Publication details

A comparative structural and functional study of leaf traits and sap flow in Dracaena cinnabari and Dracaena draco seedlings

Authors

NADEZHDINA Nadezhda PLICHTA Roman NADEZHDIN Valeriy GEBAUER Roman JUPA Radek HABROVÁ Hana MADĚRA Petr

Year of publication 2015
Type Article in Periodical
Magazine / Source Functional Plant Biology
MU Faculty or unit

Faculty of Science

Citation
Web http://www.publish.csiro.au/nid/102/paper/FP15079.htm
Doi http://dx.doi.org/10.1071/FP15079
Field Botany
Keywords anatomy; climatic driving forces; sclerenchyma; staining experiment; stomata; xeromorphic
Description Water relations for two remote populations of Dracaena tree species from the dragon tree group, Dracaena cinnabari Balfour f. and Dracaena draco (L.) L., were studied to test our hypothesis that morphological and anatomical differences in leaf structure may lead to varied functional responses to changing environmental conditions. Sap flow measurements were performed using the heatfield deformation method for four Dracaena seedlings grown in one glasshouse and two greenhouses, and leaf traits related to plant–water relationships were characterised. All traits studied confirmed that D. cinnabari leaves are more xeric in their morpho-anatomical structure compared with D. draco leaves. No radial sap flowvariability was detected in D. draco plant stems, whereas sapflowwas found to be higher in the inner part of D. cinnabari stems. The regular occurrence of reverse sap flow at night in both Dracaena species was consistent with a staining experiment. Vapour pressure deficit (VPD) was found to be the main driver for transpiration for both Dracaena species. However, the relationship between VPD and sap flow appeared to be different for each species, with a clockwise or no hysteresis loop for D. draco and a counter-clockwise hysteresis loop for D. cinnabari. This resulted in a shorter transpiration cycle in D. cinnabari. The observed superior water-saving strategy of D. cinnabari corresponds to its more xeric morpho-anatomical leaf structure compared with D. draco.

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