January 5, 2021

By University of Texas at Austin (edited)

A new type of soil created by engineers at The University of Texas at Austin can pull water from the air and distribute it to plants, potentially reducing water use in agriculture.

As published in ACS Materials Letters, the team’s atmospheric water irrigation system uses super-moisture-absorbent gels to capture water from the air. When the soil is heated to a certain temperature, the gels release the water, making it available to plants. When the soil distributes water, some of it goes back into the air, increasing humidity and making it easier to continue the harvesting cycle.

“Enabling free-standing agriculture in areas where it’s hard to build up irrigation and power systems is crucial to liberating crop farming from the complex water supply chain as resources become increasingly scarce,” said Guihua Yu, associate professor of materials science in the Walker Department of Mechanical Engineering.

Each gram of soil can extract approximately 3-4 grams of water.  The gels in the soil pull water out of the air during cooler, more humid periods at night. Solar heat during the day activates the water-containing gels to release their contents into the soil.

The team ran experiments on the roof of the Cockrell School’s Engineering Teaching Center building at UT Austin to test the soil. They found that the hydrogel soil was able to retain water better than sandy soils found in dry areas, and it needed far less water to grow plants.

During a four-week experiment, the team found that its soil retained approximately 40% of the water quantity it started with. In contrast, the sandy soil had only 20% of its water left after just one week.

In another experiment, the team planted radishes in both types of soil. The radishes in the hydrogel soil all survived a 14-day period without any irrigation beyond an initial round to make sure the plants took hold. Radishes in the sandy soil were irrigated several times during the first four days of the experiment. None of the radishes in the sandy soil survived more than two days after the initial irrigation period.

“Most soil is good enough to support the growth of plants,” said Fei Zhao, a postdoctoral researcher in Yu’s research group who led the study with Xingyi Zhou and Panpan Zhang. “It’s the water that is the main limitation, so that is why we wanted to develop a soil that can harvest water from the ambient air.”

The team has also tried the indoor growth of several microgreens such as broccoli, radish, and peas. “They could be certainly used for indoor farming with controlled temperature, humidity, and simulated sunlight. Our SMAG-soil can work for various crops and should be able to perform well in indoor settings,” says Yu.

The water-harvesting soil is the first big application of technology that Yu’s group has been working on for more than two years. Last year, the team developed the capability to use gel-polymer hybrid materials that work like “super sponges,” extracting large amounts of water from the ambient air, cleaning it, and quickly releasing it using solar energy.

The researchers envision several other applications of the technology. It could potentially be used for cooling solar panels and data centers. It could expand access to drinking water, either through individual systems for households or larger systems for big groups such as workers or soldiers.

Topics Growing Media

Source and Photo Courtesy of Greenhouse Canada

Growing microgreens is typically a simple and efficient process; however, issues can arise while growing these tiny leafy vegetables. This article will provide you with 4 ways to troubleshoot common microgreen problems so you can make the necessary changes in order to optimize your plant’s growth.

What to do if your seeds aren’t germinating

If your microgreen seeds aren’t germinating, then take a look at the following factors to see if any of these may be the reason as to why your seeds aren’t germinating:

Seed Viability

- Check the seed’s informational packet information and you will be able to find the lot date, the ideal temperature for germination, and the average percentage of germination. If your seed has a germination rate below 80%, then it may be better to choose a different seed or seed source.

Seed Moisture

- During the germination phase, you’ll want to make sure your seed is watered, but not overwatered or underwatered. Underwatering your seed can cause microgreen problems and is more detrimental than overwatering. Keep your soil moist during the early stages of germination to optimize growth. Seed Temperature - Make sure that the temperature is not too hot or cold because it can lead to microgreen problems such as poor germination. Refer to your seed packet to check the seed’s ideal temperature and make sure to keep the temperature around that number to encourage growth.

What to do if your seeds are growing unevenly and sparsely

If your microgreens are growing unevenly, then you may need to be more methodical in your process. Make sure that you are sowing your seeds evenly throughout the soil. Check to see if the soil is good quality and research to see if it’s a match for your specific seed. Is your tray in a place where half of the tray is getting sunlight and the other half isn’t? This can lead to uneven growth and you may want to rotate your tray to ensure each side is getting equal amounts of shade and sunlight.

What to do if your greens start to rot

If your greens start to rot, you may be overwatering them. When a seed is getting too much water and not enough sunlight, it can lead to rot. If you’re having extremely sunny weather, water your seed once in the morning and once in the evening. If a cold front has moved in, then water your crop once.

Another factor that could be causing your microgreen rot problem is the water quality. Municipal water can contain chlorine which your plants won’t like. Using filtered water is a better solution for watering microgreens. Common microgreens prefer water with a pH level of 6.5. When you keep an eye on your water’s pH levels, your microgreens will be healthier and produce stronger, increased yields.

What to do if your greens are getting tall and weedy

If your greens are getting tall and weedy, then it’s most likely because they’re not getting enough light. Tall, weedy greens tend to grow taller in order to reach for as much light as possible because they’re not getting enough. Make sure to get your greens grow lights if you live in an area where natural sunlight isn’t enough for your greens.

These common microgreen problems are easy to fix as long as you know what to pay attention to. Our job at the Nick Greens Grow Team is to educate our followers on how to grow microgreens from home. Subscribe to our new microgreen class, YouTube, and blog to stay up to date with the latest microgreen information. Feel free to join our microgreen Facebook group to connect and learn from others about growing microgreens.

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