Annual Variability in Diffuse Ratio and Spectral Characteristics of
Solar Radiation: Cloud Effects in a Temperate Monsoon Region
Abstract
Solar radiation (SR) dynamics have a profound effect on plant growth,
development, and ecosystems, and they act as a primary energy source and
important environmental signal that plants perceive through their
photoreceptors, which primarily sense critical wavelength ratios (CWRs).
The diffuse fraction of solar radiation (DF) is a key factor affecting
the quality and distribution of light within the plant canopy. We
analyzed one year of SR spectral observations measured by a ground-based
rotating shadow-band spectroradiometer to evaluate the potential effects
of DF and CWRs on plants in an outdoor environment in Fukuoka, Japan.
The daily mean DF and all considered CWRs showed significant seasonal
variations regardless of the solar meridian altitude. Cloudy or partly
cloudy skies were prevalent throughout the year. The ratios of
ultraviolet-A (UV-A)/UV-B, red (R)/blue (B), and R/green (G) increased
during winter and decreased during summer. Conversely, the ratios of
photosynthetically active radiation (PAR)/global solar radiation (GSI),
UV/GSI, UV/PAR, B/G, R/far-red (FR), and UV-B/B increased during summer
and decreased during winter. Most of the CWR correlated with DF.
Furthermore, our study discovered a synergistic influence of air mass
(AM), water vapor pressure (VP), and DF on specific CWRs, which play a
crucial role in plant light signal processing. This highlights the
potential influence of AM, VP, and DF on plant light signals, thereby
opening avenues for developing innovative plant growth models and
ecological responses incorporating plant photoreception.