food production Archives - Hydroponic Container Farms and Mushroom Farms

How to Meet Food Demand for a Growing Global Population

Meeting global food needs in the coming years is going to require some ingenuity, marrying a combination of strategic changes and innovations across various aspects of the food system.

As you might have guessed, sustainable agriculture practices are at the forefront of what FarmBox Foods is doing as a company to help move that needle. It’s part of the company’s mission to promote and adopt sustainable farming practices, such as hyperlocal growing, conservation agriculture, and concepts that help minimize environmental impact and enhance long-term soil fertility. FarmBox is well aware that it’s not the entire solution, but we endeavor to play our part to the extent possible.

There are several things happening outside of our purview that we wholly support, among them: embracing precision agriculture technologies including sensors, drones and data analytics. But where we’re strongest is: optimizing resource use, improving crop yields, diversifying available foods, reducing food waste, and lowering the carbon footprint associated with agriculture.

Perhaps the company’s strongest contribution is in helping to shore up the protein needs of communities in need. Conditions are such that raising livestock has become a gamble in some areas of the world, particularly where drought plays a large role. So what can be done? Large-scale mushroom farming in a container is filling those nourishment gaps.

Much work is being done to invest in crucial research and development of climate-resilient crop varieties that can withstand extreme weather conditions, helping ensure stable yields in the face of climate change.

Many nations are also implementing efficient water management practices, including drip irrigation and rainwater harvesting, to conserve water resources and address water scarcity challenges.

Developing and implementing strategies to reduce food loss and waste at every stage of the food supply chain, from production and storage to distribution and consumption, is also a key area of interest for FarmBox Foods, given that our model is meant to empower individual communities with the ability to grow their own food.

Governments worldwide are fostering international collaboration and partnerships to share knowledge, technologies, and resources to address global food challenges collectively. They’re implementing policies that promote sustainable agriculture, support research and innovation, and incentivize environmentally friendly practices. Likewise, more private sector entities are increasing education and awareness regarding sustainable and healthy food choices and promoting consumer understanding of the impact of their dietary habits on both personal health and the environment.

According to the U.N.’s Food and Agriculture Organization, we will need to produce 60 percent more food to feed a world population of roughly 9.3 billion by 2050. It’s an ambitious goal with staggering consequences if we get it wrong. Addressing global food needs requires a holistic, integrated and coordinated approach that considers social, economic and environmental factors. Sustainable and resilient food systems will play a crucial role in ensuring food security for our growing global population. Now is the time for each individual and company to calculate where and how they can contribute.

The Long-Term Impacts of Indoor Agriculture

Container farming, a version of indoor farming also known as vertical farming, involves growing crops in controlled environments within shipping containers or other enclosed spaces. The advent of this technology, which relies on sensors to control the growing parameters, holds a lot of promise, especially as climate shifts continue to farmers and ranchers in traditional settings. While it’s difficult to predict the future with absolute certainty, it’s now possible identify several potential long-term impacts of container farming.

Sustainable agriculture: Container farming offers a more sustainable and efficient way to grow crops compared to traditional outdoor agriculture. By using less land, water, and pesticides, it can help reduce the environmental impact of agriculture. This could lead to a decrease in deforestation, habitat destruction and the use of harmful chemicals that end up in our food and drinking supply.

Local Food Production: Container farming allows for year-round production of fresh produce, regardless of the local climate. This can reduce the need for long-distance transportation of food and promote local food systems. It may also help address food security and reduce the carbon footprint associated with food distribution.

Improved Resource Efficiency: Container farms can make more efficient use of resources like water, energy, and space. They often use hydroponic or aeroponic systems, which consume less water than traditional soil-based farming. Advanced climate control and LED lighting systems can optimize energy use. Colorado-based FarmBox Foods uses pre-insulated to help energy draws.

Food Security: Container farming can play a crucial role in ensuring a stable food supply in areas with food scarcity or those affected by natural disasters. The ability to control growing conditions can help mitigate the effects of climate change and other environmental challenges.

Job Creation: The container farming industry is growing, creating jobs in areas such as plant science, engineering, data analysis, business planning, and farm management. This can contribute to local and regional economic development.

Technology Advancements: As container farming technologies continue to evolve, they may lead to breakthroughs in agriculture, such as improved crop genetics, pest and disease management, and data-driven decision-making. These advancements are expected to benefit traditional agriculture as well.

Reduced Food Waste: By enabling on-demand production and minimizing transportation distances, container farming can help reduce food waste — currently a significant global issue — because food arrives on the plates of consumers much sooner after being harvested.

Educational Opportunities: Container farming can serve as a valuable educational tool, teaching people about plant biology, technology, and sustainable farming practices. Schools, universities, and community organizations use container farms to engage students and the public, including the South Carolina Governor’s School of Science and Math, Delaware State University, the EPIC Campus in Littleton, Colo., and more to come.

Space Exploration: Container farming concepts have been explored for space missions, such as Mars colonization, where growing food in a controlled environment is essential due to harsh environmental conditions. Research in this area may have applications for future space exploration.

The long-term impact of container farming is likely to be positive, with the potential to transform agriculture, reduce its environmental footprint, and address food security issues. But it will depend on continued technological advancements, cost reductions and successful integration into existing food production systems for it to make a sizable impact as we head into an uncertain agricultural future.

Why Are We Wasting So Much Food?

We need to move the farms and not the food. It’s better for our environment, and growing near the end-user means the food arrives in refrigerators and on plates much quicker.

Let’s get right to the point: large-scale food waste in this day and age is completely unacceptable.

Around one-third of all food produced worldwide is lost or wasted, which is equivalent to around 1.3 billion tons of food each year. Why? With our complex logistics systems, tracking abilities and near-infinite means of communicating, how is this issue still so widespread?

Food waste happens everywhere, whether it be at the consumer level, in transit or during production. And this comes at a time when we need more food than ever to support Earth’s rapidly growing population. Many have heard that, according to the United Nations, the world population is expected to reach 9.7 billion by 2050, which means that food production will need to increase by about 50 percent to meet demand. But this estimation is based on the assumption that people will continue to consume a similar diet to what they do today.

So, what can we do to resolve these long-standing issues?

Dietary changes could drastically impact food demand. As incomes rise, people often consume more meat and dairy products, which require more resources to produce than plant-based foods. If the world’s population continues to shift toward a more Western-style diet, food production will need to increase even more.

Second, grow plant-based foods NEAR THE CONSUMER! We need to move the farms and not the food. It’s better for our environment, and growing near the end-user means the food arrives in refrigerators and on plates much quicker. In short, the more time people have to eat their veggies, the less of it will be thrown away.

Third, we should be working with food recovery agencies — almost every major city has one — to make sure the food that has been produced reaches someone who can eat it.

Last year, the Feeding America network and its partners rescued 3.6 billion pounds of groceries that otherwise would have been wasted. That food went directly to meals for people facing hunger. FarmBox Foods has worked with We Don’t Waste in Denver to repurpose what the company wasn’t able to sell.

There’s little doubt that we need sizable shifts in how we do things, but the roadmap for improvement is there. We just need to follow it.

Drought, flood impacts create uncertainty for food producers

An alarming pattern has emerged in the farming industry over the last two decades, and experts believe the impact on food production won’t relent anytime soon.

A recent analysis of data from the U.S. Department of Agriculture shows that payouts to U.S. farmers for crops destroyed by droughts and flooding climbed by more than 340% between 1995 and 2020. During that time period, farmers received over $143.5 billion in federal crop insurance payments, according to the Environmental Working Group, a nonprofit that analyzes research data and spotlights breakthrough findings to inform decisions that govern everyday life.

While the conditions threaten the current livelihoods of farmers across the country, there are also intangible, permanent effects that can’t be ignored, such as the exodus of families who have been farming for decades and, in some cases, centuries. They’re simply giving up due to variables that are beyond their control.

The EWG points out that while crop insurance provides a crucial safety net for farmers, the program is doing little to mitigate climate-related risks. Taxpayers pick up about 60% of premiums, which means farmers cover the other 40% to get a crop insurance policy. EWG says the “costs are expected to go up even more, as climate change causes even more unpredictable weather conditions,” according to an article on CommonDreams.org.

This inevitability has decision-makers at the federal and state level considering drastic alternative measures, especially ones that help farmers adapt to changing conditions, enabling them to produce crops regularly without external factors.

One of those solutions is farming in controlled environments that eliminate outside impacts and promise reliable yields. Shipping containers are being repurposed and outfitted with a network of sensors and high-tech systems that regulate temperature, humidity, nutrient concentrations, watering and lighting. They enable farmers to grow food year-round — regardless of weather or climate — and drastically reduce the amount of water needed to grow crops, because the water is recycled and filtered and not lost to evaporation or transpiration.

“We see ourselves not as a replacement for traditional farming, but rather a tool that allows farmers to have that steady source of income throughout the year, without the stress,” said Rusty Walker, CEO of a Colorado-based company called FarmBox Foods, which designs, manufactures and sells enclosed hydroponic farms.

The containerized farms are also a critical element for crop production on islands, which currently import the vast majority of their food. The automated farms essentially add acreage to an island for the purpose of food production, cutting out potential supply chain issues and shipping costs that inflate food prices.

As Congress develops a new farm bill in 2023, the EWG is calling on lawmakers to consider focusing on “how to effectively fund farm programs so that farmers can adapt to and fight the climate crisis.”