Light is critical for plant growth. Through a process called photosynthesis, plants absorb light and use that to convert water and carbon dioxide into glucose, which is used later on as energy for other cellular processes.

The sun is the best known source of light for plant growth. But beginning around the year 1860, it was found that artificial lighting can also provide plants the needed light in order for them to grow. This led to the development of what is known today as grow light, which made use of conventional electric lighting types such as high-intensity discharge lights, plasma lamps, and fluorescent lights, to name a few.

A common trait that these traditional grow lights have is that they dissipate heat, which affects the way plants grow especially over long periods of time. To remedy this problem, the grow lights have to come with a system that negates the accumulated heat, meaning more equipment and maintenance is needed – which also means more costs.

So when light-emitting diodes (LEDs) — known for their low heat emission — started penetrating the market, growers immediately saw the product’s potential as a grow light.

One of the first documented uses of LEDs for plant growth is when the National Aeronautics and Space Administration (NASA) conducted a study about LEDs and its potential in promoting cell growth and regeneration. Researchers discovered that infrared light coming from LEDs has a wavelength range that is optimal for plant growth. Today, NASA astronauts use LEDs to grow vegetables in space.

Previoulsy, scientists thought that for photosynthesis to take place, plants needed a full spectrum of light, which is what traditional grow lights produce. However, the NASA study revealed that most of the light that plants absorb comes from narrow areas of the light spectrum.

Chlorophyll, the pigment in plants that is responsible for photosynthesis, absorbs peak wavelengths of light around 450 to 660 nanometers via photosynthesis — red and blue light wavelengths, respectively. This means that a full spectrum of light is not actually needed for the process.

LEDs can achieve the wavelengths needed for photosynthesis and are thus able to produce red and blue light wavelengths when configured properly. This is why more and more growers are turning to LEDs for growing their plants.

LEDs vs traditional grow lights

LEDs have numerous advantages compared to traditional grow lights, including:

1. Low heat production

Temperature plays a big role in plant growth. The low-heat emission of LEDs places them a notch above other grow lights and makes it easy for growers to control the environment the plants are in. This also means that LED grow lights don’t have to come with cooling systems, which are normally found with traditional grow lights.

2. Lower cost of energy

LEDs are known to uses significantly lesser amounts of electricity compared to other types of grow lights. LEDs consume up to 60% less power, which lowers energy costs.

3. Lasting illumination

The life expectancy of LEDs can be up to 5 times longer than other grow lights. They can reach up to 50,000 hours compared to other options, which all last an average of 10,000 hours. The lumen quality of LED lighting also remains relatively consistent across its life cycle, providing relatively consistent lighting quality for plants.

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July 26, 2016
LED Lighting and Plant Growth

How LEDs can enable plant growth

Light is critical for plant growth. Through a process called photosynthesis, plants absorb light and use that to convert water and carbon dioxide into glucose, which is used later on as energy for other cellular processes. The sun is the best known source of light for plant growth. But beginning around the year 1860, it was found that artificial lighting can also provide plants the needed light in order for them to grow. This led to the development of what is known today as grow light, which made use of conventional electric lighting types such as high-intensity discharge lights, plasma […]