Variability in net ecosystem exchange from hourly to inter-annual time scales at adjacent pine and hardwood forests: a wavelet analysis

环境科学 涡度相关法 蒸汽压差 生态系统呼吸 生态系统 大气科学 叶面积指数 天蓬 森林生态学 生态水文学 水文学(农业) 生态学 蒸腾作用 地质学 植物 光合作用 生物 岩土工程
作者
Paul C. Stoy,Gabriel G. Katul,Mario Siqueira,Jehn‐Yih Juang,Heather R. McCarthy,Han S. Kim,A. Christopher Oishi,Ram Oren
出处
期刊:Tree Physiology [Oxford University Press]
卷期号:25 (7): 887-902 被引量:156
标识
DOI:10.1093/treephys/25.7.887
摘要

Orthonormal wavelet transformation (OWT) is a computationally efficient technique for quantifying underlying frequencies in nonstationary and gap-infested time series, such as eddy-covariance-measured net ecosystem exchange of CO 2 (NEE).We employed OWT to analyze the frequency characteristics of synchronously measured and modeled NEE at adjacent pine (PP) and hardwood (HW) ecosystems.Wavelet cospectral analysis showed that NEE at PP was more correlated to light and vapor pressure deficit at the daily time scale, and NEE at HW was more correlated to leaf area index (LAI) and temperature, especially soil temperature, at seasonal time scales.Models were required to disentangle the impacts of environmental drivers on the components of NEE, ecosystem carbon assimilation (A c ) and ecosystem respiration (R E ).Sensitivity analyses revealed that using air temperature rather than soil temperature in R E models improved the modeled wavelet spectral frequency response on time scales longer than 1 day at both ecosystems.Including LAI improved R E model fit on seasonal time scales at HW, and incorporating parameter variability improved the R E model response at annual time scales at both ecosystems.Resolving variability in canopy conductance, rather than leaf-internal CO 2 , was more important for modeling A c at both ecosystems.The PP ecosystem was more sensitive to hydrologic variables that regulate canopy conductance: vapor pressure deficit on weekly time scales and soil moisture on seasonal to interannual time scales.The HW ecosystem was sensitive to water limitation on weekly time scales.A combination of intrinsic drought sensitivity and non-conservative water use at PP was the basis for this response.At both ecosystems, incorporating variability in LAI was required for an accurate spectral representation of modeled NEE.However, nonlinearities imposed by canopy light attenuation were of little importance to spectral fit.The OWT revealed similarities and differences in the scale-wise control of NEE by vegetation with implications for model simplification and improvement.

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