Many aspiring gardeners and growers, like me, live in built-up urban environments where having an outdoor garden is more than a luxury – it’s a pipe dream. For those of us that lack the ability to grow plants in the natural elements or want to grow our favorite seasonal plants year round, growing indoors under grow lamps is a practical and often essential option.
However, to be successful at indoor growing you’ve got to be prepared to recreate what Mother Nature does so well outdoors. You’ll need to take care of nourishing your plants with nutrients, comforting them with optimal temperature and humidity settings, and most importantly, bathing them in that all-important light so they can carry out photosynthesis and grow to their full potential.
Photopigments
In order to absorb light for photosynthesis, plants need the help of cells known as ‘photopigments.’ Plants have six photopigments but of these, the photopigments Chlorophyll A and Chlorophyll B are by far the most abundant and subsequently; the most important.
Both Chlorophyll A and Chlorophyll B absorb light with the highest efficiency in the blue (in particular 439nm and 469nm) and red (in particular 642nm and 667nm) wavelengths. Because of this, grow lights are manufactured to put out plenty of plant-usable blue and red spectrum light, boosting photosynthetic activity and ultimately boosting growth.
The effect of blue and red light
Although plants are highly efficient at absorbing both blue and red light, each spectrum has a different effect on plant growth. Blue spectrum light is best utilized by plants during the early and vegetative stages of development. It encourages healthy leaf growth and giving plants an abundance of blue spectrum light during the first few weeks of their life will spur vegetative growth.
Red light, on the other hand, triggers the plant hormones responsible for inducing flowering and fruiting. Bathing your plants in red light during their productive stage will increase the growth of flowers and fruits and will maximize your overall yield.
What does all this have to do with grow lights?
Equipped with the knowledge of how plants respond to light and what wavelengths they respond to during certain stages of development, horticultural lighting manufacturers have been able to make lighting perfectly tailored to growing plants.
The two types of high intensity discharge (HID) grow lamps, for example, are designed to emit primarily blue spectrum (metal halide lamps) or red spectrum (high pressure sodium lamps) light. Smart indoor gardeners will take advantage of this and use metal halide lighting for vegetative growth and then switch to high pressure sodium lighting to when it’s time to see those beautiful flowers and fruits.
Regular lighting, such as a kitchen light, bedroom light, or reading light, does not care for your plants or the light they respond to. It isn’t designed to help your plants get the light they need during different stages of development and therefore it isn’t that great for growing healthy plants.
Types of horticultural lighting
In this day and age horticultural grow lights come in many forms. The various lighting used for growing plants includes established types like HID lights, fluorescent / compact fluorescent lights (CFL), and relative newcomers to the market like light emitting diode (LED) lights, sulphur plasma lights, and induction grow lights.
Without getting into too much detail on each of these lighting types (we’ll save that for another post), they all serve the same primary purpose – to give plants the light they need to survive and thrive.
The science of photosynthesis is in your hands
So, when you want to grow your favorite plants all year round but can’t control the seasons, or when you want to grow any plants at all but don’t have the luxury of a garden, grow lamps can be an indispensable friend. With horticultural lighting the growing power of photosynthesis is well and truly in your hands.