Journal
GLOBAL CHANGE BIOLOGY
Volume 11, Issue 4, Pages 633-643Publisher
WILEY
DOI: 10.1111/j.1365-2486.2005.00931.x
Keywords
AmeriFlux; C-13 discrimination; carbon dioxide; carbon isotope; net ecosystem exchange; temperate forests
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The delta C-13 values of atmospheric carbon dioxide (CO2) can be used to partition global patterns of CO2 source/sink relationships among terrestrial and oceanic ecosystems using the inversion technique. This approach is very sensitive to estimates of photosynthetic C-13 discrimination by terrestrial vegetation (Delta(A)), and depends on delta C-13 values of respired CO2 fluxes (delta C-13(R)). Here we show that by combining two independent data streams - the stable isotope ratios of atmospheric CO2 and eddy-covariance CO2 flux measurements - canopy scale estimates of Delta(A) can be successfully derived in terrestrial ecosystems. We also present the first weekly dataset of seasonal variations in delta C-13(R) from dominant forest ecosystems in the United States between 2001 and 2003. Our observations indicate considerable summer-time variation in the weekly value of delta C-13(R) within coniferous forests (4.0 parts per thousand and 5.4 parts per thousand at Wind River Canopy Crane Research Facility and Howland Forest, respectively, between May and September). The monthly mean values of delta C-13(R) showed a smaller range (2-3 parts per thousand), which appeared to significantly correlate with soil water availability. Values of delta C-13(R) were less variable during the growing season at the deciduous forest (Harvard Forest). We suggest that the negative correlation between delta C-13(R) and soil moisture content observed in the two coniferous forests should represent a general ecosystem response to the changes in the distribution of water resources because of climate change. Shifts in delta C-13(R) and Delta(A) could be of sufficient magnitude globally to impact partitioning calculations of CO2 sinks between oceanic and terrestrial compartments.
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