BY SRISHTI MITRA

06/09/2021

Skyscrapers have taken over most of the major cities today. They’re symbols of wealth and power! And most of the skylines today are adorned with glistening glass skyscrapers. They are considered the face of modern architecture. Although all that glass and dazzle can become a little tiring to watch. Hence, architects are incorporating these tall towers with a touch of nature and greenery! The result is impressive skyscrapers merged with an element of sustainability. These green spaces help us maintain a modern lifestyle while staying connected to nature. We definitely need more of these green skyscraper designs in our urban cities!

Zaha Hadid Architects designed a pair of impressive skyscrapers that are linked by planted terraces, for Shenzhen, China. Named Tower C, the structure is 400 metres in height and is supposed to be one of the tallest buildings in the city. The terraces are filled with greenery and aquaponic gardens! They were built to be an extension of a park that is located alongside the tower and as a green public space.

Polish designers Pawel Lipiński and Mateusz Frankowsk created The Mashambas Skyscraper, a vertical farm tower, that is in fact modular! The tower can be assembled, disassembled and transported to different locations in Africa. It was conceptualised in an attempt to help and encourage new agricultural communities across Africa. The skyscraper would be moved to locations that have poor soil quality or suffer from droughts, so as to increase crop yield and produce.

The Living Skyscraper was chosen among 492 submissions that were received for the annual eVolo competition that has been running since 2006. One of the main goals of the project is to grow a living skyscraper on the principle of sustainable architecture. The ambitious architectural project has been envisioned for Manhattan and proposes using genetically modified trees to shape them into literal living skyscrapers. It is designed to serve as a lookout tower for New York City with its own flora and fauna while encouraging ecological communications between office buildings and green recreation centers. The building will function as a green habitable space in the middle of the concrete metropolis.

ODA’s explorations primarily focus on tower designs, in an attempt to bring versatility and a touch of greenery to NY’s overtly boxy and shiny cityscape. Architectural explorations look at residential units with dedicated ‘greenery zones’ that act as areas of the social congregation for the building’s residents. Adorned with curvilinear, organic architecture, and interspersed with greenery, these areas give the residents a break from the concrete-jungle aesthetic of the skyscraper-filled city. They act as areas of reflection and of allowing people to connect with nature and with one another.

Heatherwick Studio built a 20-storey residential skyscraper in Singapore called EDEN. Defined as “a counterpoint to ubiquitous glass and steel towers”, EDEN consists of a vertical stack of homes, each amped with a lush garden. The aim was to create open and flowing living spaces that are connected with nature and high on greenery.

Designed by UNStudio and COX Architecture, this skyscraper in Melbourne, Australia features a pair of twisting towers placed around a ‘green spine’ of terraces, platforms, and verandahs. Called Southbank by Beulah, the main feature of the structure is its green spine, which functions as the key organizational element of the building.

Mad Arkitekter created WoHo, a wooden residential skyscraper in Berlin. The 98-meter skyscraper will feature 29 floors with different spaces such as apartment rentals, student housing, a kindergarten, bakery, workshop, and more. Planters and balconies and terraces filled with greenery make this skyscraper a very green one indeed!

Algae as energy resources are in their beginnings and are seen as high potential. Extensive research work has dealt with algae as an energy source in recent decades. As a biofuel, they are up to 6 times more efficient than e.g. comparable fuels from corn or rapeseed. The Tubular Bioreactor Algae Skyscraper focuses on the production of microalgae and their distribution using existing pipelines. Designed by Johannes Schlusche, Paul Böhm, Raffael Grimm, the towers are positioned along the transalpine pipeline in a barren mountain landscape. Water is supplied from the surrounding mountain streams and springs, and can also be obtained from the Mediterranean using saltwater.

Tesseract by Bryant Lau Liang Cheng proposes an architecture system that allows residents to participate in not just the design of their own units; but the programs and facilities within the building itself. This process is inserted between the time of purchase for the unit and the total time required to complete construction – a period that is often ignored and neglected. Through this process, residents are allowed to choose their amenities and their communities, enhancing their sense of belonging in the process. Housing units will no longer be stacked in repetition with no relation whatsoever to the residents living in it – a sentimental bond between housing and men results.

In a world devoid of greenery, Designers Nathakit Sae-Tan & Prapatsorn Sukkaset have envisioned the concept of Babel Towers, mega skyscrapers devoted to preserving horticultural stability within a single building. The Babel towers would play an instrumental role in the propagation of greenery in and around the area. These towers would also become attraction centers for us humans, like going to a zoo, but a zoo of plants. Seems a little sad, saying this, but I do hope that we never reach a day where the Babel Tower becomes a necessity. I however do feel that having towers like these now, in our cities, would be a beautiful idea. Don’t you think so too?

Let's Work Together to Build Sustainable,

Local Food Systems With a Global Impact

Food Tank, in partnership with the Danone Institute North America, is hosting a very special virtual event, "One Planet. One Health," to discuss solutions to build more sustainable local food systems on Thursday, May 6, 2021, at 12 p.m. ET.

We’ve curated a terrific lineup of speakers, including luminaries like N. Diane Moss (Project New Village), Dariush Mozaffarian (Friedman School of Nutrition Science & Policy, Tufts University), Jose Oliva (HEAL Food Alliance), A-dae Romero-Briones (Cochiti/Kiowa, First Nations Development Institute), Tambra Raye Stevenson (WANDA), and more.

I’ll be moderating. You can register here.

Also, I strongly urge eligible nonprofits to apply for the Danone Institute North America grant program to help local communities live the "One Planet. One Health" vision.

Danone Institute North America will award a total of up to $160,000 for this initiative. Individual team grants of $30,000 plus a $10,000 incremental award for the team with the strongest communications plan will be awarded for work to be conducted over a two-year period. The call for entries is open now through June 6, 2021. For information and to submit an application, visit Danone Institute North America here.

Danone Institute North America launched the "One Planet. One Health" Initiative grant program in 2019 to support local projects that strengthen food systems, reflecting Danone’s belief that the health of people and the health of the planet are interconnected.

"The pandemic has not only sparked a health crisis but also has emerged as one of the most destructive economic and societal challenges of our time," says Leslie Lytle, President of Danone Institute North America and professor at the Gillings School of Global Public Health at the University of North Carolina, Chapel Hill.

Please let me know if you apply for the grant, and join me for free on May 6 by registering HERE.

All the very best,

Dani

April 12, 2021

Robert J. Bowman, SupplyChainBrain

The global food supply chain is in trouble. The coronavirus pandemic is only the latest crisis to highlight the inefficiencies and spotty reliability of the traditional model for getting food from farm to consumer. Repeated instances of contamination reveal inadequacies in quality control and the tracking of product throughout the supply chain. And environmental concerns are raising serious questions about the impact of large-scale farming on the land, water, and air.

There’s a clear need for alternative methods of food production. One is vertical farming, a system of growing crops in stacked layers, spaced 24 to 36 inches apart, usually in greenhouse environments. Vertical farms can be constructed within any type of confined space, including dedicated buildings, shipping containers and even abandoned mineshafts. The equivalent of 60 acres of produce can be squeezed into a single greenhouse, with layers stacked six levels or more high.

Further advantages of vertical farming include complete protection from weather and crop pests, without the need for pesticides or other chemicals, and drastic reductions in water use. A pound of lettuce that requires 41 gallons of water with conventional farming needs just two gallons with vertical farming — in all, up to 99% less water than field-grown produce.

One such system is in operation outside Boston, Massachusetts by Crop One, which markets its products under the FreshBox Farms brand. In business for eight years, Crop One claims to be the oldest vertical farmer in North America, in terms of continuous commercial production.

Crop One grows a wide variety of leafy produce, including lettuce, arugula, basil, and spinach. From its location in Millis, Massachusetts, it supplies sellers within a radius of approximately 100 miles, with a presence in more than 35 grocery stores in the Northeast, according to chief executive officer Craig Ratajcyzk.

The location was chosen to cut down on the large volumes of produce that are typically shipped into the Boston area from California, Arizona, Texas, and South and Central America. “Those are really long supply chains,” Ratajcyzk says. “Right now, we’re within an hour’s drive of all the markets we serve.” Crop One also sources its seed stock locally, he adds, although he acknowledges the need to diversify supply in order to reduce the risk of supply-chain disruptions.

Indoor farming allows Crop One to grow to produce all year round, Ratajcyzk says. Currently, its output stands at around three tons a day, serving 10 customers in the Boston area and an overseas account that in turn sells to some 20 retailers.

The company has big ambitions to expand its production and marketing reach, and Ratajcyzk sees no problem in scaling up. Currently, he says, “the whole CEA [controlled environmental agriculture] industry represents a small fraction of the global demand market.” But recent storms and cold weather in large portions of the U.S. have highlighted the need for a method of farming that isn’t susceptible to the whims of Mother Nature.

“The industry is growing substantially,” Ratajcyzk declares, with producers increasingly being drawn to a method of farming that dramatically boosts crop yield within a limited space.

The technology can even extend to fruit-bearing trees. “A traditional orange tree maybe 15 or 20 feet,” Ratajcyzk says. “Why not a 10-foot tree producing twice as many oranges?”

The chief downside of vertical farming at the moment is one of cost. The price of an initial building containing the equivalent of a 60-hectare farm has been estimated at $100 million. Expenses include heavy energy consumption for supplemental lighting, temperature and humidity controls, fertilizer, and maintenance of proper carbon dioxide levels.

A Cornell University study from 2014 called vertical farms “pie in the sky,” estimating that a single loaf of bread containing wheat grown in a vertical farm would cost $27. Current economics would therefore appear to limit vertical farming to high-end products, although producers are banking that costs will plummet as the technology catches on. The net environmental advantages should also serve to boost its popularity in the coming years.

Vertical farming is “small, but growing every day,” says Ratajcyzk. “It’s a difficult model to establish, but if you’ve been around for five years-plus, then you have a higher probability of success.” He’s hoping for federal, state, and local support of the fledgling technique.

“I can’t really think of a downside to this industry,” he says.

Lead photo: Photo: Bloomberg

The project of an Egyptian student consisting of using the Sinai environment for sustainable agriculture with the use of less water may be a solution to Egypt’s water scarcity problem.

March 6, 2021

Egyptian student Nada Ayman's project dubbed the Cultural Desert Gravity Center uses the Sinai environment as its main agricultural tool. It also won the 36th Cycle at the 2020 World Architecture Festival.

The project — designed to be built as a cultural center in Wadi el-Weshwash in the town of Nuweiba in south Sinai — uses the surrounding environment, including the mountains, to build an integrated center providing organic nutritional products and natural herbs used in manufacturing medicines and fragrance products. A tourist and entertainment complex offering various educational and entertainment activities is also on the horizon, said Ayman.

Ayman, a student at the Faculty of Applied Arts at Zagazig University, told Al-Monitor via phone she chose the project based on the spiritual meaning of mountains.

She noted, “I was nominated by my professors to participate in the architecture competition. The World Architecture Festival has been in place since 2006, and it has a section dedicated to interior design.”

Ayman said the project consists of a hydroponic farm, which is a system to grow crops without soil. The roots of the plants grow in a liquid nutrient solution that is recycled and reused repeatedly through plants. The hydroponic farm produces medicinal plants, used in the manufacture of medicine, and crops that bear fruit to be served with meals in the farm’s restaurant.

Ayman added, “This type of agriculture uses 70% less water than regular agriculture to produce 100% organic products without using soil or fertilizers. Edible products are served at the restaurant of the farm, while herbal and fragrance products are used to manufacture therapeutic oil for the therapeutic center.”

She chose Wadi el-Weshwash because it is located next to a region of rich valleys whose water and minerals can be utilized in organic agriculture.

The design of the complex features a library, a restaurant and an art studio, Ayman said, noting that the design reached the final stage of the competition and was chosen among five others.

Atef Suweilem, a professor of agricultural engineering at Zagazig University, said the hydroponic agricultural method consists of either growing the seeds of plants or herbs in a nutritive water solution containing the main 12 to 16 nutrients plants need — or growing the plants in an inert solid material so they do not interact with the nutritive solution. Using this method does not require the use of chemical fertilizers, the surplus of which usually seeps into the soil in traditional agriculture, according to Suweilem.

Hydroponic agriculture also protects the plants from pests that live in the soil, as is the case in traditional agriculture, he said, adding that ancient Egyptians were the first to know hydroponics, and perhaps the papyrus plant is the most prominent example of this type of agriculture.

Suweilem said hydroponics is an ideal way to deal with water scarcity and climate change, stressing the need for Arab countries that suffer from a shortage of agricultural lands due to their desert nature, including Egypt, to rely on this type of agriculture.

Yasser Ahmed, an expert in agriculture and a former professor at the Egyptian Agricultural Research Center, stressed the need for Egypt to turn to hydroponics in the near future, as it helps save water and energy and increases productivity. Ahmed said hydroponic agriculture uses 95% less water compared to traditional agriculture. Leaf crops consume about 30% less water than traditional agriculture, and if the cultivation of these crops is expanded on the hydroponic farm, that method can be used widely, he said.

“This is the future of agriculture. We do not want to depend on imports. We hope we will have local production throughout the year, regardless of climate change, weather, rain or drought,” Ahmed said.

Of all sectors in Egypt, the agricultural sector consumes the largest share of water — meaning it consumes roughly more than 85% of the country’s share of irrigation water. Although Egypt has lost some of its fertile lands due to urban sprawl, there is an attempt to balance this through the expansion of agricultural areas in the desert. The total cultivated land was estimated at 9.3 million acres — 3.2 million acres of which are in lands recently reclaimed by the state and 6.9 million acres in other lands, according to the latest 2019 statistics of the Central Agency for Public Mobilization and Statistics.

Agriculture is essential to the Egyptian economy, as its added-value represents about 14.5% of the gross domestic product. In 2016, agricultural income reached 256.9 billion Egyptian pounds ($16.3 billion). The sector also employs 29.6% of the working population and represents 11% of all exports. Because of the water shortage, the government issued measures in January 2018 to limit the cultivation of water-intensive crops such as rice.

Rasha Mahmoud

@R_ma7moud200

TOPICS COVERED Agriculture and farming Water Issues Sinai

Read more: https://www.al-monitor.com/pulse/originals/2021/03/egypt-project-agriculture-sinai-water-scarcity-crisis.html#ixzz6oQLQrjPl

03-03-2021 | Swegreen

SWEDEN- Farming as a Service becomes a new tool in the fight against climate change as the FoodTech enterprise SweGreens joins the Swedish Strategic Innovation Program, Viable Cities.

Viable Cities is an innovation program for smart and sustainable cities. The aim is to accelerate the transition to inclusive and climate-neutral cities by 2030 with digitalization and citizen engagement as enablers.

SweGreen is an innovation company based in Stockholm focused on futuristic, smart, and circular solutions for controlled-environment urban farming. SweGreen own technologies which enables integration of smart vertical farming solutions into real-estate properties. Recently SweGreen has introduced a service for urban production of leafy greens, called Farming as a Service (FaaS), which allows clients to produce greens under their license and close to the city population.

• Sweden inspires many other nations and has a leading position in the transition of urbanization context and fighting the climate change through smart and sustainable solutions that could be implemented in cities, says Sepehr Mousavi, member representative, and Chief Sustainability Officer at SweGreen.

• Smart urban farming in infrastructure-integrated settings and by harnessing urban resources could be an exponential factor in localizing the food chains in Sweden and cutting back the carbon footprint associated with our food production and supply, he continues.

Viable Cities is growing steadily and new members like SweGreen are joining the current member pool, the likes of Swedish municipalities, Swedish universities and research institutes and other leading innovation companies. Running from 2017 to 2030, the program gathers partners from industry, academia, public and civil society organizations, and jointly funded by the Swedish Innovation Agency (Vinnova), the Swedish Energy Agency and Formas with a total investment of 1 billion SEK (about 100 million EUR).

Viable Cities is coordinated by KTH Royal Institute of Technology.

• Together with our member organizations and other stakeholders, we aim to accelerate the transition to climate-neutral cities by 2030 with a good life for all within planetary boundaries, says Olga Kordas, Program Director of Viable Cities and a researcher at KTH Royal Institute of Technology.

• Transforming our food systems are one of the key challenges, Olga Kordas continues, and we are happy to be joined by SweGreen to co-create solutions for the future.

Andreas Dahlin, CEO of SweGreen, highlights:

• We are honored to be part of such a committed and influential strategic program and partner pool as Viable Cities’. We hope to contribute with innovations around the concept of Farming as a Service, which really could impact food production today and in the future. The ability to produce fresh and nutrient food close to the consumer will be one of the big missions for the food industry in the upcoming decades.

  
  For more information:

Sepehr Mousavi, CSO SweGreen, sepehr.mousavi@swegreen.se +46(0)73-3140043

Andreas Dahlin, CEO SweGreen, andreas.dahlin@swegreen.se +46(0)70-9240032

Åsa Minoz, Head of Communications, Viable Cities, asa.minoz@viablecities.se +46(0)722108826

SweGreen is a Swedish GreenTech company that offers digital, efficient, and circular solutions for urban cultivation in a closed and controlled environment. By combining computer science, advanced technology, and plant sciences, SweGreen contributes to the development of urban sustainable food production. The company was established in 2019 and provides consumer products such as various leafy greens and herbs under the brand of Stadsbondens. www.www.swegreen.com

Source and Photo Courtesy of Swegreen

SOUTH SAN FRANCISCO, Calif.

Plenty, the flavor-first vertical farming company with a mission to improve the lives of people, plants, and the planet, today announced its #1 ranking on the esteemed Forward Fooding 2020 FoodTech 500.

Referred to as the “Fortune 500 list of agrifood companies,” the FoodTech 500 highlights global entrepreneurial talent at the intersection of food, technology and sustainability. Forward Fooding’s proprietary algorithms evaluate a business on its size, digital footprint and sustainability as measured against the United Nations Sustainable Development Goals. Plenty came in first on the ranked list of 500 and out of a total of 2,000 nominees.

“It is an honor to be included on the FoodTech 500 and we are thrilled to be ranked first,” said Nate Storey, co-founder and CSO of Plenty. “The world is in need of an agricultural revolution, and there are many exciting areas where innovators are changing the future of food. At Plenty, we’re focused on using our proprietary, scalable vertical farming technology to deliver the freshest, most favorable produce year-round, while preserving our most precious resources.”

Plenty grows pesticide-free, non-GMO produce that tastes like it was fresh-picked from the garden because it was. The company ships from its farm to local stores every day. The farm’s controlled environment means the company can grow leafy greens year-round, regardless of the season. Plenty’s leafy greens are so clean, there is no need to wash because there is nothing to wash away - no bleaches, chemicals, soil or pesticides. The company wants the first person to touch their produce to be the consumer opening the package in their kitchen. Plenty plants are cultivated in an optimum growing environment, reaching peak flavors and nutrient value year-round, across every harvest.

The world is running out of usable land for growing crops and the global water supply is under severe threat of depletion. Plenty was founded on the need to create a more sustainable way to grow food using less land and water. Plenty yields hundreds of acres of crops in a building the size of a big box retailer, without cutting down a single tree, and using a fraction of the water required in the field. It’s San Francisco-based farm uses 100% renewable energy, and its greens are stored in 100% recyclable packaging and shipped locally to minimize the transportation footprint. Plenty’s data analytics and machine learning capabilities deliver 200 years’ worth of data each year, helping to quickly iterate and improve farm yield, quality and efficiency.

“The FoodTech 500 was created to shine a spotlight on the leading global innovators across the AgriFoodTech ecosystem, from farm to fork, who are making impactful solutions to better our food system,” said Alessio D’Antino, Forward Fooding founder and CEO. “This year’s list focused on understanding the driving factors behind the leading companies’ success and innovation, and we were thrilled to learn more about the top industry players, like Plenty, that are transforming our food system.”

The list represents 38 technology domains within the AgriFood space, including the broad categories of alternative proteins, farm management and precision farming, and vertical/indoor farming. The full ranking and more data about the 2020’s FoodTech 500 and its methodology can be found here.

About ForwardFooding

Forward Fooding is the world’s first collaborative platform for the food & beverage industry via FoodTech Data Intelligence and corporate-startup collaboration. Data services include The FoodTech Data Navigator data subscription service and facilitating corporate-startup collaboration through bespoke innovation programs and FoodTech consultancy.

To learn more visit: www.ForwardFooding.com

About Plenty

Plenty is an American farming technology company that frees agriculture from the constraints of land, weather, seasons, time, distance, pests, natural disasters, and climate. The company’s plant scientists, engineers, and farmers have developed its indoor vertical farming technology to grow nutrient-rich and pesticide-free plants with extraordinary flavor. The Plenty platform is designed to grow multiple crops in a building the size of a retail box store, yielding hundreds of acres using a fraction of the water and other precious resources. Plenty's flagship farm and headquarters are located in South San Francisco, and the company operates the largest of its kind Research and Development farm in Laramie, Wyoming. Plenty is currently building the world's highest-output, vertical, indoor farm in Compton, California.

View source version on businesswire.com:https://www.businesswire.com/news/home/20210301005069/en/

CONTACT: Jane Gideon

Press@plenty.ag

KEYWORDS: CALIFORNIA UNITED STATES NORTH AMERICA

INDUSTRY KEYWORD: ENVIRONMENT TECHNOLOGY OTHER TECHNOLOGY FOOD/BEVERAGE AGRICULTURE SUPPLY CHAIN MANAGEMENT RETAIL NATURAL RESOURCES SCIENCE OTHER SCIENCE

SOURCE: Plenty

Copyright Business Wire 2021.

PUB: 03/01/2021

http://www.businesswire.com/news/home/20210301005069/en

by Jennifer Marston

Massachusetts-based Little Leaf Farms has raised $90 million in a debt and equity financing round to expand its network of hydroponic greenhouses on the East Coast. The round was led by Equilibrium Capital as well as founding investors Bill Helman and Pilot House Associates. Bank of America also participated.

Little Leaf Farms says the capital is “earmarked” to build new greenhouse sites along the East Coast, where its lettuce is currently available in about 2,500 stores. 

The company already operates one 10-acre greenhouse in Devins, Massachusetts. Its facility grows leafy greens using hydroponics and a mixture of sunlight supplemented by LED-powered grow lights. Rainwater captured from the facility’s roof provides most of the water used on the farm. 

According to a press release, Little Leaf Farms has doubled its retail sales to $38 million since 2019. And last year, the company bought180 acres of land in Pennsylvania on which to build an additional facility. Still another greenhouse, slated for North Carolina, will serve the Southeast region of the U.S. 

Little Leaf Farms joins the likes of Revol Greens, Gotham Greens, AppHarvest, and others in bringing local(ish) greens to a greater percentage of the population. These facilities generally pack and ship their greens on the day of or day after harvesting, and only supply retailers within a certain radius. Little Leaf Farms, for example, currently servers only parts of Massachusetts, Pennsylvania, New York, and New Jersey. 

The list of regions the company serves will no doubt lengthen as the company builds up its greenhouse network in the coming months.

Some vertical farms grow greens in old warehouses, former steel mills, or other sites set apart from the heart of cities. But a new series of projects will build multistory greenhouses directly inside affordable housing developments.

“Bringing the farm back to the city center can have a lot of benefits,” says Nona Yehia, CEO of Vertical Harvest, a company that will soon break ground on a new building in Westbrook, ME, that combines a vertical farm with affordable housing. Similar developments will follow in Chicago and in Philadelphia, where a farm-plus-housing will be built in the Tioga District, an opportunity zone.

Inside each building, the ground level will offer community access, while the greenhouse fills the second, third, and fourth floors, covering 70,000 square feet and growing around a million pounds of produce a year. (The amount of housing varies by site; in Maine, there will be only 15 units of housing, though the project will create 50 new jobs.)

In Chicago, there may be a community kitchen on the first level. In each location, residents will be able to buy fresh produce on-site; Vertical Harvest also plans to let others in the neighborhood buy greens directly from the farm. While it will sell to supermarkets, restaurants, hospitals, and other large customers, it also plans to subsidize 10% to 15% of its harvest for local food pantries and other community organizations.

“By creating a large-scale farm in a food desert, we are creating a large source of healthy, locally grown food 365 days a year,” Yehia says.

Bowery Farming uses technology to prioritize accessibility and sustainability in their produce growing operations

To some, the pristine growing conditions and perceived mechanical interference of a vertical farm can seem unnatural, but at Bowery Farming “interference” is actually not the goal at all. “We don’t really think about how people are involved in the growing process, but how to take people out of the growing process” says chief science officer Henry Sztul. “Our goal is actually to have as few people walking around our plants as possible.”

Bowery Farming is a network of vertical farms working to reengineer the growing process. Using a system of light and watering technology, Bowery is able to use 95 percent less water than a traditional outdoor farm, zero pesticides and chemicals, and grow food that tastes as good as anyone else’s. 

Bowery Farming uses vertical farm-specific seeds that are optimized for flavor instead of insect resistance and durability. Seeds are mechanically pressed into trays of soil, and sent out into growing positions, or racks within the building that have their own lighting and watering systems. Each tray gets its own QR code so that they can be monitored and assigned a customized plan for water and light until they’re ready to be harvested.

Irving Fain, Bowery Farming’s founder and CEO contemplates the prediction from the United Nations that 70 to 80 percent of the world’s population will be living in and around cities in the next 30 years. “Figuring out ‘how do you feed and how do you provide fresh food to urban environments both more efficiently as well as more sustainably?’ is a very important question today, and an even more important question in the years to come.”

Amid the deserts of Abu Dhabi, a new wave of entrepreneurs and innovators are sowing the seeds of a more sustainable future.

A cluster of shipping containers in a city centre is about the last place you’d expect to find salad growing. Yet for the past year, vertical farming startup Madar Farms has been using this site in Masdar City, Abu Dhabi, to grow leafy green vegetables using 95 per cent less water than traditional agriculture. 

Madar Farms is one of a number of agtech startups benefitting from a package of incentives from the Abu Dhabi Investment Office (ADIO) aimed at spurring the development of innovative solutions for sustainable desert farming. The partnership is part of ADIO’s $545 million Innovation Programme dedicated to supporting companies in high-growth areas.

“Abu Dhabi is pressing ahead with our mission to ‘turn the desert green’,” explained H.E. Dr. Tariq Bin Hendi, Director General of ADIO, in November 2020. “We have created an environment where innovative ideas can flourish and the companies we partnered with earlier this year are already propelling the growth of Abu Dhabi’s 24,000 farms.”

The pandemic has made food supply a critical concern across the entire world, combined with the effects of population growth and climate change, which are stretching the capacity of less efficient traditional farming methods. Abu Dhabi’s pioneering efforts to drive agricultural innovation have been gathering pace and look set to produce cutting-edge solutions addressing food security challenges.

Beyond work supporting the application of novel agricultural technologies, Abu Dhabi is also investing in foundational research and development to tackle this growing problem. 

In December, the emirate’s recently created Advanced Technology Research Council [ATRC], responsible for defining Abu Dhabi’s R&D strategy and establishing the emirate and the wider UAE as a desired home for advanced technology talent, announced a four-year competition with a $15 million prize for food security research. Launched through ATRC’s project management arm, ASPIRE, in partnership with the XPRIZE Foundation, the award will support the development of environmentally-friendly protein alternatives with the aim to "feed the next billion".

Global Challenges, Local Solutions

Food security is far from the only global challenge on the emirate’s R&D menu. In November 2020, the ATRC announced the launch of the Technology Innovation Institute (TII), created to support applied research on the key priorities of quantum research, autonomous robotics, cryptography, advanced materials, digital security, directed energy and secure systems.

“The technologies under development at TII are not randomly selected,” explains the centre’s secretary general Faisal Al Bannai. “This research will complement fields that are of national importance. Quantum technologies and cryptography are crucial for protecting critical infrastructure, for example, while directed energy research has use-cases in healthcare. But beyond this, the technologies and research of TII will have global impact.”

Future research directions will be developed by the ATRC’s ASPIRE pillar, in collaboration with stakeholders from across a diverse range of industry sectors.

“ASPIRE defines the problem, sets milestones, and monitors the progress of the projects,” Al Bannai says. “It will also make impactful decisions related to the selection of research partners and the allocation of funding, to ensure that their R&D priorities align with Abu Dhabi and the UAE's broader development goals.”

Nurturing Next-Generation Talent

To address these challenges, ATRC’s first initiative is a talent development programme, NexTech, which has begun the recruitment of 125 local researchers, who will work across 31 projects in collaboration with 23 world-leading research centres.

Alongside universities and research institutes from across the US, the UK, Europe and South America, these partners include Abu Dhabi’s own Khalifa University, and Mohamed bin Zayed University of Artificial Intelligence, the world’s first graduate-level institute focused on artificial intelligence. 

“Our aim is to up skill the researchers by allowing them to work across various disciplines in collaboration with world-renowned experts,” Al Bannai says. 

Beyond academic collaborators, TII is also working with a number of industry partners, such as hyperloop technology company, Virgin Hyperloop. Such industry collaborations, Al Bannai points out, are essential to ensuring that TII research directly tackles relevant problems and has a smooth path to commercial impact in order to fuel job creation across the UAE.

“By engaging with top global talent, universities and research institutions and industry players, TII connects an intellectual community,” he says. “This reinforces Abu Dhabi and the UAE’s status as a global hub for innovation and contributes to the broader development of the knowledge-based economy.”

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.”

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.

NASA has launched a 'Deep Space Food Challenge' to prompt innovation of food production techniques and technologies viable in outer space.

There are thousands of bizarre challenges doing the rounds on the internet. These unique challenges soon go viral on the internet, with countless participants hopping on board. A number of these challenges also involve some form of food. If you're a food innovator who's looking for the next interesting challenge to take up, NASA (National Aeronautics and Space Administration) may have something for you.

The NASA, in collaboration with Canada's CSA (Central Space Agency), has launched a 'Deep Space Food Challenge'. The one-of-a-kind competition seeks to find food production technologies which are sustainable in long duration missions to outer space.

A short video explaining the purpose behind the challenge was shared by the official handle. The 56-second clip elaborated on how astronauts embarking on lunar space exploration missions usually rely on pre-packaged meals or resupply of food through shuttles from Earth.

Thus, creating a brand, new food production system with minimal input and nutritious output with minimal wastage can go a long way in fuelling longer duration space explorations. The challenge's focus is on identifying food production technologies that can help feed a crew of four astronauts and help fill food gaps for a three-year round-trip mission with no resupply required from Earth.

These innovative food production methods may also help communities on Earth living in harsh conditions and extreme climates. This could also help tackle food insecurity in the future, which is one of the biggest issues that loom large today. "Solutions identified through this Challenge could support these harsh environments, and also support greater food production in other milder environments, including major urban centres where vertical farming, urban agriculture and other novel food production techniques can play a more significant role," stated the Deep Space Food Challenge's official website.

Registrations for the challenge close on 28th May, and submissions are due 30th July, 2021. Winners of Phase 1 of the challenge will be announced in the month of September this year. The prize money for winners of Phase 1 can go up to USD 500,000 (Rs. 3.64 crores approximately). So, if you have an exciting idea to produce food which could help future space missions - you know what to do!

Last week we spoke about running a farm at LettUs Grow. What excites you about vertical farming? 

It’s the future of the industry. Also, the amount of salad that these farms can produce for their local community. We want to be able to eat salad all year round and we import to make that happen. However, just a small farm can easily provide for its local community, very efficiently and all year round. The sustainability element is also exciting: with our salad there’s no food miles, it’s very minimalistic. You could use an electric van or bike to distribute this crop if you wanted to. It’s a step forward in terms of what we need to do to take care of our planet. 

What do you think are the biggest downsides to vertical farming?

It’s still a new technology and it can be expensive. The biggest roadblock facing the industry is that we need more people and companies to collaborate together to make sure we can build these farms at a sensible rate, so we can provide farms to anyone. We want to be able to provide farms to people, communities and countries that don’t have a lot of money, so that they can provide affordable fresh produce to local people. 

How has vertical farming impacted your life?

Massively!  I wanted to find my passion, a job that I loved - that was very important to me. It’s satisfying to be in a position now where I’m very happy to be doing what I do and I look forward to going into work. I was happy to make the move from London to Bristol. I would have moved even further if it meant being able to continue working within this industry.

Image from: LettUs Grow

How do you see vertical farming playing a part in the future? 

When indoor farming first came about, it had a reputation of being competition for outdoor farming, which just isn’t the case. There’s so much we can’t grow that outdoor farming can provide, such as cereal crops. I’m glad we’re at a stage where indoor and outdoor farms can start to work together to optimise both methods. With these new relationships, there should be a good increase in the amount of indoor farms you’ll be seeing. What LettUs Grow offers with DROP & GROW™ is an exciting project because that’s a 40ft shipping container which can be placed pretty much anywhere. It’s not that big - it could go in a car park or behind a restaurant, but actually provide quite a lot of salad to that area. 

How much of our food should be grown this way? 

Good question. If you had asked me a while back I would have just said salad, but now I’ve changed my mind. Indoor farming can have a massive impact on propagation, especially aeroponics, because of how we aerate and nourish our roots. We could start lettuce for greenhouse projects and we can also propagate tomatoes, strawberries and tree whips. Propagating trees in this way could potentially be hugely beneficial and it’s something we want to do more of. 

We can also quickly grow large amounts of microgreens, baby leafs, herbs and we can grow fruiting crops like strawberries. We are slowly chipping away and it’s really exciting. I’m waiting to see if I can ever say I’ve grown or propagated every crop that can be grown in these farms! 

What do you think are the biggest benefits of vertical farming? 

How fast these crops can grow! The turnover can be as short as 5 days from seed, depending on the crop. Also how clean it can be - I’m very dedicated to making sure these farms are built to ensure they are easy to be maintained and clean. The most exciting part is the crop growth rate though - it’s incredible how fast our crop grows from seed to plate. In a very well maintained growing calendar, which Ostara® is great for supporting, you can optimise your beds so that the day you harvest can also be the day you germinate onto that same bed. Your farms can be forever providing salad at very fast rates. 

What was the biggest change you encountered during your years indoor farming?

Moving from being a production grower to an R&D grower. It has been a great change! As a production grower I knew what I needed to know about growing the plant safely and getting it onto a plate so it was good for the consumer. Now I’m fully optimising, learning and understanding the plants completely, so that I can help the grower that I used to be. We spend a lot of time on crop recipes to make sure that whoever we sell our farms to can start up very quickly and they won’t have to spend months developing their crops. If they have the customers and clients behind them, they can buy DROP & GROW and start producing salad as soon as it's been commissioned. 

What was the biggest change you encountered in the industry?

More and more people are speaking about what’s going on in the industry and getting involved. I get so many messages on LinkedIn with people who want to get into this career. It’s exciting to see that indoor growing is a career people can access now. When I was developing my skills I didn’t know I would end up in indoor farming. There are more opportunities than ever before. For example, our Crop Technician is doing a placement here for 2 years. The aim is that they can gain the skill sets and knowledge they need to then go off and do the same practice in any farm they want. 

What advice do you have for people who are looking to start a career in growing? 

Reach out to companies who are already out there. You could start off part-time or as an assistant. If you are patient and dedicated then it’s a journey I promise you won’t regret. It takes a lot of work, but the outcome is amazing - you’ll be learning so much about this new technology. You’ll also build great relationships: there are so many amazing people in this industry who are so interesting, with different backgrounds, who are willing to share their knowledge. You can always learn more and other people are a great source of that. 

What about for those looking to start a vertical farming business?

Do your homework.  There are people out there who you can reach out to and it’s very easy to get information. It’s very easy to get excited about the idea and jump straight into it, because it is exciting and can be very rewarding, but it’s really important to do it step by step. Know how to scale properly, learning the differences between a small and larger farm. Understand how many people you’ll need and the logistics. I’d also advise people to get some practical work experience before you buy. You want to start the company knowing the tricks of the trade. 

LettUs Grow Blog: www.lettusgrow.com/blog/advice-for-vertical-farmers

Even A Pandemic Couldn’t Stop Us!

When the COVID-19 pandemic came to a head in March, we all felt a deep sense of trepidation. At the time, the future looked beyond bleak. We were all at the forefront of a completely new experience and it was up to us to figure out how to stay safe and continue to thrive in the ‘new normal’ world. For us here at Freight Farms, the COVID-19 pandemic became a pivotal moment. Would people still care about their source of food in the midst of a health crisis? Would individuals be looking to shift careers and lifestyles during such uncertainty?

The answer came right away: yes. The pandemic shone a spotlight on the key flaws within our food system and the need for a workplace revolution. We saw a tremendous growth of interest from people looking to make a positive and needed impact on their communities. We reflect on the year with immense gratitude for our community of farmers that continue to help us address pressing issues of sustainability and food security–we can’t wait to see all we can accomplish together in 2021!

Coronavirus showed how vulnerable our global food supply chains are, but growing closer to home could also solve our waste problem

By ELLEN MACARTHUR

23 December 2020

At the start of the Covid-19 pandemic, empty supermarket shelves prompted people to ask – sometimes for the first time – where their food comes from. In 2021 we will see more food in cities provided by producers who are less vulnerable to the disruptions of long supply chains we experienced during 2020.

The pandemic caused consumers around the world to turn to smaller, local, and regional food providers that could secure access to food during lockdowns. In the UK, the Farmers to Feed Us digital platform created new ways for small-scale food producers to provide fresh produce directly to consumers. Sales of food from community-supported agriculture (CSA), where consumers subscribe to receive in-season harvests from groups of UK farmers, increased by 111 percent from February to April, with this trend also being apparent in the US and China. The 105-acre Eatwell Farm in California saw such a big spike in demand that it had to cease new subscriptions – and the waiting list is still growing. These demonstrate how producers can provide consumers with food security and, in return, how consumers have supported their businesses.

At the same time, accessing food hasn’t been easy for everyone. Countless people around the world have been forced to turn to food donations. Meanwhile, when restaurants, schools, and workplaces closed, food producers were hit with a lack of demand that saw tonnes of edible food go to waste. As income for smaller farmers was supported by consumer demand, a decline in business from food-service providers has made their futures uncertain. With the food system’s vulnerabilities exposed, the question has become: how can we better connect communities and food producers to make sure we are more resilient to future shocks? In 2021, the relationship between food and our cities will be drastically reimagined to answer this question.

Half of the world’s population currently live in cities and, by 2050, 80 percent of the world’s food will be eaten in densely populated urban environments. But, as cities strive to become more resilient, they will become much more than centres of consumption. To become stronger in the face of unplanned disruptions, our cities, and their surrounding areas will increasingly supply food and make use of valuable nutrients, creating thriving local, regional, and international food networks. This will be a pivotal step towards a circular economy for food, in which nothing becomes waste, everything has value, and the way we produce food regenerates natural ecosystems.

Increasing the amount of food grown in and around cities will also help to secure supply to residents without access to CSA schemes in nearby fields. Singapore, for example, imports a large proportion of its food, with only one percent of its land being dedicated to agriculture. When the country’s food supply chain was disrupted during its coronavirus outbreak, consumers in Singapore turned to urban farms and the government began to identify unused spaces in its cities for agricultural development. Similar developments to produce food locally will also be seen elsewhere in 2021. In Detroit, plans for a CSA program are currently being shaped, while in France, the remaining two-thirds of Europe’s largest urban farm, Nature Urbaine, will be planted in Paris, while 50 plots in Nantes that once grew flowers will provide vegetables for 1,000 households in need.

Food producers will also adopt regenerative practices, which focus on outcomes such as healthy soil and carbon capture that tackles climate change, to build resilience into their operations. And cities will have a key role to play in this.

In the current food system, when food flows into cities, organic waste is created in the form of discarded produce, by-products, and sewage. This waste is full of nutrients that can be used to grow new food and create biomaterials, but in today’s system, it is more likely to end up in landfills or go untreated. However, there are more viable – and greener – alternatives. In Italy, paper is already being made from pasta by-products, while orange peels, grape skins, and excess milk are being turned into fabrics. In the UK, London has committed to ensuring that by 2026 no biodegradable or recyclable waste will be sent to landfill.

This shift will not only be driven by a need to address waste and pollution. As we look to recover from the economic shock of Covid-19, our analysis has shown there is an economic opportunity worth $700 billion (£538 billion) for cities to reduce edible food waste and use by-products. Less than two percent of organic waste in cities is currently returned to the soil, yet the more organic matter that’s within soil, the more water it can hold and retain, making crops resilient to disturbances such as droughts and floods. This applies whether food is grown in the city, its peri-urban surroundings, or on rural farmland.

As part of the European Green Deal, the EU’s Farm to Fork strategy is aiming to reduce use of synthetic fertilisers by at least 20 per cent and triple the amount of land farmed organically by 2030, as well as promising legally binding targets to reduce food waste. To meet these targets, cities will be expanding their organic waste collection schemes in 2021 and ensuring it is used effectively, putting it back on the land as a replacement for synthetic fertilisers, using it as compost to build organic matter in soil and to feed livestock.

These kinds of initiative will give cities a surer footing for the future. In 2021, we will begin to build a resilient circular economy for food.

Ellen MacArthur is founder and chair of trustees of the Ellen MacArthur Foundation

Lead photo: Bertand Aznar

Rohma Sadaqat

October 19, 2020

Smart Acres, the latest in UAE's hydroponic vertical farming industry, is now producing a line of the freshest, most nutrient-dense greens for UAE residents and businesses.

A growing focus on healthy food farmed sustainably and locally has meant that vertical hydroponic farms are finding a home in the UAE. The last few years have seen a marked increase in the number of companies that have launched their vertical farming facilities in the country, providing hotels, cafes, restaurants, and households across the emirates access to a growing portfolio of fresh greens.

Smart Acres, the latest addition to the UAE's hydroponic vertical farming industry, is now producing a line of the freshest, most nutrient-dense greens for UAE residents and businesses. The company has launched in collaboration with n.thing, a Korean-based technology company that designed the farm modules using an award-winning Internet of Things (IoT) based technology system to grow and monitor their greens - a system that not only consumes less resources but generates ultra-high quality crops.

Abdulla Al Kaabi, Founder and CEO of Smart Acres, revealed that vertical farming is a relatively new modern farming concept that was first proposed in the late 1990s. The main advantage of vertical farming technology, he explained, is that you can achieve a huge output in a limited space.

"Our container farms have a crop yield that is 20 times greater than traditional farming methods," he explained. "We currently harvest approximately 10,000kg a year from 120sqm of land, but to achieve the same output in traditional farming methods, you would require over 2,500 sqm of land."

Al Kaabi also explained that the hydroponics method has been around since the 1700s. With the advancement of modern-day technology, companies are now able to use this farming method to cultivate crops commercially. The biggest advantage of hydroponics comes from the decrease in water usage. Smart Acres' method uses up to 10 times less water than traditional farms to grow lettuce.

"We've lost over a third of our arable land on this planet in the past 40 years, and with the increase in population, we will face a great shortage of arable farmland to grow enough food for the world's population by traditional means," Al Kaabi said.

"Freshwater scarcity is also a serious issue that we face as a civilization, and it was listed as the largest global risk by the World Economic Forum in 2019. These two problems are a severe challenge in the UAE. In 2019, the UAE was ranked 10th out of 164 in a global rank of nations where water supplies are most stretched."

Looking ahead, he said that he believed that the future of farming will be a mix of different technologies. "Different crops require different farming methods and there is no one size fits all. For lettuce variety, we strongly believe that we have achieved great efficiency and commercial viability with the mix of vertical farming and hydroponics technology along with the advancement of IoT. The UAE's Food Security Strategy is multi-faceted with the core goals of identifying and diversifying food sources. Local production is a vital component, but it also needs to be supplemented with global imports. Even for local production, optimum farming methods for different crops may vary for rice, strawberry, lettuce, tomatoes, etc."

Currently, Smart Acres grows five different varieties of lettuce on their farm. They take six weeks to grow from seeding to harvest. The first step is to plant the seed in the growth medium which is placed in the germination room. After the seeds have been successfully germinated, they are transplanted into the growth area where light, temperature, airflow, and humidity are all micro-controlled to provide the most optimum environment for the plants to grow.

"We are currently testing many different varieties of lettuces in the UAE," Al Kaabi said. "At the same time, our research team is collaborating with other researchers around the world to develop the most optimum environment for some of the other crops. Our goal is to be able to introduce a new crop every year for the next five years and there is a very good chance that strawberries will be one of the five crops that we may cultivate in the next five years."

Asked about the response that the concept has received, Al Kaabi said that there has been a lot of support and interest from the restaurant and café industry in the region. Chefs have been using vertically farmed produce for a few years now, but the scope has only been limited to micro-greens because growing large lettuce heads at a consistent weight can be challenging.

"Sustainable farming practices are very much on the minds of most chefs here in the UAE," he said. "The industry is becoming more aware of how sustainable practices are vital to the safety of the environment and for our survival. We have received a lot of inquiries from restaurants and hotels across the emirates for our crops, which was the result of managing to successfully grow large and premium-quality lettuce heads with consistency. Currently, we have not focused on providing our produce to many outlets as we have set our sights on developing our R&D facility that will spur long-term growth for UAE food security."

- rohma@khaleejtimes.com

Indoor agritech specialist IGS has launched Clima, its new digital publication and accompanying podcast series. Through Clima, IGS will welcome industry-leading interviewees and share thought pieces on some of the most fundamental issues facing the world, including supply chains, agricultural innovation, and indoor growing.

About IGS:

Founded in 2013, IGS brought together decades of farming and engineering experience to create an agritech business with a vision to revolutionize the indoor growing market. Its commitment to innovation has continued apace and it has evolved the applications of its technology beyond agriculture to create solutions for a wide variety of indoor environments that enhance life for people, plants, and animals.

IGS launched its first vertical farming demonstration facility in August 2018, based at the James Hutton Institute in Invergowrie.

To subscribe to Clima and to access the first edition, please visit www.igsclima.io.

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