Construction and Maintenance of the Optimal Photosynthetic Systems of the Leaf, Herbaceous Plant and Tree: an Eco-developmental Treatise

doi:10.1093/aob/mci049

AOBPreview published online on December 14, 2004
Annals of Botany, doi:10.1093/aob/mci049

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Annals of Botany, © Annals of Botany Company 2004; all rights reserved
Received December 18, 2003
Revised February 12, 2004
Accepted March 26, 2004

Article

Construction and Maintenance of the Optimal Photosynthetic Systems of the Leaf, Herbaceous Plant and Tree: an Eco-developmental Treatise

ICHIRO TERASHIMA ¹^*, TAKAO ARAYA ¹, SHIN-ICHI MIYAZAWA ¹, KOSEI SONE ¹, and SATOSHI YANO ¹

¹ Department of Biology, Graduate School of Science, Osaka University, 1-1 Machikaneyama-cho, Toyonaka 560-0043, Japan

^* To whom correspondence should be addressed.
ICHIRO TERASHIMA, E-mail: itera{at}bio.sci.osaka-u.ac.jp

Abstract

• Background and Aims The paper by Monsi and Saeki in 1953(Japanese Journal of Botany 14: 22-52) was pioneering not onlyin mathematical modelling of canopy photosynthesis but alsoin eco-developmental studies of seasonal changes in leaf canopies.

•Scope Construction and maintenance mechanisms of efficient photosyntheticsystems at three different scaling levels--single leaves, herbaceousplants and trees--are reviewed mainly based on the nitrogenoptimization theory. First, the nitrogen optimization theorywith respect to the canopy and the single leaf is briefly introduced.Secondly, significance of leaf thickness in CO₂ diffusion inthe leaf and in leaf photosynthesis is discussed. Thirdly, mechanismsof adjustment of photosynthetic properties of the leaf withinthe herbaceous plant individual throughout its life are discussed.In particular, roles of sugar sensing, redox control and ofcytokinin are highlighted. Finally, the development of a treeis considered.

• Conclusions Various mechanisms contributeto construction and maintenance of efficient photosyntheticsystems. Molecular backgrounds of these ecologically importantmechanisms should be clarified. The construction mechanismsof the tree cannot be explained solely by the nitrogen optimizationtheory. It is proposed that the pipe model theory in its differentialform could be a potential tool in future studies in this researcharea.

Keywords: Monsi-Saeki theory, nitrogen optimization theory, pipe model theory, sugar-sensing, excitation pressure, cytokinin.

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