Journal of Experimental Botany, Vol. 54, No. 392, pp. 2519-2528,
November 1, 2003
© 2003 Oxford University Press
Effect of P-deficiency on photoassimilate partitioning and rhythmic changes in fruit and stem diameter of tomato (Lycopersicon esculentum) during fruit growth
Received 8 April 2003; Accepted 10 July 2003
1 Graduate School of Biosphere Science, Hiroshima University, 1-4-4 Kagamiyama, Higashi-hiroshima, 739-8528, Japan
2 Hiroshima Prefectural Agricultural Center, Hara, Hachihonmatsu, Higashi-hiroshima, 739-0151, Japan
3 Faculty of Environmental and Information Sciences, Yokkaichi University, 1200 Kayoucho, Yokkaichi, 512-8512, Japan
4 ICRISAT-Kano Sabo Bakin Zuwo Road, PMB 3941, Kano, Nigeria
5 School of Life Science, Sambalpur University, Jyoti vihar, Sambalpur 768019, India
* To whom correspondence should be addressed. Fax: +81 824 24 0791. E-mail: fujiko{at}hiroshima-u.ac.jp
Tomato (Lycopersicon esculentum) plants were grown in liquid culture inside the greenhouse of Hiroshima University, Japan. At the first fruiting stage, P was withdrawn from the rooting medium for a period of 19 d and its effect was studied on photosynthesis, stomatal conductance, transpiration, partitioning of 13C and 15N, P contents of various organs, and changes in stem and fruit diameter of the plant in order to identify the mechanism of resource management on the part of the plant at low P. Compared to the control, P-deficiency treatment decreased biomass growth of all organs except the roots. The treatment also depressed leaf photosynthesis, stomatal conductance and diameter of fruit and stem after a lag period of about 1 week. The stem diameter of the plant shrank during daytime and expanded during the night; the adverse effect of P-deficiency on stem diameter change was more evident during the night than the day. The circadian rhythm in fluctuations of diameter was less manifested in the fruit compared with the stem. P-deficiency induced daytime shrinkage and reduced night expansion of fruit. However, within the plant, P-deficiency encouraged partitioning of 13C, 15N and P into the fruit at the cost of autotrophic organs such as leaves and the upper parts of the stem. The results were discussed in the light of a plausible effect of P-deficiency on water relations of the plant. It is concluded that, in spite of the preference in partitioning of C and N received within the plant parts, assimilate flow into the fruit is limited at low-P compared with the control, owing to the restriction in fruit expansion.
Key words: Fruit and stem diameter, micro-morphometry, partitioning, phosphorus, tomato.
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