Vascular tissue in the stem and roots of woody plants can conduct light

doi:10.1093/jxb/erg167

JXB Advance Access published online on April 28, 2003
Journal of Experimental Botany, doi:10.1093/jxb/erg167
© 2003 by Oxford University Press

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Received July 1, 2002; accepted December 20, 2002
© 2003 Society for Experimental Biology

RESEARCH PAPER

Vascular tissue in the stem and roots of woody plants can conduct light

Qiang Sun ¹^*, Kiyotsugu Yoda ², Mitsuo Suzuki ³, Hitoshi Suzuki ²

¹ Photodynamics Research Center, The Institute of Physical and Chemical Research (RIKEN), Sendai 980-0845, Japan
² Photodynamics Research Center, The Institute of Physical and Chemical Research (RIKEN), Sendai 980-0845, Japan; Faculty of Science and Engineering, Ishinomaki-Senshu University, Ishinomaki 986-8580, Japan
³ Photodynamics Research Center, The Institute of Physical and Chemical Research (RIKEN), Sendai 980-0845, Japan; School of Life Science, Tohoku University, Sendai 980-0862, Japan

^* To whom correspondence should be addressed. E-mail: qiangsun{at}postman.riken.go.jp.

Abstract

The role of vascular tissue in conducting light was analysedin 21 species of woody plants. Vessels, fibres (both xylem andphloem fibres) and tracheids in woody plants are shown to conductlight efficiently along the axial direction of both stems androots, via their lumina (vessels) or cell walls (fibres andtracheids). Other components, such as sieve tubes and parenchymacells, are not efficient axial light conductors. Investigationof the spectral properties of the conducted light indicatedthat far-red light was conducted most efficiently by vasculartissue. Light gradients in the axial direction were also investigatedand revealed that conducted light leaked out of the light-conductingstructures to the surrounding living tissues. These propertiesof the conducted light suggest a close relationship with metabolicactivities mediated by phytochromes. The results therefore indicatenot only that signals from the external light environment canenter the interior of stems above ground and are conducted byvascular tissue towards roots under ground, but also that thelight conducted probably contributes directly to photomorphogenicactivities within them.

Key words: Far-red light, gymnosperms, light conduction, optical properties of stem and root tissues, photomorpho genesis, phytochromes, vascular tissue, woody dicotyledons.

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