Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/16543
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Type: Journal article
Title: Seedling growth in conifers and angiosperms: impacts of contrasting xylem structure
Author: Brodribb, T.
Holbrook, N.
Hill, R.
Citation: Australian Journal of Botany, 2005; 53(8):749-755
Publisher: C S I R O Publishing
Issue Date: 2005
ISSN: 0067-1924
1444-9862
Statement of
Responsibility: 
T. J. Brodribb, N. M. Holbrook and R. S. Hill
Abstract: Competitive interaction between conifers and angiosperms has moulded the structure of global vegetation since the Cretaceous. Angiosperms appear to enjoy their greatest advantage in the lowland tropics, an advantage often attributed to the presence of vessels in their xylem tissue. By monitoring the seedling growth of three members of the pan-tropical conifer family Podocarpaceae and three tropical angiosperm tree species, our aim was to determine whether these conifer and angiosperm seedlings showed distinct patterns of growth and light adaptation that might be attributed to the presence/absence of vessels. Angiosperm seedlings were consistently more efficient in terms of leaf area carried per unit stem investment, as well as more responsive to light climate than the conifer seedlings. Apparently linked to this were larger growth rate, stem hydraulic conductivity and stomatal conductance in the angiosperm sample. Stem hydraulic conductivity and maximum stomatal conductance were highly correlated among species and light treatments explaining the association between highly conductive vessel-bearing wood and high rates of gas exchange. We conclude that xylem vessels contribute to higher rates of gas exchange and more efficient production of leaf area in our sample angiosperms than in conifers. However, this advantage is limited by shade
Description: © CSIRO 2005
RMID: 0020051453
DOI: 10.1071/BT05049
Appears in Collections:Earth and Environmental Sciences publications
Environment Institute Leaders publications

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