Yes. But that's not really the point I was making.
The spectrum of light that reaches earth
does change throughout the day, seasons, latitudes and topography etc. What
doesn't change is that - no matter the weighting and ratios of each wavelength - the spectral curve of sunlight is relatively flat, with no substantial peaks or troughs compared to most LED and HID lighting.
In other words, wavelengths don't go "missing" or suddenly spike as atmospheric influences alter the spectrum - unlike LEDs and HIDs, which have lots of peaks (overweighting) and troughs (underweighting) in their spectra by design.
With sunlight, ALL wavelengths in the PAR spectrum are covered. And it is the weighting of those wavelengths and their ratios to each other that affects plant growth - especially if you believe plants have been tuned (evolved) to those hourly, daily and seasonal changes to make use of (photosynthesise) different spectra as they become more or less available throughout the day.
For example, are individual photoreceptors rested during some parts of the day to become more active during others when there is more or less red, green and blue light? And should we be trying to emulate this indoors by altering spectra at different times of the lighting schedule?
Or is it enough to simply "fill in the gaps" so that we have a reasonably smooth spectral curve?
Is it also the reason why plants seem to respond better to full spectrum light (with certain weightings of red, green and blue) than to narrow (targetted) spectra such as "blurple" etc?
I mean, mother nature's been around a lot longer than we have. Should we be paying more attention to her?
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