Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-27T05:24:37.406Z Has data issue: false hasContentIssue false

Antinutrients and heavy metals in new Nigerian Musa hybrid peels with emphasis on utilization in livestock production

Published online by Cambridge University Press:  13 March 2008

T. Adebayo Adeniji
Affiliation:
Department of Food Science and Technology, Rivers State University of Science and Technology, PMB 5080, Port Harcourt, Nigeria
I. Samuel Barimalaa
Affiliation:
Department of Food Science and Technology, Rivers State University of Science and Technology, PMB 5080, Port Harcourt, Nigeria
A. Tenkouano
Affiliation:
International Institute of Tropical Agriculture, PMB 5320 Oyo Road, Ibadan, Nigeria
L. Oladimeji Sanni
Affiliation:
International Institute of Tropical Agriculture, PMB 5320 Oyo Road, Ibadan, Nigeria
Alexander D. Hart
Affiliation:
Department of Food Science and Technology, Rivers State University of Science and Technology, PMB 5080, Port Harcourt, Nigeria
Get access

Abstract

Introduction. A comparative study of antinutrients and heavy metals in the peels of five improved varieties of plantain and banana hybrids was investigated. Our aim was to provide information on plantain and banana peels that may circumvent huge losses during fruit processing by converting waste into wealth and health. Materials and methods. Four new plantain hybrids developed at the IITA, Nigeria, named PITA 14, PITA 17, PITA 24 and PITA 26, one cooking banana hybrid (BITA 3) and an African plantain landrace, Agbagba, were investigated. Antinutrient and heavy metal contents of the dried peels from the different cultivars were determined and the data were statistically analyzed. Results and discussion. The plantain hybrid PITA 14 differed significantly from other cultivars in saponin, tannin and oxalate. A significant difference was observed between PITA 17 in phytate compared with other cultivars. Cyanogenic glucosides found in PITA 17, PITA 26 and BITA 3 differed significantly from the values obtained in other cultivars. Both BITA 3 and Agbagba are significantly different from other cultivars in phenolic content, while PITA 24 and Agbagba differed significantly from other cultivars in lead. PITA 24 peels differed significantly from other cultivars in cadmium, but no significant difference was found among the different Musa varieties in mercury. Conclusion. In spite of the antinutritional properties ascribed to the various constituents investigated, the levels found in the peels of new Musa hybrids suggest that new varieties might not constitute a health hazard when ingested. Plantain and banana peels may be converted into livestock feeds, which will eventually provide protein and other nutrients to humans from consumption of meat and other products derived from the animals.

Type
Research Article
Copyright
© CIRAD, EDP Sciences, 2008

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

John P., Marchal J., Ripening and biochemistry of the fruit, in: Gowen S.R. (Ed.), Bananas and plantains, Chapman and Hall, London, UK, 1995.
Adeniji, T.A., Recipe for plantain/banana wine, MusAfrica 8 (1995) 23–24.
Berry C.J.J., First steps in winemaking, Argus Book, England, 8th ed., 1992, 235 p.
Rahman, A.R., Economical method for the production of flour from green plantains, J. Agric. Univ. Puerto Rico 47 (1) (1963) 1–10.
Ketiku, A.O., Chemical composition of unripe (green) and ripe plantain (Musa paradisiaca), J. Sci. Food Agric. 24 (1973) 703–707. CrossRef
Ankrah, E.K., Chemical studies of some plant wastes from Ghana, J. Sci. Food Agric. 25 (1974) 1229–1232. CrossRef
Izonfuo, W.-A.L., Omuaru, V.O.T., Effect of ripening on the chemical composition of plantain peels and pulps (Musa paradisiaca), J. Sci. Food Agric. 45 (1988) 333–336. CrossRef
Ogazi P.O., Plantain: production, processing and utilization, Paman Assoc. Ltd., Okigwe, Imo State, Nigeria, 1996, 305 p.
Stover R.H., Simmonds W., Bananas, 3rd ed., Longman, London, UK, 1959.
Hoffman I., The Oakland Tribune, 12th July, 2006, 2000–2006 Alameda Newsp. Group, Oakland, Calif., USA, 2006.
Baiyeri, K.P., Effect of nitrogen fertilization on mineral concentration in plantain (Musa AAB) fruit peel and pulp at unripe and ripe stages, Plant Prod. Res. J. 5 (2000) 38–43.
Babatunde G.M., Availability of banana and plantain products for animal feeding, in: Machin D., Nyvold S. (Eds.), Proceedings of the FAO Expert Consultation on Roots, Tubers, Plantains and Bananas in Animal Feeding, Cali, Colombia, 21–25 January 1991, CIAT, FAO, Rome, Italy, 1992.
Clavijo, H., Maner, J.H., Calles, A., Banano maduro en dietas para credos en lactancia, ALPA Mem 6 (1971) 147 (abstr.).
Fetuga, B.L.A., Babatunde, G.M., Olusanya, O.A., Oyenuga, V.A., The composition, nutrient digestibility and energy value of maize cobs, yam peels and plantain peels for three weight groups of pigs, Niger. J. Anim. Prod. 2 (1) (1975) 95–105.
Gohl B., Musa paradisiaca L., banana, plantain or cooking banana, Trop. Feed., Feed Inf. Summ. Nutr. Values, FAO, Rome, Italy, 1981.
Spiro J.T., De l’utilisation de la farine de bananes vertes dans l’alimentation du bétail, Equat. 4, Mimeogr., 1973.
Chenost M., Candau M., Geoffroy F., Bousquet P., Utilisation de la banane et de l’urée dans l’alimentation des caprins en zone tropicale humide, 10th Congr. Int. Zootech., Versailles, France, 1971.
Geoffroy F., Chenost M., Utilisation des déchets de banane par les ruminants en zone tropicale humide, Bull. Tech. Prod. Anim, (2.3) (1973) 67–75.
Viswanathan, K., Kadirvel, R., Chandrasekaran, D., Nutritive value of banana stalk (Musa cavendishi) as a feed for sheep, Anim. Feed Sci. Technol. 22 (4) (1989) 327–332. CrossRef
Tewe, O.O., Replacing maize with plantain peels in diets for broilers, Nutr. Rep. Int. 28 (1) (1983) 23–29.
Foulkes, D., Preston, T.R., The banana plant as cattle feed: digestibility and voluntary intake of mixtures of sugarcane and banana forage, Trop. Anim. Prod. 3 (1978) 125–129.
Okaka J.C., Akobundu E.N.T., Okaka A.N.C., Human nutrition: an integrated approach, Enugu State Univ. Sci. Technol., Enugu, Nigeria, 1992.
Baiyeri, K.P., Ortiz, R., Agronomic evaluation of plantain and other triploid Musa, in: Craenen K., Ortiz R., Karamura E.B., Vuylsteke D.R. (Eds.), Proc. 1st Int. Conf. Banana and Plantain in Africa, Kampala, Uganda, 12–18 October, 1996, Acta Hortic. 540 (2000) 125–135. CrossRef
Anon., Official Methods of Analysis, Assoc. Off. Anal. Chem. (AOAC), Washington DC, USA, 1990.
Anon., Statistical analysis software systems for Windows, SAS Inst. Inc., Cary, NC, USA, 2003.
Adeniji, T.A., Sanni, L.O., Barimalaa, I.S., Hart, A.D., Anti-nutrients and heavy metals in some new plantain and banana cultivars, Niger. Food J. 25 (1) (2007) 171–176.
Iwe M.O., The science and technology of soybean: chemistry, nutrition, processing, utilization, Rojoint Commun. Serv. Ltd., Enugu, Nigeria, 2003, 293 p.
Anon., Merck Index, 9th ed., M. Merck, Rahway, N.J., USA, 1976, p. 8120.
Oakenful, D.G., Fenwick, D.E., Hood, R.L., Topping, D.L., Illman, R.J., Storer, G.B., Effects of saponins on bill acids and plasma lipids in the rat, Br. J. Nutr. 42 (1979) 209–216. CrossRef
Topping, D.L., Stover, G.B., Calvert, G.D., Illman, R.J., Oakenfull, D.G., Meller, R.A., Effects of dietary saponins on fecal bile acids and neutral sterols, plasma lipids and lipoprotein turnover in the pig, Am. J. Clin. Nutr. 33 (1980) 783–786. CrossRef
Checke, P.R., Nutritional and physiological properties of saponins, Nutr. Rep. Int. 13 (1976) 315–324.
Potter, J.D., Topping, D.L., Oakenfull, D., Soya products, saponins and plasma cholesterol, Lancet 1 (1979) 223. CrossRef
Achinewhu, S.C., The saponins content of some Nigerian seeds, Qual. Plant, Plant Food Hum. Nutr. 33 (1983) 3–9. CrossRef
Sirtori C.R., Agradi E., Conti F., Montero O., Gatti E., Soybean-protein diet in the treatment of type II hyperlipoproteinaemia, Lancet (1977) 275–277.
Mahato, S.B., Ganguly, A.N., Sahu, N.P., Review-steroid saponins, Phytochem. 21 (5) (1982) 959–978. CrossRef
Onning, G., Wang, Q., Westrom, B.R., Asp. N.G., Karlsson B.W., Influence of oat saponins on intestinal permeability in vitro and in vivo in the rat, Br. J. Nutr. 76 (1996) 141–151. CrossRef
Duncan, A.J., Frutos, P., Young, S.A., The effect of rumen adaptation of oxalic acid on selection of oxalic-acid-rich plants by goats, Br. J. Nutr. 83 (2000) 59–65.
Abara, A.E., Udosen, E.O., Eka, D.U., Estimation of calcium, zinc, hydrocyanate, oxalate and phytate in Dioscorea bulbifera tuber, Glob. J. Pure and Appl. Sci. 6 (3) (2000) 449–453.
Monago, C.C., Uwakwe, A.A., Tannin, oxalate, saponin, cyanogenic and cardiac glycosides contents of Cola nitida and Cola acuminata, Glob. J. Pure and Appl. Sci. 11 (4) (2005) 501–504.
Elemo, B.O., Elemo, G.N., Oladimeji, O., Komolafe, Y.O., Studies on the composition of some nutrients and anti-nutrients of sheanut (Butyrospernum parkii), Niger. Food J. 20 (2002) 69–73.
Munro, O., Basir, O., Oxalate in Nigerian vegetables, West Afric. J. Biol. App. Chem. 12 (1969) 14–18.
Frutos, P., Duncan, A., Kyriazakis, I., Gordon, I., Learned aversion towards oxalic acid-containing foods by goats: does rumen adaptation to oxalic acid influence diet choice?, J. Chem. Ecol. 24 (1998) 383–397. CrossRef
Liener, I.E., Implications of anti-nutritional components in soybean foods, Crit. Rev. Food. Sci. Nutr. 34 (1) (1994) 31–67. CrossRef
Salunkhe D.K., Chavan J.C., Adsule R.N., Kadam S.S., World oilseeds, chemistry, technology and utilization, Van Nostrand Reinhold, AVI Book, New York, USA,1992.
Fairweather-Trait, S.J., Hurrell, R.F., Bioavailability of minerals and trace elements, Nutr. Res. Rev. 9 (1996) 295–324. CrossRef
Frossard, E., Bucher, M., Machler, F., Mozafar, A., Hurrell, R., Review: potential for increasing the content and bioavailability of Fe, Zn and Ca in plants for human nutrition, J. Sci. Food Agric. 80 (2000) 861–879. 3.0.CO;2-P>CrossRef
Shamsuddin, A.M., Anti-cancer function of phytic acid, Int. J. Food Sci. Technol. 37 (7) (2002) 769–782. CrossRef
Olusi, S.O., Oke, O.L., The effect of cyanogenic glucosides in the reproduction and neonatal development of rats, Biol. Neonat. 36 (1979) 233. CrossRef
Krebs E.T. Jr., Nitrilosides in the prevention and control of cancer, McNaughton Foundation, Sansalito, California, USA, 1970.
Matsumoto, H., Yukio, N., Nishimura, E.T., Haber, M., Glucosidase modulation in pre-weaning rats: its association with tumor indication by cycasin, J. Nutr., Cancer Inst. 49 (1972) 423.
Oyenuga, V.A., Amazigo, E.O., A note on the hydrocyanic acid content of cassava, West Afr. J. Biol. Appl. Chem. 1 (1957) 39–43.
Tichy W., Poisons, antidotes, Sterling Publ. Co. Inc., New York, USA, 1977, p. 80.
Montgomery R.D., Cyanogens, Acad. Press, New York, USA, 1980.
Ihekoronye A.I., Ngoddy P.O., Integrated food science and technology for the tropics, Macmillan Publ. Ltd., London and Basingstoke, UK, 1985, 386 p.
Wordu G.O., Heavy metals in some seafoods obtained from Rivers State waters, in: Adegoke G.O., Sanni L.O., Falade K.O., Uzo-Peters P.I. (Eds.), Current challenges in the food industry in Nigeria, Proc. 28th Annu. Conf., AGM, Niger. Inst. Food Sci. Technol., Univ. Ibadan, Ibadan, Nigeria, 2004, p.164.
Hart, A.D., Oboh, C.A., Barimalaa, I.S., Sokari, T.G., Concentrations of trace metals (lead, iron, copper and zinc) in crops harvested in some oil prospecting locations in Rivers State, Nigeria, Afr. J. Food Nutr. Sci. 5 (2) (2005) 1–21.
Rahman, A.R., Berrocal, C.M., Cruz-Cay, J.R., Rivera-Anaya, J.D., Toxicity studies on flour produced from unpeeled green plantains, J. Agric. Univ. Puerto Rico 47 (1) (1963) 11–13.
Anon., Fifty-third meeting of the joint FAO/WHO expert committee on food additives and contaminants (JECFA), World Health Organisation, Geneva, Switzerland, 2000.
Anon., Sixty-one meeting of the joint FAO/WHO expert committee on food additives and contaminants (JECFA), World Health Organisation, Geneva, Switzerland, 2003.