Usage of CO₂ to Increase Cannabis Yields

Plants need light, water, and CO₂ to photosynthesize and produce energy. By increasing the light and CO₂ content, you can increase the productivity of this process, resulting in faster growth, larger flowers, and better yields. Also, you can automate your marijuana grow room software via

Commercial Cannabis Production Program | Niagara College

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Carbon dioxide (CO₂) has become an unheard-of word in recent decades. Every time we hear it, we think of car exhausts and climate change. But millions of years before we pumped huge quantities into the atmosphere, nature, as it does today, relied on these molecules as fuel for life.

Plants depend on CO₂ just as we humans depend on oxygen. They use this gas to perform important physiological functions. In fact, they are so dependent on CO₂ that higher concentrations result in higher productivity.

Cannabis growers are already amplifying natural variables to increase the health, size, and yield of their crops. They turn on powerful lights, feed their plants with thick nutrients, bring in lots of beneficial microbes, and even install fans that mimic the wind.

Farmers can also manipulate the air in their growing spaces to improve the conditions of their crops. By adding more CO₂ to the microenvironment, they can lead to better growth, resulting in better yields.

The cannabis plant uses CO₂ to carry out photosynthesis – the process that converts light into energy.
Inhale and exhale

In order for the cannabis plant to use CO₂, it must “breathe”. CO₂ enters the atmosphere when humans and other animals inhale oxygen and exhale carbon dioxide. Plants expel gases from the air by breathing.

Instead of a pair of lungs, plants have tiny pores on the leaf surface, called stomata. Plants open and close these openings with the help of protective cells that regulate stomata with the help of water pressure.
CO₂ during photosynthesis

When these tiny holes are open, oxygen and water diffuse, and CO₂ is passively distributed within the plant. From here, CO₂ reaches specialized cells called chloroplasts. The pigments in these cells collect sunlight and use that energy to make sugar.