porrista
Well-Known Member
Hi,
I've been reading a lot this past days regarding light penetration and ended up reading that since the upper leaves capture most of the blue and red light, the green light gets reflected and transmitted/transferred to the lower leaves.
Read elsewhere that a plant has 2 types of leaves normally, some are specialized in receiving direct light and others, the lower leaves also capture the rest of the wavelengths not captured initially by the top leaves.
I see a lot of people recommending adding CFLs to the LEDs for light penetration, but when I check the CLFs spectrum, even the hot spectrum ones have a peak in yellow and green, which are supposed to not be used for plants for photosynthesis, yet plants do use this energy. so I wonder, why not putting some green light in the LEDs? Is it a matter of efficiency? Are LEDs best suited for LST and SCROG?
Also read that calyxes are not crucial in photosynthesis. They are generally light green compared to dark green found in leaves, product of photosynthesis.
Finally, is the UV light in the LED lamps exclusively for making the plant produce more resin/trichomes, to protect the seeds DNA from UV?
Also wondering if a fan blowing wind directly to the buds will also make them produce more resin to avoid dehydration
----
References and citations:
Photosynthesis and leaf adaptation: how sun and shade plants respond to light - See more at: http://www.saps.org.uk/secondary/teaching-resources/113-photosynthesis-and-leaf-adatptation-measuring-rate-in-leaf-discs-from-sun-and-shade-plants-to-green-light#sthash.hMHhHiBT.dpuf
Leaves typically transmit only a few percent of incident PAR in the green band at around 550 nm, and are otherwise efficiently opaque in the visible range. Transmittance of PAR is normally less than 10%, whereas transmittance of far-red light is substantial (Terashima & Hikosala, 1995).
Leaves like to other biological surfaces not only transmit light but reflect a proportion. The amount of reflection depends on morphological and physical properties of leaves such as, leaf shape, thickness and shininess of the cuticle. However, it should be noted that reflected light then may be absorbed or transmitted by the lower leaves similar to the radiation reaching the canopy surface.
http://cdn.intechopen.com/pdfs-wm/28377.pdf
The effect of heat and wind on leaf water loss is greatest at the top of the tree. A tree, or any other plant, has several strategies to reduce the inevitable loss of water. There is a waxy covering (cuticle) on the leaf to reduce desiccation.
http://www.na.fs.fed.us/spfo/pubs/uf/lab_exercises/comparing_sun_leaves.htm
I've been reading a lot this past days regarding light penetration and ended up reading that since the upper leaves capture most of the blue and red light, the green light gets reflected and transmitted/transferred to the lower leaves.
Read elsewhere that a plant has 2 types of leaves normally, some are specialized in receiving direct light and others, the lower leaves also capture the rest of the wavelengths not captured initially by the top leaves.
I see a lot of people recommending adding CFLs to the LEDs for light penetration, but when I check the CLFs spectrum, even the hot spectrum ones have a peak in yellow and green, which are supposed to not be used for plants for photosynthesis, yet plants do use this energy. so I wonder, why not putting some green light in the LEDs? Is it a matter of efficiency? Are LEDs best suited for LST and SCROG?
Also read that calyxes are not crucial in photosynthesis. They are generally light green compared to dark green found in leaves, product of photosynthesis.
Finally, is the UV light in the LED lamps exclusively for making the plant produce more resin/trichomes, to protect the seeds DNA from UV?
Also wondering if a fan blowing wind directly to the buds will also make them produce more resin to avoid dehydration
----
References and citations:
Photosynthesis and leaf adaptation: how sun and shade plants respond to light - See more at: http://www.saps.org.uk/secondary/teaching-resources/113-photosynthesis-and-leaf-adatptation-measuring-rate-in-leaf-discs-from-sun-and-shade-plants-to-green-light#sthash.hMHhHiBT.dpuf
Leaves typically transmit only a few percent of incident PAR in the green band at around 550 nm, and are otherwise efficiently opaque in the visible range. Transmittance of PAR is normally less than 10%, whereas transmittance of far-red light is substantial (Terashima & Hikosala, 1995).
Leaves like to other biological surfaces not only transmit light but reflect a proportion. The amount of reflection depends on morphological and physical properties of leaves such as, leaf shape, thickness and shininess of the cuticle. However, it should be noted that reflected light then may be absorbed or transmitted by the lower leaves similar to the radiation reaching the canopy surface.
http://cdn.intechopen.com/pdfs-wm/28377.pdf
The effect of heat and wind on leaf water loss is greatest at the top of the tree. A tree, or any other plant, has several strategies to reduce the inevitable loss of water. There is a waxy covering (cuticle) on the leaf to reduce desiccation.
http://www.na.fs.fed.us/spfo/pubs/uf/lab_exercises/comparing_sun_leaves.htm
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