Environmental and physiological controls over oxygen and carbon isotope composition of Tasmanian blue gum, Eucalyptus globulus

Environmental and physiological controls over oxygen and carbon isotope composition of Tasmanian blue gum, Eucalyptus globulus

We measured oxygen isotope ratios (delta(18)O) of xylem sap, phloem sap, leaves, wood and bark of Eucalyptus globulus Labill. growing in southwestern Australia. Carbon isotope ratios (delta 13C) were measured in the dry matter of phloem sap, leaves and wood. Results were used to test several aspects...

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Bibliographic Details
Published in:Tree physiology Vol. 25; no. 2; pp. 129 - 146
Main Authors: Cernusak, L.A, Farquhar, G.D, Pate, J.S
Format: Journal Article
Language:English
Published: Canada 01-02-2005
Subjects:
bark
carbon
Carbon Isotopes - analysis
chemical constituents of plants
equations
Eucalyptus - chemistry
Eucalyptus - physiology
Eucalyptus globulus
forest trees
isotopes
leaves
literature reviews
mathematical models
oxygen
Oxygen Isotopes - analysis
phloem
Phloem - chemistry
Plant Bark - chemistry
Plant Leaves - chemistry
Plant Stems - chemistry
quantitative analysis
translocation (plant physiology)
Trees - chemistry
Trees - physiology
wood
xylem
Xylem - chemistry
Tasmania
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Summary:We measured oxygen isotope ratios (delta(18)O) of xylem sap, phloem sap, leaves, wood and bark of Eucalyptus globulus Labill. growing in southwestern Australia. Carbon isotope ratios (delta 13C) were measured in the dry matter of phloem sap, leaves and wood. Results were used to test several aspects of a mechanistic model of (18)O enrichment and provided insights into post-photosynthetic variations in dry matter delta 13C. Xylem water delta(18)O varied little within the tree crown, whereas variation at the landscape-level was more pronounced, with plantations near the coast being enriched by up to 3 per thousand compared with plantations less than 100 km inland. Phloem water was significantly enriched in (18)O compared with xylem water in two of three sampling campaigns; mean enrichments were 0.5 and 0.8 per thousand. Phloem sap sugars exported from E. globulus leaves closely reflected observed leaf water enrichment when diurnal variation in photosynthesis was taken into account. Photosynthetic rates were higher in the morning than in the afternoon, whereas leaf water (18)O enrichment increased to maximum values in the afternoon. A non-steady-state model of leaf water (18)O enrichment accurately predicted observed values through a full diel cycle. Mean estimates of the proportion of organic oxygen effectively exchanging with xylem water during cellulose synthesis were close to 0.40 for both leaves and wood. Carbon isotope ratios of nascent xylem tissues did not differ from those of phloem sap sugars collected concurrently, whereas nascent leaf tissues were depleted in 13C by 2 per thousand compared with phloem sap sugars, suggesting that, in E. globulus, 13C enrichment of sink tissues compared with source leaves does not result from an enriching process within the sink tissue.
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ISSN:0829-318X
1758-4469
DOI:10.1093/treephys/25.2.129