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The Potential of Tree Rings in Eucalyptus pauciflora for Climatological and Hydrological Reconstruction
Author(s) -
BROOKHOUSE MATTHEW,
LINDESAY JANETTE,
BRACK CRIS
Publication year - 2008
Publication title -
geographical research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.695
H-Index - 47
eISSN - 1745-5871
pISSN - 1745-5863
DOI - 10.1111/j.1745-5871.2008.00535.x
Subject(s) - precipitation , plateau (mathematics) , dryness , snow , dendrochronology , eucalyptus , dendroclimatology , spring (device) , climatology , growing season , environmental science , physical geography , geography , chronology , hydrology (agriculture) , ecology , geology , biology , archaeology , mechanical engineering , mathematical analysis , mathematics , meteorology , engineering , immunology , geotechnical engineering
We investigate the causes of variability in a tree‐ring chronology comprising data from Eucalyptus pauciflora Sieb. Ex. Spreng. at the alpine treeline on the Kosciuszko Plateau in New South Wales, Australia. Following verification of crossdating in a subset of the available data, we found that ring width correlates significantly with net radiation, precipitation and mean minimum and maximum air temperature during the preceding winter and spring of the growing season. Our results for spring are consistent with the impact of climate on tree growth in alpine woodlands reported in previous studies. Analyses of snow‐depth data revealed negative correlations with ring width throughout winter and spring. Our results indicate that low temperature and high precipitation during winter negatively affect the growth of E. pauciflora by prolonging spring snow cover. Ring width also correlates significantly with an index of soil dryness and flow in rivers with their headwaters in the Kosciuszko plateau. Given the apparent sensitivity of our chronology to climate and snow conditions, our results suggest that tree‐ring chronologies comprising data from E. pauciflora at the alpine treeline have potential for climatological and hydrological reconstruction in southeast Australia.

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