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LI-COR產(chǎn)品測得渦度協(xié)方差數(shù)據(jù)助力科學家發(fā)重要文章

瀏覽次數(shù):2713 發(fā)布日期:2015-9-2  來源:本站 本站原創(chuàng),轉(zhuǎn)載請注明出處
近日,美國科學家M. A. Rawlins等人發(fā)表了一篇題為《Assessment of model estimates of land-atmosphere CO2 exchange across Northern Eurasia》的文章,文中用到了橫跨歐亞大陸北部流域4個研究區(qū)域的6個通量塔獲取的渦度協(xié)方差數(shù)據(jù),對凈生態(tài)系統(tǒng)生產(chǎn)力(NEP)及其組分總初級生產(chǎn)力(GPP)、生態(tài)系統(tǒng)呼吸(ER)和土壤碳的滯留時間進行了系統(tǒng)分析,從而使用渦度協(xié)方差的測量方法對多種陸地-大氣層CO2交換的模型進行了有效的評估。該項研究在通量觀測領(lǐng)域一經(jīng)問世便獲得了大量的關(guān)注,其中通量塔的數(shù)據(jù)均由LI-7500A CO2/H2O分析儀,LI-7200 CO2/H2O分析儀,和LI-7700開路式CH4分析儀測量得到。
 
文章原文摘要:
Abstract. A warming climate is altering land-atmosphere exchanges of carbon, with a potential for increased vegetation productivity as well as the mobilization of permafrost soil carbon stores. Here we investigate land-atmosphere carbon dioxide (CO2) cycling through analysis of net ecosystem productivity (NEP) and its component fluxes of gross primary roductivity (GPP) and ecosystem respiration (ER) and soil carbon residence time, simulated by a set of land surface models (LSMs) over a region spanning the drainage basin of Northern Eurasia. The retrospective simulations cover the period 1960–2009 at 0.5_ resolution, which is a scale common among many global carbon and climate model simulations. Model performance benchmarks were drawn from comparisons against both observed CO2 fluxes derived from sitebased eddy covariance measurements as well as regionalscale GPP estimates based on satellite remote-sensing data.
 
The site-based comparisons depict a tendency for overestimates in GPP and ER for several of the models, particularly at the two sites to the south. For several models the spatial pattern in GPP explains less than half the variance in the MODIS MOD17 GPP product. Across the models NEP increases by as little as 0.01 to as much as 0.79 g Cm-2 yr-2, equivalent to 3 to 340% of the respective model means, over the analysis period. For the multimodel average the increase is 135% of the mean from the first to last 10 years of record (1960–1969 vs. 2000–2009), with a weakening CO2 sink over the latter decades. Vegetation net primary productivity increased by 8 to 30% from the first to last 10 years, contributing to soil carbon storage gains. The range in regional mean NEP among the group is twice the multimodel mean, indicative of the uncertainty in CO2 sink strength. The models simulate that inputs to the soil carbon pool exceeded losses, resulting in a net soil carbon gain amid a decrease in residence time. Our analysis points to improvements in model elements controlling vegetation productivity and soil respiration as being needed for reducing uncertainty in landatmosphere CO2 exchange. These advances will require collection of new field data on vegetation and soil dynamics, the development of benchmarking data sets from measurements and remote-sensing observations, and investments in future model development and intercomparison studies.
 
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