相对采样误差的特征及其在涡流相关测量中通量聚集中的应用

IF 1.4 4区农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY

Journal of Agricultural Meteorology Pub Date : 2020-01-01 DOI:10.2480/agrmet.d-19-00033

Wonsik Kim, H. Seo, D. Komori, Jaeil Cho

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引用次数: 0

摘要

利用涡动相关(EC)测量，研究了全球大气与陆地生态系统之间的能量、水和二氧化碳交换。EC测量基本上是在平稳性和遍历性假设下进行的。然而，在现实世界中，这些假设受到大气和地表条件变化所产生的各种因素的干扰。研究了相对采样误差(一个量化这种扰动的参数，由时间序列中的平均收敛估计)，以确定它在现实世界中的范围，以及它作为EC测量质量参数的能力。结果表明，相对采样误差范围从5%到无穷大，并与大气稳定性的积分湍流特性密切相关。因此，我们建议相对抽样误差代表EC测量的质量参数，并且可以作为EC测量观察到的交换统计聚合的加权因子。

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Characteristics of the relative sampling error and its application to flux aggregation in eddy covariance measurements

Using eddy covariance ( EC ) measurements, exchanges of energy, water, and carbon dioxide between the atmosphere and terrestrial ecosystem have been studied worldwide. EC measurements fundamentally operate under the hypotheses of stationarity and ergodicity. However, these hypotheses are disturbed in the real world by various factors generated by varying atmospheric and land surface conditions. The relative sampling error ̶ a parameter quantifying this disturbance estimated by the average convergence in a time series ̶ from a tangerine orchard is investigated to determine its range in the real world, and its capabilities as a quality parameter for EC measurements. Our results showed that the relative sampling error ranges from 5 % to infinity and displays a close relationship with the integral turbulence characteristic as a function of atmospheric stability. Therefore, we suggest that the relative sampling error represents a quality parameter for EC measurements and can be a weighting factor for statistical aggregations of exchanges observed by EC measurements.

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来源期刊

Journal of Agricultural Meteorology AGRICULTURE, MULTIDISCIPLINARYMETEOROLOGY-METEOROLOGY & ATMOSPHERIC SCIENCES

CiteScore

2.70

自引率

7.70%

发文量

期刊介绍： For over 70 years, the Journal of Agricultural Meteorology has published original papers and review articles on the science of physical and biological processes in natural and managed ecosystems. Published topics include, but are not limited to, weather disasters, local climate, micrometeorology, climate change, soil environment, plant phenology, plant response to environmental change, crop growth and yield prediction, instrumentation, and environmental control across a wide range of managed ecosystems, from open fields to greenhouses and plant factories.