Summer precipitation influences the stable oxygen and carbon isotopic composition of tree-ring cellulose in Pinus ponderosa

The carbon and oxygen isotopic composition of tree-ring cellulose was examined in ponderosa pine (Pinus ponderosa Dougl.) trees in the western USA to study seasonal patterns of precipitation inputs. Two sites (California and Oregon) had minimal summer rainfall inputs, whereas a third site (Arizona)...

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Bibliographic Details
Published in:Tree physiology 2007-04, Vol.27 (4), p.491-501
Main Authors: Roden, J.S, Ehleringer, J.R
Format: Article
Language:English
Subjects:
Arizona
California
carbon
Carbon Isotopes - analysis
cellulose
Cellulose - chemistry
chemical constituents of plants
Climate
drought
forest trees
growth rings
isotopes
monsoon season
Oregon
oxygen
Oxygen Isotopes - analysis
Pinus ponderosa
Pinus ponderosa - anatomy & histology
Pinus ponderosa - growth & development
Pinus ponderosa - metabolism
precipitation
quantitative analysis
Rain
seasonal variation
Seasons
spring
stems
summer
tree growth
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Summary:The carbon and oxygen isotopic composition of tree-ring cellulose was examined in ponderosa pine (Pinus ponderosa Dougl.) trees in the western USA to study seasonal patterns of precipitation inputs. Two sites (California and Oregon) had minimal summer rainfall inputs, whereas a third site (Arizona) received as much as 70% of its annual precipitation during the summer months (North American monsoon). For the Arizona site, both the δ18O and δ13C values of latewood cellulose increased as the fraction of annual precipitation occurring in the summer (July through September) increased. There were no trends in latewood cellulose δ18O with the absolute amount of summer rain at any site. The δ13C composition of latewood cellulose declined with increasing total water year precipitation for all sites. Years with below-average total precipitation tended to have a higher proportion of their annual water inputs during the summer months. Relative humidity was negatively correlated with latewood cellulose δ13C at all sites. Trees at the Arizona site produced latewood cellulose that was significantly more enriched in 18O compared with trees at the Oregon or California site, implying a greater reliance on an 18O-enriched water source. Thus, tree-ring records of cellulose δ18O and δ13C may provide useful proxy information about seasonal precipitation inputs and the variability and intensity of the North American monsoon.
ISSN:0829-318X
1758-4469
DOI:10.1093/treephys/27.4.491