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Turning Empty Spaces Into Urban Farms

With a lower occupancy rate in both retail and office spaces, property developers probably could redevelop the buildings for another usage – urban or vertical farming as done in Singapore with tremendous success

EVEN as many ordinary Malaysians struggle to make ends meet arising from the Covid-19 pandemic, empty shop lots continue to mount along the streets and some even display signs that say “available for rent”.

With the growing importance of food self-sufficiency, now is the time for Malaysia to turn empty spaces into urban farms – tackling food security-related issues besides making good use of the existing sites.

Urban farming is the practice of cultivating, processing and distributing food in or around urban areas.

Although Malaysia is rich in natural resources, we are highly dependent on high-value imported foods. Presently, our self-sufficiency level for fruits, vegetables and meat products stands at 78.4%, 44.6% and 22.9%, respectively.

With a lower occupancy rate in both retail and office spaces, property developers probably could redevelop the buildings for another usage – urban or vertical farming as done in Singapore with tremendous success.

According to the National Property Information Centre, the occupancy rate for shopping malls in Malaysia has dropped consecutively for five years. It declined from 79.2% in 2019 to 77.5% in 2020, the lowest level since 2003.

Penang recorded the lowest occupancy rate at 72.8%, followed by Johor Baru and Kuching (75.3%), Selangor (80%), Kuala Lumpur (82%), and Kota Kinabalu (82.1%).

In addition, the Valuation and Property Services Department revealed a lower occupancy rate at Malaysia’s privately-owned office buildings compared to the pre-pandemic era.

For instance, Johor Baru recorded the lowest occupancy rate of privately-owned office buildings at 61.9%, followed by Selangor (67.5%), the city centre of Kuala Lumpur (77.8%), Penang (79.8%), Kota Kinabalu (86.5%), and Kuching (87.1%).

Aquaponics – pesticide-free farming that combines aquaculture (growing fish) and hydroponics (growing plants without soil) – would be the way forward.

To summarise, aquaponics is one of the soilless farming techniques that allow fish to do most of the work by eating and producing waste. The beneficial bacteria in the water will convert waste into nutrient-rich water and is fed into the soil-less plants.

Following are the steps for vertical aquaponic farming:

1. Small growth cups are filled with coco peat, which are then sterilised under ultraviolet light, preventing bacteria and viruses from entering into the water pumps. There is an additional control over the environment with regard to temperature and daylight through the use of LED growth lights.

2. A hole is poked in the middle of the cup, where a plant seed is placed inside. The use of non-genetically modified organism seeds, where the majority are imported from reliable sources, is very much encouraged.

3. The seed is germinated for one to three days in a room.

4. Once the seed has germinated and grown to about two centimetres, the pots can be placed in the vertical harvest tower.

5. Nutrient-filled water from the fish pond flows to the plants automatically. Big plants grow within 30 days.

While enabling the growth of many varieties of vegetables with indoor temperature conditions, aquaponics can generate fish production, sustaining economic livelihoods particularly for the underprivileged and disabled communities, as well as fresh graduates who are still struggling to secure a decent job.

Although Sunway FutureX Farm, Kebun-Kebun Bangsar, and Urban Hijau, for instance, are good urban farming initiatives in the city centre of Kuala Lumpur, there are still many potential sites that could be transformed into urban farms.

Therefore, Malaysia perhaps can adopt Singapore’s approach by using hydroponics on roofs of car park structures and installing urban farms into existing unutilised buildings.

As it requires only a quarter of the size of a traditional farm to produce the same quantity of vegetables, the vertical rooftop system would yield more than four times compared with conventional farming. At the same time, it also reduces the need to clear land for agricultural use while avoiding price fluctuation.

Besides reducing over-reliance on imports and cutting carbon emissions, indoor vertical farming within the existing building also allows local food production as part of the supply chain.

It could expand into workshops, demos and expos besides offering guided and educational tours that promote the joy of urban farming.

Through urban farming structure inside a building, stressed-out office workers and the elderly, in particular, can enjoy a good indoor environment, air quality and well-ventilated indoor spaces. They can also relax their mind through gardening and walking around urban farms.

To increase the portion of food supplied locally, the government needs to empower farmers and the relevant stakeholders, incentivising the private sector in urban farming and providing other support through facilitating, brokering and investing.

This in turn would enhance the supply and affordability of a wide range of minimally processed plant-based foods as suggested under the latest Malaysia Economic Monitor “Sowing the Seeds” report by the World Bank.

With the current administration’s laudable commitment to tackling food security-related issues, this would provide an opportunity for Malaysia to review the current national food security policy by addressing productivity, resources optimisation, sustainable consumption, climate change, water and land scarcity.

By putting greater emphasis on urban farming, the government could empower farmers to plant more nutritious, higher-value crops; to improve their soil through modern technologies application (i.e., Internet of Things, Big Data and artificial intelligence); and to benefit from increased opportunities by earning higher returns on their generally small landholdings.

The government could also provide seeds, fertilisers and pesticides-related subsidies paid directly to the urban farmers through a voucher system.

For instance, the urban farming operators could use the voucher to buy high-quality seeds from any vendor or company.

The vendor also can use the voucher to claim payment from the government.

Not only would this approach create healthy competition among vendors, but it would also stimulate agricultural activities.

And given that current youth involvement in the agriculture sector is only 240,000 or 15% of total farmers in Malaysia as noted by Deputy Minister of Agriculture and Food Industries (Mafi) I, Datuk Seri Ahmad Hamzah, Mafi, the Ministry of Entrepreneur Development and Cooperatives and Ministry of Youth and Sports have to craft training programmes and develop grant initiatives together – attracting the younger generation of agropreneurs to get involved in urban farming.

These ministries can also work with the Department of Agriculture, Malaysian Agricultural Research and Development Institute, and Federal Agricultural Marketing Authority to develop more comprehensive urban farming initiatives.

While providing job opportunities for youths to embark on urban farming, young agropreneurs can enjoy higher income and productivity, and yields, on top of increasing the contribution of agriculture to the gross domestic product.

For urban farming to thrive in Malaysia, the government perhaps can adopt and adapt the Singapore government’s approach: developing specific targets to encourage local food production.

Even though Singapore has limited resources, it is still setting an ambitious target – increasing the portion of food supplied locally to 30% by 2030.

The upcoming 12th Malaysia Plan also will provide timely opportunities for the government to turn empty spaces into urban farming in the context of the ongoing impact of Covid-19 besides fostering agricultural modernisation by leveraging on Industrial 4.0.

In a nutshell, every Malaysian can do their part to help Malaysia become more food resilient. By converting empty spaces into urban farms, it can reduce food waste, encourage local products purchase and reduce greenhouse gas emissions.

Amanda Yeo is a research analyst at EMIR Research, an independent think tank focused on strategic policy recommendations based on rigorous research. Comment: letters@thesundaily.com

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Flushing Hydroponic Systems: Nutrient Imbalance, Waste, And An Alternative Solution

We recommend that hydroponic growers flush their systems every month to every few months, depending on the type of system they’re running. But why? We’re also fans of the recirculating system because it conserves water and nutrients

We recommend that hydroponic growers flush their systems every month to every few months, depending on the type of system they’re running. But why? We’re also fans of the recirculating system because it conserves water and nutrients.

Article from | ZipGrow

04/06/21

Is flushing hydroponic systems wasteful?

We recommend that hydroponic growers flush their systems every month to every few months, depending on the type of system they’re running. But why? We’re also fans of recirculating system because it conserves water and nutrients, so it seems counterintuitive to dump gallons of nutrient solution every few months.

Let’s talk about why this is necessary and how you can practice conservation.

The problem: nutrient imbalance

The main reason for flushing a hydroponic system is a nutrient imbalance. Hydroponic fertilizers are specifically formulated for specific crops (you can buy nutrients for a type of crop, like greens or flowers), but each farmer grows a different combination of crops in different conditions, and the ratios in which plants take up nutrients is usually just a little bit off.

This nutrient imbalance is also affected by metal components if the system has any. Zinc and aluminum ions can cause toxicities if they accumulate over time. While it’s easy to just use plastic tanks and fittings or to coat the metal components in your system with epoxy to reduce leaching, sometimes the presence of metal is unavoidable.

Another reason that growers flush their system is a hygiene practice. Algae and many plant pathogens can survive in the water, and regular cleaning with a mild bleach or peroxide solution or another oxidizing agent is a preventative measure.

Two solutions: flushing and mass balancing

Most hydroponic growers take care of this nutrient balance problem by flushing the system and starting from scratch with nutrients. This is certainly the easiest method. Be sure to check with your local town or municipality to follow the correct disposal procedure.

This practice can have a downside, however, because often the solution dumped from a system when it is being flushed isn’t used elsewhere. This can be wasteful.

The alternative to flushing a hydroponic system is to learn to mass balance. To do this, growers would get their water tested for individual nutrient levels. This usually has to be done through a lab.

Then the grower would adjust each individual nutrient to its proper level.

The reason that many growers choose to flush over mass balancing is that lab tests can be pricey (you’ll probably have to pay at least $50, and sometimes up to $500). Still, this option can be cost-effective, depending on the size of the system and access to lab testing.

Ultimately, how you choose to deal with a nutrient balance is up to you.

The content & opinions in this article are the author’s and do not necessarily represent the views of AgriTechTomorrow

Indoor & Vertical Farming, Monitoring & Growing Fertilizer, Hydroponics

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Continuing Education: Urban Agriculture

It’s been 10,000 years since the agricultural revolution gave rise to cities. Agriculture now covers more than half of the world’s habitable land and is spreading at a rate of about 15 million acres annually

April 1, 2021

Katharine Logan

It’s been 10,000 years since the agricultural revolution gave rise to cities. Agriculture now covers more than half of the world’s habitable land and is spreading at a rate of about 15 million acres annually. Cities, meanwhile, now comprise more than half the global population (over 80 percent in developed countries), and the numbers are rising. Using current farming methods to feed a global population expected to hit 10 billion by midcentury would require adding new farmland equal in size to the continental United States.

This alarming situation is not even factoring in the impact of the climate crisis, which is expected to alter growing seasons and disrupt the phenological cycles that keep plants and their pollinators in sync. What’s more, new agricultural land mostly comes from felling biodiverse, carbon-sequestering forests to make room for mono-crops that stash very few greenhouse gases and for livestock that actually generate them. That makes the climate crisis worse and farming more difficult.

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Cities

• Climate Change

• Continuing Education

In addition to land consumption, agriculture guzzles three-quarters of the fresh water used globally each year, while runoff from fields treated with herbicides, pesticides, and fertilizers contaminates significant amounts of the water that’s left. Then there’s transportation. As farms extend farther and farther from the cities they supply, food is trucked, shipped, and flown vast distances: farm to plate, the ingredients in a typical American meal travel an average of 1,500 miles. From a security perspective, the fact that most of the world’s food production is controlled by just a handful of corporations is unnerving. And from a public health perspective, the emergence of Covid-19 and other new diseases offers yet another indicator of ecological imbalance. It’s time to rethink the way we farm.

Food security, as defined by the United Nations, means that all people, at all times, have physical, social, and economic access to sufficient, safe, and nutritious food that serves their food preferences and dietary needs for an active and healthy life. Key to achieving food security in a way that’s more sustainable than current practices is urban agriculture—not as an outright replacement for rural farming, but as a crucial component in a balanced system.

Urban agriculture can take many forms: rooftop greenhouses, raised beds, and community-farming initiatives such as the City of Atlanta’s “Aglanta” program, which turns underused parcels in utility rights-of-way into farm plots eligible for U.S. Department of Agriculture certificates and associated loans. Ultimately, though, horizontal strategies are not productive enough to make a real dent in the food needs of a city. (If raised beds covered every rooftop in Manhattan, the produce grown would feed only about 2 percent of the borough’s population.) Just as cities grow vertically, so too must urban agriculture, and that means bringing it indoors.

“Controlled environments have been used for many years,” says Chieri Kubota, a professor of controlled environment agriculture (CEA) in the Department of Horticulture and Crop Science at Ohio State University. “Now that multiple issues are making conventional production outdoors more difficult, putting controlled environments in and near cities brings food production closer to potential markets—and also to younger generations of potential farmers who want to live in urban centers.”

Vertical agriculture is a type of CEA that—like high-rise buildings—stacks layers to provide usable area many times the footprint of the site. Instead of growing in soil, which is a heavy way to deliver nutrients, plants in vertical farms are grown hydroponically, aquaponically, or aeroponically. In hydroponics, plants are cultivated in nutrient-enriched water, which is captured and reused so that the system uses as little as a tenth of the water conventional agriculture needs. An aquaponic system pairs hydroponics with fish production, circulating the nutrients in the fish waste to feed the vegetables, and using the plants as a biofiltration system that returns clean water to the fish. Reducing water consumption even further—by as much as 98 percent, compared to field growing—aeroponic systems deliver nutrients in a fine mist to plant roots that are just hanging in the air. And because controlled environments exclude the weeds and pests that trouble field-grown produce, the use of herbicides and pesticides is all but eliminated.

Stacked plants may need to be rotated to make the most of available sunlight, which can be supplemented (or even substituted altogether) with LED grow lights. These can be calibrated to provide blue and red light in optimal doses for each type of plant, and timed to increase plant growth with extended days and growing seasons. (While it’s technically possible to grow any type of crop this way, for now it’s mainly leafy greens and tomatoes that are economically viable.) Cool enough to be strung right in among the plants without burning them, LEDs reduce site electricity consumption (and costs) per square foot of grow area by about a third compared to older technologies, such as high-pressure sodium. “Energy is a game-changer,” says Dickson Despommier, an emeritus professor of microbiology and public health at Columbia University, whose seminal 2010 book, The Vertical Farm: Feeding the World in the 21st Century, is widely credited with kick-starting vertical agriculture in North America. Cost-effective LED lighting opens up the possibility of converting urban and urban-adjacent building types such as parking garages, big-box stores, and shopping malls into productive local farms, he says.

With productivity rates that are orders of magnitude greater than conventional farming, high-rise growing is gaining traction worldwide. The world’s first such system began operations in 2012 in Singapore. The land-strapped city-state, which imports about 90 percent of its food, aims to grow a third of its produce locally by 2030. Indoor vertical farms in the country now produce about 80 tons of greens a year, and the Singapore Food Agency is supporting research into and development of the method as its main bet on the future.

In China, great swaths of arable land have been lost to development (more than 30 million acres between 1997 and 2008) and 20 percent of what’s left is contaminated. At the same time, the country has a strong tradition of urban-adjacent farming. When a 247-acre agricultural site, midway between Shanghai’s main international airport and the megacity’s center, recently came up for redevelopment, global design firm Sasaki proposed that, rather than create yet another tech park, the client take its agricultural mission to the next level. As a result, the Sunqiao Urban Agricultural District is slated to become one of China’s first comprehensive national agricultural zones. Sasaki’s master plan, which has received approval from the Pudong District and is now proceeding for formal approval from the City of Shanghai, expands the district’s role in Shanghai’s food network, integrating vertical agricultural production, research, and education into a dynamic public domain. In addition to research and development facilities and an agriculture production zone, the plan provides for a civic plaza showcasing productive landscapes, a science museum, an interactive greenhouse, an aquaponics display, and a destination market. “It’s urban agriculture on steroids,” says Michael Grove, chair of landscape architecture, civil engineering, and ecology at Sasaki.

Sunqiao-Urban-Agricultural-District-02.jpeg

The Sunqiao project will include a civic plaza with productive landscapes (top), a science museum, and an interactive greenhouse (above), among other elements. Image courtesy Sasaki, click to enlarge.

Grove identifies three primary drivers for prioritizing urban agriculture globally: the need to curtail agricultural sprawl and thereby protect ecosystems, to reclaim economic agency by diversifying control of food production, and to build community: “Food brings us together,” he says. Behind Asia’s early adoption of urban agriculture, he sees a historic understanding among the region’s societies that the well-being of the population requires systemic support. That may also be a factor in Europe, where the Netherlands is a global leader in controlled-environment technology, and Denmark is home to the world’s latest and largest vertical farm, a partnership between a Taiwanese CEA tech company and a local start-up: with growing shelves stacked 14 deep, the 75,000-square-foot wind-powered facility has the capacity to produce 1,000 metric tons of greens a year.

A hub for teaching, research, and community engagement, located within sight of downtown Columbus and designed by Erdy McHenry Architecture, supports Ohio State’s CEA efforts. Brad Feinknopf

Ohio-State-Greenhouse.jpeg

North America has been slower to adopt vertical farming, a lag that Ohio State’s Kubota attributes in large part to the year-round, nationwide availability of produce from California, Arizona, and Florida. But now, she says, climate disruptions and shortages of viable farmland in those states, along with the increasing urbanization of the workforce, strengthen the rationale for controlled environment agriculture. To support Ohio State University’s multidisciplinary research into CEA, a one-acre vertical greenhouse is under construction within sight of downtown Columbus. As part of the facility, the recently completed Kunz-Brundige Franklin County Extension Office serves as a hub for teaching, research, and community engagement around food, health, agricultural production, and sustainability. Both buildings are designed by Philadelphia-based Erdy McHenry Architecture.

Although still tiny, vertical farming is the fastest-growing sector in U.S. agriculture. A projected compound annual growth rate (CAGR) of more than 20 percent from 2020 to 2026 is expected to bring sales to around $10 billion a year. And while significant numbers of start-ups in the capital-intensive sector have failed—as indicated by the track record of several initiatives profiled in this magazine eight years ago —experts say that’s an inevitable aspect of an emerging technology.

Among the growing number of enterprises going strong, however, is Vertical Harvest, the first vertical hydroponic greenhouse in North America. Cofounded by architect Nona Yehia, principal at GYDE Architects, the company began operations in 2016 in Jackson Hole, Wyoming. Jackson is a rural town, but it performs like a city in relevant ways: 97 percent of its developable land is already in use, and, with a four-month growing season, 98 percent of its food is imported. Inspired by Despommier’s work, the need for a local food supply, and the opportunity to provide meaningful work for community members with intellectual and physical challenges, Yehia designed a three-story greenhouse for a 30-by-100-foot municipally owned lot next to a parking garage. “The town councilor who showed us the property thought we’d put up a plastic hoop structure to extend the growing season a couple of months, employ a few people, and call it a day,” recalls Yehia. But she and her business partners wanted to grow as much food as possible, to employ as many people as possible, and to do both year-round. “That’s where the idea to grow up came from,” she says.

Vertical Harvest’s three-story CEA facility in Jackson Hole, Wyoming, produces as much food on a tenth of an acre as on a 10-acre conventional farm. Photos © Vertical Harvest (1), Hannah Hardaway (2 & 3)

With a footprint of a tenth of an acre, the greenhouse produces as much food as would a 10-acre conventional farm. It employs 30 people, more than half of whom have a disability. And it’s profitable. “It would have been easier as a nonprofit,” Yehia says, “but we were committed to creating a replicable model that is not about charity: it’s about empowerment.”

After five years of operation, Vertical Harvest is ready to expand. Construction is scheduled to start this year on a second location that incorporates affordable housing and municipal parking in Westbrooke, Maine. The new 70,000-square-foot greenhouse is expected to provide the equivalent of 50 full-time jobs and to produce 1.3 million pounds of produce a year, supplying hospitals, corporate cafeterias, schools, chefs, restaurants, and caterers, as well as individual customers. “These ecosystems can put out a lot of food,” says Yehia. “Making sure you have customers who can buy at scale is as essential to success as growing plans.”

Vertical Harvest intends to build up to 15 farms in the next five years, with agreements already in place for projects in Philadelphia and Harrisburg, Pennsylvania, and Chicago, and discussion is underway for five other locations. Like the Wyoming and Maine projects, they will integrate social value and community engagement with their agricultural mission. “It’s the perfect intersection to show what architecture can achieve in its social role in our communities,” Yehia says. And while she has run Vertical Harvest as designer, entrepreneur, and urban farmer, it’s entirely possible for architects to advocate for urban agriculture in their more usual role as prime consultants, coordinating the work of other experts.

As CEA picks up speed, the time may not be far off when every municipality will incorporate vertical farming into its civic infrastructure, valued the way public libraries and recreation centers are. “It should be something that we all expect to see when we go to cities,” Yehia says: “infrastructure that grows food and futures, and bolsters the sustainability of the community.”

Continuing Education

To earn one AIA learning unit (LU), including one hour of health, safety, and welfare (HSW) credit, read the article above and watch this video.

Then complete the quiz. Upon passing the test, you will receive a certificate of completion, and your credit will be automatically reported to the AIA. Additional information regarding credit-reporting and continuing-education requirements can be found at continuingeducation.bnpmedia.com

Learning Objectives

  1. Explain how conventional agricultural methods contribute to climate change.

  2. Define terms such as urban agriculture, controlled environment agriculture (CEA), and vertical agriculture.

  3. Describe technologies relevant to CEA, such as hydroponics, aeroponics, and aquaponics.

  4. Discuss how CEA can enhance food security and bring social value to underserved communities.

AIA/CES Course #K2104A

Lead photo: Sunqiao Urban Agricultural District has been designed by Sasaki for a site midway between Shanghai’s city center. Image courtesy Sasaki

KEYWORDS cities / climate change / urban planning

Architectural TechnologyArchitect Continuing Education

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Continuing Education: Urban Agriculture

It’s been 10,000 years since the agricultural revolution gave rise to cities. Agriculture now covers more than half of the world’s habitable land, and is spreading at a rate of about 15 million acres annually

April 1, 2021

Katharine Logan

It’s been 10,000 years since the agricultural revolution gave rise to cities. Agriculture now covers more than half of the world’s habitable land, and is spreading at a rate of about 15 million acres annually. Cities, meanwhile, now comprise more than half the global population (over 80 percent in developed countries), and the numbers are rising. Using current farming methods to feed a global population expected to hit 10 billion by midcentury would require adding new farmland equal in size to the continental United States.

This alarming situation is not even factoring in the impact of the climate crisis, which is expected to alter growing seasons and disrupt the phenological cycles that keep plants and their pollinators in sync. What’s more, new agricultural land mostly comes from felling biodiverse, carbon-sequestering forests to make room for mono-crops that stash very few greenhouse gases and for livestock that actually generate them. That makes the climate crisis worse and farming more difficult.

In addition to land consumption, agriculture guzzles three-quarters of the fresh water used globally each year, while runoff from fields treated with herbicides, pesticides, and fertilizers contaminates significant amounts of the water that’s left. Then there’s transportation. As farms extend farther and farther from the cities they supply, food is trucked, shipped, and flown vast distances: farm to plate, the ingredients in a typical American meal travel an average of 1,500 miles. From a security perspective, the fact that most of the world’s food production is controlled by just a handful of corporations is unnerving. And from a public health perspective, the emergence of Covid-19 and other new diseases offers yet another indicator of ecological imbalance. It’s time to rethink the way we farm.

Food security, as defined by the United Nations, means that all people, at all times, have physical, social, and economic access to sufficient, safe, and nutritious food that serves their food preferences and dietary needs for an active and healthy life. Key to achieving food security in a way that’s more sustainable than current practices is urban agriculture—not as an outright replacement for rural farming, but as a crucial component in a balanced system.

Urban agriculture can take many forms: rooftop greenhouses raised beds, and community-farming initiatives such as the City of Atlanta’s “Aglanta” program, which turns underused parcels in utility rights-of-way into farm plots eligible for U.S. Department of Agriculture certificates and associated loans. Ultimately, though, horizontal strategies are not productive enough to make a real dent in the food needs of a city. (If raised beds covered every rooftop in Manhattan, the produce grown would feed only about 2 percent of the borough’s population.) Just as cities grow vertically, so too must urban agriculture, and that means bringing it indoors.

“Controlled environments have been used for many years,” says Chieri Kubota, a professor of controlled environment agriculture (CEA) in the Department of Horticulture and Crop Science at Ohio State University. “Now that multiple issues are making conventional production outdoors more difficult, putting controlled environments in and near cities brings food production closer to potential markets—and also to younger generations of potential farmers who want to live in urban centers.”

Vertical agriculture is a type of CEA that—like high-rise buildings—stacks layers to provide usable area many times the footprint of the site. Instead of growing in soil, which is a heavy way to deliver nutrients, plants in vertical farms are grown hydroponically, aquaponically, or aeroponically. In hydroponics, plants are cultivated in nutrient-enriched water, which is captured and reused so that the system uses as little as a tenth of the water conventional agriculture needs. An aquaponic system pairs hydroponics with fish production, circulating the nutrients in the fish waste to feed the vegetables, and using the plants as a biofiltration system that returns clean water to the fish. Reducing water consumption even further—by as much as 98 percent, compared to field growing—aeroponic systems deliver nutrients in a fine mist to plant roots that are just hanging in the air. And because controlled environments exclude the weeds and pests that trouble field-grown produce, the use of herbicides and pesticides is all but eliminated.

Stacked plants may need to be rotated to make the most of available sunlight, which can be supplemented (or even substituted altogether) with LED grow lights. These can be calibrated to provide blue and red light in optimal doses for each type of plant, and timed to increase plant growth with extended days and growing seasons. (While it’s technically possible to grow any type of crop this way, for now it’s mainly leafy greens and tomatoes that are economically viable.) Cool enough to be strung right in among the plants without burning them, LEDs reduce site electricity consumption (and costs) per square foot of grow area by about a third compared to older technologies, such as high-pressure sodium. “Energy is a game-changer,” says Dickson Despommier, an emeritus professor of microbiology and public health at Columbia University, whose seminal 2010 book, The Vertical Farm: Feeding the World in the 21st Century, is widely credited with kick-starting vertical agriculture in North America. Cost-effective LED lighting opens up the possibility of converting urban and urban-adjacent building types such as parking garages, big-box stores, and shopping malls into productive local farms, he says.

With productivity rates that are orders of magnitude greater than conventional farming, high-rise growing is gaining traction worldwide. The world’s first such system began operations in 2012 in Singapore. The land-strapped city-state, which imports about 90 percent of its food, aims to grow a third of its produce locally by 2030. Indoor vertical farms in the country now produce about 80 tons of greens a year, and the Singapore Food Agency is supporting research into and development of the method as its main bet on the future.

In China, great swaths of arable land have been lost to development (more than 30 million acres between 1997 and 2008) and 20 percent of what’s left is contaminated. At the same time, the country has a strong tradition of urban-adjacent farming. When a 247-acre agricultural site, midway between Shanghai’s main international airport and the megacity’s center, recently came up for redevelopment, global design firm Sasaki proposed that, rather than create yet another tech park, the client take its agricultural mission to the next level. As a result, the Sunqiao Urban Agricultural District is slated to become one of China’s first comprehensive national agricultural zones. Sasaki’s master plan, which has received approval from the Pudong District and is now proceeding for formal approval from the City of Shanghai, expands the district’s role in Shanghai’s food network, integrating vertical agricultural production, research, and education into a dynamic public domain. In addition to research and development facilities and an agriculture production zone, the plan provides for a civic plaza showcasing productive landscapes, a science museum, an interactive greenhouse, an aquaponics display, and a destination market. “It’s urban agriculture on steroids,” says Michael Grove, chair of landscape architecture, civil engineering, and ecology at Sasaki.

The Sunqiao project will include a civic plaza with productive landscapes (top), a science museum, and an interactive greenhouse (above), among other elements. Image courtesy Sasaki.

Grove identifies three primary drivers for prioritizing urban agriculture globally: the need to curtail agricultural sprawl and thereby protect ecosystems, to reclaim economic agency by diversifying control of food production, and to build community: “Food brings us together,” he says. Behind Asia’s early adoption of urban agriculture, he sees a historic understanding among the region’s societies that the well-being of the population requires systemic support. That may also be a factor in Europe, where the Netherlands is a global leader in controlled-environment technology, and Denmark is home to the world’s latest and largest vertical farm, a partnership between a Taiwanese CEA tech company and a local start-up: with growing shelves stacked 14 deep, the 75,000-square-foot wind-powered facility has the capacity to produce 1,000 metric tons of greens a year.

A hub for teaching, research, and community engagement, located within sight of downtown Columbus and designed by Erdy McHenry Architecture, supports Ohio State’s CEA efforts. Brad Feinknopf

North America has been slower to adopt vertical farming, a lag that Ohio State’s Kubota attributes in large part to the year-round, nationwide availability of produce from California, Arizona, and Florida. But now, she says, climate disruptions and shortages of viable farmland in those states, along with the increasing urbanization of the workforce, strengthen the rationale for controlled environment agriculture. To support Ohio State University’s multidisciplinary research into CEA, a one-acre vertical greenhouse is under construction within sight of downtown Columbus. As part of the facility, the recently completed Kunz-Brundige Franklin County Extension Office serves as a hub for teaching, research, and community engagement around food, health, agricultural production, and sustainability. Both buildings are designed by Philadelphia-based Erdy McHenry Architecture.

Although still tiny, vertical farming is the fastest-growing sector in U.S. agriculture. A projected compound annual growth rate (CAGR) of more than 20 percent from 2020 to 2026 is expected to bring sales to around $10 billion a year. And while significant numbers of start-ups in the capital-intensive sector have failed—as indicated by the track record of several initiatives profiled in this magazine eight years ago —experts say that’s an inevitable aspect of an emerging technology.

Among the growing number of enterprises going strong, however, is Vertical Harvest, the first vertical hydroponic greenhouse in North America. Cofounded by architect Nona Yehia, principal at GYDE Architects, the company began operations in 2016 in Jackson Hole, Wyoming. Jackson is a rural town, but it performs like a city in relevant ways: 97 percent of its developable land is already in use, and, with a four-month growing season, 98 percent of its food is imported. Inspired by Despommier’s work, the need for a local food supply, and the opportunity to provide meaningful work for community members with intellectual and physical challenges, Yehia designed a three-story greenhouse for a 30-by-100-foot municipally-owned lot next to a parking garage. “The town councilor who showed us the property thought we’d put up a plastic hoop structure to extend the growing season a couple of months, employ a few people, and call it a day,” recalls Yehia. But she and her business partners wanted to grow as much food as possible, to employ as many people as possible, and to do both year-round. “That’s where the idea to grow up came from,” she says.

Vertical Harvest’s three-story CEA facility in Jackson Hole, Wyoming, produces as much food on a tenth of an acre as on a 10-acre conventional farm. Photos © Vertical Harvest (1), Hannah Hardaway (2 & 3)

With a footprint of a tenth of an acre, the greenhouse produces as much food as would a 10-acre conventional farm. It employs 30 people, more than half of whom have a disability. And it’s profitable. “It would have been easier as a nonprofit,” Yehia says, “but we were committed to creating a replicable model that is not about charity: it’s about empowerment.”

After five years of operation, Vertical Harvest is ready to expand. Construction is scheduled to start this year on a second location that incorporates affordable housing and municipal parking in Westbrooke, Maine. The new 70,000-square-foot greenhouse is expected to provide the equivalent of 50 full-time jobs and to produce 1.3 million pounds of produce a year, supplying hospitals, corporate cafeterias, schools, chefs, restaurants, and caterers, as well as individual customers. “These ecosystems can put out a lot of food,” says Yehia. “Making sure you have customers who can buy at scale is as essential to success as growing plans.”

Vertical Harvest intends to build up to 15 farms in the next five years, with agreements already in place for projects in Philadelphia and Harrisburg, Pennsylvania, and Chicago, and discussion is under way for five other locations. Like the Wyoming and Maine projects, they will integrate social value and community engagement with their agricultural mission. “It’s the perfect intersection to show what architecture can achieve in its social role in our communities,” Yehia says. And while she has run Vertical Harvest as designer, entrepreneur, and urban farmer, it’s entirely possible for architects to advocate for urban agriculture in their more usual role as prime consultants, coordinating the work of other experts.

As CEA picks up speed, the time may not be far off when every municipality will incorporate vertical farming into its civic infrastructure, valued the way public libraries and recreation centers are. “It should be something that we all expect to see when we go to cities,” Yehia says: “infrastructure that grows food and futures, and bolsters the sustainability of the community.”

Continuing Education

To earn one AIA learning unit (LU), including one hour of health, safety, and welfare (HSW) credit, read the article above and watch this video.

Then complete the quiz. Upon passing the test, you will receive a certificate of completion, and your credit will be automatically reported to the AIA. Additional information regarding credit-reporting and continuing-education requirements can be found at continuingeducation.bnpmedia.com.

Learning Objectives

  1. Explain how conventional agricultural methods contribute to climate change.

  2. Define terms such as urban agriculture, controlled environment agriculture (CEA), and vertical agriculture.

  3. Describe technologies relevant to CEA, such as hydroponics, aeroponics, and aquaponics.

  4. Discuss how CEA can enhance food security and bring social value to underserved communities.

AIA/CES Course #K2104A

Complete the Quiz

Lead Image: KEYWORDS cities / climate change / urban planning

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Vertical Farming Startup Oishii Raises $50m In Series A Funding

“We aim to be the largest strawberry producer in the world, and this capital allows us to bring the best-tasting, healthiest berry to everyone.”

food bev.png

By Sian Yates

03/11/2021

Oishii, a vertical farming startup based in New Jersey, has raised $50 million during a Series A funding round led by Sparx Group’s Mirai Creation Fund II.

The funds will enable Oishii to open vertical strawberry farms in new markets, expand its flagship farm outside of Manhattan, and accelerate its investment in R&D.

“Our mission is to change the way we grow food. We set out to deliver exceptionally delicious and sustainable produce,” said Oishii CEO Hiroki Koga. “We started with the strawberry – a fruit that routinely tops the dirty dozen of most pesticide-riddled crops – as it has long been considered the ‘holy grail’ of vertical farming.”

“We aim to be the largest strawberry producer in the world, and this capital allows us to bring the best-tasting, healthiest berry to everyone. From there, we’ll quickly expand into new fruits and produce,” he added.

Oishii is already known for its innovative farming techniques that have enabled the company to “perfect the strawberry,” while its proprietary and first-of-its-kind pollination method is conducted naturally with bees.

The company’s vertical farms feature zero pesticides and produce ripe fruit all year round, using less water and land than traditional agricultural methods.

“Oishii is the farm of the future,” said Sparx Group president and Group CEO Shuhei Abe. “The cultivation and pollination techniques the company has developed set them well apart from the industry, positioning Oishii to quickly revolutionise agriculture as we know it.”

The company has raised a total of $55 million since its founding in 2016.

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The Stock Market Discovers Indoor Ag In A Big Way

Special purpose acquisition companies are a faster cheaper way to raise company funds than the traditional IPO process. What role may they play in our ever growing vertical farming industry?

Robinhood antics aside, there’s no hotter topic in finance right now than SPACs (special purpose acquisition companies), and even indoor agriculture has become caught up in the buzz.

SPACs, or special purpose acquisition corporations, are a shell company that lists itself on a stock exchange and then uses the listing proceeds to acquire or merge with another company. It’s an attractive route to raising funds for companies looking for a faster and cheaper way to list than the rigours of the traditional IPO process. 

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Though SPACs have been around since the 1990s, they have had a reputation for being “the buyer of last resort”, primarily owing to a spate of failures in the early 2000s. The approach has once more taken off in recent years. There was nearly 8x as much raised in 2020 as in 2018, and 2021’s total has already surpassed last year’s[1]. The approach has become so hot that even Goldman Sachs junior investment bankers recently complained that they were burned out by the sheer volume of SPACs they’re working on[2]. 

This newfound enthusiasm is generally traced to a combination of tighter SEC regulations, efforts by cash-rich private equity companies to exit portfolio companies and fewer traditional IPO listings. Higher quality sponsors, such as 40-year old private equity firm Thoma Bravo, lead some to believe that things are different this time around.  The lustre of famous SPAC participants – such as baseball player A-Rod and basketball legend Shaquille O’Neal – has helped things along.  

Detractors point to post-listing underperformance by SPACs, high fees to sponsors and opaqueness around the acquisition of companies.  SPAC rules mean that institutional investors sometimes get to see information on potential acquisitions ahead of retail investors.[3] On a recent Clubhouse chat, one investor compared SPACs to the risky no-revenue internet listings of the late 1990s. Another questioned whether retail investors’ appetite for such vehicles would cause greater market volatility[4].

Dan Bienvenue, the interim CEO of mega public pension fund CALPERs, recently described SPACs as “fraught with potential misalignment, potential governance issues”.[5] That said, similar dire warnings have accompanied the rise of many a new approach in finance, most recently equity crowdfunding, and have proven wrong as often as right.

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As is so often the case in indoor agriculture, cannabis companies have led the way when it comes to SPACs, generally listing in Canada owing to the US federal prohibition on the crop. One example is Choice Consolidation Corp, which raised $150mm in February, and says that it plans to acquire “existing strong single-state operators”[6].

Historically, food-focused indoor agriculture companies have sourced little of their capital from public markets, preferring instead to work with private equity and strategic investors. To be sure, there is a small cadre of listed CEA firms, such as Canadian greenhouse operator Village Farms (TSE: VFF) and Canadian grow system tech company CubicFarm Systems Corp (TSXV: CUB) are exceptions to this rule.

All of that changed last month when Kentucky-based greenhouse company AppHarvest raised $475mm through NASDAQ listed SPAC Novus Capital. The funds will fuel the expansion of up to a dozen new farms through 2025.

Naturally, the move has led to speculation that vertical farms and greenhouses will follow suit, though it’s worth noting that the rules that govern SPACs aren’t necessarily friendly to CEA companies. They favour large, highly valued companies that easily capture the attention of retail investors, and those are not plentiful in CEA.  

Regardless of whether the SPAC trend becomes a permanent feature of the indoor farm fundraising landscape, one more method of accessing capital for CEA can only be a good thing. For the moment at least.

contain.jpg

For more information:
Contain
www.contain.ag

Note: None of the above constitutes investment advice.

Sources:
[1] SPACInsider figures
[2] “Goldman’s junior bankers complain of crushing workload amid SPAC-fueled boom in Wall Street deals”, CNBC, March 18, 2021
[3] For instance, where a PIPE is being considered by the SPAC
[4] “SPACS: IPO 2.0 & Agrifoodtech Exits”, March 4, 2021
[5] “CalPERS’ Bienvenue: SPACs are fraught with potential misalignment”, Private Equity International, March 16, 2021
[6] “New cannabis SPAC raises $150 million in IPO for US acquisitions”, Marijuana Business Daily, February 19, 2021

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Publication date: Wed 24 Mar 2021
Author: Rebekka Boekhout
© VerticalFarmDaily.com

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Underground Agriculture In London Is Gearing Up

By 2022, Growing Underground aims to produce 60 metric tons of vegetables across an area of 528 square meters. That should be enough for 10,000 households and is 12x more than what is produced on a regular farm

Growing Underground In London Is One

of The Largest Underground Vertical Farms

In the World That is Controlled Entirely

By A Digital Twin At The University of Cambridge.

29 March 2021

MAURITS KUYPERS

All the good things an old World War II bunker can bring, right? Thirty meters below ground, near the London New Covent Garden food market, two entrepreneurs have been working together for several years with the British University of Cambridge on an underground farm that has great ambitions.

Their intention is not only to significantly increase production on-site over the coming years. The project also serves as an example for the whole world, according to co-founder Richard Ballard,

By 2022, Growing Underground aims to produce 60 metric tons of vegetables across an area of 528 square meters. That should be enough for 10,000 households and is 12x more than what is produced on a regular farm.

Energy and water

Vegetable cultivation takes place without soil, as the plants thrive on a kind of ‘woolen carpet’ that uses very little water. “70% less than on a conventional farm,” claims Growing Underground. Energy consumption is also low due to the great depth – which ensures few temperature fluctuations – and thanks to the energy-efficient LED lighting.

Nevertheless, energy is the one thing that still stands in the way of a global breakthrough. Ballard: “Vertical agriculture is on the verge of exponential growth due to ever-improving LED technology, the Internet of Things, cloud computing, and wireless sensors. But the really big breakthrough will come once more and cheaper renewable energy becomes available that can also be stored.”

Ballard believes vertical agriculture can make a significant contribution to the food problem we undoubtedly have in store as a result of an ever- growing global population. For a techie, the fun part is that it also requires a lot of high-end sensor technology.

Melanie Jans-Singh

A digital twin

There are 25 sensors in the underground farm that constantly track how the plants are doing. E.g., whether something needs to be done with the amount of CO2 in the air, nutrients, temperature, humidity and light. In total, 89 variables are involved. Even the speed at which the plants grow is measured, says researcher Melanie Jans-Singh from the University of Cambridge.

Jans-Singh: “The digital twin provides us with a 3D representation of the situation in London here in Cambridge. That image is even better than if you were there on site yourself. The digital twin can do much more than a human being. It can monitor, learn, give feedback and make predictions. All factors that will help increase productivity.”

A great deal of research into vertical farming is also being done in the Netherlands, such as by the company Plantlab.

ABOUT THE AUTHOR

Maurits Kuypers graduated as a macroeconomist from the University of Amsterdam, specializing in international work. He has been active as a journalist since 1997, first for 10 years on the editorial staff of Het Financieele Dagblad in Amsterdam, then as a freelance correspondent in Berlin and Central Europe. When it comes to technological innovations, he always has an eye for the financial feasibility of a project.

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Introducing Low-Cost Farming Models To The Philippines

“I am convinced that we found a system that works perfectly here for the local climate conditions, with minimal cost of electricity and well suited for the skill level of the labor force, whilst delivering the highest quality produce

Through Local Sourcing

And The Use of Natural Resources

The Philippines is one of the greatest exporter of coconuts, mangoes, and pineapples worldwide, it is quite a surprise that a large number of vegetables are imported from surrounding countries. “Fresh herbs and leafy greens, in particular as they’re much more expensive here and low-quality,” says Ralph Becker, CEO and founder of Urban Greens. “Our climate is not ideal for some specific vegetable cultivation because of the extreme heat, torrential typhoons and other natural disasters. However, there is growing awareness regarding a healthy lifestyle, whereas the demand for vegetables is increasing noticeably.”

After spending a decade in corporate technology with Sony Electronics, Ralph Becker decided to shift his focus. “When I left the shelter of corporate life and moved back to the Philippines, I noticed that lots of food was imported. It made me think whether that could be done more efficiently with a smaller carbon foodprint and eventually better food quality.” 

Ralph Becker

Ralph Becker

Sourcing locally
Hydroponic material and equipment is easily obtainable in most western countries but less so in the Philippines and particularly when he started his venturesome 4 years ago, which is why Ralph and his team designed everything themselves from the ground up.  

“I am convinced that we found a system that works perfectly here for the local climate conditions, with minimal cost of electricity and well suited for the skill level of the labor force, whilst delivering the highest quality produce. One of the benefits for us is that the equipment can easily be repaired from parts available in a local hardware shop, for instance.

Contrary to other players who brought in technology from abroad that was not particularly designed for these temperature and humidity conditions, such as container farms which heat up in this tropical climate and take a lot of electricity to cool down – cost that has to be recovered on a slim profit margin to start with. We have our own technology and we’re able to scale it, without having to rely on outside technology.” 

The new warehouse

With the brand-new warehouse farm right in the city center, the company will soon be delivering more than 1,5 tons of fresh produce per month. “Everything we’ve learned thus far in previous smaller units is now replicated in our new farms implementing the same model. The Philippines is a big country with many cities that rely quite heavily on imports, which is the main market we want to target,” says Ralph.

Ralph had always been interested in plant growing ever since being exposed to hydroponic farming in Japan and the US. Once he relocated to the Philippines he started doing some experiments with growing herbs. Posting about his project on social media many people reached out as they wanted him to grow for them too. Ralph says that restaurants and hotels were eager to validate the demand of high-quality local produce.

Pilot model
Urban Greens is building the new warehouse farm with a bigger purpose in mind, namely, as a pilot model for more farms. People interested in the vertical farming space can come and visit the farm. Ralph adds, “We want to inspire visitors by showing the possibilities of these new farming models. After all, we need young farmers to come into the industry. The younger generation isn’t that interested in farming because of the hard labor and low wages. We want to prove them wrong by showing that farming can be lucrative and modern too.”

Apart from cost-effectiveness, reliability is one of Urban Greens’ greatest assets. “Consistency of supply gets easily interrupted due to tropical storms, which is both bad for the farmer and for those who rely on it. Reducing food miles is of essential importance to food availability,” Ralph states. This also happened during COVID, when many supply chains were cut and the company noticed a strong increase in demand. “We turned hardship into an opportunity,” says Ralph. “Once we’ve finished up this warehouse farm in the heart of Makati, people will see that vertical farming can be viable in the Philippines. This country has 7000 islands, and I think each of them is in need of an Urban Greens farm.”

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For more information:
Ralph Becker, CEO
Urban Greens
ralph@eaturbangreens.com 
www.eaturbangreens.com 

Publication date: Mon 29 Mar 2021
Author: Rebekka Boekhout
© 
VerticalFarmDaily.com

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CANADA: Vertical Urban Farm 'Ortaliza' Opens Kingsville Storefront

A Kingsville farm is celebrating its grand opening Friday, but it’s not your typical, sprawling set-up. Ortaliza is what’s called an urban vertical farm, growing microgreens right in the store — so you can watch your crop before it lands on your plate

Rich Garton | @RichGartonCTV Contact

CTV Windsor News Reporter

March 18, 2021

An urban farm has popped up in a Kingsville storefront where fresh microgreens are grown. CTV Windsor's Rich Garton with details.

WINDSOR, ONT. -- A Kingsville farm is celebrating its grand opening Friday, but it’s not your typical, sprawling set-up.

Ortaliza is what’s called an urban vertical farm, growing microgreens right in the store — so you can watch your crop before it lands on your plate.

The new venture is the brainchild of Carina Biacchi and Alvaro Fernandes, who moved from Brazil to Canada five years ago, bringing with them a passion for entrepreneurship and farming.

“We’ve been dreaming and researching not only dreaming but panning about this idea for years, doing research, traveling,” says Biacchi, who is the founder and CEO of the company.

On Friday, Mar. 19, that dream becomes reality — with the launch of Ortaliza, which is Spanish for vegetable garden.

“We fell in love with microgreens because they are such an easy way to eat healthy food,” Biacchi says. “They’re convenient, packed with nutrients, and you can use them, not only in a salad but sometimes you want to enjoy yourself a little bit.”

The vertical urban farm has a main street location in Kingsville — where the fresh microgreens are grown right behind the sore counter.

“People are hearing about vertical farming, but they can’t see it. They are not being there. So we wanted to allow them to come and see what it is,” says Biacchi. “It is still a farm, yes, we’re more tech, more modern, but we wanted to give that feeling to people.”

Vertical Urban Farming — takes traditional farming techniques — but creates density in space.

Ortaliza’s store is only 850 square feet, but rows of stacked shelves utilize six times the space.

“For vertical farming, the sky’s the limit, literally, you can grow as tall as you want,” says Alvaro Fernandes, the company’s chief operating officer.

Much like a greenhouse, Fernandes says growing conditions are optimal — regardless of what’s happening outside.

“I fell in love with indoor agriculture because we have full control of what we do. We can control the lights, the wind, humidity, temperature, everything,” he says.

According to WE-Tech Alliance, which is assisting the business in the start-up process — urban vertical farming provides food security and sustainability, adding significant value to the food system.

Each shelf of microgreens at Ortaliza can feed 20 families, according to Fernandes.

The new business owners also believe the most important aspect of their operation is freshness — so they will only deliver and cater to people in Windsor-Essex.

“We want to be close to our consumers, we want to sell directly to our consumers, we are as urban as we can be,” says Biacchi.

Hand-watered and lit up 14 hours a day, the 25 varieties of micro-greens take 10 days to grow in Canadian Pete-moss and are harvested daily for in-store purchases and deliveries.

The couple hopes this Kingsville store is their first of many across the country but Fernandes promises they will stay true to the business model of by local, for local.

“We don’t want to lose our identity, our proximity to customers.”

You can learn more about the new store here.

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Stockholm’s Indoor Farms Boost Food Security

The city is revolutionizing its food sector by showing results in eco-friendly urban farming

The City Is Revolutionizing Its Food

Sector By Showing Results

In Eco-Friendly Urban Farming

By Benedict Lopez

14 Mar 2021

In April 2020, the UN warned that the world was on the brink of a catastrophic famine.

It was estimated that about 135 million people in around 55 countries faced shortages in food, particularly nutritious food, in 2019.

Against this backdrop, the UN has set an ambitious goal to ensure food security and wipe out hunger by 2030. It estimated that around 183 million people could slide into starvation and malnutrition if stricken with a pandemic akin to Covid-19. The coronavirus crisis disrupted global food supply chains, leading to chronic shortages in many countries.

Even before this pandemic, the ecological costs of food production were rising, compounded by water scarcity in many places. Irrigation accounts for about 70% of freshwater withdrawals around the world, with the figure reaching 90% in some developing countries.

Food production, which is critical for survival, affects the ecosystem. With the Earth’s resources depleting every day and the world population growing, we must discover innovative ways to cultivate food. We need ground-breaking and resourceful approaches to not only feed the world’s population but to do so in eco-friendly ways.

Faced with this dilemma, we need to develop alternative methods of farming, particularly using artificial intelligence.

Stockholm’s modern indoor farming methods provide some answers on how to overcome global food shortages. The city is revolutionizing its food sector by showing results in eco-friendly urban farming.

Some buildings in Stockholm incorporate artificial intelligence and eco-friendly methods into indoor farming. Circular energy wastewater and carbon-absorbing mechanisms enable indoor-grown greens while reducing the ecological footprint.

Indoor farming in Stockholm uses LED lighting and hydroponic watering systems. Food, especially vegetables, is grown indoors all year round. Growing vegetables indoors not only cuts reliance on food imports but also makes cities self-sufficient in food. 

More than 1.3 million plants are grown indoors in Stockholm every year. Indoor farming has allowed Sweden to slash food imports by 60% and cut carbon emissions incurred in transporting food. Such transport accounts for a quarter of emissions in Sweden.

In some Stockholm suburbs, bright LED lights illuminate a business space. In this building, plants follow an artificial daylight rhythm to grow as efficiently as possible. Delicate plants such as various herbs and lettuce grow in stacks of about 20 metres wide by six metres high. Local restaurants, supermarkets and airlines buy this indoor-grown indoors.

Weather conditions in Sweden allow open-air farming for only three to four months a year. But climate is not a constraint in indoor farming, which maximises the use of space using stacks. Each shelf has its own LED lighting and circulating water. Even fruits like strawberries can be grown throughout the year.

Sweden Foodtech, a government agency, acts as a catalyst in promoting and encouraging innovation in the food sector. This agency also offers support to firms that want to restructure the food ecosystem. Companies converge when business events are organized focusing on major themes revolving around the future of the Swedish food sector.

Besides Sweden Foodtech, the Stockholm Business Region, a business promotion agency, aims to create a resilient food ecosystem for innovative businesses. Its goal is to position Stockholm as a “leading food-tech hub” for 300 companies in the food-tech industry.

Public interest, environmental consciousness, and an innovative society has made Stockholm a conducive place for food-tech initiatives. Consumers in this city are more ecologically vigilant, and many of them feel it is their moral obligation to support eco-friendly products. The city itself also extends support to all kinds of sustainable projects.

As a society grows more affluent, it places greater emphasis on health issues and ecological considerations. Ecological degradation and the use of harmful chemical fertilisers and pesticides will spur demand for eco-friendly and healthier food products.

Some 55% or 4.3 billion of the global population of 7.8 billion are urban dwellers. This figure could reach 70% or 6.8 billion of the world’s population of 9.7 billion by 2050.

High-tech vertical farms offer alternative ways to grow food on a large scale. In this way, we can grow our food in more energy-efficient and healthier ways. Despite developments in agricultural technology, conventional farming faces problems such as pests, climate change, and natural disasters.

With the scarcity of arable farming land, ecological problems, and health hazards, the trend is towards indoor food cultivation. The only challenge is to reduce the cost of indoor farming, especially for urban dwellers in less affluent countries.

But with technology rapidly advancing along with ongoing R&D and innovation, costs will fall, allowing economies of scale in indoor farming. Technological advances will lower costs, enhance quality and improve harvests, all of which will provide better returns on investments.

The trend towards indoor vertical hydroponic or aeroponic farming will gain momentum, especially in urban areas. Mass food production in the future will probably focus on indoor farming in buildings rather than horizontal farming on the ground.

READ MORE: Use idle city land to grow food

What’s in it for Malaysia? Our total agricultural imports reached nearly $18.3bn in 2019, roughly 7% from the US. We must slash this high import bill.

The government should encourage more Malaysians to enter the food ecosystem and develop the sector completely along the value chain. It should give incentives to unemployed graduates, especially those in relevant disciplines, to venture into the food sector. It should encourage them to get involved in R&D, integrated farming, indoor farming, manufacturing, logistics, marketing and distribution.

If there is anything we can learn from the coronavirus pandemic, it is that we have to ensure food self-sufficiency. We saw how the pandemic severely disrupted global food supply chains, and so our national agenda should prioritize food security.  

Thanks for dropping by! The views expressed in Aliran's media statements and the NGO statements we have endorsed reflect Aliran's official stand. Views and opinions expressed in other pieces published here do not necessarily reflect Aliran's official position.

Our voluntary writers work hard to keep these articles free for all to read. But we do need funds to support our struggle for Justice, Freedom and Solidarity. To maintain our editorial independence, we do not carry any advertisements; nor do we accept funding from dubious sources. If everyone reading this was to make a donation, our fundraising target for the year would be achieved within a week. So please consider making a donation to Persatuan Aliran Kesedaran Negara, CIMB Bank account number 8004240948.

TAGS food security indoor farming Sweden

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Local Vertical Farm Startup Joins Growing Global Market

Ortaliza Urban Farms is a dream that has been sprouting for some time now.

What if there was a more sustainable way to provide fresh, truly local greens to our communities? And what if there was a way to do it while bringing diverse flavors to the table year-round?

It sounds like an ambitious goal. But it is one that Carina Biacchi and her partner, Alvaro Fernandes, are set to meet.

Ortaliza Urban Farms is a dream that has been sprouting for some time now.

Carina Biacchi is no stranger to business. With a bachelor’s and postgrads in business administration, she has worked in several different sectors, from NGOs to massive corporations. “I’ve mostly worked in sales and marketing” Carina states. “And I have entrepreneurship in my DNA. My parents were entrepreneurs long before I was born.”

And as formidable as Carina is, she is among good company. Alvaro Fernandes, her partner, is an Agronomist Engineer. “He’s a passionate specialist in controlled environment agriculture” Carina explains.

When the two met they quickly started dreaming about their own indoor farm. Years passed, and the two immigrated to Canada and started a family. But those entrepreneurial sparks continued to fly.

“It took us a while to build our lives in Canada,” Carina states. “But we continued to research the idea we had. We kept visiting other businesses in the industry and we even traveled to New York and other areas to see what they had to offer in terms of vertical farms.”

But what is vertical farming? Vertical farming is a growing worldwide phenomenon set to add significant value to the food system. Food security and sustainability continue to be some of the top concerns for city planners, and venture capital firms are investing big into vertical farm operations.

And what is an urban farm? Simply put, urban farming is growing food in urban areas. “We’re located right on Main Street,” Carina states. “In a commercial zoning area. That is pretty unique by itself, and the town of Kingsville has proven to be the perfect partner to help us launch our dream.”

A hyper-local farm-to-plate experience

And while Ortaliza is not the first micro green seller in the region, they are the first to create a storefront, creating an exciting farm-to-plate experience, loaded with flavor and freshness.

“We are truly local!” Carina stresses. “Sometimes, when you see that something is “local” on your grocery shelves, it’s actually from another part of the Province. That might be fine for large vegetables, but greens are special. Think of all the nutrients you would get from a full vegetable but concentrated to deliver all that deliciousness in every single bite. Microgreens require just-picked freshness, so we are super, hyper-local. We’re only growing and selling here in our County.”

This business model, Carina explains, also allows them to reduce food mileage and consequently, food waste. “Leafy greens in Canada can sometimes travel thousands of miles before reaching their destination” Carina reports. “And it can take up to two weeks for the produce to get there. We have a commitment to sustainability, and we will always be local, no matter where we spread our roots to in the future.”

One of Ortaliza’s business Advisors, Adam Castle of WEtech Alliance says the launch of this business in Kingsville represents a unique opportunity for the Startup. “Here we are in the very heart of greenhouse agriculture, not just for Canada but seconded only to Holland from a global perspective,” says Castle. “So you’re planting yourself in a community that lives and breathes agriculture, who knows the value of being able to see where your food comes from and how it’s grown, at a time when the average consumer is more engaged than ever in providing the freshest, most sustainably grown food they can for themselves and their family. I applaud Kingsville for making room at their table for new kinds of agriculture, and being a business-friendly partner that our clients can count on.

“…it certainly fits hand-in-hand with the innovation and the diversification that we’re trying to identify with.”

One enthusiastic supporter of this innovative new business is Nelson Santos, the Mayor of Kingsville and the Deputy Warden of Essex.

“This isn’t your typical business, but it certainly fits in with the entrepreneurial spirit that we have in our community,” Nelson explains. “And it certainly fits hand-in-hand with the innovation and the diversification that we’re trying to identify with. They are touching on all the different aspects of what the community is looking for. Their business is one that is certainly going to turn quite a few heads. It’s very exciting, both in regards to the food aspect and the extension of agriculture.”

Ortaliza is now taking pre-orders for their home delivery service at www.Ortaliza.ca, which promises to deliver a lot more than leafy goodness.

“We want to be more than a farm-to-table service,” says Carina. “We want our customers to think of us as their weekly dose of living, natural vitamins that add easy nutrition to just about every recipe they can think of!”

To learn more and become a friend of the farm, head to www.ortaliza.ca or find them on social media at @OrtalizaFarms 

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Fresh Impact Farms Awarded Arlington's First Agriculture Grant

Arlington County received its first-ever agriculture fund grant from the state, money that will go to county-based Fresh Impact Farms.

Operating since 2018, Fresh Impact Farms uses hydroponic technology to grow a variety of speciality herbs, leafy greens, and edible flowers indoors. (Mark Hand/Patch)

Operating since 2018, Fresh Impact Farms uses hydroponic technology to grow a variety of speciality herbs, leafy greens, and edible flowers indoors. (Mark Hand/Patch)

ARLINGTON, VA — Arlington County received its first-ever agriculture fund grant from the state, money that will go to Fresh Impact Farms, an Arlington-based company that plans to double production at its indoor growing facility.

Virginia Gov. Ralph Northam announced Monday that he had awarded an Agriculture and Forestry Industries Development, or AFID, Fund grant to Arlington totalling $15,000 to be given to Fresh Impact Farms. The company will receive a total of $30,000 from the government, with Arlington County matching the state grant with local funds.

"Agriculture continues to be a key driver of our economic recovery in both rural and urban areas of our commonwealth," Northam said Monday in a statement. "Innovative, dynamic businesses like Fresh Impact Farms are demonstrating how exciting new opportunities can grow out of pandemic-related challenges."

"I congratulate the company on their success and am thrilled to award the first-ever AFID grant to Arlington County to support this expansion," the governor said.

In recent decades, Arlington County has grown into one of the most densely populated counties in the nation. Up until World War II, Arlington still had plenty of farmland. But over the past 60-plus years, the only farming in the county has been of the backyard and patio variety or in the community gardens in the Four Mile Run area.

Operating since 2018, Fresh Impact Farms uses proprietary hydroponic technology to grow a variety of specialty herbs, leafy greens, and edible flowers indoors.

"Governor Northam's award to Fresh Impact Farms, Arlington's only commercial farm, is an innovative way to celebrate unique uses of technology to help a small business pivot during the pandemic," Arlington County Board of Supervisors Chairman Matt de Ferranti said. "I am thrilled that Fresh Impact Farms is growing and looking to the future of a sustainable food supply."
The company will invest a total of $137,500 as part of the expansion, which will include a second grow room, a larger production facility, and an educational hub where customers, after the pandemic, will be able to see how their food is harvested.

Fresh Impact Farms' community-supported agriculture or CSA, program focuses on leafy greens and home kitchen-friendly herbs and has grown them steadily since the program's creation last April. Along with residential customers, the company now has smaller wholesale clients in the Washington, D.C., area.

The future is bright for urban agriculture, said Ryan Pierce, founder of Fresh Impact Farms, located in the back of a Lee Highway strip mall. (Mark Hand/Patch)

The future is bright for urban agriculture, said Ryan Pierce, founder of Fresh Impact Farms, located in the back of a Lee Highway strip mall. (Mark Hand/Patch)

After the start of the pandemic, Fresh Impact Farms decided to shift its business model to a CSA delivery service in order to continue generating revenue.

"Seizing the opportunity created by more people cooking at home, the company initiated a Community Supported Agriculture program targeting area residents," the governor's office said.

"Now, with vaccinations underway and the restaurant industry poised to rebound, Fresh Impact Farms is expanding, which will allow the company to resume supplying their restaurant customers, while also meeting new demand through their CSA program," the governor's office said.

Over the next three years, the company expects to grow an additional 10,500 pounds of Virginia-grown leafy greens, herbs, and edible flowers for restaurant and CSA customers.

The future is bright for urban agriculture, said Ryan Pierce, founder of Fresh Impact Farms, located in the back of a Lee Highway strip mall.

"The support and generosity from the Commonwealth and Arlington County will be valuable as we expand our production and move towards a hybrid model of serving both the needs of restaurants and consumers," Pierce said in a statement. "As the owner of a local food business, nothing gets me more excited than seeing the community come together in support of local food."

The funds from the Arlington County Industrial Development Authority, together with the state grant, represent "an important investment in urban agriculture, sustainability, and technology," Arlington County IDA Chair Edwin Fountain said in a statement. "This project will advance the County's innovative and forward-thinking approach to developing new sectors of economic activity in Arlington."

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SweGreen Becomes Partner In 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

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

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PHOENIX, ARIZONA: GCU’s Farm Fills Neighbors’ Plates, Students’ Souls

Twenty-six vegetables of numerous varieties grow here in the shadow of the six-story Agave Apartments

March 03, 2021

by Mike Kilen

GCU Outdoor Recreation Club members plant greens in the Canyon Urban Farms raised beds.

Story by Mike Kilen -Photos by Ralph Freso - GCU News Bureau

Nathan Cooper looked across the farm in the middle of the Grand Canyon University campus, where spinach and tomatoes, melons, and broccoli were growing amid students tending them. It’s always easier for farmers to tell stories standing shoulder to shoulder, looking out.

“There was this old woman in my hometown in Minnesota …” the Manager of GCU’s Canyon Urban Farms began.

A smile appeared. Every year, the woman had grown a bountiful patch of tomatoes and gave them all away. Everyone in town knew it. There was a waiting list to get her tomatoes that came from a seed variety dating back decades in her family.

“She died a couple years ago,” Cooper said. “I want to get one of her seeds and dedicate a spot to her here.”

Students Savannah Miles and Gracie Grettenberger (from left) listen as Canyon Urban Farms Manager Nathan Cooper gives them planting tips.

Students Savannah Miles and Gracie Grettenberger (from left) listen as Canyon Urban Farms Manager Nathan Cooper gives them planting tips.

Canyon Urban Farms has that woman’s sentiment at its heart — growing as an act of giving. Cooper had just delivered a batch of produce to Lutheran Social Services for the neighborhood refugee population.

A year into the project, he has the quarter-acre plot to the north of Agave teeming with life – and not just with plants: Students have found it a place of contemplation, a reminder of grandma and renewed growth during a rough pandemic year.

“This was rocky soil,” Cooper told group a half-dozen students from the GCU Outdoor Recreation Club, which arrives weekly to tend the garden and learn from it. “It is turning into the best soil you will ever find.”

The 35 raised beds are filled with it, and now several in-ground raised beds are teeming with organic matter, supplied by compost bins of rotting vegetables and other waste.

He urged the students to contribute to the garden by taking a small container, toss in it waste from their rooms – banana peels, coffee grounds, egg shells – and bring it to the compost bins, where it will be heated by bacteria’s hard work, turned and broken down into the magic of beautiful natural fertilizer.

“As you work, just pick up a handful of the dirt,” he told them. “You will see how much more living it is. You can feel it.”

Students found there is nothing like the taste of a carrot fresh from the ground.

It reminded senior Payton Oxner of his grandmother’s garden in South Dakota.

“During the pandemic, that’s where they got a lot of their food,” he said.

During the pandemic, this is where the Outdoor Rec Club got a lot of its nature. With off-campus outings restricted, it was a welcome addition to step outside into new possibilities.

“COVID took so much from us, so we wanted to create community right here on campus,” said senior trip guide Gracie Grettenberger. “When you say, ‘We have a garden on campus.’ What? They want to be a part of developing it.

“Living in a dorm, we don’t have the opportunity to garden on our own. They miss this, and being able to do this on a campus is a mindful experience.”

It’s part of what brought freshman Savannah Miles to the garden, where she held a package of three different varieties of peppers to plant in an in-ground bed that Cooper called the “salsa garden,” where in weeks peppers and tomatoes can make a delicious addition to any meal.

Gracie Grettenberger of the Outdoor Recreation Club plants seeds in the in-ground beds.

“It’s a meditative activity that wipes away the stress,” she said. “It’s beautiful to make your own produce. Plus, I like dirt. I like playing in dirt.”

Twenty-six vegetables of numerous varieties grow here in the shadow of the six-story Agave Apartments, and Cooper has had to learn which areas get just the right amount of sun for each type of produce.

Some of the broccoli has bolted, but he tells a student that even the leaves can be used to juice.

Kaleb Morrow said that’s also why he and other students are interested in a garden – to go back to the ways of healthy eating, fresh from the dirt outside your room.

“It takes some time to know the intricacies, but you can grow anything,” he said.

While a student’s mobile phone sat in the dirt, leaned against a Bluetooth speaker playing singer/songwriter tunes you’d hear in a coffee shop, Cooper talked of the appeal of this garden — not only as a place to reap the fruit of your labor but as a tool of education. He urged each student to take a package of herb seeds to put in a pot in their rooms.

“You throw a seed in the ground and it comes back a living thing,” he said.

Savannah Miles prepares the ground for planting.

His goal is also to be a good steward of the earth with a self-sustaining garden, using the seeds to plant next year’s crop and using food waste to regenerate the soil.

Plans are growing as fast as the vegetables beyond its primary goal of helping feed the neighborhood.

New wheeled planters for maximizing growing location are planned for the University’s 27th Avenue office complex. A farmers’ market for community members is on his wish list, as are more gatherings on the east end of the acreage, saved as a place for teaching locations or for students to quietly gather among new life.

This virus, he said, created a lot of longing for a place like this.

“There is a lot of good that can be done from this garden.”

Grand Canyon University senior writer Mike Kilen can be reached at mike.kilen@gcu.edu or at 602-639-6764.

****

Related content:

GCU Today: GCU’s urban farms plant seeds to nourish neighbors

GCU Today: GCU students Serve the City by building a garden

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Urban Farming In New Zealand

Urban farming is pretty much what it says on the can. Growing or producing food in a heavily populated area. One doesn’t have to be a business owner growing a product to sell to be an urban farmer. Anyone with a bit of area and a Kiwi can-do attitude can be an urban farmer

craigfer

February 26, 2021

While New Zealand is renowned the world over for its farming systems, with world-class food and fibre being exported daily, it’s a little-known fact that Urban farming is starting to take off as well.

Urban farming is pretty much what it says on the can. Growing or producing food in a heavily populated area. One doesn’t have to be a business owner growing a product to sell to be an urban farmer. Anyone with a bit of area and a Kiwi can-do attitude can be an urban farmer.

Now more than ever, consumers are wanting to know where their food comes from, the story behind its provenance, and the story of the people producing it. Food security (especially in the future) and climate change are other big factors in our communities today. This poses significant opportunities (and equal challenges) for traditional farmers and growers who farm on large scales; but it also poses some opportunities for urbanites.

While the term urban farming and community garden tend to be used interchangeably in NZ, the essence is still the same; producing food in your own backyard. NZ is home to a number of urban farming groups like the Urban Farmers Alliance ( a national group), Farm Next Door (Taranaki region) to name a few.

While each have their own set of values and purpose, they all have the same key messages. Building local and national food security, using regenerative farming practices and the bringing together of communities. Climate change resilience is a key motivator for all, which is why many urban farms work on regenerative and organic principles.

In partnership with Massey University, Farm Next Door was awarded a $100,000 grant to fund research into the benefits and barriers to ‘hyperlocal community agriculture’. Many involved in urban farming in NZ say that urban farming could provide part of the solution for the vulnerabilities that exist within NZ’s current food system, including the reduction of productive land to residential areas. The idea of urban farms being dotted throughout the country complete with roadside honesty boxes is the goal for many, making food available to entire communities for affordable prices.

Regenerative approach

For many urban farmers, the regenerative approach is key to the whole system. Working with regenerative agriculture principles within an urban context. While there is still a lot of debate on a national level about the details of regenerative farming, with a lot of people calling for more research to be done on the claimed efficiencies of the system, in a general sense, the principles are simple, and mimic natural ecosystems. Working with the environment. Sun, water, soil, biodiversity and social make up the five key principles of regenerative agriculture. Soil in particular plays a large role in carbon holding and nutrient cycling, a growing topic of importance in traditional agriculture in NZ.

So it makes sense that those interested in urban farming would follow the regenerative route. After all the values align almost perfectly.

Community and people-centered model

This model increases food resilience by introducing more diversity into the system. Many stress that urban farms aren’t a replacement for larger scale producers, quite the opposite. By expanding and strengthening the local ‘food ecosystem’ will only support the nation’s export markets and add to their marketing story.

Telling their story aside, urban farms are also a unique way of educating locals about food production and passing on growing knowledge to the next generation. Increasingly people are becoming aware of the big separation we have between paddock and plate. This issue is why there are numerous initiatives in the traditional agriculture industry to get people out on farms. Open Farms NZ is one such initiative which invites farms from across the country, be them dairy, horticulture, beef or so on, to open up their farm gates for a day for locals to visit, learn and get back to their grass roots. Urban farming, in a way, is doing that, but on a smaller scale.

NZ is working on putting its own data together around the influence of urban farms on employment rates, but it’s thought that the data from the US (which suggests that urban farms focusing on local and regional markets employ four times as many FTE staff than farms not engaged in local markets), could hold somewhat true, if not to quite the same extent.

Kiwi’s are renowned for supporting independent and local brands which further supports the urban farming model.

Education

A key component of many of the urban farming groups is collaborative learning and education. Unlike many industries, each urban farm isn’t necessarily viewed as a competitor, rather an ally to work with. The more the merrier – so they say.


With a variety of educational resources on carbon, soil, regenerative practices, organic practices, composting, data collection, and more, wanna-be urban farmers have a plethora of tools available.

Organic Market Garden – Auckland

OMG is a collaboration between a number of local businesses which was first set up to show the huge potential of underutilized inner-city spaces to the benefit of the local community.

Locals can purchase a three-month subscription for fresh produce or volunteer in the garden. While being a productive garden that feeds the community, OMG is also about educating people and ‘creating a regenerative food system for Auckland’. Working off a community supported agriculture (CSA) model, they thrive off being part of the community and are working at getting market gardens all across Auckland city.

Freeman Farms – Taranaki

Situated in urban Taranaki, the Freeman family grows over 25 types of fruit and vegetables plus honey and eggs. The farm is part of Farm Next Door and Urban Farmers Alliance and makes a decent living off of the farm.

Kaicycle – Wellington

First established in 2015 Kaicycle is an urban farming and community composting project. It was first started to provide produce to a local smoothie business but has grown to selling to local restaurants. They are also trialing a CSA model.

It runs an ‘ebike-powered food waste collection and composting service’ which services 125 households and businesses. That compost then goes onto the farm to help build soil quality creating a nutrient cycle.

https://www.instagram.com/p/CLJUWMPsS7p/

Cultivate- Christchurch

This urban farm functions in conjunction with a local youth programme. Over 25 young people so far have been supported into more positive outcomes (with education, employment and housing) through Cultivate with the aim of helping 12 young people every year. The farm supplies local hospitality businesses.

The above are just a sampling of the urban farms dotted around the country, with interest growing all the time. With NZ’s recent Climate Change Commission report out, it’s likely that more and more urbanites will follow the path of veteran urban farmers in a bid to do their part. Plus, growing food is good for the mind, body and soul.

Vertical farming in NZ – growing up, not out.

Vertical farming, along with urban farming, has become a popular reply to the question of land loss to urban development and population growth.

Vertical farms have popped up in a number of major urban centers. In high rises, derelict buildings and abandoned warehouses, this form of growing crops is reportedly helping to reduce carbon emissions and maximising unused spaces in cities. While similar to urban farms, vertical farms take it one step further. It’s a win win for many cities around the world, like China, that have a high monopoly on space and land use.

Under the system, layer after layer of crops are grown in trays, with mostly everything used being recycled for the next round of growing. The practice often incorporates controlled-environment agriculture to maximise crop yields. The aim of vertical farming in general is to conserve land area, control climatic conditions and maximise unused space. Some overseas believe its a great way of navigating the adverse effects of weather.

But in NZ, with their large focus on outdoor, pastoral farming, is there a need for it? Some say yes, others say no. NZ has some unique features to it, including high levels of sunshine hours and generally good growing conditions.

While it could be a great way for inner-city dwellers to get their green thumb, industry bodies like Horticulture NZ say it wouldn’t work. The problem is more that of current land-use vs land-use suitability. Not to mention the investment needed for start-up costs and urban development issues. Of the few vertical farms around, it’s suggested that all have been started up with investors or government funding, with it taking many years for the business to stand on its own legs.


Over the last 20 years, the amount of land available to grow fruit and vegetables in NZ has decreased, while the demand has gone up, and this gap is forecast to get larger. This change in supply and demand prompted many to suggest that vertical farming could offer a solution.

Vertical farming requires the replacement of natural, solar energy to be replaced with artificial lighting, most commonly LED lights, which are cool to the touch and are easier to control or hydroponic lamps. This alone led to the conclusion that the cost of lighting and temperature control would be too expensive, making it an unviable economic option. The limited number of crops able to be grown vertically (mainly leafy greens and herbs) wouldn’t fill the gap that’s required by the industry – that is, things like potatoes, rice and corn that are staples for millions.

While it perhaps wouldn’t fit the bill for supporting export demands, there is still the possibility, if economically viable, it could help fill local demand.

There aren’t many vertical farms around in NZ, but the ones that are around are trying to provide proof of concept.

Shoots microgreens

NZ’s very first vertical farm had humble beginnings housed in a former nightclub. The company started its journey in 2018 growing tiny crops mainly for restaurants with some sold through large supermarket chains. Microgreens are intense flavoured first shoots and leaves and are a popular garnish for meals and cocktails.

It’s thought that microgreens can contain up to 100 times more nutrients than fully-grown plants.

The company got investment to install special LED grow lights which conserve around 45% in electricity over hydroponic lamps. The lights are customistables and can be adjusted to optimise the growth of specific varieties of microgreens. They don’t produce heat so vertical layers can be done with no fear of heat damaging plants.

In 2020 the business kicked off a first-of-its-kind system by launching an in-store growing stand complete with automated LED lighting and watering technology in a supermarket. The system allows customers to see the growing of the produce in real time and purchase.

The idea behind the system was to ensure people were taking home produce that was fresh as possible. The business hopes more supermarkets will get on board with the system.

The supporters of vertical farming say that, like urban farms, the idea is not to replace existing horticultural systems, but create new opportunities in the form of retails and tourist experiences, add value, enhance education and provide hyperlocal plant production for affordable prices.

In major cities like Auckland, it can take hours to get out to farms to pick your own produce from the paddock. As the nation’s housing crisis seems to keep increasing, much of the country’s most productive horticultural and agricultural land is being snapped up and subdivided for residential and lifestyle block builds.

Aside from bringing food production closer to home, the social aspect of vertical farming, and urban farming for that matter, is that it offers opportunities to develop new careers in agriculture. Vertical farming in particular requires a complex knit of disciplines like computers, agronomy, economics, biosecurity, design, marketing – the works.

So, is there a future for vertical farming in NZ? Depends who you talk to. With the success of businesses like Microgreens, there’s a very strong argument for yes. However the economics of it, as they currently stand, might delay others in getting onboard the vertical train.

Categories: Urban Farming

Tagged: new zealand, urban farming


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Jersey City Housing Authority To Host Vertical Farms

The partnership aims to provide more access to healthy food

Partnership Aims To Provide

More Access To Healthy Food

By Marilyn Baer, Staff Writer

February 25, 2021

AeroFarms will construct and maintain 10 farming sites, the first of which will be built at the Curries Woods Community Resource Center as part of a new agreement between the city, AeroFarms, and the Jersey City Housing Authority.

Vertical farms will provide free nutritious food to residents in need now that the Jersey City Council has adopted a resolution approving an agreement between AeroFarms, the city, and the Housing Authority.

The new agreement means that vertical farms will be opened at Curries Woods and Marion Gardens.

The public housing farms, which will be funded by the city, will increase healthy food access where needed most and encourage residents to live healthier lifestyles.

The Jersey City Department of Health and Human Services (HHS), AeroFarms, and Jersey City Housing Authority will collaborate with the Boys & Girls Club and Head Start Early Childhood Learning programs to support produce distribution and healthy eating education.

“We’ve worked hard to keep the Vertical Farming Program a priority despite the impacts from this pandemic, which have disproportionately affected the more economically challenged areas and exacerbated societal issues such as healthy food access,” said Mayor Steven Fulop.

“We’re taking an innovative approach to a systemic issue that has plagued urban areas for far too long by taking matters into our own hands to provide thousands of pounds of locally-grown, nutritious foods that will help close the hunger gap and will have an immeasurable impact on the overall health of our community for years to come.”

City farming

AeroFarms will construct and maintain the farming sites. The first will be built at the Curries Woods Community Resource Center. The Boys & Girls Club and Head Start will integrate the vertical farm as a learning tool for youth within their educational programming.

Head Start, operated by Greater Bergen Community Action, plans to integrate greens into its early childhood meals.

AeroFarms indoor vertical farming technology uses up to 95 percent less water and no pesticides versus traditional field farming.

According to the city, the JCHA-Aerofarms Advisory Committee will be formed to provide strategic oversight and guidance throughout the program.

The steering committee will include Jersey City residents and stakeholders from the Boys & Girls Club and Head Start.

The city’s Vertical Farming Program will consist of eight additional vertical farms throughout Jersey City in senior centers, schools, public housing complexes, and municipal buildings.

The 10 sites will grow 19,000 pounds of vegetables annually using water mist and minimal electricity, according to the city.

The food is free to residents if they participate in five healthy eating workshops, and they will have the option of participating in a quarterly health screening.

“As a Certified B Corporation, we applaud Mayor Fulop’s leadership and advocacy to bring healthier food options closer to the community, and we are excited to launch together the nation’s first municipal vertical farming program that will have a far-lasting positive impact for multiple generations to come,” said Co-Founder and CEO of AeroFarms David Rosenberg.

The city’s Health and Human Service Department will run the program with a health-monitoring component to track participants’ progress under a greener diet, monitoring their blood pressure, cholesterol, diabetes, and obesity.

Crops will be integrated with other Healthy Food Access initiatives, including senior meal programs, according to the city.

“Access to healthy food and proper nutrition is directly linked to a person’s mental and physical health, and can decrease risks of chronic diseases while increasing life expectancy,” said Stacey Flanagan, director of Health and Human Service for Jersey City. “This past year has shed light on the health disparities that exist in urban areas nationwide, which is why we’ve remained focused on closing gaps where healthy food access is most needed, specifically for our low-income, youth, and senior populations.”

Healthy food initiatives  

The Vertical Farming Program is part of the broader initiative from the World Economic Forum (WEF) toward partnerships with cities.

Jersey City is the first in the world to be selected by WEF to launch the Healthy City 2030 initiative, which aims to catalyze new ecosystems that will enable socially vibrant and health-centric cities and communities.

The vertical farming initiative is the latest and broadest effort Jersey City has launched around food access, including more than 5,000 food market tours for seniors to educate them on healthy eating, and the Healthy Corner Store” initiative.

According to a 2018 city report, much of Jersey City could be described as a “food desert.”

The USDA defines a food desert as “a low-income census tract where either a substantial number or share of residents has low access to a supermarket or large grocery store.”

This means at least 500 people or 33 percent of the population live more than a mile from a supermarket or large grocery store.

According to the city, these deserts have led to an increased rate of diabetes, heart disease, obesity, and other diet-related illnesses in the more marginalized communities of Jersey City.

“We are thrilled that the vertical farms that will be installed at JCHA sites to enable some of our most vulnerable residents, including low-income households, children, and seniors, to have access to fresh, green produce that is nutritious, delicious, and easy to prepare,” said Vivian Brady-Phillips, director of the JCHA.

For updates on this and other stories check www.hudsonreporter.com and follow us on Twitter @hudson_reporter. Marilyn Baer can be reached at Marilynb@hudsonreporter.com.

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Little Leaf Farms Raises $90M to Grow Its Greenhouse Network

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.

by Jennifer Marston

Image from: Little Leaf Farms

Image from: Little Leaf Farms

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 GreensGotham GreensAppHarvest, 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.

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Indoor Farming Gains Ground Amid Pandemic, Climate Challenges

Investors used to brush off Amin Jadavji’s pitch to buy Elevate Farms’ vertical growing technology and produce stacks of leafy greens indoors with artificial light. Now, indoor farms are positioning themselves as one of the solutions to coronavirus pandemic-induced disruptions to the harvesting, shipping, and sale of food

Investors say urban farming can boost food security despite rising inflation, trade tensions and global food shortages.

Image from: Reuters via AppHarvest

Image from: Reuters via AppHarvest

Investors used to brush off Amin Jadavji’s pitch to buy Elevate Farms’ vertical growing technology and produce stacks of leafy greens indoors with artificial light.

“They would say, ‘This is great, but it sounds like a science experiment,'” said Jadavji, CEO of Toronto, Canada-based Elevate.

Now, indoor farms are positioning themselves as one of the solutions to coronavirus pandemic-induced disruptions to the harvesting, shipping, and sale of food.

“It’s helped us change the narrative,” said Jadavji, whose company runs a vertical farm in Ontario, and is building others in New York and New Zealand.

Proponents, including the US Department of Agriculture (USDA), say urban farming increases food security at a time of rising inflation and limited global supplies. North American produce output is concentrated in Mexico and the US southwest, including California, which is prone to wildfires and other severe weather.

Climate-change concerns are also accelerating investments, including by agribusiness giant Bayer AG, into multi-storey vertical farms or greenhouses the size of 50 football fields.

They are enabling small North American companies like Elevate to bolster indoor production and compete with established players BrightFarms, AeroFarms and Plenty, backed by Amazon.com Inc founder Jeff Bezos.

But critics question the environmental cost of indoor farms’ high power requirements.

Vertical farms grow leafy greens indoors in stacked layers or on walls of foliage inside of warehouses or shipping containers. They rely on artificial light, temperature control and growing systems with minimal soil that involve water or mist, instead of the vast tracts of land in traditional agriculture.

Image from: Reuters via AppHarvest

Image from: Reuters via AppHarvest

Greenhouses can harness the sun’s rays and have lower power requirements. Well-established in Asia and Europe, greenhouses are expanding in North America, using greater automation.

Investments in global indoor farms totalled a record-high $500m in 2020, AgFunder research head Louisa Burwood-Taylor said.

The average investment last year rose sharply, as large players including BrightFarms and Plenty raised fresh capital, she said.

A big funding acceleration lies ahead, after pandemic food disruptions – such as infections among migrant workers that harvest North American produce – raised concerns about supply disruptions, said Joe Crotty, director of corporate finance at accounting firm KPMG, which advises vertical farms and provides investment banking services.

“The real ramp-up is the next three to five years,” Crotty said.

Vegetables grown in vertical farms or greenhouses are still just a fraction of overall production. US sales of food crops grown under cover, including tomatoes, cucumbers and lettuce, amounted to 358 million kilogrammes (790 million pounds) in 2019, up 50 percent from 2014, according to the USDA.

California’s outdoor head lettuce production alone was nearly four times larger, at 1.3 billion kg (2.9 billion pounds).

Image from: Reuters via AppHarvest

Image from: Reuters via AppHarvest

The USDA is seeking members for a new urban agriculture advisory committee to encourage indoor and other emerging farm practices.

Plant Breeding Moves Indoors

Bayer, one of the world’s biggest seed developers, aims to provide the plant technology to expand vertical agriculture. In August, it teamed with Singapore sovereign fund Temasek to create Unfold, a California-based company, with $30m in seed money.

Unfold says it is the first company focused on designing seeds for indoor lettuce, tomatoes, peppers, spinach and cucumbers, using Bayer germplasm, a plant’s genetic material, said Chief Executive John Purcell.

Their advances may include, for example, more compact plants and an increased breeding focus on quality, Purcell said.

Unfold hopes to make its first sales by early 2022, targeting existing farms, and startups in Singapore and the United Kingdom.

Greenhouses are also expanding, touting higher yields than open-field farming.

AppHarvest, which grows tomatoes in a 60-acre greenhouse in Morehead, Kentucky, broke ground on two more in the state last year. The company aims to operate 12 facilities by 2025.

Its greenhouses are positioned to reach 70 percent of the US population within a day’s drive, giving them a transportation edge over the southwest produce industry, said Chief Executive Jonathan Webb.

“We’re looking to rip the produce industry out of California and Mexico and bring it over here,” Webb said.

Projected global population growth will require a large increase in food production, a tough proposition outdoors given frequent disasters and severe weather, he said.

Image from: Reuters via AppHarvest

Image from: Reuters via AppHarvest

New York-based BrightFarms, which runs four greenhouses, positions them near major US cities, said Chief Executive Steve Platt. The company, whose customers include grocers Kroger and Walmart, plans to open its two largest farms this year, in North Carolina and Massachusetts.

Platt expects that within a decade, half of all leafy greens in the US will come from indoor farms, up from less than 10 percent currently.

“It’s a whole wave moving in this direction because the system we have today isn’t set up to feed people across the country,” he said.

‘Crazy, Crazy Things’

But Stan Cox, research scholar for non-profit The Land Institute, is sceptical of vertical farms. They depend on grocery store premiums to offset higher electricity costs for lighting and temperature control, he said.

“The whole reason we have agriculture is to harvest sunlight that’s hitting the earth every day,” he said. “We can get it for free.”

Bruce Bugbee, a professor of environmental plant physiology at Utah State University, has studied space farming for NASA. But he finds power-intensive vertical farming on Earth far-fetched.

“Venture capital goes into all kinds of crazy, crazy things and this is another thing on the list.”

Bugbee estimates that vertical farms use 10 times the energy to produce food as outdoor farms, even factoring in the fuel to truck conventional produce across the country from California.

AeroFarms, operator of one of the world’s largest vertical farms, based in a former New Jersey steel mill, says comparing energy use with outdoor agriculture is not straightforward. Produce that ships long distances has a higher spoilage rate and many outdoor produce farms use irrigated water and pesticides, said Chief Executive Officer David Rosenberg.

Vertical farmers tout other environmental benefits.

Elevate uses a closed-loop system to water plants automatically, collect moisture that plants emit and then re-water them with it. Such a system requires two percent of the water used on an outdoor romaine lettuce operation, Jadavji said. The company uses no pesticides.

“I think we’re solving a problem,” he said.

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Agritech: Precision Farming With AI, IoT and 5G

For a company that grows and delivers vegetables, Boomgrow Productions Sdn Bhd’s office is nothing like a farm, or even a vertical farm. Where farms are bedecked with wheelbarrows, spades and hoes, Boomgrow’s floor plan is akin to a co-working space with a communal island table, several cubicles, comfortable armchairs, a cosy hanging rattan chair and a glass-walled conference room in the middle

Image from: Photo by Mohd Izwan Mohd Nazam/The Edge

Image from: Photo by Mohd Izwan Mohd Nazam/The Edge

For a company that grows and delivers vegetables, Boomgrow Productions Sdn Bhd’s office is nothing like a farm, or even a vertical farm.

Where farms are bedecked with wheelbarrows, spades and hoes, Boomgrow’s floor plan is akin to a co-working space with a communal island table, several cubicles, comfortable armchairs, a cosy hanging rattan chair and a glass-walled conference room in the middle.

At a corner, propped up along a walkway leading to a rectangular chamber fitted with grow lights, are rows of support stilts with hydroponic planters developed in-house and an agricultural technologist perched on a chair, perusing data. “This is where some of the R&D work happens,” says Jay Dasen, co-founder of the agritech start-up.

But there is a larger farm where most of the work behind this high-tech initiative is executed. Located a stone’s throw from the city centre in Ampang is a 40ft repurposed shipping container outfitted with perception technologies and artificial intelligence (AI) capabilities that mimic the ideal environment to produce more than 50,000kg of vegetables a year.

Stacked in vertical layers, Boomgrow’s vegetables are grown under artificial lights with Internet of Things (IoT) sensors to detect everything from leaf discolouration to nitrate composition. This is coupled with AI and machine learning algorithms.

Boomgrow is the country’s first 5G-connected vertical farm. With the low latency and larger bandwidth technology, the start-up is able to monitor production in real time as well as maintain key para­meters, such as temperature and humidity, to ensure optimal growth conditions.

When Jay and her co-founders, K Muralidesan and Shan Palani, embarked on this initiative six years ago, Boomgrow was nowhere near what it is today.

The three founders got together hoping to do their part in building a more sustainable future. “I’ve spent years advising small and large companies on sustainability, environmental and social governance disclosures. I even embarked on a doctorate in sustainability disclosure and governance,” says Jay.

“But I felt a deep sense of disconnect because while I saw companies evolving in terms of policies, processes and procedures towards sustainability, the people in those organisations were not transforming. Sustainability is almost like this white noise in the background. We know it’s important and we know it needs to be done, but we don’t really know how to integrate it into our lives.

“That disconnect really troubled me. When we started Boomgrow, it wasn’t a linear journey. Boomgrow is something that came out of meaningful conversations and many years of research.”

Shan, on the other hand, was an architect who developed a taste for sustainable designs when he was designing modular structures with minimal impact on their surroundings between regular projects. “It was great doing that kind of work. But I was getting very dissatisfied because the projects were customer-driven, which meant I would end up having debates about trivial stuff such as the colour of wall tiles,” he says.

As for Murali, the impetus to start Boomgrow came from having lived overseas — while working in capital markets and financial services — where quality and nutritious produce was easily available.

Ultimately, they concluded that the best way to work towards their shared sustainability goals was to address the imminent problem of food shortage.

“By 2050, the world’s population is expected to grow to 9.7 billion people, two-thirds of whom will be in Asia-Pacific. Feeding all those people will definitely be a huge challenge,” says Jay. 

“The current agricultural practice is not built for resilience, but efficiency. So, when you think of farming, you think of vast tracts of land located far away from where you live or shop.

“The only way we could reimagine or rethink that was to make sure the food is located closer to consumers, with a hyperlocal strategy that is traceable and transparent, and also free of pesticides.”

Having little experience in growing anything, it took them a while to figure out the best mechanism to achieve their goal. “After we started working on prototypes, we realised that the tropics are not designed for certain types of farming,” says Jay. 

“And then, there is the problem of harmful chemicals and pesticides everywhere, which has become a necessity for farmers to protect their crops because of the unpredictable climate. We went through many iterations … when we started, we used to farm in little boxes, but that didn’t quite work out.”

They explored different methodologies, from hydroponics to aquaponics, and even started growing outdoors. But they lost a lot of crops when a heat wave struck.

That was when they started exploring more effective ways to farm. “How can we protect the farm from terrible torrential rains, plant 365 days a year and keep prices affordable? It took us five years to answer these questions,” says Jay.

Even though farmers all over the world currently produce more than enough food to feed everyone, 820 million people — roughly 11% of the global population — did not have enough to eat in 2018, according to the World Health Organization. Concurrently, food safety and quality concerns are rising, with more consumers opting for organically produced food as well as safe foods, out of fear of harmful synthetic fertilisers, pesticides, herbicides and fungicides.

According to ResearchAndMarkets.com, consumer demand for global organic fruit and vegetables was valued at US$19.16 billion in 2019 and is anticipated to expand at a compound annual growth rate (CAGR) of 6.5% by 2026.

Meanwhile, the precision farming market was estimated to be US$7 billion in 2020 and is projected to reach US$12.8 billion by 2025, at a CAGR of 12.7% between 2020 and 2025, states MarketsandMarkets Research Pte Ltd.

Malaysia currently imports RM1 billion worth of leafy vegetables from countries such as Australia, China and Japan. Sourcing good and safe food from local suppliers not only benefits the country from a food security standpoint but also improves Malaysia’s competitive advantage, says Jay.

Unlike organic farming — which is still a soil-based method — tech-enabled precision farming has the advantage of catering for increasing demand and optimum crop production with the limited resources available. Moreover, changing weather patterns due to global warming encourage the adoption of advanced farming technologies to enhance farm productivity and crop yield.

Boomgrow’s model does not require the acres of land that traditional farms need, Jay emphasises. With indoor farms, the company promises a year-round harvest, undisturbed by climate and which uses 95% less water, land and fuel to operate.

Traditional farming is back-breaking labour. But with precision technology, farmers can spend less time on the farm and more on doing other things to develop their business, she says.

Boomgrow has secured more than RM300,000 in funding via technology and innovation grants from SME Corporation Malaysia, PlaTCOM Ventures and Malaysia Digital Economy Corporation, and is on track to build the country’s largest indoor farms.

Image from: Boomgrow

Image from: Boomgrow

The company got its chance to showcase the strength of its smart technology when Telekom Malaysia Bhd (TM) approached it to be a part of the telco’s Smart Agriculture cluster in Langkawi last October.

“5G makes it faster for us to process the multiple data streams that we need because we collect data for machine learning, and then AI helps us to make decisions faster,” Jay explains.

“We manage the farm using machines to study inputs like water and electricity and even measure humidity. All the farm’s produce is lab-tested and we can keep our promise that there are no pesticides, herbicides or any preserving chemicals. We follow the food safety standards set by the EU, where nitrate accumulation in plant tissues is a big issue.”

With TM’s 5G technology and Boomgrow’s patent-pending technology, the latter is able to grow vegetables like the staple Asian greens and highland crops such as butterhead and romaine lettuce as well as kale and mint. While the company is able to grow more than 30 varieties of leafy greens, it has decided to stick to a selection of crops that is most in demand to reduce waste, says Jay.

As it stands, shipping containers are the best fit for the company’s current endeavour as containerised modular farms are the simplest means of bringing better food to local communities. However, it is also developing a blueprint to house farms in buildings, she says.

Since the showcase, Boomgrow has started to supply its crops to various hotels in Langkawi. It rolled out its e-commerce platform last year after the Movement Control Order was imposed. 

“On our website, we promise to deliver the greens within six hours of harvest. But actually, you could get them way earlier. We harvest the morning after the orders come in and the vegetables are delivered on the same day,” says Jay.

Being mindful of Boomgrow’s carbon footprint, orders are organised and scheduled according to consumers’ localities, she points out. “We don’t want our delivery partners zipping everywhere, so we stagger the orders based on where consumers live. 

“For example, all deliveries to Petaling Jaya happen on Thursdays, but the vegetables are harvested that morning. They are not harvested a week before, three days before or the night before. This is what it means to be hyperlocal. We want to deliver produce at its freshest and most nutritious state.”

Plans to expand regionally are also underway, once Boomgrow’s fundraising exercise is complete, says Jay. “Most probably, this will only happen when the Covid-19 pandemic ends.”

To gain the knowledge they have today, the team had to “unlearn” everything they knew and take up new skills to figure what would work best for their business, says Jay. “All this wouldn’t have been possible if we had not experimented with smart cameras to monitor the condition of our produce,” she laughs.

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Expansion Update: Introducing Vertical Harvest Philadelphia

Along with the farm already under development in Westbrook Maine, this Philadelphia greenhouse is part of our initiative to co-locate vertical farms with affordable housing in underserved communities across the nation

We Are Thrilled To Announce The Third Farm

Location For Vertical Harvest — Philadelphia, Pennsylvania!

The farm, scheduled to break ground later this year, will be part of the new Tioga District™ development — a federally qualified opportunity zone located in a food, health, and wellness desert in the upper north area of the city.

Stationed adjacent to the Temple University Health Sciences Campus and Temple University Hospital, the 70,000 square foot Vertical Harvest greenhouse will be part of the development’s Preventative Health Hub™ a 168,000-sq-foot, state-of-the-art national model for healthcare, health, and wellness with social impact.

Along with the farm already under development in Westbrook Maine, this Philadelphia greenhouse is part of our initiative to co-locate vertical farms with affordable housing in underserved communities across the nation. Specifically, this Philadelphia project will include an accompanying 50 affordable housing units for farmworkers.

Exciting New Development Partners

Our partners in the project are Greg Day, principal and manager of TDB, LLC based in Westbrook, Maine. and TPP Capital Holdings (TPP), a Philadelphia-based, Black-led social impact private equity fund manager and healthcare real estate development firm. TPP is on a mission to change the face of Black health by investing in and transforming blighted and underserved black neighborhoods into integrated and scalable wellness-centric districts over the next 10 years. TPP’s principals Anthony B. Miles and Clinton Bush are co-architects of the Tioga District Preventative Health Hub™.

Within a five-city square block area, the full Tioga District™ development will create 1,407 residential units for rent or sale, the preventative health hub, 172,870 square feet of commercial/office space, 107,000 square feet of retail space, and 92,392 square feet of pedestrian, streetscape and stormwater improvements.

The goal is to uplift Philadelphia’s distressed neighborhood of Tioga with an 85.5% black population, 45% high blood pressure rate, 43.3% obesity rate, 19.3% diabetes rate, 42% of people in poverty, $17,052 median household income, and an unemployment rate of 18%.

We are very proud that Vertical Harvest will be part of this incredible and forward-thinking development, says Nona Yehia, Vertical Harvest CEO. “Partnering with the visionaries at TPP, we hope to help address systemic inequities and facilitate change in underserved neighborhoods. Vertical Harvest’s reimagined food systems and the jobs they create can help these communities be more nourishing, resilient, and sustainable.”

FEBRUARY 15, 2021/BY DAWN HAGIN

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