欧洲高塔站和山地站温室气体时间序列非背景信号检测算法

Atmospheric Measurement Techniques Discussions Pub Date : 2021-03-09 DOI:10.5194/AMT-2021-16

A. Resovsky, M. Ramonet, L. Rivier, J. Tarniewicz, P. Ciais, M. Steinbacher, I. Mammarella, M. Mölder, M. Heliasz, D. Kubistin, M. Lindauer, Jennifer Müller-Williams, S. Conil, R. Engelen

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摘要

摘要我们提出了一个近实时信号处理的统计框架，以识别在台站记录的通常不受当地过程影响的CO2时间序列中的区域信号。首先将曲线拟合函数应用于去趋势时间序列，得到描述CO2年循环的调和函数。然后，我们将对数据的多项式拟合与短期残差滤波器相结合，以估计平滑周期，并定义一个季节性调整的噪声分量，等于关于年周期的平滑周期的两个标准差。平滑日数据中超过2σ阈值的峰值被归类为异常。通过对多个地点的异常行为模式的研究，我们可以量化天气尺度天气事件的影响，并更好地理解极端季节性事件(如干旱)对区域碳循环的影响。

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An algorithm to detect non-background signals in greenhouse gas time series from European tall tower and mountain stations

Abstract. We present a statistical framework for near real-time signal processing to identify regional signals in CO2 time series recorded at stations which are normally uninfluenced by local processes. A curve-fitting function is first applied to the detrended time series to derive a harmonic describing the annual CO2 cycle. We then combine a polynomial fit to the data with a short-term residual filter to estimate the smoothed cycle and define a seasonally-adjusted noise component, equal to two standard deviations of the smoothed cycle about the annual cycle. Spikes in the smoothed daily data which rise above this 2σ threshold are classified as anomalies. Examining patterns of anomalous behavior across multiple sites allows us to quantify the impacts of synoptic-scale weather events and better understand the regional carbon cycling implications of extreme seasonal occurrences such as droughts.

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Atmospheric Measurement Techniques Discussions

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