Impact of poultry manure and harvest season on juice quality of yellow passion fruit (Passiflora edulis var. flavicarpa Deg.) in the sub-humid zone of Nigeria

Joy U. Ani; Paul Kayode Baiyeri

doi:10.1051/fruits:2008017

All issues

Volume 63 / No 4 (July-August 2008)

Fruits, 63 4 (2008) 239-247

References

Free Access

Issue		Fruits Volume 63, Number 4, July-August 2008


Page(s)		239 - 247
DOI		https://doi.org/10.1051/fruits:2008017
Published online		17 July 2008

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Paull R.E., Passionfruits, in: Nakasone N.Y., Paull R.E., Tropical Fruits, CABI Publ. Co., New York, USA, 1998, pp. 275–291. [Google Scholar]
Morton J.F., Passionfruit, in: Morton J.F., Fruits of warm climate, Miami, Fla., USA, 1987, pp. 320–328. [Google Scholar]
Alegbejo M.D., Growing passion fruit in Northern Nigeria, Hortic. Mag. 2 (1) (2004) 9. [Google Scholar]
Wills R.B.H., McGlasson W.B., Graham D., Daryl J., Postharvest: an introduction to physiology and handling of fruits, vegetables and ornamentals, CABI Wallingford Oxon, UK, 1998, 227 p. [Google Scholar]
Rice R.P., Rice L.W., Tindal H.D., Fruits and vegetable production in warm climates, Macmillan Press Ltd., Hong Kong, 1994, 486 p. [Google Scholar]
Costa Araujo da R., Bruckner C.H., Martinez H.E.P., Salomão L.C.C, Alvarez V.H., Pereira de Souza A., Pereira W.E., Hizumi S., Quality of yellow passionfruit (Passiflora edulis Sims f. flavicarpa Deg.) as affected by potassium nutrition, Fruits 61 (2006) 109–115. [CrossRef] [EDP Sciences] [Google Scholar]
Seymour G.B., Taylor E., Tucker G.A., Biochemistry of fruits ripening, Chapman and Hall, Lond., UK, 1993. [Google Scholar]
Knight R.J., Sauls J.W., The passion fruit, Univ. Fla., Fla. Coop. Ext. Serv., factsheet Hs–60, 1994. [Google Scholar]
Nascimento T.B., Ramos J.D., Menezes J.B., Caracteriticas fisico-quimicas do maracuja amerelo (Passiflora edulis f. flavicarpa Deg.) produzido em differentes a epocas, Rev. Braz. Frutic. 1998, pp. 33–38. [Google Scholar]
Mattheis J.P., Fellman J.K., Pre-harvest factors influencing flavour of fresh fruits and vegetable, Postharvest Technol. 15 (1999) 227–232. [CrossRef] [Google Scholar]
Munoz G.R., Kelling K.A., Powell J.M., Speth P.E., Comparison of estimates of first year dairy manure nitrogen availability or recovering using nitrogen-15 and other techniques, J. Environ. Qual. 33 (2004) 719–727. [CrossRef] [PubMed] [Google Scholar]
Zhou. J., Imbalance in nutrient supply as a threat to sustainable crop production, in: Krauu A. (Ed.), Int. Fertil. Corresp., No. 8, Int. Potassium Inst., Basel, Switz., 2002, p. 8. [Google Scholar]
Thompson L.M., Troeh F.R., Soils and soil fertility, 4th ed., McGraw-Hill Publications in the Agricultural Sciences, N.Y., USA, 1978, 516 p. [Google Scholar]
Olokodana F.A., Analysis of fruit drinks and fruit juice, Inst. Public Anal. Niger. (IPAN) 6 (24) (2005) 9–14. [Google Scholar]
Anon., Official methods of analysis of the Association of Official Analytical Chemists (AOAC), 15th ed., AOAC Inc., Arlington, Virginia, USA, 1990. [Google Scholar]
Jayaraman J., Laboratory manual in biochemistry, Wiley Eastern Ltd., N.Y., USA, 1992. [Google Scholar]
Pearson D., The chemical analysis of foods, 7th ed., Churchill Livingston, N.Y., USA, 1976, 553 p. [Google Scholar]
Obadari B.O., Ochuko P.O., Phytochemical studies and comparative efficiency of the crude extract of some homeostatic plants in Edo State of Nigeria, Glob. J. Pure Appl. Sci. 8 (2001) 203–208. [Google Scholar]
Onwuka G.I., Food analysis and instrumentation: theory and practice, Naphthali Prints Lagos, Nigeria, 2005. [Google Scholar]
Anon., GENSTAT 5.0, release 4.23 DE, discov. ed. I, Lawes Agric. Trust, Rothamsted Exp. Stn., UK, 2003. [Google Scholar]
Baiyeri K.P., Tenkouano A., Genetic and cropping cycle effects on proximate composition and antinutrient contents of flour made from eleven Musa genotypes, Glob. J. Pure Appl. Sci. 12 (2006) 177–182. [Google Scholar]
Beal P.R., Farlow P.J., Passifloraceae, in: Page P.E., Tropical tree fruits for Australia, Inf. Ser. Q183018, Qld. Dep. Prim. Ind., Brisb., Aust., 1984, pp. 141–149. [Google Scholar]
Pretty K.O., O potassio e a qualidade da producao agricola, in: Yamada T., Igue K., Muzilli O., Usherwood N.R. (Eds.), Potassio na agricultura brasileira, Inst. Potassa Fosfato, Piracicaba, Brasil, 1982. [Google Scholar]
Brownleader M.D., Harborne J.B., Dey P.M., Carbohydrate metabolism: primary metabolism of monosaccharide, in: Dey P.M., Harborne J.B. (Eds.), Plant biochemistry, Acad. Press, N.Y., USA, 1997. [Google Scholar]
Oloyede F.M., Adeboye O.C., Effect of season on growth, fruit yield and nutrient profile of two landraces of Trichosantnthes cucumerina L., Afr. J. Biotechnol. 4 (2005) 1040–1044. [Google Scholar]
Lavon R., Goldschmidt E.E., Potassium deficiency and carbohydrate metabolism in Citrus, in: Oosterhuis D.M., Berkowitz G.A. (Eds.), Frontiers in potassium nutrition. New perspectives on the effect of potassium on physiology of plants, Potash Phosphate Inst., Can., 1999. [Google Scholar]
Mengel K., Integration of function and involvement of potassium metabolism at the whole plant level, in: Oosterhuis D.M., Berkowitz G.A. (Eds.), Frontiers in potassium nutrition. New perspectives on the effect of potassium on physiology of plants, Potash Phosphate Inst., Can., 1999. [Google Scholar]
Hui Y.H., Oxalates, in: Encyclopedia of food science and technology, Vol. 3, John Wiley and Sons, Inc., N.Y., USA, 1992, p. 58. [Google Scholar]
Sandberg A.S., Hulthen L.R., Turk M., Dietary Aspergillus niger phytase increase iron absorption in humans. J. Nutr. 126 (1996) 476–480. [Google Scholar]
Monago C.C., Akhidue V., Estimation of tannin, saponin, oxalate, cyanogenic and cardiac glycosides in Garcinia cola, J. Appl. Sci. Environ. Manag. 6 (2002) 22–25. [Google Scholar]
Lehninger A.L., Principles of biochemistry, C.B.S. Publ. Distrib., India, 1982. [Google Scholar]
Montgomery R.D., Cyanogens, in: Liener I.E. (Ed.), Toxic constituents of plant foodstuffs, Acad. Press, N.Y., USA, 1969, pp. 143–160. [Google Scholar]
Mohammed J.M., Imbalance in nutrient supply as a threat to sustainable crop production, in: Krauu A. (Ed.), Int. Fertil. Corresp., No. 8, Int. Potassium Inst., Basel, Switz., 2002, pp. 7–8. [Google Scholar]
Okon E.U., Akpanyung E.O., Nutrition and anti-nutrition in selected brands of malt drinks produced in Nigeria, Pak. J. Nutr. 4 (2005) 352–355. [CrossRef] [Google Scholar]
Chang W.H., Hwang Y.J., Wei T.C., Chemical composition an enzyme activity of Taiwan Northern banana fruit of different maturity and harvested in different seasons, Acta Hortic. 275 (1990) 621–629. [Google Scholar]
Wang Y., Douglas G.B., Waghorn G.C., Barry T.N., Foote A.G., Effect of condensed tannins in Lotus corniculatus upon lactation performance in ewes, J. Agric. Sci. Camb. 126 (1996) 353–362. [CrossRef] [Google Scholar]
Wang J., Douglas G.B., Waghorn G.C., Barry T.N., Foote A.G., Purchas R.W., Effect of condensed tannins upon the performance of lambs grazing Lotus corniculatus and Lucerne (Medicago sativa), J. Agric. Sci. Camb. 126 (1996) 87–98. [CrossRef] [Google Scholar]

[1] Bora P.S., Narain N., Passion fruit, in: Mitra S.K. (Ed.), Post harvest physiology and storage of tropical and subtropical fruits, CAB Int., New York, USA, 1997, pp. 375–386. [Google Scholar]

[2] Paull R.E., Passionfruits, in: Nakasone N.Y., Paull R.E., Tropical Fruits, CABI Publ. Co., New York, USA, 1998, pp. 275–291. [Google Scholar]

[3] Morton J.F., Passionfruit, in: Morton J.F., Fruits of warm climate, Miami, Fla., USA, 1987, pp. 320–328. [Google Scholar]

[4] Alegbejo M.D., Growing passion fruit in Northern Nigeria, Hortic. Mag. 2 (1) (2004) 9. [Google Scholar]

[5] Wills R.B.H., McGlasson W.B., Graham D., Daryl J., Postharvest: an introduction to physiology and handling of fruits, vegetables and ornamentals, CABI Wallingford Oxon, UK, 1998, 227 p. [Google Scholar]

[6] Rice R.P., Rice L.W., Tindal H.D., Fruits and vegetable production in warm climates, Macmillan Press Ltd., Hong Kong, 1994, 486 p. [Google Scholar]

[7] Costa Araujo da R., Bruckner C.H., Martinez H.E.P., Salomão L.C.C, Alvarez V.H., Pereira de Souza A., Pereira W.E., Hizumi S., Quality of yellow passionfruit (Passiflora edulis Sims f. flavicarpa Deg.) as affected by potassium nutrition, Fruits 61 (2006) 109–115. [CrossRef] [EDP Sciences] [Google Scholar]

[8] Seymour G.B., Taylor E., Tucker G.A., Biochemistry of fruits ripening, Chapman and Hall, Lond., UK, 1993. [Google Scholar]

[9] Knight R.J., Sauls J.W., The passion fruit, Univ. Fla., Fla. Coop. Ext. Serv., factsheet Hs–60, 1994. [Google Scholar]

[10] Nascimento T.B., Ramos J.D., Menezes J.B., Caracteriticas fisico-quimicas do maracuja amerelo (Passiflora edulis f. flavicarpa Deg.) produzido em differentes a epocas, Rev. Braz. Frutic. 1998, pp. 33–38. [Google Scholar]

[11] Mattheis J.P., Fellman J.K., Pre-harvest factors influencing flavour of fresh fruits and vegetable, Postharvest Technol. 15 (1999) 227–232. [CrossRef] [Google Scholar]

[12] Munoz G.R., Kelling K.A., Powell J.M., Speth P.E., Comparison of estimates of first year dairy manure nitrogen availability or recovering using nitrogen-15 and other techniques, J. Environ. Qual. 33 (2004) 719–727. [CrossRef] [PubMed] [Google Scholar]

[13] Zhou. J., Imbalance in nutrient supply as a threat to sustainable crop production, in: Krauu A. (Ed.), Int. Fertil. Corresp., No. 8, Int. Potassium Inst., Basel, Switz., 2002, p. 8. [Google Scholar]

[14] Thompson L.M., Troeh F.R., Soils and soil fertility, 4th ed., McGraw-Hill Publications in the Agricultural Sciences, N.Y., USA, 1978, 516 p. [Google Scholar]

[15] Olokodana F.A., Analysis of fruit drinks and fruit juice, Inst. Public Anal. Niger. (IPAN) 6 (24) (2005) 9–14. [Google Scholar]

[16] Anon., Official methods of analysis of the Association of Official Analytical Chemists (AOAC), 15th ed., AOAC Inc., Arlington, Virginia, USA, 1990. [Google Scholar]

[17] Jayaraman J., Laboratory manual in biochemistry, Wiley Eastern Ltd., N.Y., USA, 1992. [Google Scholar]

[18] Pearson D., The chemical analysis of foods, 7th ed., Churchill Livingston, N.Y., USA, 1976, 553 p. [Google Scholar]

[19] Obadari B.O., Ochuko P.O., Phytochemical studies and comparative efficiency of the crude extract of some homeostatic plants in Edo State of Nigeria, Glob. J. Pure Appl. Sci. 8 (2001) 203–208. [Google Scholar]

[20] Onwuka G.I., Food analysis and instrumentation: theory and practice, Naphthali Prints Lagos, Nigeria, 2005. [Google Scholar]

[21] Anon., GENSTAT 5.0, release 4.23 DE, discov. ed. I, Lawes Agric. Trust, Rothamsted Exp. Stn., UK, 2003. [Google Scholar]

[22] Baiyeri K.P., Tenkouano A., Genetic and cropping cycle effects on proximate composition and antinutrient contents of flour made from eleven Musa genotypes, Glob. J. Pure Appl. Sci. 12 (2006) 177–182. [Google Scholar]

[23] Beal P.R., Farlow P.J., Passifloraceae, in: Page P.E., Tropical tree fruits for Australia, Inf. Ser. Q183018, Qld. Dep. Prim. Ind., Brisb., Aust., 1984, pp. 141–149. [Google Scholar]

[24] Pretty K.O., O potassio e a qualidade da producao agricola, in: Yamada T., Igue K., Muzilli O., Usherwood N.R. (Eds.), Potassio na agricultura brasileira, Inst. Potassa Fosfato, Piracicaba, Brasil, 1982. [Google Scholar]

[25] Brownleader M.D., Harborne J.B., Dey P.M., Carbohydrate metabolism: primary metabolism of monosaccharide, in: Dey P.M., Harborne J.B. (Eds.), Plant biochemistry, Acad. Press, N.Y., USA, 1997. [Google Scholar]

[26] Oloyede F.M., Adeboye O.C., Effect of season on growth, fruit yield and nutrient profile of two landraces of Trichosantnthes cucumerina L., Afr. J. Biotechnol. 4 (2005) 1040–1044. [Google Scholar]

[27] Lavon R., Goldschmidt E.E., Potassium deficiency and carbohydrate metabolism in Citrus, in: Oosterhuis D.M., Berkowitz G.A. (Eds.), Frontiers in potassium nutrition. New perspectives on the effect of potassium on physiology of plants, Potash Phosphate Inst., Can., 1999. [Google Scholar]

[28] Mengel K., Integration of function and involvement of potassium metabolism at the whole plant level, in: Oosterhuis D.M., Berkowitz G.A. (Eds.), Frontiers in potassium nutrition. New perspectives on the effect of potassium on physiology of plants, Potash Phosphate Inst., Can., 1999. [Google Scholar]

[29] Hui Y.H., Oxalates, in: Encyclopedia of food science and technology, Vol. 3, John Wiley and Sons, Inc., N.Y., USA, 1992, p. 58. [Google Scholar]

[30] Sandberg A.S., Hulthen L.R., Turk M., Dietary Aspergillus niger phytase increase iron absorption in humans. J. Nutr. 126 (1996) 476–480. [Google Scholar]

[31] Monago C.C., Akhidue V., Estimation of tannin, saponin, oxalate, cyanogenic and cardiac glycosides in Garcinia cola, J. Appl. Sci. Environ. Manag. 6 (2002) 22–25. [Google Scholar]

[32] Lehninger A.L., Principles of biochemistry, C.B.S. Publ. Distrib., India, 1982. [Google Scholar]

[33] Montgomery R.D., Cyanogens, in: Liener I.E. (Ed.), Toxic constituents of plant foodstuffs, Acad. Press, N.Y., USA, 1969, pp. 143–160. [Google Scholar]

[34] Mohammed J.M., Imbalance in nutrient supply as a threat to sustainable crop production, in: Krauu A. (Ed.), Int. Fertil. Corresp., No. 8, Int. Potassium Inst., Basel, Switz., 2002, pp. 7–8. [Google Scholar]

[35] Okon E.U., Akpanyung E.O., Nutrition and anti-nutrition in selected brands of malt drinks produced in Nigeria, Pak. J. Nutr. 4 (2005) 352–355. [CrossRef] [Google Scholar]

[36] Chang W.H., Hwang Y.J., Wei T.C., Chemical composition an enzyme activity of Taiwan Northern banana fruit of different maturity and harvested in different seasons, Acta Hortic. 275 (1990) 621–629. [Google Scholar]

[37] Wang Y., Douglas G.B., Waghorn G.C., Barry T.N., Foote A.G., Effect of condensed tannins in Lotus corniculatus upon lactation performance in ewes, J. Agric. Sci. Camb. 126 (1996) 353–362. [CrossRef] [Google Scholar]

[38] Wang J., Douglas G.B., Waghorn G.C., Barry T.N., Foote A.G., Purchas R.W., Effect of condensed tannins upon the performance of lambs grazing Lotus corniculatus and Lucerne (Medicago sativa), J. Agric. Sci. Camb. 126 (1996) 87–98. [CrossRef] [Google Scholar]