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Effect of potassium on growth, yield and quality of pineapple in tropical peat

Published online by Cambridge University Press:  15 April 2002

A. H.M. Razzaque
Affiliation:
Crop Physiology Division, Bangladesh Institute of Nuclear Agriculture, P.O. Box #4, Mymensingh-2200, Bangladesh ([email protected])
Mohamed Musa Hanafi
Affiliation:
Department of Land Management, Faculty of Agriculture, Universiti Putra Malaysia, 43400 UPM, Serdang, Selangor, Malaysia
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Abstract

Introduction. Two field experiments were conducted to investigate the effects ofpotassium (K) on plant growth, fruit yield and quality of pineapple cultivated on tropical peat soil.Materials and methods. Six levels of K: 0, 266, 532, 798, 1064 and 1330 kg $\cdot$ ha-1 K2Owere applied at each of two pineapple plantations located at two different sites. The experiments wereconducted with the Gandul cv. in a randomized complete block design with three replications. Results anddiscussion. The application of K had not any significant effect on plant height and leaf number ofpineapple at both sites. Potassium significantly influenced the fruit diameter at site 1, and fruit lengthand fruit weight at site 2. The application of 266 kg $\cdot$ ha-1 K2O resulted in the highest fruitweight and, at site 2, further increase of K declined it. Potassium had no significant effect on fruitsugar and acidity. However, at site 2, acid content tended to increase with increased K applications.Conclusion. Potassium applications at high rates tended to depress most of the growth and yieldattributes of cv. Gandul pineapple cultivated on peat soil in Malaysia.

Type
Research Article
Copyright
© CIRAD, EDP Sciences

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References

Anonymous, Statistics on commodities, MPIM (Ministry of Primary Industries Malaysia), Kuala Lumpur, Malaysia, 1997, pp. 113-118.
Verawudh J., Effect of micronutrients on growth, nutrient contents in D-leaf and yield of pineapple, in: Bartholomew D.P., Rohrbach K.G. (Eds), Proceedings of the first international pineapple symposium, Honolulu, Hawaii, 1993, pp. 241-246.
Ludders P., Effects of time and amount of nutrient additives on nutrient status and distribution and on fruit quality, in: Atkinson D., Jackson J.E., Sharples R.O., Waller W.M. (Eds), Mineral nutrition of fruit trees, Butterworths, London, 1980, pp. 111-121.
Kirkby, E.A., Maximizing calcium uptake by plants, Commun. Soil Sci. Plant Anal. 10 (1979) 89-113. CrossRef
Mengel, K., Haeder, H.E., Effect of potassium supply on the rate of phloem sap exudation and the composition of phloem sap of Ricinus communis, Plant Physiol. 59 (1977) 282-284. CrossRef
Selamat M.M., Ramlah M., The response of pineapple cv. Gandul to nitrogen, phosphorus and potassium on peat soil in Malaysia, in: Bartholomew D.P., Rohrbach K.G. (Eds), Proceedings of the first international pineapple symposium, Honolulu, Hawaii, 1993, pp. 247-254.
Ohno, T., Grunes, D.L., Potassium-magnesium interactions affecting nutrient uptake by wheat forage, Soil Sci. Soc. Am. J. 49 (1985) 685-690. CrossRef
Wilkinson S.R., Effect of soil application of magnesium and other minerals on plant magnesium content, in: Fontenot J.P. (Ed.), Role of magnesium in animal nutrition, Virginia Polytechnic Institute Press, Blacksburg, VA, 1983.
Sideris, C.P., Young, H.Y., Effects of different amounts of potassium on growth and ash constituents of Ananas comosus (L) Merr., Plant Physiol. 20 (1945) 609-630. CrossRef
Chadha, K.L., Subramanian, T.R., Melanta, K.R., Effect of varying levels of N, P and K on growth, yield and quality in variety Queen, Indian J. Hort. 33 (1976) 224-226.
Tay, T.H., Comparative study of different types of fertilizer as sources of nitrogen, phosphorus and potassium in pineapple cultivation, Trop. Agric. (Trinidad) 49 (1972) 51-59.
Hannaway D.B., Bush L.P., Leggett J.E., Plant nutrition: magnesium and hypomagnesium in animals, Kentucky Agric. Expt. Stn. Bull., 1980, 716 p.
Tay, T.H., Wee, P.C., Chong, W.S., The nutritional requirements of pineapple [Ananas comosus (L) Merr. var. Singapore Spanish] on peat soil in Malaya. 1. Effect of nitrogen, phosphorus and potassium on yield, sugar and acid content of the fruit, Malaya Agric. J. 46 (1968) 458-468.
Kannapathy, V., Leaf analysis in relation to yield and quality of pineapples, Malaya Agric. J. 49 (1958) 18-26.
Su, N.R., The response of pineapples to the application of potassium chloride, J. Agric. Assoc. China. 22 (1958) 27-50.