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Aluminium rail suitable for adding length to your existing set up or use in small tents or cupboards.
Comes complete with mounting hardware.
Not suitable for the old type motor units that are painted.
How Light Movers work....
Successfully utilising a light mover provides better light efficiency, electricity savings, increases light coverage and results in a heavier harvest with better plant growth.
The Jupiter 2 light mover effectively reduces shading and provides increases of around 20% to your yield. The science behind this product relates to the plants containing phytochromes, photoreceptors that control physiological and developmental reactions to fluctuations of red and far red light.
By utilising the light mover, the angle of light incidence received by the lower leaves and stems will be continuously changing so the red to far-red ration will be kept at the correct levels. The Jupiter II ensures much healthier plant growth and even canopy distribution.
The Jupiter 2 also avoids burning and overheating of plants, by using a J2, you can efficiently lower the lamp without risk of damage to provide a higher light intensity to your crop. Fixed lighting must be mounted at a height that significantly reduces the light intensity below the plant canopy.
The Australian made Jupiter 2 light mover is a world leader of light mover technology servicing the hydroponics industry. Having been manufactured now for over 30 years and distributed throughout Australia, New Zealand, the Jupiter 2 has passed all tests regarding quality and reliability.
It has been designed to an exacting specification using only the highest quality components, from the Swiss designed motor/gearbox down to the ROHS compliant electronic delay system.
To avoid burning and overheating of the plants, fixed lighting must be mounted at a height that will significantly reduce the light intensity below the plant canopy.
See - INVERSE SQUARE LAW (Basically all the inverse square law says is that an object that is twice the distance from a point source of light will receive a quarter of the illumination).
Far-red light plays a significant role in plant growth. It is a major factor in promoting the shade avoidance (stem elongation, stretching) response in plants.
Plants absorb red light (660-680nm) and reflect far-red (720 -740nm).
Plants contain phytochromes, photoreceptors that control physiological and developmental reactions to fluctuations in levels of red and far red light.
Some responses that are regulated by phytochromes include:
It is vital to keep the ratio between the red to far-red wavelengths of light at the correct levels, above and below the canopy, if you wish to achieve optimal plant growth and increased yields.
Plant leaves filter light, allowing more far-red light to pass through than red or blue light. The resulting change in this ratio will cause undesirable growth below the canopy.
It is also important to note that a low red to far-red ratio is created when plants are close together and are growing under stationary lights.
Moving the lights effectively reduces shading. The angle of light incidence received by the lower leaves and stems will be continuously changing so the red to far-red ratio will be kept at the correct levels.
Much healthier plant growth will be achieved as the ratio will now be at the correct levels for optimal growth.