From hobbyists to industrial operations, few growers wouldn’t happily increase their yield size. Unfortunately, square footage is at a premium. A lack of space to expand crop size has been a limiting factor for growers and farmers for as long as agriculture has existed, but thankfully, technology has answered the call for help with an increasingly popular solution – grow up.
While extra floor space is often hard to come by, vertical space is often readily available. In fact, it could be argued that the vertical space in most indoor grow operations is outright wasted. By finding new ways to use that wasted space, growers can supersize their yields without ever having to expand a single square inch on the ground.
Growers looking to expand vertically have some decisions to make as to how they want to do it. The first and most common method is stacked growing – taking the same equipment and layout as horizontal growing and adding new layers stacked one on top of the other in the vertical. The second option is actually growing in the vertical plane – using towered infrastructure to grow plants one on top of another instead of in side-by-side rows.
There are benefits and drawbacks to both, but simplicity and cost are two of the major factors. A grower looking to expand their operation by stacking has a lot of options available to them. Hanging potters, wall mounted shelving, mobile growing platforms, or even just multi-level rolling racks from Walmart are all completely viable ways to start expanding upwards. The downside is that stacking also requires all of the other infrastructure – like lighting and irrigation – to be figured out for each additional level.
Growing in the vertical plane requires more customized infrastructure, but it also provides some major benefits over stacking, including better natural airflow and less complex lighting and irrigation. The tradeoff is that there are far fewer off-the-shelf options for growing in the vertical plane than there are for stacked horizontal growing, making this technique far more appropriate for large-scale industrial growers than smaller commercial or hobby operations.
Expanding vertically certainly solves the square footage problem, but it does come with its own unique set of challenges. With that in mind, regardless of the method chosen, the associated challenges can generally be addressed relatively easily through careful planning and the right equipment, and the benefits to overall output far outweigh the potential drawbacks.
Ergonomics:
One easy to overlook challenge is that as infrastructure gets taller and taller, the grow environment becomes less and less ergonomic for the humans involved in the growing process. That’s not necessarily a huge deal for small hobby growers that might only be going a couple of levels high, but for larger operations, it can have a big impact on labor – including costs.
The solution to this problem could be as simple as a step-ladder depending on the heights involved, but for some industrial growers, crops become stacked so high that scissor lifts become necessary for employees to access the higher levels. Scissor lifts are extremely dangerous without proper training, so grow operations looking to employ them absolutely must ensure their employees are properly certified.
Air, Water, and Light:
Stacking vertically introduces some complications with providing plants with the resources they need to grow. Plants are selfish, and they generally don’t respond well to overcrowding, which is a real risk in vertical growing. Overcrowded plants suffer from a lack of airflow and needless competition for water and light, and the result is that while crop yields might go up, quality will almost certainly go down.
The solution is to carefully plan spacing and resource delivery. Stacking requires that plants be given enough space both vertically and horizontally to allow proper airflow. It also requires fans to be employed to continuously move bad air out and distribute fresh, clean air in its place. Irrigation and lighting need to be planned to ensure that no single level is starved by the ones above it. That can be done by ensuring that each level is individually plumbed and lit, which is simple enough, but does mean extra costs.
From a lighting perspective, growers looking to maximize use of vertical space can gain a lot by switching over to LED lighting. Because LED lights give off a fraction of the heat of fluorescents or incandescent, far less space is required between bulb and plant. That means growers can pack more levels in from floor to ceiling without having to worry about burning or heat damage as their plants grow taller.
Control:
More plants mean more work and more potential for human error. There is no point in expanding a crop if the new plants are going to suffer due to lack of attention, lack of labor, or lack of ability to handle the expansion. Unfortunately, it isn’t uncommon for indoor farms to fail for exactly that reason.
The solution is to implement automated controls as much as possible, reducing or eliminating the potential for human error and maximizing the chances of large, healthy yields. Advances in crop sensors, control units, and automated systems have shifted agriculture from an art to a science, and it’s now possible for growers to automatically monitor and control their operations with such accuracy that it’s possible to ensure each individual plant is getting the exact amount of water, light, nutrients, and air that it requires.
Vertical growing offers a highly promising solution to limited ground space and it’s rapidly gaining in popularity as a result. The future may very well be one in which the majority of crops are grown vertically indoors, but for now, expanding into otherwise wasted vertical space is a great way for growers both big and small to significantly boost their yields without having to expand their physical footprint.