts of the world. Tsamma watermelon is the ancestral form of the cultivated dessert watermelon.


Tomato Juice Anopheles Stephensi Lycopene Content Plasma Citrulline Watermelon Seed 
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Selected References

  1. Anhwange BA, Ikyenge BA, Nyiatagher DT, Ageh JT (2010) Chemical analysis of Citrullus lanatus (Thunb.), Cucumeropsis mannii (Naud.) and Telfairia occidentalis (Hook f.) seeds oils. J Appl Sci Res 6(3):265–268Google Scholar
  2. Atrooz OM (2009) The antioxidant activity and polyphenolic contents of different plant seeds extracts. Pak J Biol Sci 12(15):1063–1068Google Scholar
  3. Bates DM, Robinson RW (1995) Cucumbers, melons and water-melons. In: Smartt J, Simmonds NW (eds.) Evolution of crop plants. Longman, London, pp 89–96Google Scholar
  4. Bates DM, Robinson RW, Jeffrey C (eds.) (1990) Biology and utilization of the Cucurbitaceae. Cornell University Press, New York, 485 ppGoogle Scholar
  5. Beaulieu JC, Lea JM (2006) Characterization and semiquantitative analysis of volatiles in seedless watermelon varieties using solid-phase microextraction. J Agric Food Chem 54(20):7789–7793Google Scholar
  6. Burkill HM (1985) The useful plants of West Tropical Africa. Vol. 1. Families A-D. Royal Botanic Gardens, Kew, 960 ppGoogle Scholar
  7. Chandrika UG, Fernando KS, Ranaweera KK (2009) Carotenoid content and in vitro bioaccessibility of lycopene from guava (Psidium guajava) and watermelon (Citrullus lanatus) by high-performance liquid chromatography diode array detection. Int J Food Sci Nutr 60(7):558–566Google Scholar
  8. Chiej R (1984) The macdonald encyclopaedia of medicinal plants. Macdonald & Co., London, 447 ppGoogle Scholar
  9. Chopra RN, Nayar SL, Chopra IC (1986) Glossary of Indian medicinal plants. (Including the supplement). Council Scientific Industrial Research, New Delhi, 330 ppGoogle Scholar
  10. Collins JK, Wu G, Perkins-Veazie P, Spears K, Claypool PL, Baker RA, Clevidence BA (2007) Watermelon consumption increases plasma arginine concentrations in adults. Nutrition 23(3):261–266Google Scholar
  11. Davis AR, Collins J, Fish WW, Tadmor Y, Webber CL 3rd, Perkins-Veazie P (2007) Rapid method for total carotenoid detection in canary yellow-fleshed watermelon. J Food Sci 72(5):S319–S323Google Scholar
  12. Duke JA, Ayensu ES (1985) Medicinal plants of China, vols 1 & 2. Reference Publications, Inc., Algonac, 705 ppGoogle Scholar
  13. Edwards AJ, Vinyard BT, Wiley ER, Brown ED, Collins JK, Perkins-Veazie P, Baker RA, Clevidence BA (2003) Consumption of watermelon juice increases plasma concentrations of lycopene and beta-carotene in humans. J Nutr 133(4):1043–1050Google Scholar
  14. Facciola S (1990) Cornucopia. A source book of edible plants. Kampong, Vista, 677 ppGoogle Scholar
  15. Feher T (1993) Watermelon, Citrullus lanatus (Thunb.) Matsum. & Nakai. In: Kalloo G, Bergh BO (eds.) Genetic improvement of vegetable crops. Pergamon Press, Oxford, pp 295–311Google Scholar
  16. Fu WJ, Haynes TE, Kohli R, Hu J, Shi W, Spencer TE, Carroll RJ, Meininger CJ, Wu G (2005) Dietary L-arginine supplementation reduces fat mass in Zucker diabetic fatty rats. J Nutr 135(4):714–721Google Scholar
  17. Gill N, Bansal R, Garg M, Sood S, Muthuraman A, Bali M (2010) Evaluation of antioxidant, anti-inflammatory and analgesic potential of Citrullus lanatus seed extract in rodent model. Internet J Nutr Wellness 9(2)Google Scholar
  18. Grieve M (1971) A modern herbal, Penguin, 2 vols. Dover, New York, 919 ppGoogle Scholar
  19. Kemp TR (1975) Identification of some volatile compounds from Citrullus vulgaris. Phytochemistry 14:2637–2638Google Scholar
  20. Kemp TR, Knavel DE, Stoltz LP (1974) 3,6-Nonadien-1-ol from Citrullus vulgaris and Cucumis melo. Phytochemistry 13:1167–1170Google Scholar
  21. Mandel H, Levy N, Izkovitch S, Korman SH (2005) Elevated plasma citrulline and arginine due to consumption of Citrullus vulgaris (watermelon). J Inherit Metab Dis 28(4):467–472Google Scholar
  22. Mullai K, Jebanesan A, Pushpanathan T (2008a) Effect of bioactive fractions of Citrullus vulgaris Schrad. leaf extract against Anopheles stephensi and Aedes aegypti. Parasitol Res 102(5):951–955Google Scholar
  23. Mullai K, Jebanesan A, Pushpanathan T (2008b) Mosquitocidal and repellent activity of the leaf extract of Citrullus vulgaris (Cucurbitaceae) against the malarial vector, Anopheles stephensi Liston (Diptera Culicidae). Eur Rev Med Pharmacol Sci 12(1):1–7Google Scholar
  24. Otlewski J, Whatley H, Polanowski A, Wilusz T (1987) Amino-acid sequences of trypsin inhibitors from watermelon (Citrullus vulgaris) and red bryony (Bryonia dioica) seeds. Biol Chem Hoppe Seyler 368(11):1505–1507Google Scholar
  25. Pacific Island Ecosystems at Risk (PIER) (2004) Citrullus lanatus (Thunb.) Matsum. & Nakai, Cucurbitaceae.
  26. Paje MM, van der Vossen HAM (1994) Citrullus lanatus (Thunberg) Matsum. & Nakai. In: Siemonsma JS, Kasem Piluek (eds.) Plant resources of South-East Asia No. 8. Vegetables. Prosea Foundation, Bogor, pp 144–148Google Scholar
  27. Parmar HS, Kar A (2008) Possible amelioration of atherogenic diet induced dyslipidemia, hypothyroidism and hyperglycemia by the peel extracts of Mangifera indica, Cucumis melo and Citrullus vulgaris fruits in rats. Biofactors 33(1):13–24Google Scholar
  28. Parmar HS, Kar A (2009) Protective role of Mangifera indica, Cucumis melo and Citrullus vulgaris peel extracts in chemically induced hypothyroidism. Chem Biol Interact 177(3):254–258Google Scholar
  29. Perkins-Veazie P, Collins JK, Davis AR, Roberts W (2006) Carotenoid content of 50 watermelon cultivars. J Agric Food Chem 54(7):2593–2597Google Scholar
  30. Perkins-Veazie P, Collins JK, Edwards A, Wiley E, Clevidence B (2003) Watermelon: rich in the antioxidant lycopene. Acta Hort ISHS 628:663–668Google Scholar
  31. Pino JA, Marbot R, Aguero J (2003) Volatile components of watermelon (Citrullus lanatus [Thunb.] Matsum. et Nakai) fruit. J Essent Oil Res 15(6):379–380Google Scholar
  32. Polanowski A, Cieślar E, Otlewski J, Nienartowicz B, Wilimowska-Pelc A, Wilusz T (1987) Protein inhibitors of trypsin from the seeds of Cucurbitaceae plants. Acta Biochim Pol 34(4):395–406Google Scholar
  33. Prakash O, Bhushan G (1998) A study of inhibition of urease from seeds of the water melon (Citrullus vulgaris). J Enzyme Inhib 13(1):69–77Google Scholar
  34. Rimando AM, Perkins-Veazie PM (2005) Determination of citrulline in watermelon rind. J Chromatogr A 1078(1–2):196–200Google Scholar
  35. Robinson RW, Decker-Walters DS (1997) Cucurbits. CAB International, Wallingford, 226 ppGoogle Scholar
  36. Romero MJ, Platt DH, Caldwell RB, Caldwell RW (2006) Therapeutic use of citrulline in cardiovascular disease. Cardiovasc Drug Rev 24(3–4):275–290Google Scholar
  37. U.S. Department of Agriculture, Agricultural Research Service (2010) USDA National Nutrient Database for Standard Reference, Release 23. Nutrient data laboratory home page.
  38. van der Vossen HAM, Denton OA, El Tahir IM (2004) Citrullus lanatus (Thunb.) Matsum. & Nakai. [Internet] Record from protabase. In: Grubben GJH, Denton OA (eds.) PROTA (Plant Resources of Tropical Africa/Ressources Végétales de l’Afrique Tropicale), Wageningen. Accessed 10 Oct 2010
  39. Van Wyk EB, Gericke N (2000) People’s plants: a guide to useful plants of Southern Africa, 1st edn. Brizza Publications, Pretoria, 351 ppGoogle Scholar
  40. Wani AA, Sogi DS, Singh P, Wani IA, Shivhare US (2011) Characterisation and functional properties of watermelon (Citrullus lanatus) seed proteins. J Sci Food Agric 91(1):113–121Google Scholar
  41. Wu G, Collins JK, Perkins-Veazie P, Siddiq M, Dolan KD, Kelly KA, Heaps CL, Meininger CJ (2007) Dietary supplementation with watermelon pomace juice enhances arginine availability and ameliorates the metabolic syndrome in Zucker diabetic fatty rats. J Nutr 137(12):2680–2685Google Scholar
  42. Yajima IH, Sakakibara H, Ide J, Yanai T, Hayashi K (1985) Volatile flavor compounds of watermelon (Citrullus vulgaris). Agric Biol Chem 49:3145–3159Google Scholar

Copyright information

© Springer Science+Business Media B.V. 2012

Authors and Affiliations

  • T. K. Lim
    • 1
  1. 1.ChisholmAustralia

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