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Different biomechanical design and ecophysiological strategies in juveniles of two liana species with contrasting growth habit

Journal article

YJ Chen F Bongers Jiaolin Zhang J Liu K Cao

2014

American Journal of Botany

101

925-934

Premise of the study: Lianas constitute a major functional type in tropical zones. While some liana species start climbing immediately after germination (shade-avoidance) others have a long self-supporting phase (shade-tolerance). The morphophysiological characteristics of these two growth habits are unknown.\r\n• Methods: We quantifi ed growth traits biomass allocation mechanics anatomy and hydraulics for saplings of Ventilago calyculata (an immediate obligate climber) and Ziziphus attopensis (having a long self-supporting phase) both in the family Rhamnaceae. The mechanics anatomy and hydraulics for the mature individuals of the two species were also evaluated.\r\n• Key results: In the juvenile stage V. calyculata had a higher slenderness ratio height growth rate and photosynthetic rate but similar biomass growth rate compared with Z. attopensis . In contrast Z. attopensis had a higher leaf area growth rate specific leaf area and leaf mass fraction. Ziziphus attopensis had stiffer but less conductive stems than V. calyculata. Stem rigidity of saplings decreased from base to apex in Z. attopensis but increased in V. calyculata . Both species had similar resistance to xylem embolism. However the leaves of V. calyculata were able to resist greater water defi cits. At the mature stage wider and\r\nlonger vessels emerged in the xylem and both species increased stem specifi c conductivity and drought resistance in stems and leaves. Ventilago calyculata had signifi cantly higher specifi c conductivity and was more drought tolerant than Z. attopensis .\r\n• Conclusions: The two lianas differed signifi cantly in growth biomass allocation anatomy mechanics ecophysiology and hydraulic properties in line with their growth habits and shade adaptation strategies.

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Support

The Liana Ecology Project is supported by Marquette University and funded in part by the National Science Foundation.