New patented technology that recycles renewable energy is ready to revolutionize CEA (Controlled Environment Agriculture) and make indoor farming both more profitable and more attainable in remote rural areas. This upgrade in solar technology offers benefits for farmers, consumers, businesses, environmentalists and local governments.

Two businesses are building a prototype of the vertical farm of the future in Marquette, Kansas (pop. 620.) The indoor farm will recycle its own solar energy at night and during storms by absorbing LED light energy when it’s used to illuminate the interior growing spaces. The 60-unit, 11-acre prototype development will function independently of the local power grid using technology designed and built by Kansas native David Hinson, CTO of TSO Greenhouses.

This technology will reduce burdensome costs of power, water, financing, real estate acquisitions, and property taxes. Such hurdles have often been the downfall of previous vertical farms, especially in urban areas. The forward-thinking pair’s plan addresses and solves all of these challenges.

The duo’s “ag tech campus” model includes accelerated growing of all-natural, clean food and protein fodder as well as reliable 5G internet for rural farmers, citizens and businesses. The entire system will be powered by renewable energy and make digital telecom deployment more practical.

Hinson’s technology enables roof-mounted “solar trackers” to capture LED energy at night from the light reflected inside the structures that house hydroponic crops growing inside. These trackers rotate East to West when the sun is shining and then flip inward at night and during bad weather.

As a result, farmers can harness the energy generated “off-hours” to grow a variety of crops 24 hours a day in multiple vertical “stacks” based on bespoke microclimates. Growing by “zones” inside a multi-level structure boosts crop production and horticulture flexibility.  Traditional indoor farms and rudimentary greenhouses usually grow only 1-2 crops for local distribution.

In contrast, these new farms will be able to produce 10-15 different plant species simultaneously. Increased agility and production speed will also improve vertical farmers' ability to react to sudden demand shifts.

5G Adds Lucrative Tech Payoff to Growth Cycle
Since the new 24/7/365 solar energy recycling technology only needs 33 percent to 40 percent of the harnessed energy, developers and farmers can sell excess energy for additional revenue. The local clean energy will power wireless 5G with the help of small rotating solar trackers with batteries. These trackers can be placed on community buildings, water towers, grain elevators, farm silos, bridge spans, existing cell towers and other permanent objects to ensure uptime and reliability. 

This new source of 5G will create emerging markets for renewable energy, boosting rural economies. In the past, 5G telecom has been difficult to install and deploy in remote areas.

Path Diversity will be a game-changer
The pair plan to locate data centers near 100GB digital fiber trunks to further reduce the cost and time required to deploy 5G wireless. High-end data processing groups pay premium rates for 5G, which is rated as Tier 5 (aka T5 or always-on) based on its reliability. T5 is far less subject to outages and service disruptions.

Such state-of-the-art data centers are expected to attract the largest data processing groups in the world based on their enhanced functionality and amenities. This market also provides another lucrative revenue stream for farmers and tax-equity entrepreneurs interested in sustainability.   

Investors Can Support Sustainability with “free money”
Freedom Farms CEO Geist and TSO Greenhouses Hinson have already raised nearly half a million dollars for Phase One, which will be the prototype of the vertical farming headquarters. They’re seeking an additional $2.5 million to finish the prototype by summer 2021.

Phase Two will be devoted to building 12 larger campuses that will fan out statewide from the headquarters in McPherson, Kansas. The entire $2 billion hub-and-spoke sustainability system is targeted for completion by 2030. Yields are expected to feed nearly 3 million residents statewide including many school lunch programs. Local hospitals, restaurants, colleges, universities, assisted living centers and public agencies are expected to become customers of the same-day harvests.

Investors will be able to reap these profits without ever risking their own money. Thanks to little-known U.S tax credit programs and clean-energy incentives, these projects don’t require a cash infusion. VC firms can "pool" their tax obligations, converting them to credits. This structure sets the project apart from previous urban farms or sluggish VC-funded startups.

Solar panels rotate with the sun so direct sunlight can reach inside the CEA facility and stimulate photosynthesis. Software allows the indoor farmer to create direct sun exposure on certain plants while creating shade for others, all based on each plant’s DNA preference.

The solar panels (modules) can be fully closed facing outward to create 100% shade inside if desired for any length of time controlled by the grower. By using TSO Greenhouses’ technology, vertical farmers and greenhouse growers can control and optimize sun and shade exposure simultaneously. This allows different crops to grow in zones inside the structure tailored precisely to receive the ideal light and shade to maximize plant life and production.

This 11-acre greenhouse will eventually serve as a headquarters to 12 smaller greenhouse hubs across Kansas. What makes this greenhouse unique is its ability to recycle solar energy to grow crops 24 hours a day while powering lucrative 5G data centers.

The first seedlings were planted for the products to be grown in the geothermal greenhouse established on 60 decares of land in Sivasta Hot Çermik region.

120 thousand tomato seedlings were planted in a 60-acre glass greenhouse, which was started to be built a year ago in the region and will be heated by geothermal water, which cost about 40 million lira. Sivas Governor Salih Ayhan, Mayor Hilmi Bilgin and former Sivas Mayor businessperson Sami Aydın Stating that Sivas has gained a great value, Ayhan said: “I congratulate our company, which has brought a very high technology and a seminal service to Sivas, for its courage,”.

I can say that it is one of the projects that excites me the most. Sivas is developing in every field, but there is a completely different development in agriculture. I can say that Sivas has gained a very good momentum in agriculture. We use Thermal not only for health tourism but also for visual and cultural purposes. This place almost added value to the region. Saying that the greenhouse will open a vision for Sivas, Bilgin thanked Sami Aydın for bringing a modern, world-class greenhouse to Sivas. The Çermik Region has been distributing healing for years. I hope Sivas will be a cluster with this greenhouse project.

Sami Aydın also said that they have accomplished a first in Sivas and implemented the thermal smart greenhouse project. Stating that he was happy to realise the first seedling planting of such a facility, Aydın said, This is the first greenhouse project in Sivas, a smart greenhouse. While hot Çermik water has been healing for health until today, it will also be healing for agriculture from now on.

In the seedling planting done in accordance with the social distance rules, the protocol members passed through the disinfectant cabin one by one and were taken to the greenhouse area.

When salesman Jack Hussey finishes his work day, he closes the laptop, leaves his home in Malahide and walks 10 minutes down the road. At the bottom of his friend’s farm sits an outhouse with a coldroom which now hosts his side business, Upfarm. A farm that goes upwards.

Imagine a shelf rack, says Hussey. “We’ve kitted the roofs of each shelf with an LED grow light. It’s to replicate the sunlight basically.”

A photo of the farm shows purple light beaming down on thick heads of lemongrass and basil, stacked on shelves. Yields from vertical farming are far more efficient than in-the-ground farming, Hussey said, on the phone last Friday.

He likens it to real estate. “You can have houses that are populated side by side or you can start going upwards with apartments.”

From Podcast to Table

Hussey always had an interest in food, he says. Last year he and a school friend, Bill Abbott, began to look into urban farming.

“But we were saying, is farming in the ground actually the best route to go?” Hussey says.

It’s labour intensive, which didn’t suit the two guys, who work other full-time jobs. Then, in March 2020, Hussey heard a podcast with American urban farmer Curtis Stone. He had an urban farm where he was using a spin-farming method, says Hussey. “It’s what they call it. You rotate crops out of the ground in a much more efficient way.”

“Essentially he was able to capitalise on a third acre of land. He was able to take in 80k a year,” he says.

Hussey was inspired by that, by somebody making the most of a small bit of land. So in June last year, in the middle of a pandemic and juggling working from home, Hussey and Abbot set about doing the same, albeit with a different model, and launched their vertical farm.

How It Works

Farmony, which specialises in tech for vertical farming, sold Upfarm with the tools to get up and running – shelves, special LED lighting, a watering system and humidifiers. It is the ideal conditions for growing produce, says Framony co-founder John Paul Prior. Nutrients, hours of light, humidity and temperature are controlled in vertical farming, Prior says.

But Farmony is also a data company, Prior says. “So we capture data at all stages of the growing cycle. And we feed that back to the grower.”

This helps the grower to establish the optimum conditions, he says. “That’s not just in terms of plant growth, that’s in terms of workflow management.”

The size of an operation can be the small coldroom in Malahide that uses one Farmony module, and produces microgreens and wheatgrass for sale. Or it can be like a farm in Tipperary with 60 modules, he says. A module is 1 metre wide, 1.3 metres long and 2.5 metres tall, Prior says. Hussey says it is labour-intensive looking after a vertical farm module.

After work last Thursday, he and his dad replanted his microgreen crops into 30 different trays. “It took about two hours,” he says.

What Is the Benefit?

“So as long as you can control your temperature, your humidity, and your nutrient levels in the water, you can basically grow all year round,” says Prior. Vertical farming also means better conditions for workers, Prior says.

“If you’re working in a controlled environment, like a vertical farm, you’re working in a clean environment,” Prior says.

“You work between 18 to 22 degrees. There’s no harsh frost. There’s no extreme cold winters, equally there’s no burning-hot summers.,” says Prior.

The crop is consistent too, says Prior, thanks to the controlled environment.

“Let’s say I’m someone who loves basil and who makes a lot of pesto at home,” he says.

Getting basil of consistent quality from the supermarket can be difficult when it comes from different countries, or may have been sitting on a shelf for days after travelling thousands of miles, he says.

Why Is this Important?

Soil quality is dropping, Hussey says. “What does that mean for outdoor growing?”

The answer, Hussey says, is vertical farming. It uses mineral-rich water so it doesn’t rely on nutrients from the ground, Hussey says.

Says Prior: “Vertical farming uses about 10 percent of the water of traditional farming.”

Prior says it takes less energy to get food from a nearby vertical farm than to ship it from afar. It was not always the case until a breakthrough in another industry, he says.

“Billions of dollars have been invested in the cannabis industry globally. It’s meant that the investment in grow-lighting technology has been huge,” he says.

“As a result, the price, the efficiency and most importantly, the energy efficiency of the lighting is really amazing” he says.

Says Hussey: “It’s not easy work but it is nice work. It’s good work.”

Living Greens Farm (LGF), the largest vertical, indoor aeroponic farm in the US that provides year-round fresh salads, salad kits, microgreens and herbs, announced the addition of significant new retail distribution of its products in the upper Midwest to independent, specialty, and co-op retailers.

Starting February 2021, LGF’s full line of products featuring ready-to-eat bagged salad products (Caesar Salad Kit, Southwest Salad Kit, Harvest Salad Kit, Chopped Romaine, and Chopped Butter Lettuce) will be carried by UNFI Produce Prescott (formerly Alberts Fresh Produce). UNFI Produce Prescott is a division of UNFI, which distributes food products to thousands of stores nationwide. Their focus is on independent, specialty and co-op retailers.

UNFI has eight warehouses nationwide. LGF’s products will be carried by their upper Midwest location, located just across the river from the Twin Cities in Prescott, WI. This distribution center services hundreds of retailers throughout Minnesota, Wisconsin, Illinois, North Dakota, South Dakota, Missouri, Iowa and Nebraska. UNFI is the first national Certified Organic distributor, something they take a lot of pride in. Their produce and floral businesses are rooted in local farms and seasonal import growers.

LGF’s proprietary vertical indoor farming method yields the highest quality and freshest produce available. This is because there are no pesticides or chemicals used in the growing process. And because LGF’s growing, cleaning and bagging process significantly reduces handling and time to the retail shelf, consumers enjoy the freshest product on the market. These benefits continue to attract new users and new retail distribution as UNFI Produce Prescott is the second UNFI location to carry LGF. In December, UNFI’s Hopkins, MN location began offering LGF products.

For more information on why Living Greens Farm products are the cleanest, freshest and healthiest farm salads and greens available, go to www.livinggreensfarm.com.

Fifth Season’s verdant baby spinach screams farm fresh even though it’s grown nowhere near traditional farmland. The sweet and slightly crunchy greens are grown in a Braddock warehouse on racks stacked 30 feet high. Located just a stone’s throw from U.S. Steel’s Mon Valley Works Edgar Thomson Plant, it is urban farming at its core.

What makes the vertical farming operation especially unique is that it is automated and robots call the shots. About 40 to 60 machines are involved in every step of the life of the spinach and other leafy greens, from planting the seed to providing nutrients to the final packing.

Fifth Season does employ local “farm workers” to assist the robots in seeding, harvesting, packaging, quality assurance and control using computer software, but there is no human touch involved through it all.

“The first time someone ever touches the spinach leaf with a finger is when the package is opened,” says Grant Vandenbussche, chief category officer.

Co-founded by brothers Austin and Brac Webb and Austin Lawrence, Fifth Season started a year ago. Within months it was rolling out its baby spinach, leafy greens and salad kits.

“We wanted a name that represents what we are doing,” says Austin Webb, 32, who also is the CEO. “It is a call to the fact we have created an entirely new season. It is 24/7, 365 with the technology we have built.”

None of them planned to become modern farmers, says the Carnegie Mellon University grad, but they turned to vertical farming because it was an efficient, economically sustainable way to solve land and water woes.

‘Fields’ of Greens

Fifth Season grows an equivalent production of 200 acres in 25,000 square feet of grow space. Its “fields” are stacked on top of one another in vertical shelves. When you add up all that surface area of grow space, it is more like 126,000 square feet.

“We also quickly turn crops at the farm,” Mr. Vandenbussche says.

While spinach takes about 40 days to grow outdoors and can be harvested only twice during its peak season, it takes the crop only three or four weeks to grow in the controlled environment and is harvested 19 times. Once the plants are harvested, a new cycle of reseeding begins with fresh media, seeds and nutrients.

“That’s why we get so much more productivity,” he says. “We are immediately reseeding our ‘land.’”

This controlled environment yields quality produce because it is always peak season at Fifth Season, says Chris Cerveny, who heads the Grow R&D division. Greens are grown in the same conditions year-round, getting the exact amount of nutrients and water they need. Because pests and airborne toxins also are kept at bay, crops can be produced without pesticides.

All that TLC comes through in the slightly curled baby spinach, which is sweet and not grassy. The leaf doesn’t wilt or get slimy or lose its slight crunch even after two weeks of refrigeration.

A lot of thought was given even for the curl, which gives the spinach a stronger volume, making it look full and bountiful. The curl also makes the spinach more forkable unlike its flat-leaf counterpart that is hard to stab on a plate.

Other leafy greens such as kale, mustard, Chinese cabbage, green tatsoi and purple pac choi are featured in two blends — Bridge City and Three Rivers. Fifth Season plans to roll out its Romaine lettuce in spring.

The greens also are found in four types of salad kits — Sweet Grains (blended greens, quinoa, chickpeas, corn, feta and poppy seed dressing), Crunchy Sesame (blended greens, farro, sesame sticks, dried cranberries and ginger-mandarin dressing), Toasted Tuscan (spinach, lentils, sun-dried tomatoes, bagel chips and vinaigrette), and Spiced Southwest (blended greens, black beans, pepitas, cotija cheese, corn-salsa sticks and chipotle ranch dressing) — which are available online and in Giant Eagle stores. A fifth salad kit is in the works and is being called “a shakeup of one of the most classic salads.”

While machines are a big part of what Fifth Season does, it seeks to keep human connection alive. It recently launched a recipe blog for those who have an appetite for cooking and writing, The Green Room is devoted to cataloging personal memories, dream meals and recipes via short stories.

Fifth Season also has partnered with the Penguins and is providing greens for the team’s pregame meals for the 2020-21 season.

“We want people in Pittsburgh to be able to eat the exact same delicious blend of greens that Sidney Crosby and company are eating,” Mr. Webb says. “We want people to know that there’s a new way to grow food and to eat and experience it.”

It’s All Under Control

Everything from seeding to packaging is done in four rooms. The process starts in the seeding and processing room, where seeds and growing media are placed inside black planter-like boxes called inserts. Each has a unique code that’s traced by a software system. The inserts go on white trays that pass through a photo station, feeding information to the computer system, and then glide into the bio dome.

There are two rooms in the bio dome, each with a grow space of 12,500 square feet. They’re lit up with a pinkish-purplish glow from high-efficiency LED light bulbs that mimic the different seasons of the year.

“They are positioned over the plants at different heights depending on stage of growth,” Mr. Cerveny says. “This is partly how we can provide consistently ideal growing conditions.”

As the plants grow, they are moved by a robot to optimize their growth cycle. Full-grown crops are transferred to the harvesting room by another robot.

“Harvesting is where it becomes like a Willy Wonka factory,” Mr. Vandenbussche says.

Long rows of trays filled with tiny plants are sent on a conveyor system to a station where workers inspect them for quality with surgical tools. After inspection, the plants are harvested by a robot and then immediately ride up a tall conveyor to be packaged and sealed in a 34- to 36-degree room so they remain fresh.

“Every crop we grow gets evaluated for maximum flavor, volume, crunch and color,” he says.

The plants’ intense, dark color is controlled by LED light bulbs, which are dialed up or down to get the correct hue. Although they never see the sun, the greens don’t get into a funk as humans might.

“What humans see in terms of light and how chlorophyll responds during photosynthesis are two different things,” Mr. Cerveny says. “Plants really only need red and blue light to grow effectively. We include some additional colors to help bring out other quality aspects of our crops, but providing the full sunlight spectrum is effectively a waste of energy, especially indoors.

“To the human eye, it looks like the plants live in a land of purple and pink lights, but they are perfectly happy there.”

Even though the environment is controlled and the software system is constantly updated, no two plants are exactly the same. Some fight for light more than others. Some might fail the quality control test and end up in a compost waste facility if their flavor is off or their color is not right.

“That is what is so amazing. We have more control than any other farmer, and yet we have limitations. Every seed is different,” Mr. Vandenbussche says. “They are plants. They are real living organisms.”

Fort Worth, Texas – Agritecture, LLC, an urban farming consulting and digital services firm, announced it has partnered with Harvest Returns, an agriculture investing platform.

The two companies will work together to accelerate the urban farming and controlled environment agriculture (CEA) industry across the country by offering new entrepreneurs a more accessible way to raise capital. This type of farming can reduce the environmental impact of the food system and increase local food security. 

“The COVID-19 pandemic has revealed the fragility of centralized food production,” said Chris Rawley, CEO of Harvest Returns. “Developing additional indoor farms will distribute growing operations closer to where food is consumed, creating a more resilient food system.” 

In 2020, the USDA offered the availability of only $3M in grants for urban agriculture and innovative production. Agritecture notes that the average CapEx, or startup cost, for controlled environment farms modeled via their Agritecture Designer digital platform is $512,000, and nearly one-third are over $1M.

“Since our founding in 2014, we’ve seen sustained, year-over-year growth in interest toward urban agriculture, especially amongst industry newcomers,” said Henry Gordon-Smith, Founder and CEO of Agritecture. This growth has only accelerated since the onset of the pandemic, according to the team at Agritecture, which reported nearly a 2x increase in website traffic since Q1 of 2020.

“Despite this increasing interest and the record levels of funding for the handful of indoor mega farms, financing continues to be one of the primary challenges for small and medium-scale CEA businesses,” Gordon-Smith notes. “Yet, we know these farms can achieve profitability with competitive payback periods, while still serving their local markets and communities.”

Gordon-Smith cites Agritecture’s 2019 and 2020 Global CEA Census Reports, produced alongside agtech solutions provider Autogrow, which show that nearly half of all CEA facilities are being started by those with no previous farming experience.

Furthermore, per their recent census, 78 percent of CEA business founders who attempted to raise money were unsuccessful in doing so through traditional financing sources, such as banks.

“By teaming up with Harvest Returns and their innovative financing platform, we can now deliver a direct link from our planning services and digital platform, Agritecture Designer, to funding opportunities for these smaller-scale facilities,” added Gordon-Smith.

VANCOUVER, BC, Feb. 3, 2021 /CNW/ - Pontus Protein Ltd. ("Pontus" or the "Company"), is pleased to announce it has made significant progress towards the development of its state of the art, integrated aquaponics facility located in Surrey, British Columbia, Canada (the "Facility").

The Company has submitted a construction application to the City of Surrey for its 20,570 square foot aquaponics facility. The approval process is estimated to be completed within 6 weeks and is expected to be followed by the immediate commencement of construction of the Facility's leasehold improvements. Accordingly, the leasehold improvements are to consist of a complete retrofit of the Facility to establish Pontus' solar-powered, water recycling CEVASTM aquaponic system.

The installation of all required equipment for the growth and production is forecasted to take between four and six months to complete. Upon completion, the Facility will be approximately 20 times the size of Pontus' prior prototype facility. The prototype facility has been used to test and develop the technology for the Company's proprietary growing process.

The Facility, as seen in the image above and video below, will utilize an array of additional technologies to create a clean and sustainable aquaponics ecosystem. Solar energy panels will be installed to capture renewable energy and power the closed-loop water system, which recycles up to 95% of all water inputs. The implementation of the Facility's unique, sustainable technology in conjunction with Pontus' proprietary CEVAS™ automated growth technology will allow the Company to emphasize biosecurity in its agricultural production processes, removing the need for additional chemicals, pesticides, and other non-native components.

Pontus CEO, Conner Yuen states: "Entering the construction application process is a major milestone for the Company as we move toward the commissioning of the Facility. Our aim is to create a state of the art process that will incorporate the latest in sustainable agriculture technology. The ability to implement this highly efficient technology solves many issues we see with current methods of food production such as land scarcity and low yields and contamination.

Pontus' biosecurity and renewable food sources are intended to create a proactive solution to these issues by reducing the potential for contamination and the need for pesticides. Pontus hopes the Facility will revolutionize how traditional agriculture is conducted and show the power of technological food advancements."

Plant-based Protein Powder Market

The Company's plant-based protein powder is a premium entry into the global protein and supplements market, which is currently valued at USD$15 Billion and is expected to grow to USD$20 Billion by 2025 according to Grand View Research. This growth is expected to be fuelled by many North Americans reducing or eliminating the regular consumption of animal products. The North American plant-based protein market is also anticipated to grow at a compound annual growth rate of 14% from 2019 through 2025.

About Pontus Protein Ltd

Pontus Protein Ltd. makes pure plant-based protein powder sourced from nutritious water lentils, farm-grown in Vancouver, BC, with development plans to expand to Surrey, B.C.. Not only does Pontus Protein Powder exceed certified organic standards, but it's also gluten-free, pure and allergen safe. It's jam-packed full of antioxidants, minerals, vitamins and ALL the essential amino acids.

This is not your average lentil, these are water lentils; a crop that can be harvested every 24 hours in an indoor aquaponic farm that uses 95% less water than traditional agriculture, using Pontus' proprietary Closed Environment Vertical Aquaponics System (or CEVAS™) aquaponic agritech technology. This is wonderful news for a planet populated with us hungry and health-conscious humans.

BRIDGEPORT — You will not find any vast acres of fertile soil and crops in the East End neighbourhood. So the state, city and area activists have teamed with an entrepreneur on what they all said they believe is the next best thing: farmland in a box.

Joe Alvarez, founder of High Ridge Hydroponics of Ridgefield, describes it on his website as “an indoor, vertical, hydroponic, shipping container farm to be located in the most urban settings throughout the world.” And the East End — which has been labeled a “food desert” because of the lack of fresh edibles easily available to residents there — will be that urban setting.

“We’re very excited about this,” Keith Williams, head of the East End Neighborhood Revitalization Zone community group, said during a teleconference Friday announcing a $49,999 state grant for Alvarez’s project. “Fresh vegetables. Healthy. That’s what we’re all about — healthy eating.”

High Ridge’s container will produce young micro-greens from broccoli, kale, cabbage, arugula and other plants to be sold at the East End NRZ’s market as a salad mix.

“These greens are harvested after only 10 to 14 days from being planted, which is extremely quick (and) they are super concentrated in nutrition,” Alvarez said.

Friday’s teleconference included several dignitaries who pledged to do everything they can to ensure High Ridge’s success in town, including Lt. Gov. Susan Bysiewicz, state Agriculture Commissioner Bryan Hurlburt, state Sen. Marilyn Moore, state Rep. Andre Baker, Mayor Joe Ganim and Edward Lavernoich of the Bridgeport Economic Development Corporation.

“I hope this project has a lasting and positive impact on your community,” Bysiewicz said. “And I hope it will become a model for other urban areas in our state to grow their own food using innovative technology and techniques.”

“This is not just a shipping container in the city,” Hurlburt said. “This is a much larger, deeper and richer project that we get to celebrate today.”

State Rep. Joe Gresko, D-Stratford, was also included, but wearing a different hat. Gresko works for Ganim continuing a mission started by former Mayor Bill Finch to turn Bridgeport from an ex-manufacturing hub into a leader in the green and environmentally sustainable economy.

It was under Finch that the East End was previously promised an urban green house on the site of the former “Mt. Trashmore” illegal dump. That project, dubbed “Boot Camp Farms” because it would hire veterans, was announced in 2013 and was also supposed to have financial backing from the state. But the developers had no prior experience in that field and the proposal never broke ground.

Alvarez, according to his online biography, “studied environmental science at Fordham University in New York City, graduated in May of 2017 (and) has worked as a private organic gardener, an aquaponic farmer, built greenhouses, maintained greenhouses and designed several custom hydroponic growing systems.”

Hurlburt said he felt confident the new project would be a success.

Alvarez “has limited experience but he knows what he’s doing. ... I know how much Joe was calling us and emailing us and how badly he wanted this grant to make it a reality. I know his heart is right where it needs to be to make it a success.”

“We’re all in this together to make sure Joe has the support he needs to be successful,” Hurlburt emphasized.

There are still important details to be finalized, including getting a site for the shipping container and additional money to cover the full, nearly $150,000 cost. Gresko said that the NRZ was negotiating to use some property and that “when the time comes” Bridgeport will “match” additional private funds Alvarez obtains.

“We’re going to keep an eye on this and troubleshoot as we go forward any issues,” Gresko said.

Alvarez said he hopes to complete construction by the fall. And the colder months are when his crops will be the most needed, said Deborah Sims, who operates the NRZ market.

“After farmer’s market season is over, we have difficulty sourcing (fresh food),” Sims said.

“Three hundred sixty five (days) we’re going to have the greens available,” said Gresko.

Baker recalled how his East End funeral home has hosted some farmer’s markets and called the High Ridge project “a long time coming.” He also told Bysiewicz he hoped similar initiatives to offer more fresh food to his constituents will follow.

“Lieutenant governor, we’re going to be leaning on you and the governor for more support,” he said. “You’re going to hear more from us.”

Having transitioned from politics to agriculture, Danny Ayalon shares how vertical farming, which provides fresh fruits and vegetables all year round, and lab-grown meat can rehabilitate the environment and dramatically reduce household expenditures.

The coronavirus pandemic has drawn attention to humankind's carbon footprint. More than ever before we ask ourselves, how can we become more sustainable? Can we prevent pollution? How can we minimize waste? What about lowering emission levels? Will there be enough food for everyone in the future?

Danny Ayalon, a former ambassador and foreign policy adviser to three prime ministers-turned entrepreneur,  believes that the answer to many of the world's problems lies in modern agriculture. 

Having transitioned from politics to agriculture, he works with Future Crops, an Amsterdam-based company focused on vertical farming – the practice of growing crops in vertically stacked layers that often incorporates controlled-environment agriculture, which aims to optimize plant growth – and MeaTech, a company that creates lab-grown meat.

"Ever since the coronavirus came into our lives, we realized that man is not in charge of the universe," Ayalon told Israel Hayom. 

"Our control over the forces of nature, of Earth, of our future is more limited than we had thought. And when we are no longer in charge of the world, only three things guarantee our lives here: food, water, and energy security. Food, water, and energy are three resources that can be depleted and therefore literally cast a cloud on our world. 

"Experts have come to a conclusion that one of the most important fields to focus on is agriculture, and indeed we are currently witnessing the most significant agricultural revolution ever since the first agricultural revolution that took place about 10,00 years ago."

Q: Back then, in the first agricultural revolution, there was a need for a lot of land. 

"But today we have technology. The name of the game is to reach maximum output with minimum input in the smallest space possible. This is the holy grail of the new revolution. And that is how technology enters the picture. To grow fruits, vegetables and spices today requires lots of space. The technology we developed at Future Crops allows us to minimize the space, increase production and redefine the food supply chain."

Q: How exactly? 

"We have a nine-story hangar in Amsterdam to grow crops like coriander, basil, dill, and parsley. It has LED lights, and each plant gets exactly the amount of light it needs. We are the plant psychologists, [we] listen to all its needs and do everything to make sure the plant grows in the most optimal way. 

"If it lacks something, it immediately receives water. Everything is done without a human's touch. We use algorithms and big data in collaboration with world-class researchers from the Weizmann Institute. It is essentially the application of vertical farming, growing various crops in vertically stacked layers,  in enclosed structures, on soil platforms. 

"For example, if it takes a month to grow lettuce in an open field, in a vertical farm, it takes two weeks, half that time. There's also a significant reduction in water consumption, and no pesticides or sprays are used at all. Also, the produce is available in all seasons; it does not depend on the temperature. Whoever likes mangos and strawberries, for example, will be able to enjoy them all year round."

Q: So if produce is grown faster and within a smaller space, is it going to cost less?

"The prices might be a bit higher today because this technology and the various infrastructures require an economic return of the initial investment in them. With time, the process will become more efficient, and the investments will be repaid, so in the end, the prices that the consumer will need to pay will be lower than today. 

"Let me give you a simple example. Do you know how much a kilogram [2.2 pounds] of basil costs in Europe today? €90 ($108). In Israel, the price is €20 ($24). In the [United Arab] Emirates, where almost everything connected to food is imported – the prices go accordingly as well. Once you have more innovative vertical farms, consumers will pay much less."

Q: Should we expect vertical farm skyscrapers to pop up all over? 

"I'm not sure that we will need skyscrapers, as with time the facilities will become smaller. Imagine that in every supermarket there will be a vertical produce stand with all the vegetables and spices, and later also fruits which you pick on the spot, without the need to move the produce from place to place. That is why vertical farming is also called urban farming, meaning there is no need for fields; you can grow [produce] on the rooftop. No resource limits you."

Q: What about the taste? 

"Ours is a fresher and tastier product. I ought to give credit to the Weizmann Institute here. The challenge for them wasn't the quality of the vitamins but the taste, and they managed to achieve a great taste. In the Netherlands, Future Crops already sells parsley, and it tastes outstanding."

Q: Regular parsley lasts for about two weeks in the fridge. What about Future Crops parsley? 

"Our parsley has a two-month shelf life, and it does not oxidize within a week or two."

Q: If every country will be self-reliant in terms of agriculture, do you think it will affect relations between countries? 

"Economies will become self-sufficient eventually, which will ensure security with far fewer conflicts. There is less and less water in the Middle East, which might someday lead to tensions. We hope technology will reduce the tensions between countries, and territory will be less critical. Our world faces crucial challenges. Food and water security have the potential to either divide or bring us together and ensure our long-term existence. 

"By the way, in every developed Western country, like the United States, Australia, and also in Europe, issues of food security, climate, and greenhouse emissions are on the top of the political agenda. We are not talking about it [in Israel,] as security and foreign affairs take the central stage, but Israel does have a lot to offer here."

Q: Do we have the potential to become the Silicon Valley of advanced agriculture? 

"Israel takes tremendous pride in its actions that help save the world. Will we become the Silicon Valley of agriculture? There is no doubt about it. We can already see foreign investors who come here to look for opportunities, including my business partner Lior Maimon, co-founder and CEO of Silver Road Capital, and Steven Levin, one of the leaders of the US food industry. Silver Road Capital is a holdings and financial advisory firm with a broad portfolio of high-tech companies, as well as agricultural and food technologies, and represents international companies and funds in investments in Israel and the world. 

"Future Crops's goal is to raise 35 million shekels on the Israeli stock exchange to invest in enlarging the existing facilities and [set up] other production lines and facilities in Europe and other continents. We cooperate with the Albert Heijn supermarket chain [in the Netherlands] and a leading food chain in France."

Q: Vertical farming is estimated at $3 billion. Google and Amazon have invested hundreds of millions in the field as well. What is their goal? 

"A simple answer would be profit. A longer answer is that they [large corporations] understand that food has the highest demand. People cannot live without food and water, and Google and Amazon understand that potential."

Q: US President Joe Biden took office with the largest team of climate experts ever. That ought to give the field momentum. 

"Green energy and vertical farming will get a considerable boost. Climate change and green energy are well-rooted in the Democratic Party's ideology. 

"It is also possible that large companies entered the agriculture fields precisely because of the Biden administration; they are worried about their future. They are afraid of a certain dismantling, so focusing on secondary fields is part of a security scenario for them."

Q: Biden also wants to address greenhouse emissions, which are the result of the food production industry, mainly meat. Are Amazon and Google's food counterparts - McDonald's and Burger King - looking for meat substitutes?

"Firstly, cultured [lab-grown] meat does not require grazing land, cows do not need to be fed, and so much land can instead be turned into forests that support the environment. This is an optimistic industry that leaves us with a better world. 

"As for the meat alternatives market, there are two major companies in the US that produce plant-based protein, Beyond Meat, and Impossible Foods. 

"Impossible's burgers are already at Burger King, McDonald's has partnered up with Beyond Meat, and last November, it announced that it would create its own plant-based burger. 

"The problem is that pea protein [used in plant-based burgers,] does not have all the amino acids that animal protein contains. Also, they need to add additives to supplement for taste and smell.

"At MeaTech, where I'm a director, we are on our way to producing animal meat, cultured meat, real stakes: we take a cow's own stem cell from which meat can be produced in almost unlimited quantities. We also use 3D digital printing technology. And we also created a thin layer of meat, carpaccio. Needless to say, no cow was harmed in the process."

Q: Why do you use 3D printers? 

"Because there is no need for a human being's involvement. It is relevant now during the coronavirus pandemic when the food supply chain is disrupted. With such printers, your production can continue without delays, whenever you want. 

Also, it is theoretically possible to provide food for space flights. Astronauts who go out into space will not have to take food with them; rather, they will be able to produce it on the spot.

"People understand that crises like the coronavirus can disrupt the supply chain and are looking for alternatives. A 3D printer allows restaurants, supermarkets, and butcher shops to have meat without relying on the supply chain."

Q: The death rate from obesity is higher than the death rate from hunger. How will cultured meat affect these statistics? 

"It is possible to create meat with much less fat and more protein in each portion and add various nutrients in the future to strengthen the immune system and prevent disease. This, of course, requires a lot of research and approvals. Just like there's talk about customized medicine, so it will be possible to produce food that suits a person's genetic structure and body in the most optimal way."

Q: Will the cost of this meat also be optimal? 

"They will cost more in the beginning compared to regular meat because there are initial costs that have to be repaid. When it becomes a mass production, prices will drop over time."

Q: With your vast experience in politics, what do you think of Israeli politics these days? Do you ever consider a political comeback? 

"No election campaign goes by without someone making me an offer [to return to politics] but I'm not interested. Unfortunately, the Israeli government, and all governments in the Western world, have not been able to run their countries properly in recent years.

"For example, more of the government's national taks are transitioning to the private market or the third sector. We see that associations [are the ones] who take care of the needy, establish settlements in the Negev and in the Galilee, bring immigrants to Israel and provide Israelis with information. All these things should be done by the government.

"The Israeli government lacks vision, ideologies, every matter is personal and is charged with negative sentiments. If I do return one day, it will only happen after we change the government system which will take its power from small [political] parties.

"In my opinion, we need to transition to a regional choice, by district. This will result in higher quality politicians. How so? Because whoever wants to be elected will need to run and convince the people who live in his area and district, and they are the ones who know his activities best. Also, closed primaries should be avoided because they make all kinds of deals possible. That needs to change."

In an emerging industry with companies eager to prove their technologies’ worth, Sensei Ag remains form-factor agnostic, meaning that the agtech company remains unbiased towards different farm hardware solutions – focusing more on software and plant biology.

Sensei Ag is a market-changing agtech company that develops agile growing solutions through a highly iterative approach to farming, focused on improving the nutritional quality of fruits and vegetables while also reducing production costs. The company combines plant science, computer vision, machine learning, automation and artificial intelligence into its growing systems.

According to Sensei Ag CEO Sonia Lo, remaining form factor agnostic is key to the company’s mission of providing hyper-nutritious food to as large a consumer base as possible, which it achieves through both vertical farms and greenhouses.

“We believe that the most robust data comes from operating farms of multiple types. So, not just vertical farms, but also low-tech and high-tech greenhouses. And with vertical farms, we are looking at a number of form factors. Our end goal is to be  a grower’s resource and know more about growing at scale with different form factors than anyone else.”

The company is also a strong advocate for open data in the vertical farming industry, which is currently lacking, as evidenced by the siloed development of multiple systems and products, some of which cannot be easily integrated into third-party systems.

“There are lots of data flows and increasingly inexpensive farm management systems. The question, then, is the organization of data into intelligence. Intelligence facilitates autonomy, and as we manage data flows, more farms can become autonomous. But I don’t think autonomy will happen until we start sharing data. For example, we saw an automation supplier with a great robot.

The problem was the robot only works in their ecosystem, so you have to buy the whole farming solution in order for the one robot to work. Ideally, that robot would be plug and play and be able to work in greenhouses and vertical farms,” says Sonia.

According to Sonia, open data in the vertical farming industry may currently be restricted by the dominance of venture financing, which has its own return mandates to fulfill and sometimes wants a “winner takes it all” mentality for the ventures it chooses to back. While such financing has allowed the vertical farming industry to emerge, it may ultimately hinder the industry’s scalability and information sharing.

“There is definitely a capital model in Silicon Valley and in venture capital world in general which is not focused on profitability but is focused on technological achievement and market penetration. We saw this in solar and in the renewables industry when multiple venture capital funds invested in solar assets. Then, the bottom fell out because government subsidies fell away in certain jurisdictions.

I hope that agricultural infrastructure currently financed by venture capital will not necessarily follow the same pathway as solar, but will instead find a public-private partnership model. At some point, these farms need to demonstrate a profit for the debt capital markets to allow scale to occur.”

By embracing open data and transparency, Sonia explains that the vertical farming industry can further mature and iterate with technology to continue lowering costs. By continuously collecting and sharing data from different farm forms, the vertical farming industry would have better insights into the true costs which, according to Sonia, “helps drive scale because it enables the finance community to understand how the farms can be risk assessed and financed.”

Looking ahead, Sensei Ag hopes to form partnerships around the world to bring its innovative, data-driven growing systems across the globe. Taking the Middle East, China and Japan as examples, Sonia explained that the goal would be to choose strategic partners in each region whose local knowledge and business prowess would allow Sensei Ag to iterate its technologies appropriately and serve local markets, bringing cost-competitive farming techniques and nutritious, local produce around the world.

As with most issues that impact national security in Singapore, it often seems that the odds are stacked against us.  Food security — access to safe and nutritious food — is a challenge on several fronts. 

Singapore is a small city-state with limited resources, with only 1 per cent of land available for food production, and over 90 per cent of food is imported from an increasingly disrupted world. The Covid-19 pandemic has further amplified the gravity of safeguarding food security.  The city-state has been proactively planning for long-term food security through the Singapore Food Agency’s (SFA) strategy of “three food baskets” — diversifying food sources, growing locally and growing overseas.  This approach has served the Republic well in securing a supply of safe food.

DIVERSIFIED SOURCING IS KEY

Singapore’s food importers leverage the nation’s connectivity and the global free trade environment to import from multiple sources in about 170 countries and regions worldwide.  Should there be a disruption to any one source, importers are able to tap alternative food sources and ensure supply remains stable. Lockdown measures brought about by Covid-19 underscored Singapore’s vulnerabilities to supply disruptions in food. 

It was not by luck that the Republic’s food supply remained stable and market shelves continued to be promptly restocked — it was the result of a deliberate whole-of-government strategy to diversify food sources. To keep the nation’’s diversified food supply lines intact amid the Covid-19 global pandemic, SFA worked closely with the Ministry of Trade and Industry and Enterprise Singapore (ESG) to monitor Singapore’s food supply situation. Together with the Ministry of Foreign Affairs, these economic agencies worked with like-minded countries to maintain open trade links.

LOCAL PRODUCTION AN IMPORTANT BUFFER

SFA drives innovation in local farms with the ambitious goal of producing 30 per cent of Singapore’s nutritional needs by 2030 as part of our “30 by 30” plan.  To meet this goal, we need a holistic and long-term approach to space-planning, boosting agri-food technology and developing local agri-specialists. To facilitate and support the establishment of high-technology and productive farms in Singapore, SFA tenders out land based on qualitative criteria such as production capability, production track record, relevant experience and qualifications, innovation and sustainability.

In addition, a masterplan for the greater Lim Chu Kang (LCK) region, spanning about 390ha of land, will be undertaken in consultation with stakeholders over the next two to three years.  The redeveloped LCK agri-food cluster will produce more than three times its current food production.

Building on the above efforts to grow Singapore’s high-tech agri-tech sector, SFA will continue to partner with the Economic Development Board and ESG to attract best-in-class global agri-tech companies, as well as to nurture promising homegrown agri-tech companies into local champions and help them to expand overseas.

EXPLORING ALTERNATIVE, UNDERUTILISED SPACES

Urban food solutions are expected to play a key role in global food security.  While there are progressive enterprises operating out of farmlands and industrial estates, some agricultural game-changers are also taking root in unconventional areas — indoors, on rooftops and in underutilised spaces.

SFA worked with the Singapore Land Authority to introduce an urban farm at the former Henderson Secondary School site, which was transformed into Singapore’s first integrated space comprising an urban farm, childcare centre and nursing home within a state property.  The farm space within the site was awarded in May 2019 to social enterprise City Sprouts, and it has become a vibrant destination for the young and old to learn about urban farming and enjoy a relaxing day out.

Citiponics, the first commercial farm located on a multi-storey car park in a residential neighbourhood, harvested its first yield of vegetables in April 2019.  In September 2020, another nine sites atop multi-storey car parks were awarded for urban farming. 

The successful bidders included proposals for hydroponic and vertical farming systems with a variety of innovative features, such as the Internet of Things (IoT), blockchain technology and automated climate control.  These sites have the potential to collectively produce around 1,600 tonnes of vegetables annually.

TAPPING TECH

The Agriculture Productivity Fund (APF) supports local farms in their capability development and drive towards higher productivity.  Through APF, SFA co-funds the adoption of farming systems to better control environmental variables, test-bed technologies and boost production capabilities. Between October 2014 and September 2020, a total of almost S$42 million has been committed to 115 farms.

The Covid-19 pandemic presented greater impetus to speed up local food production capacities. In September 2020, SFA awarded S$39.4 million to nine companies under the 30x30 Express Grant to quickly ramp up food-farm outputs over the next six months to two years. With advanced robotic and digital systems increasingly being used in farming, Singapore’s vegetables farmers have also become innovative agri-engineers and specialists in their own right.

With support from the 30x30 Express Grant, urban farming engineering solutions firm Indoor Farm Factory Innovation will set up an indoor vegetable farm with a vertical integration growth system up to 8m in height in a fully controlled and pesticide-free environment.  The farm will leverage artificial intelligence farming systems integrated with IoT monitoring, dosing irrigation and an advanced environmental control system to achieve optimum growing conditions all year round.

Seng Choon, a chicken egg farm that has been in business for more than 30 years, has also proved itself a modernist in its operations.  The company uses a computer that scans eggs to ascertain if they are clean; while feeding systems, temperature controls and waste cleaning systems have been automated with SFA’s support. Singapore’s efforts at ensuring food security would not be complete without support from consumers.  To boost recognition of local produce among consumers, SFA brought the industry and public together to create a new “SG Fresh Produce” logo. 

Farmers have been using this emblem on their packaging since August 2020. A website was also launched to provide a trove of information on locally farmed food. While the Covid-19 pandemic has led to import restrictions, it also helped to accelerate support for local produce. With public support for local farmers and other key measures, Singapore can beat the odds in ensuring food security in this ever-evolving, ever-disrupted world.

A bold vision for feeding the population of Leeds would transform the city into a far more food secure, fair and sustainable place to live.

Analysts from the University of Leeds’ Global Food and Environment Institute studied the city’s food system to assess its resilience in the face of supply chain and delivery disruptions caused by severe weather, climate change and events such as the COVID-19 pandemic and Brexit.

The urban food system includes all the activities involved in the production, distribution and consumption of food within a city. 

They mapped and analysed publicly available data relating to agricultural production and human health in the metropolitan district and discovered that 48.4% of the city’s total calorific demand can be met by current commercial food production activities. 

This is relatively high for such an urbanised space, but there is little diversity in what is being produced. Three cereal crops (wheat, barley, oats) dominate the Leeds production system, reflecting a post-war food system that focused on energy supply. This means that most of the fruits and vegetables consumed in the city are transported in from elsewhere. 

The researchers’ findings also show that the most deprived areas of the district, which have higher rates of obesity, diabetes, and cardiovascular disease, are also likely to be the first to be impacted by supply disruptions. The resulting food shortages can increase prices, and people on low incomes may not have the option to travel to larger supermarkets or afford to bulk buy. 

The researchers say there are no quick and easy options for significantly increasing the security, fairness, or sustainability of the food system supplying Leeds. 

But they say the metropolitan district’s sizeable number of farmers, manufacturers, suppliers, and food services could all contribute to improving its food resilience by creating a system which provides easy access to healthy foods, shares energy, reuses water and nutrients and repurposes local infrastructure and resources. 

Caroline Orfila, who led the study, published today in the journal Food Security, is Professor of Plant Biochemistry and Nutrition in the School of Food Science and Nutrition. She said: “Our work demonstrates the inequalities in food production and dietary health. 

“The local food production system can only provide around 50% of the calories needed by the population, highlighting that ‘eating local’ is not currently possible for everyone. In particular, the local food system would not provide sufficient protein or fats. The lack of food diversity suggests current food production is also unlikely to meet vitamin and mineral requirements. 

“Any disruptions to food production, distribution or retail, from flooding, longer term climate change, COVID-19 or Brexit, is likely to impact those in deprived areas the most. 

“Disruptions tend to cause shortages in some food categories, which then increase food prices. People on low incomes spend more of their income on food; any increases in food prices will limit what they can afford to buy. 

“People in deprived areas have limited choice of where to buy foods, they may not have private transport to access larger supermarkets or access to online shopping. They may also not have the cash flow or storage space to buy items in bulk, relying on what is available. 

“Interventions are needed to level up those areas.” 

Researchers identified more than 1,000km2 of warehousing, derelict land, and unused floor space in abandoned buildings, with direct or possible connections to renewable energy and water. 

Half of this land lay near food banks, community centres and numerous food processors and outlets. 

The land could potentially be used for no waste innovative farming techniques, including vertical food farms, where crops are grown in vertically stacked layers; green walls, where plants grow on vertical surfaces, and rooftop agriculture, where fresh produce is grown on top of buildings. 

The study found that within the metropolitan district of Leeds there is substantial food activity with more than 5,500 businesses and charities supplying fresh and prepared food, including fast food providers, restaurants, and supermarkets. Some 23 food banks are located within the inner-city area. 

There are almost 100 hectares of allotment controlled by Leeds City Council, and approximately 39 hectares of private allotment and community growing areas in the Leeds Metropolitan District. 

Lead author Dr Paul Jensen, also from Leeds' School of Food Science and Nutrition at the University of Leeds, said: “We found there are numerous underutilised city assets that could be incorporated into a resource efficient urban food ecosystem, which could include a mix of vertical farming, hydroponics, or more conventional growing methods. 

“Most notably, many of these areas are within those suffering most from food poverty, diet related health issues and a limited intake of fruit and vegetables - those who are usually the first to suffer during a crisis situation.” 

The research identified locations for ‘food hubs’ that connect producers to consumers and discuss the need for a coordinated approach between producers, government, charitable groups and consumers in creating a more sustainable food system. 

The research was carried out with FoodWise Leeds, a not-for-profit campaign by Leeds City Council, the University of Leeds, businesses and charities to address food health and sustainability issues. 

FoodWise Leeds co-ordinator Sonja Woodcock, said: “This past year has highlighted how vulnerable the local food system is. Taking a coordinated approach and implementing available policy levers, such as including local food within public procurement contracts, increasing access to land for both commercial and community food growing, as well as investing in cooking and food skills will help to create a more resilient and fair local food system.” 

Professor Orfila added: “These findings are significant because it shows the vulnerability and inequality of UK cities and urban food systems. The situation in Leeds mirrors the situation in many other cities worldwide.” 

Professor Steve Banwart, Global Food and Environment Institute Director said: “The results of this study provide essential evidence to guide access to nutrition for the entire population. The project dramatically changes our view of what is a city and what is a farm and catalyses our partnerships to build a more resilient community.”

Further Information

‘Mapping the Production-Consumption Gap of an Urban Food System: An Empirical Case Study of Food Security and Resilience’ and is published on 8 February in the journal Food Security. It is available online here:https://link.springer.com/article/10.1007/s12571-021-01142-2. 

For media enquiries, contact University of Leeds press office via pressoffice@leeds.ac.uk.

BOSTON, 2021 – Building off its successful 2020 virtual Women in Agribusiness (WIA) events, U.S.-based HighQuest Group has announced the lineup of events for 2021, starting with the Women in Agribusiness Summit Europe virtual conference on 8-10 March 2021.

The three-day virtual event, with live content from exceptional speakers, will continue the year-round agribusiness conversation among the Women in Agribusiness (WIA) community, which is thousands strong and growing each day. The Summit will include two virtual tours, an integrated platform that is the portal to knowledge and networking, and the promise of connecting with speakers and attendees from several countries.

The agenda includes discussions on how upstream agriculture in the EU can be made more sustainable, opportunities in plant-based foods, supply chain challenges and possibilities, and a special two-hour strategic networking workshop. Speakers include Jaine Chisholm Caunt, director general of GAFTA; Geraldine Kutas, director general, European Crop Protection Association; and Dorothy Dalton, CEO of 3Plus International Ltd. Registration is now open, along with the chance to take a peek at the 2020 U.S. event to learn more about the conference.

“If the last year has shown anything, it is that staying connected is imperative to advancing your business,” said Joy O’Shaughnessy, event director and chief operating officer of HighQuest Group, the parent company of Women in Agribusiness. “Our commitment in providing networking opportunities to nurture and expand, as well as the knowledge and know-how to stay relevant, has not waivered during a year of unknowns, and we are grateful to continue to service the WIA community.”

Along those lines, WIA announced the start of its European WIA Meet Up dates for 2021. WIA Meet Ups are a night of networking from the comfort of one’s own home, while making new contacts and building new business relationships.

Admission is free to WIA members (US$10 for non-members), and one can join and register here: womeninag.com/membership.

2021 Virtual WIA Meet Up – Europe

· Thursday, 14 January – 6 p.m. CET

· Thursday, 11 February – 6 p.m. CET

Connect With Opportunity

In keeping with opening new doors within the ag sector, Women in Agribusiness has introduced the WIA Career Connector. The multi-tiered website offers opportunities for both employers and job seekers in its goal to connect talent with opportunity. Visitors to the site – careers.womeninag.com – can post new jobs, examine featured jobs, search by candidate, and get assistance with resume creation, job interview skills and much more. The world’s largest food and ag companies are already using the WIA Career Connector, and its contents will be freely shared with the WIA community of over 10,000.

Visit womeninag.com to make plans now to join the burgeoning WIA community in 2021. Also visit us @Womeninagri, on Facebook and LinkedIn.

# # #

About Women in Agribusiness

The annual Women in Agribusiness Summit in the U.S., which started in 2012, is renowned for annually convening close to 1,000 of the country’s female agribusiness decision-makers, with 30 percent at the CEO/executive level and another 25 percent at department management level. Women in Agribusiness Summit Europe debuted in Barcelona, Spain, in February 2015, which was praised by an executive in attendance for being “a solutions-oriented event that also brought up current trends in the market” and “a uniquely-focused agricultural event for women”.

WIA initiatives have grown to include the WIA Membership, WIA Demeter Award of Excellence, Scholarships, and the WIA Today blog. Learn more at womeninag.com.

VANCOUVER, Wash. — The year 2020 has forced a number of disruptions to our daily lives, so what if we have more years like it in the future? How will we make sure our communities can survive by getting vital resources, like food?

The answer may be growing inside an old Hewlett Packard plant at the Vancouver Tech Campus in Washington.

Forward Greens is probably not what you picture when you think “farm”: vertical floor to ceiling stacks of planters filled with microgreens and baby greens, growing under LED lights

“Rather than growing out in an outdoor field, we’re growing up,” says Forward Greens CEO and Founder, Ken Kaneko. “We’re able to control the temperature, the humidity, the airflow, as well as the lighting,” he says.
From arugula to kale to broccoli, everything growing inside this urban, indoor farm wouldn’t be growing outside on a chilly November day in the Pacific Northwest.

From start to finish, the whole process of farming is essentially done in one room. In just a week or two, the greens are on their way to grocery stores in Portland, Vancouver, and Seattle.

Kaneko, who had worked for Intel and more recently, Apple, founded Forward Greens in 2017 after a trip to Japan. There, he stumbled upon his first vertical farm.

“I thought, ‘man, it would be great if I can bring this back to the Pacific Northwest and essentially do it better, cheaper, and more efficiently,'” said Kaneko.

Kaneko says Forward Greens never uses any pesticides, fungicides or herbicides and it uses 95% less water and 99% less land than traditional outdoor farming. But, he says, it uses a lot of energy to power the lights.

“Any engineering problem has a balance of cost, time, environmental impact, but the whole mission of this business is to balance those in a positive way towards the environment,” Kaneko said.

So could this be the farming of the future?

OSU Professor of Horticulture, Gail Langellotto, is pretty certain that it’s not. “In the near future, I can’t imagine a future where only agriculture is indoor agriculture,” she says, pointing to the high start-up costs, the higher cost of labor, and the expensive and taxing energy use.

She says traditional, outdoor farming will be difficult to replace because of the efficiency, precision and scale the industry has mastered and is constantly improving.

But Langellotto adds that if we have more years like 2020, with the pandemic and destructive wildfires on top of climate change, indoor farming will be an asset. She says urban farming is robust to disruptions in the local food system.

“If there are some supply and transport issues that delay or limit the amount of food that can be brought into urban areas from more rural, further out regions, then you already have an urban food production system in the proximity of where the majority of people live,” Langellotto said.

Kaneko is encouraged by the fact that urban farms can be a huge asset, saying, “we don’t know what’s going to happen with respect to the wildfires, the pandemic, the climate, so we’re able to provide local and sustainable food regardless of all those parameters.”
And that may be why Kaneko says demand for indoor farms is increasing. In fact, he’s expanding and doubling production at the Vancouver location in the next couple months. But he’s looking even further ahead to an even brighter future.

He hopes to put a Forward Greens in every metropolitan area, so we don’t fall to the fate of those HP printers that used to be built where his plants now grow.

KATU2 ABC Forward Greens
by Wesleigh Ogle, Thursday, December 3rd 2020

Published by Dani Kliegerman, iGrow News

02/10/2017

by Lacy Cooke

This vertical farm in Singapore grows a whopping 80 tons of veggies every single year. The farm was founded by Panasonic, and it uses LED lights to quickly and efficiently grow produce indoors without depending on unpredictable weather conditions. Panasonic believes indoor farming is a key to the future that could solve food supply issues worldwide.

Panasonic started their indoor farm in a 2,670 square foot space and initially produced 3.6 tons of vegetables per year. But the company’s Agriculture Business Division assistant manager Alfred Tham recently told Business Insider that the farm has quadrupled its square footage and food output.

Related: Futuristic Japanese indoor vertical farm produces 12,000 heads of lettuce a day with LED lighting

Vertical farming allows Panasonic to make the most of the warehouse space, although they do grow their plants in soil in contrast to many vertical farms. They source their LED lights from a local company. Rather than depending on sunlight or rain showers, the farmers can control the indoor farm’s climate – including pH levels, temperature, and oxygen.

40 varieties of crops grow in the indoor farm – from mizuna to romaine lettuce, mini red radishes, and Swiss chard. But the goal is to start cultivating 30 additional varieties by March of this year. Right now the flourishing farm accounts for just 0.015 percent of produce grown in the country, but Panasonic hopes to boost that statistic up to five percent. As Singapore currently imports more than 90 percent of its food, indoor farms could enable the island nation to become more self-sufficient.

Panasonic is selling the indoor farm’s produce under the brand name Veggie Life, and a three-ounce bowl of greens goes for around $5 in grocery stores. They also sell their produce to local restaurants.

Via Business Insider

Images via Panasonic (1,2)

Lifestyle  Food  Sustainable  Agriculture, Food, Gardening, News, Sustainable

Jerusalem Post

There is no doubt that one of the biggest challenges of the next years will be feeding the massive growing population all over the world.

By JERUSALEM POST STAFF   JULY 12, 2020

There is no doubt that one of the biggest challenges of the next years will be feeding the massive growing population all over the world. In 50 years, the world’s population is expected to grow by another 2 billion people and due to urbanization one of the problems would be a lack of arable lands. 

In recent days where the world pandemic is impacting global food systems, disrupting regional agricultural value chains, and posing risks to household food security there is a heightened awareness of food safety for producers, businesses, governments, and consumers. With border closures and quarantines, supply chain and trade disruptions could restrict people’s access to sufficient and nutritious sources of food. 

 Vertical agriculture is one of the hottest trends which aim to solve these problems. "Vertical Field" an Israeli company, developed vertical urban farms and active living walls, functioning as growing solutions for smart cities. Vertical Field was established by Mr. Bar-Ness in 2006, motivated by his green thumb and ambition to bring sustainable nature-based solutions into the urban lifestyle. "We understood people’s need to surround themselves with a green, healthy environment" explains Guy Elitzur, the company's CEO.

 Vertical Field has developed soil-based solutions, for green cities but mainly for vertical urban food supply. One of the main solutions that the company is focusing on is a vertical, soil-based system for urban farming in any indoor or outdoor space. Vertical Field geophonic growing method has a unique platform comprised of a container with its own sensors, irrigation, and lighting systems and in-house monitoring software which automatically manages all growth phases allowing for less human handling and a more sterile environment in order to grow fresh, healthy and free of pesticides produce all year long.

Osnabrück University of Applied Sciences

July 3, 2020

In October of the previous year, the Osnabrück University of Applied Sciences announced that a new research center "Agricultural Systemys of the Future" would be created on the Haste campus. The expertise from the research center will also be incorporated into the ZIM network "AgrarCycle". Graphics: Hüdepohl.Ferner Architektur- und Ingenieurges.mbH

In the network for agricultural systems development, the university works closely with research and development institutions, small and medium-sized companies, and start-ups. Cooperation with partners from the IT, engineering, and agricultural sectors should result in highly innovative approaches for food production.

(Osnabrück, July 2nd, 2020) In the coming months and years, a research team from Osnabrück University of Applied Sciences wants to set up a highly innovative network of science and business under the name "AgrarCycle" in order to sustainably promote vertical agriculture in Germany. The project is being funded with more than 120,000 euros from the Innovation Program for Small and Medium-Sized Enterprises (ZIM) of the Federal Ministry for Economic Affairs and Energy.

In vertical agriculture, vegetables and fruits are grown in multi-story buildings. This system does not require direct sunlight or arable land because the plants grow in nutrient solutions under artificial light or daylight. In addition to efficient use of space at height, food can be produced in an indoor vertical farm (IVF) in reliable, weather-independent quality. In addition, the use of pesticides can largely be dispensed within production in closed and controllable agricultural systems of an IVF. "This will make it possible for people in urban areas to be supplied with locally produced food in the future," says Prof. Dr. Andreas Ulbrich, professor of vegetable production and processing.
 

Further project partners are welcome

Food from an indoor vertical farm is still too expensive, partly because of the higher electricity consumption. With regard to an IVF, for example, the project proposal states: "Apart from additional costs, the costs of energy consumption of 7 kWh per kilogram of leaf lettuce are already over one euro." To significantly reduce production costs, there is above all a lack of innovative power electronics. With the help of the ZIM network, that should change. "With the various project partners, we want to find ways to reduce emissions and use resources more efficiently," explains Prof. Dr. Hans-Jürgen Pfisterer, Professor of Electrical Drives and Fundamentals. "We want to meet the requirements of nutrition and health-conscious consumer groups and bring new herbal product innovations to the market",

This should succeed both with partners who support the network financially and with associated partners who ideally support the network. The time for the project seems favorable in many ways: In July of last year, the Faculty of Agricultural Sciences at the University of Göttingen published a study that concluded that every second consumer would buy products from vertical agriculture.

Additional project partners from science and industry are being sought for the "AgrarCycle" network. "The vision of the ZIM network AgrarCycle is the further development of closed and controllable agricultural systems with all components and stakeholders along the entire agri-food value chain so that they are climate-resilient, efficient, quality-oriented and economical, and energy and material cycles are optimized and closed can ”, says the project application.

Further information:

Prof. Dr. Hans-Jürgen Pfisterer
Phone: 0541 969-3664
Email: j.pfisterer@hs-osnabrueck.de

Prof. Dr. Andreas Ulbrich
Phone: 0541 969-5116
email: a.ulbrich@hs-osnabrueck.de

Background: The ZIM network "AgrarCycle - Network for agricultural system developments to increase efficiency and climate-secure production of vegetable raw materials through energy and material cycles" is large. Regular partners are: DIL German Institute for Food Technology; ISFH - Institute for Solar Energy Research; DH Light - Professional Lighting; RAM measurement and control technology; Gefoma; Thissen Analytics; Cultinova Experior Microtech; Ingenieurbüro Mencke & Tegtmeyer; Anedo and Hagedorn Software Engineering. Associated partners are: Seedhouse - InnovationsCentrum Osnabrück; Knowledge networking Weser-Ems - bioeconomy Landkreis Osnabrück; Mählmann vegetable growing; ELEA; ELO eG; Vrielmann; K + S and TROX HGI.

By: Holger Schleper | Jasmin Schulte