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  Leaf and wood carbon isotope ratios, specific leaf areas and wood growth of Eucalyptus species across a rainfall gradient in Australia

Schulze, E.-D., Turner, N. C., Nicolle, D., & Schumacher, J. (2006). Leaf and wood carbon isotope ratios, specific leaf areas and wood growth of Eucalyptus species across a rainfall gradient in Australia. Tree Physiology, 26(4), 479-492. doi:10.1093/treephys/26.4.479.

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Schulze, E.-D.1, Author           
Turner, N. C., Author
Nicolle, D., Author
Schumacher, J.1, Author           
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1Department Biogeochemical Processes, Prof. E.-D. Schulze, Max Planck Institute for Biogeochemistry, Max Planck Society, ou_1497751              

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Free keywords: Aridity gradient Biodiversity Delta c-13 in leaves and wood Drought Soil type Tree rings Water-use efficiency Tree-rings Nitrogen nutrition Namib desert Discrimination Delta-c-13 Globulus Plants Availability Productivity
 Abstract: Leaves and samples of recent wood of Eucalyptus species were collected along a rainfall gradient parallel to the coast of Western Australia between Perth in the north and Walpole in the south and along a Southwest to northeast transect from Walpole in southwestern Australia, to near Mount Olga in central Australia. The collection included 65 species of Eucalyptus sampled at 73 sites and many of the species were collected at several sites along the rainfall gradient. Specific leaf area (SLA) and isotopic ratio of C-13 to C-12 (delta C-13) of leaves that,grew in 2002, and tree ring growth and VC of individual cell layers of the Wood were measured. Rainfall data were obtained from the Australian Bureau of Meteorology for 29 locations that represented one or a few closely located collection sites. Site-averaged data and species-specific values of delta C-13 decreased with decreasing annual rainfall between 1200 and 300 mm at a rate of 1.63 parts per thousand per 1000 inm decrease in rainfall. Responses became variable in the low rainfall region (< 300 rum), with some species showing decreasing delta C-13 With rainfall. Whereas delta C-13 increased or remained constant in other species. The range of delta C-13 values in the low rainfall region was as large as the range observed at sites receiving >300 mm of annual rainfall. Specific leaf area varied between 2 and 6 m(2) kg(-1) and tended to increase With decreasing annual rainfall in some species, but not all. whereas delta C-13 decreased with SLA. The relationship between delta C-13 and SLA Was highly species and soil-type specific. Leaf-area-based nitrogen (N) content varied between 2 and almost 6 m(-2) and decreased with rainfall. Thus, thicker leaves were associated With higher N content and this compensated for the effect of drought on delta C-13. Nitrogen content was also related to soil type and species identity. Based on a linear mixed model, statistical analysis of the whole data set showed that 27% of the variation in delta C-13 was associated with changes in SLA. 16% with soil type and only 1% with rainfall. Additionally, 21% was associated with species identity. For a subset of sites with > 300 mm rainfall, 43% of the variation was explained by SLA, 13% by soil type and only 3% by rainfall. The species effect decreased to 9% because there were fewer species in the subset of sites. The small effect of rainfall on delta C-13 was further supported by a path analysis that yielded a standardized path coefficient of 0.38 for the effect of rainfall on SLA and -0.50 for the effect of SLA on delta C-13, but an insignificantly low standardized path coefficient of -0.05 for the direct effect of rainfall on VC. Thus, in contrast to our hypothesis that 613 C decreases with rainfall independent of soil type and species, we detected no statistically significant relationship between rainfall and delta C-13 in leaves of trees growing at sites receiving < 300 mm of rainfall annually. Rainfall affected delta C-13 indirectly through soil type (a surrogate for water-holding capacity) across the rainfall gradient. Annual tree rings are not clearly visible in evergreen Eucalyptus species, even in the seasonally cool climate of SW Australia. Generally, visible density transitions in the wood are related not to a strict annual cycle but to periods of growth associated mainly with rainfall. The relationship between delta C-13 of leaves and the width of these stem increments was not statistically significant. Analysis of stem growth periods showed that delta C-13 in wood responded to rainfall events, but carbohydrate storage and reallocation also affected the isotopic signature. Although delta C-13 in wood of any one species varied over a range of 2 to 4%, there was a general relationship between delta C-13 of the leaves and the annual range of delta C-13 in wood. We conclude that species-specific traits are important in understanding the response of Eucalyptus to rainfall and that the diversity of the genus may reflect its response to the large climatic gradient in Australia and to the large annual and inter-annual variations in rainfall at any one location. [References: 43]

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 Dates: 2006
 Publication Status: Issued
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 Identifiers: Other: BGC0883
DOI: 10.1093/treephys/26.4.479
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Title: Tree Physiology
Source Genre: Journal
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Publ. Info: Victoria [B.C.] : Heron Pub.
Pages: - Volume / Issue: 26 (4) Sequence Number: - Start / End Page: 479 - 492 Identifier: CoNE: https://pure.mpg.de/cone/journals/resource/954925546279
ISSN: 0829-318X