Abstract
The effects of potassium deficiency on hydroponically grown tomato were investigated at the early production stage (23 leaves, 3 trusses). Two types of potassium deficiency were applied : the permanent deficiency lasted for 23 days whereas the 10-day temporary deficiency was followed by a 7-day period of potassium supply resumption.
Growth was assessed through non-destructive measurements. Permanent potassium deficiency resulted in growth slow-down before visual symptoms appeared on the adult leaves (leaves 12 to 17), but the older leaves (next to the first truss) were not affected. Temporary potassium deficiency reduced the growth rate, but, after potassium supply resumption, the plants recovered a growth pattern which was similar to that of the control plants. The potassium of the older leaves appeared to be less mobilizable than that present in the adult leaves where the visual deficiency symptoms appeared.
Potassium uptake kinetics during the potassium supply resumption period were investigated on the plants submitted to temporary deficiency. In tomato plants which had been temporarily deprived of potassium before being transferred onto a standard nutrient solution, potassium uptake was faster than in the control plants. This result is to be related to the plant ability to recover a normal growth pattern.
As a result of the occurrence of K-Mg and K-Na antagonisms, the sum of the cations was maintained at a constant value in some plant organs.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bear F E and Prince A L 1945 Cation anion equivalent constancy in alfalfa. J. Am. Soc. Agron. 37, 217-222.
Besford R T and Maw G A 1974 Uptake and distribution of potassium in tomato plants. Plant Soil 41, 601-618.
Besford R T and Maw G A 1975 Effect of potassium nutrition on tomato plant growth and fruit development. Plant Soil 42, 395- 412.
Besford R T 1975 Effect of potassium nutrition on leaf protein concentrations and growth of young tomato plants. Plant Soil 42, 441-451.
Besford R T 1978 Effect of replacing nutrient potassium by sodium on uptake and distribution of sodium in tomato plants. Plant Soil 50, 399-409.
Besford R T 1978 Effect of sodium in the nutrient medium on the incidence of potassium-deficiency symptoms in tomato plants. Plant Soil 50, 427-432.
Brun R and Blanc D 1987 Cinétique de l'absorption hydrique et minérale. Composition ionique des solutions. InLes Cultures Hors Sol. Ed. D Blanc. pp 203-220. INRA, Paris.
Callot G, Chamayou H, Maertens C and Salsac L 1982 Les interactions sol-racine. INRA, Paris. 325 p.
Daliparthy J, Barker A V and Mondal S S 1994 Potassium fractions with other nutrients in crops: a review focusing on the tropics. J. Plant Nutr. 17, 1859-1886.
Fong K H 1973 Effects of potassium nutrition on the absorption of sodium, calcium and magnesium by intact tomato plants. Commun. Soil Sci. Plant Anal. 4, 427-441.
Garcia M and Morard P 1976 The effect of sodium chloride on the mineral content of sorghum. 4th International Colloquium on the Control of Plant Nutrition, Gent, Belgium. pp 470-480.
Kabu K L and Toop E W 1970 Influence of potassium-magnesium antagonism on tomato plant growth. Can. J. Plant Sci. 50, 711- 715.
Krumm M, Moazami V and Martin P 1990 Influence of potassium nutrition on concentrations of water soluble carbohydrates, potassium, calcium, and magnesium and the osmotic potential in sap extracted from wheat (Triticum aestivum) ears during preanthesis development. Plant Soil 124, 281-285.
Marschner H 1995 Mineral nutrition of higher plants. Academic Press, London. 889 p.
Mengel K and Kirkby E A 1987 Principles of plant nutrition. International Potash Institute, Bern. 687 p.
Morard P 1974 Distribution du radiopotassium absorbé par voie racinaire dans les différents organes du sorgho (Sorghum dochnaF.). C.R. Acad. Sci. Paris. 279, série D, 2025-2028.
Morard P 1976 Effect of potassium deficiency on the cationic content of sorghum. 4th International Colloquium on the Control of Plant Nutrition. AIONP Proc. 1, 449-459.
Morard P 1981 Distribution du radiosodium absorbé par voie racinaire dans les différents organes de sorghos carencés ou non en potassium. C.R. Acad. Sci. Paris, 292, série III, 1231–1236.
Morard P 1995 Les cultures végétales hors sol. Publications Agricoles, Agen. 303 p.
Morard P, Bernadac A and Vall#x0E8;s V 1990 Selectivity of the root absorption of nutrient ions in grain sorghum. J. Plant Nutr. 13, 249-268.
Morard P, Pujos A, Bernadac A and Bertoni G 1996 Effect of temporary calcium deficiency on tomato growth and mineral nutrition. J. Plant Nutr. 19, 115-127.
Pujos A 1996 Effets de carences en calcium et potassium sur la croissance et la nutrition minérale de la tomate. Thèse Institut Nationonal Polytechnique, Toulouse. 100 p.
Staub J E, Rousos P and Struckmeyer B E 1987 “Pillowy”, a calciumrelated fruit disorder in processing cucumber. Acta Hortic. 220, 309-315
Trudel MJ and Ozbun J L 1971 Influence of potassium on carotenoid content of tomato fiuit. J. Am. Soc. Hortic. Sci. 96, 763-765.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Pujos, A., Morard, P. Effects of potassium deficiency on tomato growth and mineral nutrition at the early production stage. Plant and Soil 189, 189–196 (1997). https://doi.org/10.1023/A:1004263304657
Issue Date:
DOI: https://doi.org/10.1023/A:1004263304657