Leaf emergence (phyllochron index) and leaf expansion response to soil drying in cowpea genotypes

Published Date
June 30, 2017
Type
Journal Article
Leaf emergence (phyllochron index) and leaf expansion response to soil drying in cowpea genotypes
Authors:
Anju Manandhar
Thomas R. Sinclair, Thomas W. Rufty, Michel Edmond Ghanem

Drought can result in severely decreased leaf area development, which impacts plant growth and
yield. However, rarely is leaf emergence or leaf expansion separated to resolve the relative sensitivity
to water-deficit of these two processes. Experiments were undertaken to impose drought over
approximately 2 weeks for eight cowpea (Vigna unguiculata) genotypes grown in pots under
controlled environmental conditions. Daily measures of phyllochron index (PI, leaf emergence) and
leaf area increase (leaf expansion) were obtained. Each of these measures was referenced against
volumetric soil water content, i.e. fraction transpirable soil water. Although there was no clear
difference between leaf emergence and leaf expansion in sensitivity to drying soil, both processes
were more sensitive to soil drying than plant transpiration rate. Genotypic differences in the soil water
content at the initiation of the decline in PI were identified. However, no consistent difference in
sensitivity to water-deficit in leaf expansion was found. The difference in leaf emergence among
genotypes in sensitivity to soil drying can now be exploited to provide guidance for plant
improvement and crop yield increase.

Citation:
Anju Manandhar, Thomas R. Sinclair, Thomas Rufty, Michel Edmond Ghanem. (30/6/2017). Leaf emergence (phyllochron index) and leaf expansion response to soil drying in cowpea genotypes. Physiologia Plantarum, 160 (2), pp. 201-208.
Keywords:
leaf
phyllochron index
drought
genotypes
cowpeas