期刊
PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
卷 286, 期 1904, 页码 -出版社
ROYAL SOC
DOI: 10.1098/rspb.2019.0799
关键词
aquaporin; leaf hydraulic conductance; major vein density; stomatal conductance; vein architecture
资金
- JSPS KAKENHI [JP18658067, JP21780161, JP15K07492]
The density and architecture of leaf veins determine the network and efficiency of water transport within laminae and resultant leaf gas exchange and vary widely among plant species. Leaf hydraulic conductance (K-leaf) can be regulated by vein architecture in conjunction with the water channel protein aquaporin. However, our understanding of how leaf veins and aquaporins affect leaf hydraulics and stomata' conductance (g(s)) remains poor. By inducing blockage of the major veins and inhibition of aquaporin activity using HgCl2 we examined the effects of major veins and aquaporins on K-leaf and g(s) in species with different venation types. A vine species, with thick first-order veins and Flow vein density, displayed a rapidly declined g(s) with high leaf water potential n response to vein blockage and a greatly reduced K-l(eaf) and g(s) in response to aquaporin inhibition, suggesting that leaf aquaporins are involved in isohydric/anisohydric stomatal behaviour. Across species, the decline in K-leaf and g(s) due to aquaporin inhibition increased linearly with decreasing major vein density, possibly indicating that a trade-off function between vein architect ure (apoplastic pathway) and aquaporin activity (cell-to-cell pathway) affects leaf hydraulics.
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