The term aeroponics, meaning “working air,” stems from the Greek words for air, “aer,” and labor, “ponos.” This form of hydroponics involves growing plants without the use of soil. Instead, it relies on air to deliver a nutrient-rich mist to the plant’s roots.
Over the years, many agricultural system variations have been developed to better suit changing operations and a diverse range of plants. First used in the 1920s for academic studies of root growth, aeroponics would not become a real contender until the late 1990s, when The National Aeronautics and Space Administration (NASA) began looking at it as an option for growing food in soilless environments—such as in space. While the process is still in its infancy, aeroponics is quickly gaining popularity in places where traditional farming simply isn’t an option.
Around the world, usable farm space is shrinking. Environmental pressures, including climate change and natural disasters, are exacerbating the issue of a growing global population. As the population grows, areas that once were farmlands, now drained of nutrients and no longer usable, are transformed into urban centers and residential communities.
As if these issues were not enough, traditional farming is losing its place as a viable occupation. Younger generations, especially those raised in farming communities, see the amount of work and time that goes into a successful operation and opt for alternative means of work. With 60 being the average age of a traditional farmer, these older generations are aging out. Technology has opened the doors to new methods of growing, and with it, a revitalized interest in cultivation.
While the physical growing process of the plant is the same as in other forms of farming or hydroponics, aeroponics differs in how nutrients and environmental conditions are delivered and controlled. With the goal of helping plants grow healthier, aeroponics is carried out in a closed environment in which the grower controls all aspects of the system.
Plants are held in large vertical grow racks. Essential organic liquid nutrients, such as nitrogen, phosphorus, and potassium, are added to a large water reservoir. These organic nutrients in pure form are more easily digested by the plants, making uptake faster and simpler. Plants do not have to go looking for sustenance as this nutrient-rich mist is delivered directly to the root zone. Indoor grow lights are optimized to fall within certain wavelengths to further promote plant growth. The overall enclosure is kept within certain limits for both temperature and humidity.
This system maximizes nutrient absorption while putting less stress on the plant itself, leading to produce that is healthier overall. Plants grown through aeroponics contain higher nutritional value all while having better color, texture, and taste.
Aeroponics addresses modern farming issues by offering an alternative way to produce greens and vegetables. Some important advantages of the system include:
Living Greens Farm (LGF) operates one of the largest indoor aeroponic farms in the United States. Aeroponics, and specifically LGF’s proprietary automated grow systems, have been described as the next generation of ag-tech and a solution to the world's food challenges.
Headquartered in Minnesota, Living Greens Farm is Earth-friendly, using 95% less water and 98% less land compared to traditional farming and can grow safely, consistently, and locally year-round. All products are considered better than organic because they’re grown in a controlled environment without the use of pesticides, herbicides, or other harsh chemicals. Living Greens Farm has a full product line that includes bagged and clamshell salad greens, premium microgreens, and delicious herbs available to customers throughout the Midwest.