Tree age, site and climate controls on tree ring cellulose delta O-18: A case study on oak trees from south-western France

Affiliation auteurs!!!! Error affiliation !!!!
TitreTree age, site and climate controls on tree ring cellulose delta O-18: A case study on oak trees from south-western France
Type de publicationJournal Article
Year of Publication2014
AuteursLabuhn I, Daux V, Pierre M, Stievenard M, Girardclos O, Feron A, Genty D, Masson-Delmotte V, Mestre O
JournalDENDROCHRONOLOGIA
Volume32
Pagination78-89
Type of ArticleArticle
ISSN1125-7865
Mots-clésCellulose delta O-18, Inter-tree variability, Juvenile effect, Precipitation delta O-18, Proxy calibration, Stable isotopes
Résumé

A main concern of dendroclimatic reconstruction is to distinguish in the tree ring proxy the influence of the climate variables of interest from other controlling factors. In order to investigate age, site and climate controls on tree ring width and cellulose delta O-18, measurements have been performed in nearby groups of young (145 years old) and older (310-405 years old) oak trees in south-western France, covering the period 1860-2010. Within a given site, inter-tree deviations are small, pointing to a common climatic signal. Despite a similar inter-annual variability, the average level of cellulose delta O-18 in the young tree group is 0.8%. higher than in the old trees. Such offsets might be caused by different soil properties and differences in the fraction of the source water used by trees from different depths. The delta O-18 of water in the top soil layer is directly related to the current growing season precipitation, while deeper water can have a lower and more constant delta O-18. Local cave drip waters at 10 m depth indeed show a constant isotopic composition, which corresponds to pluri-annual mean precipitation. A 2%circle increasing trend is observed in cellulose delta O-18 of young trees in the first 30 years of growth, during a period when no trend is visible in older trees. This increase can be quantitatively explained by humidity gradients under the forest canopy, and a changing microclimate around the crown as trees grow higher. While relationships between tree ring width and climate appear complex, the isotopic composition of cellulose is strongly correlated with summer maximum temperature, relative humidity and evapotranspiration (r approximate to 0.70). Weaker correlations (r approximate to 0.40) are identified with precipitation delta O-18 from a 15-year long local record and from the REMOiso model output. These results imply that leaf water enrichment has a stronger control on the inter-annual variability of cellulose delta O-18 than the delta O-18 of precipitation. This study demonstrates the suitability of oak tree ring cellulose delta O-18 for reconstructing past summer climate variability in south-western France, provided that the sampling and pooling strategy accounts for the fact that trees from different sites and of different age can introduce non-climatic signals. (c) 2013 Elsevier GmbH. All rights reserved.

DOI10.1016/j.dendro.2013.11.001