V. Heraut-bron et al., Phytochrome mediated effects on leaves of white clover: Consequences for light interception by the plant under competition for light, ANN BOTANY, 88, 2001, pp. 737-743
Competition for light is one of the main factors affecting the persistence
of clover in plant communities. As a signal of plant competition, lowering
the red to far-red (R:FR) ratio of incident light is known to elicit morpho
logical responses in white clover shoots, such as reducing the branching ra
te and increasing organ size. The objectives of this study were to examine
the influence of the R:FR ratio on leaf development and to investigate the
consequences for the ability of leaves to intercept light. Two short-term e
xperiments were conducted on isolated plants using either selective light f
ilters in a glasshouse (expt 1) or monochromatic light-emitting diodes in a
climate chamber (expt 2) to induce changes in the R:FR ratio. In each expe
riment, morphological data and biomass were recorded. Four weeks after the
establishment of the light treatments, plants were labelled with (CO2)-C-14
(expt 1). The optical properties (absorptance, transmittance and reflectan
ce) of main stolon leaves were measured. Rates of leaf initiation and emerg
ence were not influenced by light treatment in either experiment and no sig
nificant effect of the R:FR ratio was observed on mean leaf area of individ
ual leaves. However, light quality acted indirectly on total leaf area main
ly through branch development, as previously demonstrated in white clover.
Lowering the R:FR ratio stimulated petiole elongation and this was sustaine
d by the allocation of more biomass to growing petioles and more C-14 assim
ilates to growing stolon apices. It is suggested that light interception by
white clover leaves could be influenced through FR-promoted petiole growth
only, as there was no direct modification of individual leaf area, or of t
he capacity of leaves to absorb light and assimilate carbon. (C) 2001 Annal
s of Botany Company.