Ozone impacts on allometry and root hydraulic conductance are not mediated by source limitation nor developmental age

doi:10.1093/jexbot/51.346.919

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Journal of Experimental Botany, Vol. 51, No. 346, pp. 919-927, May 2000
© 2000 Oxford University Press

Ozone impacts on allometry and root hydraulic conductance are not mediated by source limitation nor developmental age

David A. Grantz¹ and Shudong Yang

Department of Botany and Plant Sciences and Air Pollution Research Center, University of California, Riverside, Kearney Agricultural Center, 9240 South Riverbend Ave., Parlier, CA 93648, USA

O₃could reduce growth and carbohydrate allocation to roots bydirect inhibition of photosynthesis and source strength. Alternatively,O₃ could reduce growth indirectly by inhibition of root hydraulicdevelopment through a primary lesion in carbohydrate translocation.Another alternative is that O₃ could slow the rate of plantdevelopment, only apparently altering carbohydrate allocationat a given plant age. Pima cotton (Gossypium barbadense L.)is used to address these possibilities, and four hypotheseswere tested/ (1) O₃ exposure reduces leaf pools of soluble sugars;(2) pruning leaf area and reducing source strength to matchthat of O₃-treated plants reproduces O₃-effects; (3) pruninglower leaf area more closely reproduces O₃ effects than pruningupper leaf area; and (4) manipulating plant age and therebyplant size to match O₃-treated plants reproduces O₃-effects.All were falsified. Soluble sugars did not decline. Pruningupper and lower leaves and manipulating plant age all reducedbiomass and leaf area similarly to O₃-exposure, but neitherreproduced O₃ effects on biomass allocation nor root function.It is concluded that O₃ induces an allometric shift in carbohydrateallocation that is not mediated by photosynthetic inhibitionnor by alteration of developmental age. Effects of O₃ couldbe mediated by direct effects on phloem loading, with consequentinhibition of translocation to roots and root system development.

Key words: Carbon allocation, oxidant, air pollution, root: shoot communication, translocation, ozone, cotton.

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