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Journal of Zhejiang University SCIENCE B 2007 Vol.8 No.5 P.318-322

http://doi.org/10.1631/jzus.2007.B0318


Nutrient composition, mineral content and the solubility of the proteins of palm weevil, Rhynchophorus phoenicis f. (Coleoptera: Curculionidae)


Author(s):  OMOTOSO O.T., ADEDIRE C.O.

Affiliation(s):  Department of Zoology, University of Ado-Ekiti, P.M.B. 5363, Ado-Ekiti, Nigeria; more

Corresponding email(s):   topeomoth@yahoo.co.uk, coadedire@yahoo.com

Key Words:  Rhynchophorus phoenicis, Proximate composition, Mineral analysis, Solubility, Early larva, Late larva


OMOTOSO O.T., ADEDIRE C.O.. Nutrient composition, mineral content and the solubility of the proteins of palm weevil, Rhynchophorus phoenicis f. (Coleoptera: Curculionidae)[J]. Journal of Zhejiang University Science B, 2007, 8(5): 318-322.

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author="OMOTOSO O.T., ADEDIRE C.O.",
journal="Journal of Zhejiang University Science B",
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doi="10.1631/jzus.2007.B0318"
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DOI - 10.1631/jzus.2007.B0318


Abstract: 
Adult (ADS) and larva stages of palm weevil Rhynchophorus phoenicis were analyzed for their nutritional potentials using proximate and mineral contents as indices. The early larva stage (ELS) contains the highest moisture content of 11.94% while ADS has the least value of 4.79%. The late larva stage (LLS) has the highest protein content of 10.51% while ADS contains 8.43%. Ash content is highest in ELS with a value of 2.37% and lowest in ADS with a value of 1.43%. ELS and LLS have the highest (22.14%) and lowest (17.22%) fibre contents respectively. The values of potassium, magnesium and iron in ELS were (455.00±21.21), (60.69±2.57) and (6.50±3.40) mg/kg while LLS recorded (457.50±10.61), (43.52±1.37) and (6.00±1.10) mg/kg and ADS recorded (372.50±24.75), (53.31±1.88) and (22.90±3.70) mg/kg. Chromium, phosphorus, nickel, calcium, lead, manganese and zinc were also detected. Copper was not detected in any of the samples. In all the developmental stages the protein solubilities were pH dependent with the minimum protein solubilities occurring at acidic pH while the maximum protein solubilities occurred at alkaline pH.

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

Reference

[1] Adedire, C.O., Aiyesanmi, A.F., 1999. Proximate and mineral composition of the adult and immature forms of the variegated grasshopper, Zonocerus variegatus (L) (Acridoidea: Pygomorphidae). Bioscience Research Communications, 11(2):121-126.

[2] Aiyesanmi, A.F., Oguntokun, M.O., 1996. Nutrient composition of Dioclea reflexa seed—an underutilized edible legume. La Rivista Italiana Delle Sostanze Grasse, LXXIII:521-523.

[3] Ajakaiye, C.O., Bawo, A., 1990. Comparison of the chemical composition of Trinervitermes germinatus (Wasmann) with that of its feed. Nigerian Journal of Entomology, 2:90-99.

[4] Aldryhim, Y., Al-Bukiri, S., 2003. Effect of irrigation on within-grove distribution of red palm weevil Rhynchophorous ferrugineus. Sultan Qaboos University Journal for Scientific Research, Agricultural and Marine Sciences, 8(1):47-49.

[5] AOAC (Association of Official Analytical Chemists), 1990. Official Methods of Analysis, 15th Ed. Association of Official Analytical Chemists, Washington DC.

[6] Ashiru, M.O., 1988. The food value of the larvae of Anaphe venata Butler. Ecol. Food Nutrition, 22:313-320.

[7] DeFoliart, G.R., 1992. Insects as human food. Some nutritional and economic aspects. Crop Protection, 11(5):395-399.

[8] Fasoranti, J.O., Ajiboye, D.O., 1993. Some edible insects of Kwara State, Nigeria. American Entomologist, 39(2):113-116.

[9] Fowler, C.S., Walter, N.P., 1985. Harvesting insects moth larvae with the Owens Valley Paiute. Journal California and Great Basin Anthropology, 7(2):155-165.

[10] Ige, M.M., Ogunsua, A.O., Oke, O.L., 1984. Functional properties of the proteins of some Nigerian oilseeds, conophor seeds and three varieties of melon seeds. Journal of Agricultural and Food Chemistry, 32(4):822-825.

[11] Joslyn, A.M., 1970. Methods in Food Analysis. Physical, Chemical and Instrumental Methods of Analysis, 2nd Ed. Academic Press, San Francisco, New York, p.1-3.

[12] Kalshoven, L.G.E., Laan, P.A.V., 1981. Pests of Crops in Indonesia. P.T. Ichtiar Van Hoeve, Jakarta, p.463-468.

[13] Mercer, C.W.L., 1994. Sago grub production in Labu swamp near Lae-Papua New Guinea. Klinkii Journal of Forestry Papua New Guinea, 5(2):30-34.

[14] Olaofe, O., Arogundade, L.A., Adeyeye, E.I., Falusi, O.M., 1998. Composition and food properties of the variegated grasshopper, Zonocerus variegatus. Tropical Science, 38:233-237.

[15] Oshodi, A.A., 1992. Proximate composition, nutritionally valuable minerals and functional properties of Adenopus breviflorus benth seed flour and protein 9 concentrate. Food Chemistry, 45(2):79-83.

[16] Oshodi, A.A., Ekperigin, M.N., 1989. Functional properties of pigeon pea (Cajanus cajan) flour. Food Chemistry, 34(3):187-191.

[17] Pearson, D., 1976. Chemical Analysis of Foods, 7th Ed. Churchill Livingstone, London, p.7-11.

[18] Pennino, M., Dierenfeld, E.S., Behler, J.L., 1991. Retinol, α-tocopheral and proximate nutrient composition of invertebrates used as feed. International Zoology Yearbook, 30:143-149.

[19] Vidyasagar, P.S.P.V., Hagi, M., Abozuhairah, R.A., Al-Mohanna, O.E., Al-Saihati, A., 2000. Impact of mass pheromone trapping on the red palm weevil: adult population and infested level in date palm Gardens of Saudi Arabia. The Planter, 76:347-355.

[20] White, D., Kendall, K., 1993. Grizzly bears and army cutworm moths in the alpine of Glacier National Park, Montana. International Bear News, 2(3):2-3.

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