Connections Between Daily Surface Temperature Contrast and CO 2 Flux Over a Tibetan Lake: A Case Study of Ngoring Lake

To get a deep understand of the carbon cycle of Tibetan lakes, the CO 2 flux over Ngoring Lake (NL), a large freshwater lake in the source region of the Yellow River, was monitored from 2011 to 2013 using an eddy covariance system. Based on the monthly mean CO 2 flux, NL was a significant sink of at...

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Published in:Journal of geophysical research. Atmospheres 2020-03, Vol.125 (6)
Main Authors: Han, Bo, Meng, Xianhong, Yang, Qinghua, Wu, Renhao, Lv, Shihua, Li, Zhaoguo, Wang, Xin, Li, Yubin, Yu, Lejiang
Format: Article
Language:English
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Summary:To get a deep understand of the carbon cycle of Tibetan lakes, the CO 2 flux over Ngoring Lake (NL), a large freshwater lake in the source region of the Yellow River, was monitored from 2011 to 2013 using an eddy covariance system. Based on the monthly mean CO 2 flux, NL was a significant sink of atmospheric CO 2 in 2012, with the greatest negative (downward) CO 2 flux of −0.83 (±0.27) g C m −2  d −1 occurring in October. While in 2011 and 2013, NL was in quasi‐equilibrium with atmospheric CO 2 . The process controlling the daily variation in the CO 2 flux was investigated using statistical analysis. The daily mean of the surface wind speed was significantly correlated with the observed daily CO 2 flux. Under the assumption that the vertical gradient in the CO 2 concentration near the water surface varied slowly, this correlation confirms the rationality of using the surface wind to express the gas transfer velocity. Following this consideration, because the thermal contrast between NL and the surrounding grassland was also significantly correlated with the daily CO 2 flux, a new parameterization scheme of k 600 is suggested in this study. Potential mechanisms for the coupling process between the surface wind and the thermal contrast of the lake are discussed. Based on the surface energy balance analysis, the heat storage rate of the lake played different roles in the CO 2 fluxes during the three years, depending on the CO 2 saturation of the lake water. The process controlling the monthly mean CO 2 flux was also investigated. There are more than 1,500 lakes on the Tibetan Plateau. Most of these lakes have not been thoroughly investigated, so little is known about the features of their carbon dynamics. To gain a better understand of the CO 2 exchange over these lakes, an observation experiment was conducted over Ngoring Lake (a fresh water lake, with an area of 610.7 km 2 ) from 2011 to 2013, and valuable data were obtained. By investigating these observations, we determined that the CO 2 flux was negative (downward) during most of 2012, but it was in quasi‐equilibrium in 2011 and 2013. Second, the surface temperature difference between the lake and the surrounding grasslands may have largely controlled the daily variation in the gas transfer velocity near the water's surface. Because the surface temperature around a lake can be conveniently and accurately monitored by satellite, this finding may be useful in the estimation of the surface CO 2 flux over ot
ISSN:2169-897X
2169-8996
DOI:10.1029/2019JD032277