P4.5
CO2 Concentration and Flux in a California's Oak/Grass Savanna
Siyan Ma, University of California, Berkeley, CA; and D. Baldocchi and T. Hehn
The measurement of CO2 concentration is important in estimating canopy carbon storage term associated with partitioning diurnal net ecosystem carbon exchange (NEE). In this study, the eddy covariance towers were installed over and below canopy in an oak/grass savanna in California. We measured ambient CO2 concentration profile (at the height of 0.35, 1.8, 6.0, and 23.5 m) with LI-800 GasHound CO2 Analyzer, coupling with the measurement of CO2 concentration with LI-7500 Open Path CO2 /H2 O Gas Analyzer. Comparing with canopy carbon storage term estimated with the 4-layer profile data, carbon storage term was overestimated 31% if only the 2-point CO2 concentration was applied. CO2 concentration showed significant diurnal pattern, and the diurnal variation was changeable in seasons. Annual mean CO2 concentration was 402.4±16.3, 397.8±13.3, 393.4±10.7, and 388.8±9.0 ppm at the height 0.35, 1.8, 6.0, and 23.5 m, respectively. Daily mean and maximum of CO2 concentration appeared to be exponentially related to the height (R2 = 0.99), while daily minimum of CO2 was stable around 378 ppm at all height in a course of year. We also examined the influences of temperature, wind speed and direction, and soil moisture on diurnal patterns of CO2 concentration, canopy storage term, and NEE. The results suggested that canopy storage term was a considerable source of uncertainty in partitioning NEE. Our study provided a basic understanding on the relationships between atmospheric CO2 concentration and NEE in an individual site and will be useful in modeling regional CO2 concentration and NEE.
Poster Session 4, Net CO2 Exchange
Wednesday, 24 May 2006, 4:30 PM-7:00 PM, Toucan
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