August 16, 2021

ABC Rural

By Lucy Cooper

Nestled beside a building on a TAFE campus in Toowoomba is an ugly metal shipping container, but it's no ordinary storage shed.

Key points:

• TAFE is using a shipping container farm to teach students about alternative farming

• All features of the farm are controlled by an app

• Agriculture, hospitality, and IT students are using the "grow pod" in their studies

Step inside and it's bursting with greenery.

Packed floor to ceiling with vegetables and herbs like basil, kale, mint and mustard, this state-of-the-art modular farm is changing the future of agriculture, all with the push of a button.

TAFE Queensland school manager Elaine Wallace said the "grow pod" aimed to change students' perspectives on traditional farming.

"Often when people think about agriculture, they think, 'Oh, I don't want to go stand in the sun all day picking vegetables, that's a bit too dirty for my liking," Ms. Wallace said.

"This is just one of those technologies that really enables students to get involved in something different and something up and coming."

Student Kallia Stebbins said when she first saw the vertical farm she was amazed by the technology.

"I didn't realise that you can grow crops like this, compared to just out in the middle of a field," she said.

"Now that I've seen this, it's very cool. I'm very interested to learn more about it."

A farm controlled from the palm of a hand

The container farm is controlled remotely with an app.

To switch the lights on inside, Ms Wallace simply whips out her phone.

"If we have a look at our monitors, it tells us that our irrigation cycle has started up, so we can set the cycle to however long or short we need it," she said.

"It's drip irrigation from the top filter through to the bottom and it's caught in the gutter that is at the bottom.

"We have pumps that will feed nutrients into the water and then, of course, we've got our lights, which are LED lights, and they are also set on a timer, so they are grow lights."

'Absolutely no limits'

It's not just agricultural students reaping the benefits of the multidisciplinary project.

Information technology students studied the app controlling the farm, while electrical students looked at how the farm kept running.

Hospitality and cookery teacher Nev Siebenhausen said his students also gained valuable first-hand experience in paddock to plate catering.

"For our students, it's a great opportunity to obviously shorten up the duration and travel on the product," he said.

"It's great for our guys to see different ways it can be grown."

Mr Siebenhausen said the walk up the hill from the grow pod to the hospitality school reduced carbon miles and cut waste by 70 percent for produce like basil, which had a short lifespan.

Any leftover produce is donated to the food relief charity, Oz Harvest.

Talks are also underway to trial sensory herbs for community service students to study the calming effects on people.

"The possibilities are endless," Ms. Wallace said.

ABC Rural: Lucy Cooper

Modular Farms Australia

BY JONATHON GREGG

KENTUCKY

August 2, 2021

LOUISVILLE, Ky. — As John Miller prepared to leave the Air Force, the combat veteran admits he had no idea what he was going to do next.

What You Need To Know

• John Miller served 14 years in the Air Force

• The Louisville resident is the owner of Falls City Farms

• Miller has found peace and purpose in hydroponic farming

• In the future, Miller hopes to expand and employ fellow veterans

John Miller's routine may seem a bit "scaled-down" compared to his former life as a combat soldier. Miller spends much of his time in a 40-foot-long shipping container converted into a hydroponic farm field. Hydroponics involves growing plants without soil.

“In essence, we sell a lot of things what we would consider baby," Miller explained. Little white turnips is just one crop of many growing inside Falls City Farms. “Right now I’m just pulling off the plug to turnips and then clean up any of the leaves."

The Iraq War combat veteran grows, prunes, packages, and sells a variety of greens to Louisville restaurants, online and at local markets.

“Here is our wasabi arugula, this is one of our fresh herbs, our dill, this would be our romaine trio," Miller said while touring his indoor farm.

Scaled-down? Maybe, but the hydroponic farm has helped Miller overcome what can be a sizable challenge for soldiers adapting to life after service.

“I got into this post-military, trying to find my next thing because I didn’t know what I was going to do when I got out," Miller said.

Miller served 14 years in the Air Force. His wife Amy is still active with 17 years to her credit. In his pursuit to figure out the next chapter of his life, Miller learned about hydroponic farming from a marine veteran in San Diego.

His operation encompasses 320 square feet and boasts 6,600 individual plant spaces. Crops grow thanks to a sophisticated watering system and good-old-fashioned artificial sunlight.

“Because we are in a shipping container, the plants and the crops don’t get any of the big yellow sun outside so we have to create that inside," he said. "So we do LED lighting because it is better from an energy standpoint as well as heat."

Miller has lots of time and enough room to think about his life as a soldier and his new career as a farmer.

“If I am being frank with you, I miss being surrounded by other airmen and folks I used to lead," he said. "But it is calming to be in here with the plants and at the end of the day, that’s one of the reasons I chose this path.”

He was after peace and a purpose, and now his purpose includes bringing other veterans aboard.

“A lot of veterans, as we know, suffer from trying to find that next mission. Hopefully, one day soon be able to bring fellow veterans in here to teach them the art of farming through hydroponics to help them find peace and purpose as well," Miller said.

At first, Falls City Farms may appear to be a small operation, it’s only until you spend time on the inside do you see all the big ideas growing.

“I fell in love with the sense of a day’s accomplishment of work, a sense of comfort of being inside a greenhouse," Miller said.

Advanced Agritech Company Roto-Gro International (ASX: RGI) Is Aiming To Feed The World’s Astronauts.

August 9, 2021

Roto-Gro is capitalizing on the space exploration boom, as it applies to a NASA challenge developing novel food production technologies to feed astronauts on long-term missions.

Advanced agritech company Roto-Gro International (ASX:RGI) is aiming to feed the world’s astronauts as it capitalizes on innovations in food production systems and a boom in space exploration.

Roto-Gro World Wide (Canada), a wholly-owned subsidiary of Roto-Gro International, has applied to the Deep Space Food Challenge as part of its first step into the space agriculture sector.

Administered under an international collaboration between National Aeronautics and the Space Administration (NASA) and the Canadian Space Agency (CSA), the international competition aims to incentivize the development of novel food production technologies needed for long-development space missions and terrestrial applications.

Roto-Gro’s application highlight’s the technological diversification and adaptability of its patented proprietary indoor vertical farming technology.

Astronauts’ food needs changing as missions evolve

Astronauts currently receive food from spacecrafts regularly launching from Earth, for example to the International Space Station.

However, NASA and the CSA recognize that as the distance and duration of space exploration missions increase, the current method of feeding astronauts will no longer be sustainable.

Future astronauts will be required to use food production systems on their voyages and be self-sustaining. The challenge aims to inspire the agricultural industry to help bring innovative food production technologies to space, reducing the need for resupply from earth and ensuring astronauts have continuous safe and nutritious food supplies.

The ability to develop sustainable food production is considered the crucial next step for longer-term human presence on the lunar surface and the future missions to Mars.

The challenge is not only about space exploration but also missions in extreme arid and resource-scarce environments on Earth. Like space, input efficiency will be key, including the efficient use of water and electricity to reduce resources needed for food production here on Earth.

Adapting Roto-Gro’s existing models key to space success

A new Roto-Gro rotational garden system — branded Roto-Gro Beyond Earth — will be designed with engineering adapted-off components from its existing Model 420 and Model 710 rotational garden systems.

Roto-Gro Beyond Earth will be a smaller, more portable version of the Model 420 but feature the injection feed system from the Model 710, significantly reducing the required resource inputs while maximizing nutritional outputs when compared to other indoor farming technologies.

Roto-Gro CEO Michael Di Tommaso said Roto-Gro Beyond Earth will enhance the already existing, unique benefits of its rotational garden systems, optimizing both the operational efficiencies and yield per m2, which is crucial to the development and prospective use of food production systems in space.

“The technology developed to form the application to the challenge is astoundingly demonstrating the vast applicability and sheer innovation of the company’s technology,” Di Tommaso said.

He said the company had developed several key relationships with organizations currently providing food system solutions for long-duration space voyages, along with others focused on using space to solve problems we are experiencing on earth.

“We look to develop and foster these relationships moving forward, further strengthening our position in the sector,” Di Tommaso said.

He said entering the space agricultural sector was a natural progression for Roto-Gro, supporting its vision to provide sustainable technological solutions for agricultural cultivation, critical to ensuring global food security.

“Food system innovation is crucial to our progression in space, and we are excited with the prospect of moving to the next phase of the Deep Space Food Challenge, while also generating other opportunities to develop and implement Roto-Gro’s technology in the industry,” Di Tommaso said.

 Roto-Gro global forecasts international growth

Established in 2015, Roto-Gro is continuing to attract interest on a global scale.

The company recently partnered with agriculture company Verity Greens Inc. who has signed a binding $10M Technology License to purchase 624 RotoGro Model 710 rotational garden systems, with the first, flagship indoor vertical farming facility to be built in Canada.

The deal is expected to generate long-term, sustained recurring revenue with Di Tommaso hailing it as not only a “win-win” for both companies but a venture that works on a socially responsible level by helping tackle global food shortages.

“RotoGro will introduce our revolutionary technology into the booming indoor vertical farming space, while Verity Greens, utilizing the RotoGro Garden Systems and supporting technology, will operate with a viable and cost-effective competitive advantage,” he said.

“Verity Green’s first facility also serves to further its objectives – to roll out indoor vertical farming facilities globally utilizing RotoGro’s technology, not only to generate substantial revenue for both companies but also to provide a truly sustainable solution to address the issues caused by food insecurity.”

Lead photo: Pic: Giphy

This article was developed in collaboration with Roto-Gro International, a Stockhead advertiser at the time of publishing.

 This article does not constitute financial product advice. You should consider obtaining independent advice before making any financial decisions.

August 10, 2021

Lawrence Ip

Facilitating Workforce & Leadership Transformation Through Organisational Governance.

Keep Reading & The House Gets Bulldozed!

Dramatic I know (it's just one of those things). Nope, I won't be making myself homeless as I do actually need a roof over my head. What I also need is to get this crazy idea off my chest before I do actually lose my mind.

You see, I was watching a documentary a while back, about future cities, off the back of a few others that were about farming, global warming and the looming food crisis, and they got me thinking about vertical farming, and the issues the industry sector faces - namely scale.

That was the first thing that struck me.

How on earth are we going to be able to make vertical farming a viable solution without disrupting the cities we live in it, why heck, according to Pew Research world population is pitted to hit 10.9 Billion by 2100, with more and more folks migrating to cities. This begged a flurry of questions such as:

• How are we going to feed everyone, and where on earth are we going to put the vertical farms that are supposed to feed them?

• Will they really be able to provide the quantity of fruit and vegetables sustainably?

• How much will they cost to build?

• How much will they cost to run and maintain?

• How do we store, pack and deliver the product?

• What infrastructure does it require to make it work?

• What about the effect on traffic?

• What about the load bearing issues of weight on the structure of the farm, the actual building?

How on earth do we face the challenges facing vertical farming?

Don't get me wrong, I see incredible value in vertical farming and it could prove to be the answer to so many of the challenges we face ahead, because as we all know the way in which we produce the food we consume, and waste, is just not sustainable - not in the slightest. The globe's arable land is fast diminishing, and at the current rate the entire globe will be facing starvation soon after 2060 - it's a travesty just waiting to happen (if you haven't watched it yet I can highly recommend watching), Kiss The Ground, it's the documentary that got me started on the quest for answers.

A few weeks ago I woke up in the middle of the night, I had an epiphany.

Prior to going to sleep, I asked myself, what is the single most pressing problem you could solve that would provide the best bang for the buck?

When I woke from that sleep the answer came to me, it came down to answering the last question, which fundamentally is a design question.

Having previously watched a documentary series on super-structures, and thinking about logistics and transportation, it dawned on me that it was not a, how on earth question, but rather a let's go to sea proposition.

I jotted down these two words on the trusty notepad I keep bedside...

"... container ships."

That's right, container ships!

Don't be fooled into thinking that what you see is what you get. What you see on the top deck is just part of the picture, container ships have just as much, if not more storage in their lower decks.

It was like WOW! It makes complete and total sense, well at least to me it does. Let's outline the reasons why container ships could be the perfect vertical farm.

• Container ships are designed to bare the types of load required in the design of a vertical farm.

• You can move container ships around.

• Container ships can have desalination plants built in.

• They are freaking massive.

• They can be even more massive. Fun fact: when the size of a ship is doubled, it increases the surface area by only 25%.

• Transportation logistics is a non-issue.

• No need to reinvent the wheel. It wouldn't take much to repurpose container ships that have been decommissioned.

• Repurposed ships equals no scrap metal.

• Access to the energy required to run them is at hand.

Image Credit: Bernd Dittrich - UnSplash.

That pretty much sums it up, and hey, I'm no expert, but yes, I am a poet, and it really doesn't matter whether I'm certifiable or not, I have at the very least put the idea out there. All I ask of you, is that before you send the men with the straightjacket around, that you consider the idea as a viable solution before discarding it. If anything I hope it provides some inspiration, maybe a spark of some out-of-the-box thinking of your own and I sincerely hope you found the read entertaining too. Thank you for making it this far. I'd love to hear your thoughts and ideas. Do you have a crazy vertical farming solution you'd love to get off your chest? Please feel welcomed and leave your thoughts below. Peace ✌

Image Credit: Bailey Mahon - UnSplash.

#verticalfarmingchallenges #arablelandcrisis #foodcrisis #circulareconomy

Lead photo: Image Credit: Torben - UnSplash.

Published by: Lawrence Ip

Crazy Poet Discovers Solution To Vertical Farming Challenges. hashtag#verticalfarming hashtag#containerships hashtag#crazypoettimes hashtag#sustainability hashtag#agriculture hashtag#environment hashtag#innovation hashtag#climatechange hashtag#circulareconomy hashtag#design hashtag#energy hashtag#arablelandcrisis hashtag#foodcrisis hashtag#kisstheground hashtag#verticalfarmingchallenges

Posted by chrismichlewicz

July 31, 2021

The common refrain that freshwater is the next gold is ringing true as drastic changes in our climate are resulting in greater competition and a need for more efficient water uses, especially in the agricultural industry.

National Geographic points out that while the amount of fresh water on the planet has remained fairly constant over time — continually recycling through the atmosphere and back into our oceans, lakes, and rivers — the global population has exploded in the last century. This means that competition for a clean supply of water for drinking, cooking, bathing, and sustaining life intensifies every year. There is only so much water to go around.

Essentially, when taking saltwater into account, only about .007 percent of the Earth’s water supply is usable for the planet’s 6.8 billion (and counting) people, National Geographic says.

The vast majority of freshwater  — about 70 percent by most estimates — is used for agriculture, and when you consider that feeding a planet of 9 billion people in 2050 will require an estimated 50 percent increase in agricultural production and a corresponding 15 percent increase in water withdrawals, the future becomes a lot clearer, according to World Bank.

Without proper governance, there is likely to be increased competition for water between sectors and an escalation of water crises of various kinds, triggering emergencies in a range of water-dependent sectors, according to a U.N. report.

Emerging technologies are quickly trying to find ways to get the most bang for each drop of water. Efficiencies have been identified, including vertical hydroponic farming, which drastically reduces the amount of water needed to grow crops. FarmBox Foods, a Colorado company that builds automated hydroponic farms inside repurposed shipping containers, has set its sights on creating a tangible shift in the approach to farming.

FarmBox Foods’ innovative, closed-watering system only uses 3-5 gallons of water per day and, almost as important, it does not contribute to groundwater contamination the way that traditional farming does. Furthermore, one farm is able to produce the same yield as 2 – 2.5 acres of farmland on an annual basis. 

“Our container farms are built in such a way that it takes only a fraction of the amount of water to grow that same amount of produce,” said Rusty Walker, CEO of FarmBox Foods.

Climate change is projected to increase the number of water-stressed regions and exacerbate shortages in already water-stressed regions. It’s those regions that will realize the most benefit from vertical hydroponic farming and more efficient water usage in general.

An integrated view on water, the biosphere, and environmental flows is necessary to devise sustainable agricultural and economic systems that will allow us to decelerate climate change, protect us from extremes and adapt to the unavoidable at the same time, the U.N. says.

The automated hydroponic farms have a secondary benefit, as they can grow pine trees that contribute to the overall health of the environment by helping reduce the amount of carbon dioxide in the atmosphere. One container farm from FarmBox Foods can grow 35,000 tree saplings per year.

For more information, go to www.UNwater.org or www.FarmBoxFoods.com.

Posted by chrismichlewicz on July 31, 2021 in Arapahoe County Business, Douglas County, Douglas County Business, Featured, Greenwood Village Business

Tagged #farmboxfoods, agriculture, cleanwater, Colorado, containerfarm, containerfarming, environment, farmboxfoods, freshwater, indoorag, indoorfarming, UN, Water, waterscarcity, watershortage, watersupply, waterusage

30 Jul 2021

Andrew Miller

@journoandy26

The skyrocketing cost of shipping containers is hitting the margins of Victorian pulse, grain, dairy and meat processors and exporters.

Thomas Elder Markets analyst Andrew Whitelaw said containers (boxes) were used to export pulses, grains, meat, and wool from Victoria.

"The box market has gone crazy this year," Mr. Whitelaw said.

Rates were at their highest since 2001, with the cost of hiring a 40-foot container to export products to India now sitting at $4000, (A$7700).

That compared with the first week in June 2019 when the rate was US$1300.

The top five agricultural containerized export destinations are China, Japan, the USA, Vietnam, and South Korea.

READ MORE: Rising port costs being passed back to the farmer

Port of Melbourne figures show wheat accounts for 10 percent of all agricultural exports, with hay, chaff and fodder coming in a close second.

Other cereals, barley, lentils, and chickpeas comprise nearly 20 percent of all exports.

Dried milk and processed dairy products make up more than 12pc of exports.

Huge demand

Mr. Whitelaw said part of the problem was the huge demand for containers, from Chinese manufacturers.

"Everyone seems to have much more disposable income, and most of the western world isn't able to spend that money on leisure or travel activities," Mr Whitelaw said.

"This has resulted in huge volumes and gadgets and gizmos shipped out of China."

Sea freight broker Anchor Logistics director Bob Brittles said a combination of factors had resulted in supply and demand pressures.

The blockage of the Suez Canal, when the Ever Given ran aground earlier this month, had a massive effect.

"When the Ever Given was freed, 350 ships followed her through and dumped about 350,000 containers in Europe and just after that there were unloading delays in China.

"Those delays held up 650,000 containers."

He said the Australian market was serviced by about 12 major shipping lines.

"They have been influenced by the coronavirus situation and closures of various ports, over the last year and a half."

That had resulted in congestion and delays in unloading in many south-east Asian ports, which was contributing to the container shortages.

"The containers are in the wrong place, the ships are in the wrong place," Mr Brittles said.

Rising prices

Grain cleaning and packing service Wimpak, Minyip, general manager James French said container prices to ship to most overseas ports had risen dramatically.

"The Bangladesh rates are very similar to India and the shipping lines are making a move (on prices) every four to six weeks," Mr. French said.

He said grower pricing might have to reflect the freight cost.

"Normally we are putting work on, six to eight weeks out, but we are struggling to do that, knowing what our freight rates are going to be," he said.

"It makes us more reluctant to buy more product when we don't know what the price will be at the other end."

READ MORE: Food-grade container shortages hitting Victorian exporters hard

Burra Foods exports most of its dairy products and chief executive Stewart Carson said there was a direct container cost, as well as timing and availability.

"You might have a vessel booked to leave on Friday, then you're told the vessel won't be available until Tuesday or Wednesday," Mr. Carson said.

"What do you do with that container? In some cases, you have to put it on power, which costs you money."

Mr. Carson said the company carried the cost or sought to recoup it from the market.

"Everyone is paying a competitive milk price, you can't say sorry I'll pay 10 cents less because the container price has gone up," Mr. Carson said.

Companies could not pass the cost back to the farmer, which was only right.

"I think that's great, it gives an assurance to the farmer," he said.

He said Burra was in the same position as all other processors.

Southern Grain Storage director Campbell Brumby said his company was fortunate that his company had finished its export program before the price increases hit.

"I was speaking to a colleague who was paying $1750 for a box to a particular destination, and was now looking at $4250 if they can get the container," he said.

He put the price increase down to the state government's lease of the Port of Melbourne.

"We've been doing containers for about 10 years and when we first started, charges were negligible," he said.

"Since the lease was sold to DP World, the rates have gone through the roof - we just have to pay them and the market absorbs the cost.

"As long as all our competitors and all the people we are trying to trade with are working on the same cost basis, the market tends to absorb it.

"Whether its pulses or cereals, the market will be the market."

Dairy

by Nicole Weaving

July 24th, 2021

LINCOLN, Neb. — Beyond School Bells is partnering with the Bay in Lincoln for a new after-school program that will teach students about sustainable ag technology.

"We really see Freight Farm as kind of that key, climate-change impervious tool that young people need to know about as we face an uncertain future," said Jeff Cole, Network Lead for Beyond School Bells.

An old shipping container in the parking lot of the Bay has been transformed in a self-contained hydroponic farm.

Using red and blue LED lights, this Freight Farm, known as the Greenery, creates a climate-controlled environment, where the plants grow vertically without a need for soil.

"We enrich the water with nutrients that would normally be in the soil," said Colton Harper, Organizing Manager for The Greenery. "And then in these grow walls, we've got spickets that come right through these foam and it's directly onto the roots of the plants."

According to Harper, there are currently about 6,000 plants growing in the Freight Farm, but at full capacity, it can hold 13,000 plants between the seeding area and that walls. That would produce the equivalent of a 2.5-acre farm year-round.

"Even in the winter, if there are shortages anywhere, we can turn on a dime, 7-week grow cycle and be able to provide those crops for local markets," said Harper.

The Greenery arrived in Lincoln in April, and Harper has led to two teams to get it up and running. They are currently preparing for their first harvest with items like basil, lettuce, and radishes.

"We're at about Week 7, and in 2-3 weeks, we'll have our produce at a farmer's market," said Harper.

After a few more grow cycles, the program will open to local students to teach them all aspects of sustainable farming.

"From the electrical side, the growing, the programming, computer science to the irrigation, the HVAC system, there's so many elements," said Harper. "And we're particularly well-placed with the Bay and their digital design area of focus, the students will also be able to design the packaging, design the labeling, so it's really a full-circle, interdisciplinary opportunity for the students to get involved."

The Greenery plans to hold a Harvest Party to celebrates the farm's success in the coming weeks

BY ZARINA KHAIRZADA

JULY 21, 2021

RIVERSIDE, Calif. — Dozens of red leaf lettuce heads grew without ever seeing the actual light of day with the help of Freight Farms "ag tech," a repurposed shipping container and students from La Sierra University. One of the students was Max Proebstle, who never thought he would find a personal interest in hydroponic farming.

"As soon as you transplant them into the growth panels after about a week, they're already like a full head of lettuce; it's pretty amazing to see," the graduate student said.

What You Need To Know

• More than 20 La Sierra students are working together to study hydroponic farming inside a repurposed shipping container

• The Freight to Table program used Freight Farms "ag-tech" to grow leafy greens with the help of high-intensity lights, circulating water, and plant nutrients
  

• The system uses at least 90% less water than traditional farming, according to La Sierra University project director Marvin Payne
  

• The program will utilize harvested crops in the university dining halls and provide locally sourced produce for the surrounding area

Proebstle and about 20 other students have been volunteering their time inside the repurposed shipping container turned indoor hydroponic farm on campus. This method of growing crops replaces the need for soil with plant nutrients, artificial light, and recirculating water. After working with the new tech system, Proebstle believes it could be a game-changer for the future of farming.

"If you have a connection to a water system and electricity, you can basically grow produce sustainably and organically, anywhere and anytime," he said.

The Enactus team on campus recently harvested more than 500 heads of red leaf lettuce, with more on the way. The program is helping students get a hands-on approach in STEM and agriculture while also introducing them to a way to create their urban farms in the future.

Project Director Marvin Payne, who oversees the Freight to Table program on campus, explained that this model allows hydroponic farms to be placed just about anywhere for year-round harvesting.

"The entire footprint of this container is basically 320 square feet, and so with this, you can turn out thousands of plants in a fairly short period of time," he said.

The tech allows growers to monitor nutrient levels, production and light schedules remotely. Since it's inside a container, the amount of artificial daylight for the crops can be increased to about 16 hours each day. Doing so means more growth but also a higher electricity output.

As drought conditions worsen, at least 94% of California is considered to be in a severe drought. There will be more pressure on the farming industry for water conservation, and this model — according to Payne — uses at least 90% less water.

"You are using electricity, but we're getting creative in producing electricity these days, and it uses only a very small fraction of the water that any traditional farming is going to use," he said.

After plucking the leafy greens from growth panels inside the controlled agriculture environment, Proebstle and the team have brought their harvest from a hydroponic farm to the table with a new passion for farming.

"In my personal life, I can totally see this being a part of my life, something that I'll be interested in and involved in for the rest of my life," Proebstle said.

Until then, the Enactus team at La Sierra University will continue exploring how this growing method could bring sustainability and locally sourced produce where it's needed most.

The project is a partnership with Todd-Wadena Electric Cooperative, Central Lakes College, Lakewood Health System, Great River Energy, and the Electrical Power Research Institute.

Written By: Rebecca Mitchell

July 21, 2021

STAPLES, Minn. — A community research project in Staples involving indoor gardens is set to continue growing.

The hydroponics project started in 2020 with Great River Energy, Todd-Wadena Electric Cooperative, and the Electrical Power Research Institute hoping to learn new technology and increase access to fresh produce. And even with kale as the chosen plant, local organizations rooted for the success of the hydroponics pod. The pod, planted at the Central Lakes College Staples campus, is a shipping container with room for 5,820 kale plants.

“I didn’t know how things were going to grow in here, it’s kind of a weird concept with there being no sunlight and things like that, so just seeing it go from a little seed to your big plant and harvesting it, I think that has been the coolest aspect,” CLC research analyst Noah Boelter shared with Minnesota educators in a virtual tour on July 13.

The partnership is called "'Sota Grown" and has helped develop a fully enclosed hydroponic container for growing fresh plants all year long — to supplement existing agriculture practices in communities across the state.

The pod, equivalent to one acre of crops, is a supplement to traditional farming, not a replacement, as TWEC member service manager Allison Uselman said. Although kale is the focus of the two-year project, the team has experimented with growing basil, swiss chard, lemon balm, and chives. Romaine lettuce, butterhead lettuce, and salad mixes are next on the list — and after a year of only kale, Boelter is excited for the new opportunities.

Each kale seed, planted by hand, starts in the nursery before being transplanted to vertical panels. The kale takes 12 weeks to reach maturity. The team of four staff members and interns plant and transplant on Wednesdays and harvest on Mondays.

“Kale is pretty forgiving, which is very fortunate for us,” Boelter said after sharing about a frozen pump during the winter. The kale wilted and bounced back in a matter of days. The team is also learning about flooding and nutrient dosing in the pod.

With the expected growth of indoor agriculture, Uselman said electrical companies will need to prepare for the change. For example, the pod uses the most energy when most other customers could have off-peak rates. The light and water systems run from 4 p.m. to 8 a.m. daily. The kale is watered for five minutes every 45 minutes. The electricity is about $600 a month.

“It’s education with students, it’s giving back and feeding our communities, and Todd-Wadena has the opportunity then to research all the electrical side of things and really understand this industry before it grows to a larger state,” Uselman said.

The pod’s water usage depends on the humidity levels outside, with the most water used in the winter — about 10.5 gallons every day—and about five gallons a day in the summer. The two water tanks deliver water above the panels and water behind the plants. There are also several different nutrients added, such as one to adjust pH levels.

“In the summertime, the pod does not use a whole lot of water because the HVAC unit has a dehumidifier built into it and that’s recirculating around a gallon of water an hour that gets dumped back into the pod, so it’s really efficient in the summer,” Boelter explained. “But when it’s winter, the air is so dry that’s when we use the most water.”

The indoor pod means the ability to regulate the temperature, which is a cool 65-68 degrees and having no pesticides or herbicides used on the plants since most bugs remain outside. There are some drain flies due to the algae.

As for sunlight, the LED lights are the only heat source in the pod, as Boelter said, though it is also insulated. The red and blue lights support stem growth and leaf density.

The process yields about 20 pounds of kale a week — and on a record week 43 pounds — or over 1,000 pounds as of July 5. All of the kale is donated to Lakewood Health System, who shares the kale through the Food Farmacy and Hilltop Regional Kitchen. The Kitchen uses the kale in specific meals for those who have tested positive for COVID-19 and people being discharged from the hospital. People can also receive free kale at the summer farmer’s market on Thursdays.

As Lakewood’s Community Health Coordinator, Amy Wiese works with about 70-100 bags of kale a week to find where it can best be served. She said the kale lasts about two weeks in the fridge.

People also receive kale recipes for new ways to enjoy the vegetable. Wiese enjoys massaging the kale to break down the bitterness and then eating it in a salad. Other favorites are kale chips and soups.

“We just see the benefits of this project and recognize the positive impact that healthy food can have on individuals and in the community,” Wiese said. The organizations also hope to address local food deserts. “It’s really amazing that we are able to provide fresh produce all year with this pod” even with snow on the ground for six months of the year.

The seeds grown and sown in the community have finished their process with new seeds set to germinate, grow to maturity, and be harvested and packaged in four to eight hours for their short drive up the road.

Photo: 1 - The kale seeds are planted in peat moss plugs and stored in the nursey for three weeks before being transplanted to the indoor panels. The planting process takes about an hour. Submitted photo

Photo: 2 - The shipping container contains an acre of kale growing hydroponically with LED lights. Photo courtesy Todd-Wadena Electric Coop

Photo: 3 - Each section has 22 panels with space for 5,820 kale plants or the resemblance of one acre of crops. Rebecca Mitchell/Pioneer Journal, July 2021

By TheHealthReporter

July 15, 2021

7 years. It’s how long the farm lasts with 5G BoomGrow it has existed, but it has not always been so efficient. Founders Jay, Murali, and Shan had initially explored different cultivation methods, from simple hydroponics to aquaponics.

“We grew our greens in small boxes. We even tried to grow them outdoors. Nothing worked, ”Jay recalled in an interview with Vulcan Post.

This trial and error lasted for five years until the co-founders discovered AI-driven vertical agriculture. With this method, they realized that they could also grow their greens in a controlled indoor environment that would make harmful chemicals such as pesticides unnecessary.

Finally, they had found it the method that allowed them to properly achieve their goals of producing clean, tasty greens.

Using 95% less resources to get the same performance

“Our systems detect how diverse contributions like the light, the water, and the pH affect the quality and the flavor of our plants. That’s what we call our plant recipes, ”said Shan.

“We then rely on machine learning and data analysis to tailor each entry to the respective plant, producing tastier greens.”

The team says its system equipped with technology is Machine Farm. It is used in all reused BoomGrow shipping containers where crops are grown on modular plant racks.

According to the team, five piles of crops on a 360-square-foot plot can produce a yield that is the equivalent of the traditional harvests of a 1-acre outdoor farm.

With this technology and efficient use of space, they can grow 20 varieties of leafy vegetables and herbs in a residential neighborhood of Ampang.

At the same time, Jay said Machine Farm uses 95% less land, water, and fuel than traditional outdoor farms.

Its technology-based agricultural approach has seen BoomGrow achieve multiple milestones, from being the country’s first 5G showcase farm to receiving benefits from government grants from SME Corp, PlaTCOM Ventures, and MDEC.

One of his most proud moments was the validation of renowned chefs working in 5-star hotels, who placed an order for their greens and have since been loyal followers.

Dedicated to clean processes and products

Clearly, there are already several agents in the precision and vertical farming industry with more union, but few are as gung-ho about clean produce as BoomGrow is.

Cleaning doesn’t just mean pesticide-free vegetables; the team decided that value should be reflected in the overall operation of their business.

As a former national athlete, Murali wanted to start BoomGrow because he knew the difference a good diet could make.

Meanwhile, Shan is a trained architect who had developed an interest in sustainable design throughout his career. Fascinated by the way modular structures had minimal impact on their environment, he wanted to explore other avenues for incorporating sustainability into everyday life.

He is the director of innovation at BoomGrow, designing and bringing its plant systems to life. On the other hand, Jay was inspired to co-found BoomGrow after many years in sustainability consulting.

He told Vulcan Post: “Throughout my career, I have had consulting experience for various agricultural and F&B manufacturing companies. This allowed me to evaluate the data around some of the practices, as well as the disconnection that people from these organizations had about sustainability. ”

Bringing the head together led the team to arrive at the current solution that is committed to implementing the 12th Sustainable Development Goal, responsible consumption, and production.

Organic vegetable packages at competitive prices

With all the investment in technology growing their organic greens, it looks like a purchase of them should cost a bomb.

But because they are able to eliminate the need for extensive land located in remote areas and a long cold chain, they can offer their vegetables at a competitive price.

BoomGrow sells 5 to 6 varieties of vegetables depending on the package you want, priced between 45 and 65 RM per package. Free delivery is offered to subscribers of weekly or fortnightly plans. Otherwise, deliveries to the Klang Valley would cost 10 RMS for purchases over 45 RM or 15 RM for those under 45 RMS.

Compared to another vegetable delivery service with a subscription model, Plant B, BoomGrow prices are reasonable.

Floor B offers 6 types of vegetables in a box and a two-week subscription would be RM37 / week, while a 4-week subscription would be RM34 / week. Shipping costs are offered at fixed rates of RM6-RM8 depending on where you are in the Klang Valley.

For both BoomGrow and Plant B, people may not be able to choose exactly what goes into their box, but Plant B customers will be informed of the variety they can expect depending on the season and availability. You can also contact the team for exclusions.

On the other hand, BoomGrow clearly lists each variety of vegetables in a package with the assigned weight, so you’ll know exactly what you’ll get. To add, plant B does not claim that its product is organic.

Improve your B2C services during the pandemic

When the pandemic first hit in 2020, BoomGrow saw a sharp drop in overall sales as hotels and restaurants had to cut back on their orders.

Conversely, their e-commerce orders increased as more people subscribed to their vegetable packages.

“The pandemic has underscored the urgency of building better food production, including fresh vegetables. Customers are increasingly aware that food choices influence both the health and the health of the planet,” the team concluded.

They were able to meet this demand thanks to the support of MaGIC, particularly as part of cohort 4 al Global Accelerator Program.

Through it, their technology pipelines became more focused and were able to expand their digital footprints, refine e-commerce offerings, and improve their automation. Now, BoomGrow is preparing a launch of its machine factories outside of Klang Valley to reach more customers.

Outside, they will come face to face with more players in the vegetable delivery space, but perhaps their technology and mission will differentiate them in the long run and attract a segment of customers with whom their mission resonates.

• You can learn more about BoomGrow here.

• You can read more agritech content here.

Lead photo: The outside of a container, looking out onto the urban landscape / Image Credit: BoomGrow

By Earth911

JULY 14, 2021

Earth911 talks with Jake Felser, chief technology officer at Freight Farms, about the company’s “complete farming system inside a box.” It’s a very big box that includes climate controls and monitoring systems to make farming easy for anyone to do. Freight Farms builds and delivers shipping containers converted into highly efficient hydroponic farms that use LED lighting to grow and deliver fresh produce year-round.

Jake discusses the cost of getting started, how many people are needed to run the farm, and how the built-in automation helps farmers plan a profitable business. Grocers, restaurants, communities, and small farms are using Freight Farms installations at 350 farms in 49 states and 32 countries. The company says most of its customers are new to agriculture and operate right in the urban and rural communities they serve.

Jake Felser, CTO at Freight Farms, visits Sustainability in Your Ear to talk about automated hydroponic gardening in shipping containers.

Growing and distributing vegetables locally is one of the most effective ways to lower our society’s carbon footprint. While agriculture contributes about 10% of the U.S. greenhouse gas emissions each year, the majority of that is from raising animals. By increasing our consumption of locally grown vegetables, we can improve local health and reduce overall emissions from transportation. It’s not easy to grow food in most cities using traditional methods. The introduction of container farms and vertical farming inside buildings can reshape food deserts and create economic opportunities.

To learn more, visit FreightFarms.com.

• Subscribe to Sustainability in Your Ear on iTunes and Apple Podcasts.

• Follow Sustainability in Your Ear on Spreaker, iHeartRadio, or YouTube

Tags: container farming, Freight Farms, hydroponics, reinventing agriculture

By TOM KARST

July 13, 2021

The U.S. Department of Agriculture is authorizing emergency procedures to help agricultural producers impacted by extreme drought conditions.

The USDA’s Risk Management Agency is working with crop insurance companies to streamline and accelerate the adjustment of losses and issuance of indemnity payments to crop insurance policyholders in impacted areas, according to a news release.

The agency said the new crop insurance flexibilities are part of USDA’s broader response to help producers impacted by drought, in the West, Northern Great Plains, Caribbean and other areas. 

“Crop insurance helps producers weather natural disasters like drought,” RMA Acting Administrator Richard Flournoy said in the release. “We recognize the distress experienced by farmers and ranchers because of drought, and these emergency procedures will authorize insurance companies to expedite the claims process, enabling them to plant a new crop or a cover crop.”

Emergency procedures allow insurance companies to accept delayed notices of loss in certain situations, streamline paperwork, and reduce the number of required representative samples when damage is consistent, according to the release.

Producers should contact their crop insurance agent as soon as they notice damage, the agency said.

The insurance company must have an opportunity to inspect the crop before the producer puts their crop acres to another use. If the company cannot make an accurate appraisal, or the producer disagrees with the appraisal at the time the acreage is to be destroyed or no longer cared for, the insurance company and producer can determine representative sample areas to be left intact and maintained for future appraisal purposes, according to the release. Once an insured crop has been appraised and released, or representative strips have been authorized for later appraisal, the producer may cut the crop for silage, destroy it or take any other action on the land including planting a cover crop, the release said.

Additional information on these emergency procedures is available on RMA’s Crop Insurance and Drought Damaged Crop webpage.

Even with effortless, turn-key container farms, there are still questions left unanswered for those interested in getting startedThis three-part webinar series will take you step-by-step through what you need to know before you start, how to select the best business model, and your options for financing the project. 

By signing up, you will:

• Hear and learn from first-hand experiences

• Access knowledge and resources from Growcer and Farm Credit Canada

• Break down how to get growing year-round into smaller, digestible steps

If you’re interested in growing food for your community but don’t know where to start or are stuck along the way, sign up for the webinar series today!

Register now for all three sessions:

• July 13 - Getting Started

• July 27 - Choosing a Business Model

• August 10 - Financing your Project

Excited for you to join us,

The Growcer Team 

By Staff Reporter

July 8, 2021

Nestled next to an otherwise ordinary house on Kodiak is a shipping container. It looks out of place, but the garden in it is even more noticeable. The growing area of ​​the BrightBox Farm looks like a prop from a movie about space exploration – the vertically oriented hydroponic farm has its own perfect microclimate.

The use of this shipping box has enabled Gideon Saunders to conquer the seasons that otherwise rule Kodiak Gardens.

“There we worked with Freight Farms, who build 40-foot containers, high cubes, 2.50 m high, 2.40 m wide, standard containers, only slightly higher, very insulated, highly insulated R-28. So we agreed with them and picked out a unit and then delivered it to us, ”Saunders said.

Freight Farms made the interior of the shipping container. Inside, there are shelves with lettuce and other greens, interspersed with panels of blindingly bright ultraviolet light. A panel filled with nutrients feeds into a water tank on the back, which in turn feeds drips into the hydroponic system. The air is supplemented by a carbon dioxide tank, which ensures that the plants do not lack for anything.

The container is completely controlled by an app. And it even comes with built-in bluetooth speakers. But for the container, function is more than form – Saunders boasts that he could grow 1,000 heads of lettuce a week in less than 30 hours.

It doesn’t just look futuristic. Saunders believes systems like this will revolutionize agriculture.

“I think it’s the future. I mean, we can get into the politics of agriculture and water rights and freshwater use worldwide, and global warming and all these hot topics – 8 billion, 9 billion, 10 billion people, how do you feed them? The population is growing – how do you become more efficient with your food? Well, when it comes to vegetables and leafy greens and what we do, we use 95% less water than traditional farming. We do not use herbicides, pesticides or insecticides. So no glyphosate, no Miracle Grow. Chemically nothing bad. You can control it. So it’s the future of agriculture, ”Saunders said.

This type of production is not cheap. Saunders says the device costs around $ 100,000 with shipping and handling. But as technological advances inevitably push prices down, it becomes more cost-effective for smallholders to invest in such equipment.

And Saunders says it’s already inexpensive, although its container is complemented by a small homemade addition in its garage. He sells microgreens as a subscription service, in which he provides his subscribers with bags of greens for a monthly fee, and through sales at the local farmers’ market. Even on an island known for its horticultural and merchant shipping challenges, herbivores can enjoy fresh, locally grown produce year round.

NEWS PROVIDED BY

Contain Inc

July 07, 2021

Contain Inc announces a financing agreement arranged between Edible Beats Restaurant Group & a prominent lender for a FarmBox Foods container farm.

With the FarmBox Food container, we can grow hyper-local, organic, year-round produce that will be featured at all of our restaurants. We feel this is just the beginning of what we can grow”— Justin Cucci of Edible Beats Restaurant Group

RENO, NV, UNITED STATES, July 7, 2021 /EINPresswire.com/ -- Contain Inc is pleased to announce a financing agreement arranged between Edible Beats Restaurant Group and a prominent lender for a controlled-environment container farm, FarmBox Foods. Edible Beats is a locally owned Denver-based restaurant group known for its diverse menus and healthy, plant-based dishes that highlight local and seasonal ingredients. Edible Beats will be able to grow herbs, leafy greens, salad greens, and various produce organically and year-round with the container farm that will be attached to their Vital Root location.

“We have always sought opportunities to be more responsible to the sourcing, growing, and handling of the incredible ingredients that we get,” said Justin Cucci of Edible Beats Restaurant Group. “With the FarmBox Food container, we can grow hyper-local, organic, year-round produce that will be featured at all of our restaurants. We feel this is just the beginning of what we can grow, and we are eager to add the mushroom grow operation in the future”

Edible Beats purchased the container from FarmBox Foods, a Colorado-based company that builds automated farms that grow gourmet mushrooms, leafy greens, and culinary herbs. To FarmBox, controlled-environment agriculture is the future, and this deal is one of many leading us towards a more decentralized and eco-friendly food system.

“I think we’re going to see a lot more of these types of programs going forward,” said Chris Michlewicz, Chief Public Relations Officer at FarmBox. “Restaurants are realizing that their produce is fresher and has a longer shelf life when they have a container farm on site. It’s a reliable and sustainable source of food, and it’s more eco-friendly because you no longer have to transport food in from elsewhere.”

Likewise, Contain Inc is thrilled to support Edible Beats as it ventures into indoor ag. “We're delighted to have assisted SemiMojo and FarmBox Foods in this innovative initiative. Contain is always excited to see more fresh food made available to consumers. Customers appreciate freshness and quality produce, year round. Restaurants and container farms make this possible”, said Doug Harding, Head of Leasing & Vendor Relations at Contain Inc. “We are thrilled to have collaborated with Edible Beets and Farm Box Foods on this project. It aligns perfectly with Contain's mission of supporting the controlled environment agriculture industry in its financing needs”.

The container farm is being built and customized for Edible Beats, and will produce ingredients for all of the EB concepts, Linger, Root Down, Vital Root, El Five, and Ophelais.

About Contain Inc
Contain is out to empower the indoor ag industry of tomorrow. Our first and key mission is bringing easier and faster financing to controlled environment agriculture, but we aren't stopping there. We create platforms to move the industry forward, and most importantly, find ways to make indoor ag more accessible to farmers of all stripes.
Contact Contain:
Doug Harding, Leasing & Vendor Relations
doug@contain.ag | 760-330-1199

About Edible Beats
Edible Beats is a locally owned independent restaurant group that operates such diverse concepts as Linger, Root Down, El Five, Ophelais, and Vital Root. “Walking the walk” is important to us and the various aspects of sustainable & local food sourcing, up-cycled design, and authentic Hospitality.

About FarmBox Foods
FarmBox Foods was founded to help provide a sustainable, eco-friendly food source to places where there is a lack of access to farm-fresh produce. The company’s mission is to use container farms to decentralize the food supply chain and empower local communities.

Doug Harding
Contain Inc
doug@contain.ag
Visit us on social media:
Twitter
LinkedIn

DAVE FIDLIN

Kenosha News correspondent

June 27, 2021

A food distributor’s plans for a year-round indoor garden facility on Kenosha’s northwest side moved one step closer to reality, following a city panel’s favorable recommendation.

The Plan Commission on Thursday reviewed and advanced a proposed year-round standalone indoor garden facility adjacent to the existing Gordon Food Service distribution plant at 10901 38th St.

GFS plans to partner with Square Roots, an organization specializing in urban farming, in the development. A new 8,715-square-foot facility will be used to grow fresh produce, greens, and herbs.

Gordon has forged similar partnerships with Square Roots at other distribution centers within the U.S., the first taking place two years ago near the company’s Michigan-based corporate headquarters.

At a Thursday’s meeting, GFS representatives indicated the indoor garden facility would serve a variety of purposes, with about 60 percent of it going toward direct-to-consumer retail sales and the balance toward distribution.

Down the road, company officials have indicated the new operation could have an educational component, such as workshops on how basil is grown. Partnerships with nearby colleges and universities also were discussed as a possibility.

During deliberations, several members of the panel lauded the plans for the site. Commissioner Lydia Spottswood said she viewed Square Roots’ addition as an example of forward-thinking development.

“It seems like a brilliant opportunity for more and more (of this type of development) to happen, given the proximity to Lake Michigan,” Spottswood said. “We’re trying to brand this as a city of innovation, and this is an innovative process.”

Commissioner Charles Bradley said he, too, was pleased with the proposal, though he did weigh in on the proximity of the development, which is near the Kenosha Regional Airport.

“I’m happy, but I am a little surprised by the location,” Bradley said.!

Commissioners also discussed GFS and Square Roots’ planned building materials for the new facility, which include the use of metal shipping containers on a portion of the facility.

According to information commissioners reviewed, the shipping containers will be accessible from inside the building and will include windows cut into the ends of the containers, alongside perforated architectural metal screens along the exposed sidewalls.

The companies’ tentative plans state the shipping containers will be stacked two rows high, 10 containers wide. A portion of the facility also will be constructed with more traditional building materials, including a concrete foundation and exterior walls made of insulated metal.

“This is a really interesting, adaptive reuse,” Spottswood said.

The City Council, which has final say on the proposal, will take up the Plan Commission’s recommendation and could act on it in July.

Meeting in person

Thursday’s Plan Commission meeting was the first time the appointed body gathered in-person, since COVID-19 lockdowns forced an abrupt pivot to virtual meetings in March 2020.

As is the case with all Kenosha municipal meetings, the Plan Commission is reverting back to its pre-pandemic practices.

“I’m very excited about it,” said Ald. David Bogdala, who serves on the Plan Commission. “We’ve got a lot of work ahead of us, and I’m glad to see, for the most part, that we’re back to normal.”

Lead photo: A concept rendering of the southeast view of the proposed Square Roots and Gordon Food Service indoor garden facility adjacent to the existing GFS distribution plant at 10901 38th St.

CEA Advisors announced today that they have delivered another custom-built 40’ Growtainer® Vertical Farm to the Riverview School District in Oakmont, PA. Unlike other school’s container farms that can only teach one method of production, this farm is specifically designed to teach the students about multiple growing methods.

The Oakmont Growtainer has three distinct chambers to provide a real hands-on experience for the students, including a classroom/lab/germination area, an LED-lit multi-level soil chamber, and an LED-lit multi-level hydroponic system.

Glenn Behrman, President, and founder of CEA Advisors, a global controlled environment consulting firm and the manufacturer of Growtainers worked with the school’s staff to design a cost-effective system that could provide various levels of a learning experience as well as providing fresh leafy greens for the cafeteria for their students of all ages.

“Due to Corona virus supply chain issues, the school couldn’t wait for our Growracks to arrive from our manufacturing partner in Holland. So we designed and built a custom multi-level racking system for the ebb and flood hydroponic installation including automatic irrigation and water monitoring and dosing.”

The soil side is also a multi-level design with LED lighting and an irrigation system. The climate is independently controlled in each chamber including de-humidification. In the next month or so the entire campus, including the Growtainer will be powered by solar.

For more information:
CEA Advisors LLC
Glenn Behrman, Founder, and President 
gb@cea-advisors.com
www.cea-advisors.com

23 June 2021

Ellen Bergström And Daniel Remes Are Growing

Food in Umeå, Sweden To Create A Resilient

And Sustainable Local Food System.

Although they had little agriculture experience, the realization that their community needed a dependable food supply chain that offered fresh, quality produce even through the long, dark winter months, led them to start their Freight Farming business, MY Harvest.

Click on the video below to watch their story.

For more information:
Freight Farms
info@freightfarms.com
www.freightfarms.com

24 Jun 2021

Hear How Eeden Farms Is Bringing Fresh,

Local Produce To Their Island.

As part of our Grow Food Here series, join us for a live conversation with Freight Farmers, Lincoln Deal, and Latesha Gibson from Eeden Farms. Throughout the event, we’ll explore how they brought container farming to the Bahamas to reduce the island’s reliance on food imports and serve their local community with the freshest local food available. We’ll also discuss the challenges farmers face in the Bahamas, what they’re currently growing in their three container farms and their plans for the future.

At the end of the event, Lincoln and Latesha will answer your questions through the live q & a

Register Now

Wednesday, July 14th, 2021 12 PM EST

Interested In How To Start Farming?

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Posted by Sarah Federman, AAAS Science and Technology Policy Fellow, Office of the Chief Scientist andPaul M. Zankowski, Senior Advisor for Plant Health and Production and Plant Products, Office of the Chief Scientist in Research and Science

Aug 14, 2018

Indoor And Vertical Farming

May Be Part of The Solution To Rising Demands

For Food And Limited Natural Resources

Imagine walking into your local grocery store on a frigid January day to pick up freshly harvested lettuce, fragrant basil, juicy sweet strawberries, and ripe red tomatoes – all of which were harvested at a local farm only hours before you’d arrived. You might be imagining buying that fresh produce from vertical farms where farmers can grow indoors year-round by controlling light, temperature, water, and oftentimes carbon dioxide levels as well. Generally, fresh produce grown in vertical farms travels only a few miles to reach grocery store shelves compared to conventional produce, which can travel thousands of miles by truck or plane.

Beyond providing fresh local produce, vertical agriculture could help increase food production and expand agricultural operations as the world’s population is projected to exceed 9 billion by 2050. And by that same year, two out of every three people are expected to live in urban areas. Producing fresh greens and vegetables close to these growing urban populations could help meet growing global food demands in an environmentally responsible and sustainable way by reducing distribution chains to offer lower emissions, providing higher-nutrient produce, and drastically reducing water usage and runoff.

Recently, USDA and the Department of Energy held a stakeholder workshop focused on vertical agriculture and sustainable urban ecosystems. At this workshop, field experts shared thought-provoking presentations followed by small group discussions focusing on areas such as plant breeding, pest management, and engineering. Workshop attendees from public and private sectors worked together to identify the challenges, needs, and opportunities for vertical farming. A report on this workshop will be released to help inform Departmental strategic planning efforts for internal research priorities at USDA and external funding opportunities for stakeholders and researchers.

We’re excited about the potential opportunities vertical agriculture presents to address food security. That’s why USDA already has some of these funding and research opportunities in place. The National Institute for Food and Agriculture has funding opportunities (PDF, 1.22 MB) that could support future vertical agriculture conferences and research. Similarly, the Agricultural Research Service is working on a project to increase U.S. tomato production and quality in greenhouses and other protected environments. We look forward to continuing our partnership with our customers, both internal and external.

Lead Photo: Photo credit: Oasis Biotech

Category/Topic: Research and Science

Tags: Office of the Chief Scientist National Institute of Food and Agriculture NIFA Agricultural Research Service ARS Department of Energy vertical farming