Abstract
The water and energy fluxes in forests fluctuate on different temporal scales, reflecting the impact of environmental factors. We examined the temporal fluctuation of the turbulent fluxes, surface conductance (Gs), and four environmental factors (photosynthetic photon flux density [Q], vapour pressure deficit [D], air temperature [T], and volumetric soil water content [θ]) in a Siberian larch forest, using wavelet power spectra. The responses of the latent heat flux (λE) and Gs to the environmental factors were analysed using the wavelet scale-wise correlation coefficient (SWCC) on multiple temporal scales.
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