Non-hydraulic regulation of fruit growth in tomato plants (Lycopersicon esculentum cv. Solairo) growing in drying soil

doi:10.1093/jxb/erg120

JXB Advance Access published online on March 3, 2003
Journal of Experimental Botany, doi:10.1093/jxb/erg120
© 2003 by Oxford University Press

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Received September 2, 2002; accepted December 19, 2002
© 2003 Society for Experimental Biology

RESEARCH PAPER

Non-hydraulic regulation of fruit growth in tomato plants (Lycopersicon esculentum cv. Solairo) growing in drying soil

Darren M. Mingo ¹, Mark A. Bacon ¹^*, William J. Davies ¹

¹ The Lancaster Environment Centre, Lancaster University, Lancaster LA1 4YQ, UK

^* To whom correspondence should be addressed. E-mail: m.a.bacon{at}lancs.ac.uk.

Abstract

Tomato (Lycopersicon esculentum cv. Solairo) fruit growth, fruitmesocarp and leaf epidermal cell turgor, and fruit and leafsub-epidermal apoplastic pH were monitored as plants were allowedto dry the soil in which they were rooted. Soil drying regimesinvolved splitting the root system of plants between two halvesof a single pot separated by a solid impervious membrane toform a split-root system. Plants were then allowed to dry thesoil in both halves of the pot (a soil-drying (SD) treatment)or water was supplied to one-half of the pot (a partial root-drying(PRD) treatment), allowing only one-half of the root systemto dry the soil. A well-watered control treatment watered thesoil on both halves of the pot. The rate of fruit growth washighly correlated with the soil water content of both sidesof the SD treatment and the dry side of the PRD treatment. Soildrying caused a significant restriction in fruit growth rate,which was independent of any changes in the turgor of expandingfruit mesocarp cells in the PRD treatment. By supplying waterto half of the root system, the turgors of mesocarp cells weremaintained at values above those recorded in well-watered controls.The turgor of leaf epidermal cells exhibited a similar response.The pH of the sub-epidermal apoplastic compartment in leavesand fruit increased with soil drying. The dynamics of this increasein leaves and fruit were identical, suggesting free transportof this signal from shoot to fruit. Fruit growth rate and sub-epidermalpH within the fruit showed a strong correlation. The similarityof fruit growth response in the SD and PRD treatment, suggeststhat tomato plants respond to a discrete measure of soil waterstatus and do not integrate measures to determine total soilwater availability. The results of this study are not consistentwith Lockhartian models of growth regulation in expanding fruitof a higher plant. A non-hydraulic, chemical-based signallingcontrol of fruit growth in plants growing in drying soil isproposed.

Key words: ABA, chemical signalling, hydraulic regulation, pH, PRD, tomato, turgor.

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