Source: LettUs Grow

07/12/21

Four major UK vertical farming companies, LettUs Grow, Digital Farming, Farm Urban and GrowStack, are collaborating to bring the benefits of controlled environment agriculture (CEA) to Welsh communities. This is one of the widest collaborations between leading CEA tech providers in the UK to date, with a focus on delivering vertical farms across different locations in Wales as part of a social impact and community-focused project called Crop Cycle.

Vertical farming, a way of growing crops indoors on stacked shelves, can be beneficial for people, plants and the planet. It allows growers to provide fresh, healthy produce to their local area 365 days of the year and can help to supplement outdoor growing. It diversifies our supply chains and boosts local food security. It also has a long stream of environmental benefits, such as using fewer resources including land or water, removing the use of chemical pesticides and reducing the need to transport food across seas. However, a common criticism of vertical farming is that it’s not always accessible or affordable to areas under-served by our food networks.

Crop Cycle is looking to bring the benefits of vertical farming directly to communities that could benefit most and is being funded by the Welsh Government through the Foundational Economy Challenge Fund. The project is being led by Social Farms and Gardens, supported by Welsh Government's NutriWales CEA Special Interest Group and BIC Innovation.

The project enables multiple different CEA systems to be tailored to fit different community settings, whilst also allowing them to be assessed in coordination across the pilot sites. This approach is unique, facilitating the testing of new socially focused business models, the engagement of the local communities and businesses with CEA and the development of new technical solutions. LettUs Grow, Digital Farming, GrowStack and Farm Urban are working together to share their specialisms and apply different technologies to where they are best suited within four sites in Wales, two of which are in the Valleys.

This project will introduce year-round food growing right into the heart of Welsh communities, where they’ll be connected to the particular dynamics of the local area. Activities will test new community-based engagement models, focusing on social well-being, local entrepreneurship and environmental impact. In this way, the project will be bringing together community, businesses and local public sector organisations.

Gary Mitchell, the Wales Manager for Social Farms and Gardens who is leading the project team stated, "we are excited to be running the pilot project across a diverse set of sites to gain insight and further knowledge into how new agricultural systems can successfully support communities in delivering local, fresh and nutritious foods as well as important social benefits in a sustainable manner."

Welcome To Our Woods

Welcome To Our Woods in Treherbert is nestled in the heart of the Rhondda Valleys, where LettUs Grow and GrowStack will be delivering an aeroponic and hydroponic vertical container farm. This proactive community group has been actively engaging with its communities through partnerships with the Green Valleys CIC and their joint ‘Skyline’ project. This partnership has led to several funding investments in the region, exploring community ownership of land and the benefits of allowing the community to utilise their surrounding natural green assets. 

Chris Nelson, director of GrowStack said: “Growstack are delighted to be working alongside LettUs Grow and Digital Farming as part of this important social enterprise. It is always fantastic to be part of a project that champions vertical farming and really shares in the values of what this approach to food production can offer, including the benefits to the local community. Working in partnership with innovative farming companies is always a pleasure, as together we can combine our expertise to deliver outstanding results.” 

Ian Thomas from Welcome To Our Woods said, “We are excited to be bringing such an innovative and progressive project to our local high street. We have already been engaging with the Upper Rhondda community to explore the projects that actively use our woodlands for the benefit of those they surround, and initiatives such as this help give local people an idea of what can be achieved."

Cultivate

Two linked sites will be in Newtown, one within the established community growing space attached to the Newtown Campus of the Neath Port Talbot College Group, and one within a new town centre ‘Circular Economy’ shop. The two CEA systems, provided by LettUs Grow and Digital Farming, are being integrated into an active college site and managed by a community group, with a cafe and kitchen, shop, deli and veg box scheme in place. The site is supported by Cultivate, which is a membership cooperative linking food and community. Cultivate aims to address many of the issues associated with the modern food system, and focus on creating sustainable local food solutions.

Charlie Guy, co-founder and CEO of LettUs Grow said this about the collaborations: “LettUs Grow is delighted to be working alongside these leaders of the UK vertical farming ecosystem and inspiring community projects. The UN Sustainable Development Goals (SDGs) were implemented the same year as our foundation and have never been far from our minds. SDG 17 ‘Partnerships for the Goals’ rings especially true for us. We believe a brighter future can only be realised with inclusive partnerships and strong cooperation, built on shared values and a vision which places people and the planet at its epicentre.”

 Greenmeadow Community Farm

Greenmeadow Community Farm in Cwmbran is being delivered by Digital Farming. It is one of only two ‘city farms’ in Wales and one which connects people to food and farming in a very public way. It is owned and operated by Torfaen County Borough Council, bringing with it a high-level partnership. The farm already welcomes thousands of visitors through its gates and connects locally through a number of schools and college partnerships – making it an ideal ‘showcase’ location for this pilot. Digital Farming were commissioned to deliver the Digital Farm in a container for pilot production of high nutrition greens and herbs. The system uses V-Farm patented growing systems linked to Digital Farming’s smart digital management system powered by solar PV.

Dr Gareth Jones, CEO of Digital Farming, said, “we were delighted to be awarded this project and have been enjoying working with the team at Social Farms and Gardens and Greenmeadow to bring together a new concept to explore the business of growing locally using controlled environment agriculture to enhance nutrition for communities.”  

Xplore! Science Discovery Centre

The final site is in Xplore! Science Discovery Centre, situated in the centre of Wrexham: a brand new science centre that will support the promotion of urban agriculture in north Wales’ largest urban area. The vertical farming system is provided by Farm Urban. It will reach out to all generations, showcasing new technology and modern horticulture methods, blended with traditional growing experience. Xplore! welcomes public visitors, school groups and provides a range of educational workshops.

Paul Myers, Managing Director of Farm Urban said: “We are thrilled to be able to offer our hydroponic Edible Wall systems, Produce Pod aquaponic systems and learning programmes across all four sites involved in the Crop Cycle project. The team at Farm Urban have loved working alongside the four community organisations, they are all so enthusiastic and engaged which is exactly what we need for the social and environmental benefits of CEA to be shared across the UK and beyond. It has been a privilege to work alongside industry leaders GrowStack, LettUs Grow and Digital Farming learning more about their systems and approach. One of the many highlights of this project has been the openness and willingness to share and collaborate between all partners which is so important to drive the industry forward.”

To follow the progress of the community grow sites, you can follow Crop Cycle on social media, and technology providers LettUs Grow, Digital Farming, GrowStack and Farm Urban.

Tags: Indoor & Vertical Farming, Processing & Supply Chain | AgTech

Khari Johnson @kharijohnson

September 9, 2020

Robotics farming company Iron Ox today announced the close of a $20 million funding round. The funding will be used to open additional robotic growing facilities in California and other parts of the U.S., according to company co-founder and CEO Brandon Alexander. The funding will also be used to hire additional machine learning and robotics experts as well as growers and scientists who work with plants.

“We’re now competing on price with field farms, but we think we can do even better and take this to more people,” he said.

Iron Ox employs a 1,000-pound mobile transport system roughly the size of a car to move trays of growing vegetables and tend to plants using a robotic grasper while computer vision systems monitor the plant growth cycle. The semi-autonomous system still relies on humans for a part of its seeding, pruning, and inspection process, Alexander said, but the goal is for Iron Ox to someday be fully autonomous.

While startups like Bowery practice indoor vertical farming in urban facilities near New York and Baltimore, Iron Ox has turned its focus toward greenhouse farming since the company was founded in 2015 as a way to lower energy costs. Earlier this year, Iron Ox opened its first greenhouse, a 10,000-square foot facility in Gilroy, California, the company’s second location. Iron Ox currently provides produce to 15 Whole Foods stores in the San Francisco Bay Area.

Though Gilroy is known as the garlic capital of the world, Iron Ox does not currently grow any garlic. Instead, the company focuses on leafy green vegetables like lettuce and some herbs.

Alexander said Iron Ox’s biggest challenge is how to use data collected by sensors to train AI systems that produce higher yields at lower costs.

“I would say in agriculture as a whole it’s not just collecting data, it’s not just taking an image, but it’s actually how do you include that data into the decision making process?” Alexander said. “I would say that is the biggest challenge in ag is how do you respond to these each individual plants and the variety and all these little variables.”

The $20 million funding round was led by Pathbreak Ventures with participation from Crosslink Capital, Amplify Partners, Eniac Ventures, R7 Partners, Tuesday Ventures, and At One Ventures. Iron Ox is based in San Carlos, California. The company currently has 30 employees and has raised $45 million to date.

Field farming today is still the most efficient way to grow produce. However, concern about shrinking field yields and instability due to climate change has spurred interest in indoor farming. In 2018, international teams from companies like Microsoft and Tencent competed against each other to find out who could grow the highest yield of cucumbers inside a greenhouse using AI and automation. (Spoiler: The Microsoft team won.)

In other AI and agriculture news, last month the startup iFarm raised $4 million for its AI-driven urban farming solution, and in June the startup Burro began rolling out its autonomous farm robot in southern California to assist in grape harvesting.

Image credits: Iron Ox

This month's cafe will discuss a most frequently asked question -- "Are indoor grown veggies more nutritious?"

"Nutritional Composition of CEA Leafy Greens: a Case Study on Carotenoids of Kale Grown in Field, Greenhouse, or Indoors"

by
Dr. Neil Mattson (Cornell University)
Dr. Marianne Nyman (Rensselaer Polytechnic Institute)

• Please sign up so that you will receive Zoom link info.

• Indoor Ag Science Cafe is an open discussion forum, organized by Chieri Kubota (OSU), Erik Runkle (MSU), and Cary Mitchell (Purdue U.) supported by USDA SCRI grants.

Sign Up Here

Cafe Archive & QA Forum

Please visit the Indoor Ag Science Cafe page in OptimIA website and ask your questions.

Submit Your General Questions for 'Indoor Ag Sci Queries'!

Please submit your questions (anonymously if you wish) about sciences and technologies of indoor farming to this submission site.  Any questions are welcome! The site is always open for your questions. Selected questions will be discussed in our future Indoor Ag Science Queries series.

Indoor Ag Science Cafe is organized by the OptimIA project team funded by USDA SCRI grants program.

Previous café recordings are available in the OptimIA project website.

Please contact for more info: kubota.10@osu.edu

OUR MISSION

We want to empower communities to produce their own locally grown produce year-round.

We strive to change the way people farm by merging technology and agriculture into a system that greatly reduces water usage and transportation costs while maximizing space.

We see a future where communities have achieved food independence by producing their own healthy food and distributing it locally – no longer relying on centralized food systems.

Our Story

Our planet is in trouble, and we need to find new, innovative approaches to food production.

 In 2017, an unlikely group of friends—a real estate agent, a solar energy entrepreneur, and a fabricator, decided to take action. From the drive to decentralize food supply chains and assist communities to produce more locally grown healthy food, FarmBox Foods was born.

 Our founders knew they had to search for agricultural innovations. At the heart of this new approach lies the shipping container. Our goal was to develop the most efficient, high-yielding container farm on the market. Early in our research and development, we saw the appeal of vertical farming—this design principle would allow us to maximize limited space. Bringing all these ideas together, FarmBox Foods created a hydroponic farm with an elegant and user-friendly design.

 With our hydroponic farm on the market, FarmBox Foods is now looking for new ways to bring more healthy food options to communities. Enter mushrooms. With their myriad health benefits and culinary versatility, mushrooms are the perfect crop for sustainable food systems. Our first-of-its-kind gourmet mushroom farm will debut in 2020 and boost access to this superfood.

 FarmBox Foods is changing the way we think about growing food, one shipping container at a time.

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

About IGS:

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

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

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

For more information visit www.intelligentgrowthsolutions.com or connect with us on Twitter and LinkedIn.

By urbanagnews

June 8, 2020

As indoor agriculture has grown, finding, training, and retaining a skilled workforce has emerged as an important challenge to the industry. A unique combination of plant production, tech troubleshooting, and innovation is needed among employees managing these operations.

What are the critical skill sets, and how can we create a larger pipeline of individuals trained in these skills so that they can contribute to CEA business success?

At Cornell University, a group led by Professor Anu Rangarajan (Director, Small Farms Program) seeks to provide answers as part of a National Science Foundation-funded research project on CEA Viability in Metro Areas.

Rangarajan’s team has conducted extensive research to date in order to understand the workforce needs of the hydroponics industry, including greenhouses and indoor vertical farms—and the research continues.

With the long-term goal of creating robust curricula for training CEA employees in mind, a team from Cornell University conducted many in-depth interviews with professional CEA growers in 2018 and 2019.

The team then organized a workshop, in consultation with The Ohio State and Agritecture Consulting, that invited a focus group of CEA operations managers to model in detail the diverse activities that they perform on the job.

The resulting chart is a detailed, peer-reviewed list of duties (responsibilities) and tasks (activities, skills) that describe the work of the expert Indoor Farm Operations Manager.

The chart is currently being reviewed by peer growers worldwide, who are asked to verify how important each skill is, and how frequently it is conducted.

Based on this input, the Indoor Farm Operations Manager chart will be used as a starting point for prioritizing future CEA training modules. After that, a deeper analysis of key individual skills will be conducted in order to translate the foundational research into a teachable vocational curriculum.

Right now, however, Rangarajan’s team is actively seeking more responses to the verification survey.

“We need your help,” she emphasizes, speaking to professional CEA growers. “We want to learn your priorities for a CEA curriculum that will enhance the skills of current or future employees.”

The survey takes approximately thirty minutes to complete and can be completely anonymously. CEA growers who complete the survey will also be provided with an Amazon gift card for $25 as a token of appreciation, although they must provide their names and email addresses in order to receive this gift.

To take the survey, register here. The Cornell team will send a survey link directly from Qualtrics.

As Rangarajan notes, “Grower input will help us prioritize the core education and training relevant to indoor agriculture,” helping provide the industry with the skilled workforce it will need to scale.

For more information about this study regarding the future of the CEA workforce, please contact project lead Anu Rangarajan (ar47@cornell.edu) or research associate Wythe Marschall (wmarschall@fas.harvard.edu).

• TAGS Cornell University Education Indoor Farming

Any business can fail for any number of reasons, but indoor farming is an incredibly delicate organism that depends on many disparate factors being perfectly aligned and in balance. This increases the risk of failure for those unaware of the number of plates that need to be kept spinning in perfect time. This list is not definitive but gives you a good idea of the most common mistakes to avoid.

1. Avoid a Trial and Error Approach to Design

There are multitudes of factors that are naturally managed and balanced with indoor farming. The sun cannot be changed, irrigation to every plant is different as weather patterns can change from moment to moment and even the nutrition in the soil can vary across the area of the field. Planning your farm therefore gives you the ultimate control but also dramatically increases the variables that you can and must consider.

These variables start with the facility’s very layout, such as the size of growing space, plant distribution, airflow and more. Additionally, without having the right models in place to determine the exact light recipe and combination of CO₂, nutrients and water required to grow a successful crop, growers can find themselves wasting time and money on testing phases to try to maximize yield and revenue. Once you have developed a model for your vertical farm, you should then put it through a testing phase on a smaller scale to ensure it is viable.

2. Pick the Right Crop

It’s far easier to develop a profitable and scalable facility if you know the needs of your crop inside and out. That ideally means specializing in one type of crop that you can design your facility around, electing the right growth spectrum and studying that particular plant’s biology to better understand how to optimize irrigation, nutrition, air flow, CO₂ concentration and propagation in order to maximize elements such as taste, nutritional content, visual appeal, potency or shelf life.

Too many growers have tried to hedge against perceived risk by trying to grow multiple crops. By default, it is extremely difficult to have one installation that is optimized for a wide variety of plants, and therefore the returns from each crop are lower than they could have been. The facility then may have to suffer through downtime as the technology is tweaked and optimized for the next crop — eating into profitability and adding unnecessary costs.

3. Location, Location, Location

The old adage that location is half the battle has never been more relevant than in vertical farming today. Vertical farms have a key advantage in their ability to be located close to their customer, whether they are selling to food processors, supermarkets or local shops. Removing the vast transport logistics associated with today’s food supply chain slashes costs and helps appeal to an increasingly conscientious customer. The lack of transport costs also helps counter the higher production costs resulting from higher energy and labor inputs.

At city planning level, there are also many advantages of co-locating a vertical farm with other facilities such as office buildings, shops or residences — which could draw the vertical farm’s excess heat to reduce demands on other sources of energy.

4. Simplify Your Business Model

Proximity to customers and the ability to produce crops year-round at a sustainable rate is a strong advantage in the market, whether you’re growing for the food or pharmaceutical sectors. Therefore, consider the opportunities available through establishing exclusive contracts with customers at a fixed rate that will offer more financial security as you build your business.

5. Be Realistic About Operational Cost

Setup and fit-out costs represent a high initial outlay for any indoor farming entrepreneur, but the ongoing operational costs (energy, labor, inputs, maintenance, etc.) are also significant. Businesses not only need to find creative ways to mitigate these risks (e.g. growing through the night when energy tariffs are lower and the outdoor climate is cooler to assist HVAC systems’ efficiency), but also consider the cost-benefits of different configurations and process flow.

6. Set Prices Based on What Consumers Will Pay

At the 2017 inaugural AgLanta Conference11, PodPonics’ CEO admitted that the company missed out on higher potential margins as it priced its crops to compete with conventional growers, ignoring the price premium that food traceability, pesticide-free growing and local production can increasingly attract from consumers in some markets.

7. The Skills Gap

In many cases, those who have embraced the promise of indoor farming have not been traditional growers but rather tech entrepreneurs, engineers or hobbyists. Vertical farming requires a unique mix of skills to be successful: big data scientists, systems integrators, project managers, engineers, growers and plant scientists all have a role to play in addition to the core functions that any business needs to be successful (financial strategists, marketing and business development, etc.). From the leadership perspective, experience at replicating and scaling a business is critical. Ignoring any one of these functions leaves a serious gap in business capability that could undermine the overall success of the operation.

8. Remember What You’re Selling

In a bid to capitalize on the new technology and growth models offered by vertical farming, some growers have forgotten that their primary focus should be on growing and selling the highest quality food. Instead, they have tried to recoup their investment by trying to commercialize their vertical farm’s technology, process and methodology. Unfortunately, as we have seen, every vertical farm is different with potentially very different needs. The trick is to not to try and do many different things at once, but instead keep a clear focus on doing one thing as well as possible.

Source: www.currentbyge.com/ideas

‘In which Annie gives it those ones’, a movie that came out in the year 1989 featuring an honest life of a typical architecture college and its students. The principal figure is a titular character – Annie, or Anand Grover (played by Arjun Raina) who dreams of revolutionizing India through radical concepts. With a motive to reverse the whole process of urbanization, he suggests the growth of fruit farms alongside railway lines to make better use of excreta dumped on tracks by passing trains. This would end the migration from rural villages to urban cities. Such hare-brained schemes are “those ones” of the title – hippy-dippy fantasies of using architecture to be of some use of society. He questions in the movie, how could anyone else have not thought of the idea before he did. Well, the real scenario was even worse until hydroponics occupied its seat in the field of Architecture.

Hydroponics Brings Farmlands To Urban Cities

With the rapid change in the world, there is a proportional decline in land availability and the quality of the soil. Resources like freshwater are left to count on throughout the world. By the year 2050, the population figure is predicted to rise to 9 billion and at the same time climate change could lower crop production by 25%.

Currently, with the expansion of cities & exhaustion of the rural lands, a vegetable growing on farmland travels about 2400 km before it reaches households. To keep it fresh and edible, it is sprayed by pesticides and chemicals. The food that one eats thus gets reduced to 50% of its nutrients, even 100% in some cases. Hence, the future of farming is being brought to cities across the world. Kimble Musk, brother of Elon Musk, and co-founder of Square Roots has a shipping container farm in Brooklyn. Under the streets of London there is a shelter being converted into an underground farm. There are tiny farms under Michelin Star Restaurants in New York City and a Tokyo office building which has its own rice paddy field in the lobby.

Hydroponics might as well be the most sustainable way to feed the growing communities in moving forward. It is most efficient to grow leafy vegetables in vertical farms. Compared to traditional farms, vertical farms use 90% less land, gives 90% more fruit, and uses 90-98% less water with no soil. The UN estimates that 20-40% of crops that are grown are destroyed by pests. So, growing in a closed environment without soil means no pests and thus, no pesticides. Tower Garden collaborated with Tower Farms to birth True Gardens in Arizona, USA. It is one of the major successful examples who have envisioned to drastically reduce the regional agricultural problems against the temperatures and lack of resources.

Hydroponics In Small-Scale Projects

While people are getting under built concrete to fabricate urban farms in the cities, some architects open a new aspect of Hydroponics in the field of Architecture. C.C Arquitectos – an architectural firm in Mexico, designed a contemporary office that meets modern hydroponics. The site became a major driving force for this project. The building block is located between two production warehouses of leafy green vegetables. The project was intended to resolve the location of offices in a space that made emphasis on the constant interaction of the areas.

The context consists of agricultural fields that generate deep horizons. This became the second aspect the architect wanted to address: how to contain workspaces, bring a human scale to the whole, and provide visual breaks. He took advantage of the proximity to one of the production plant warehouses to visually involve the production process. It was intended to promote a friendly atmosphere, take distance from the corporate condition, and try to approach a community working for common purposes. This example shall inspire one, and all the designers to break the stereotypical boundary of application of hydroponics that limits to only vertical farming.

Hydroponics Meets Art

Before you proceed to read further, I would like you to take a pause and imagine –what if, hydroponics meets art and architecture with a pinch of technology? In advance of you declaring the amalgamation impossible, I would like to introduce a project known as Kinetic Green Canvas, built by Associative Data (BAD) along with Green Studios to create a prototype green art installation for building façades.

The Canvas consists of individual modules, each of which is a cube made from a steel framework, back paneling, L-shaped jambs, secondary structure, waterproofing board, irrigation piping, Green Studios hydroponic skin, and plants. These layered components are assembled on four sides of the cube module, with a motor and water pipe attachment that circulates water throughout. Varied shades of green grass are grown on each face and can create changeable ‘pixel’ art. All we need is art and plants to cheer up the neighborhood, so why not combine the best of both worlds?

Hydroponics Builds A Tiny Ecosystem

Amidst the sea or river, grows a field yielding tons of vegetables, fruits, and fish each year! Barcelona-based architectural firm – Forward Thinking Architecture floats an idea of a complete ecosystem. With the ideology of no land-no problem, the firm proposes ‘Smart Floating Farms’; large triple-decker agriculture barges that feature fish farms down below, hydroponic gardens up top and, solar panels on the roof to keep things running. The designers contend that all of this could, in theory, operate pretty much automatically with minimal human intervention. A project takes the right direction when the classical elements merge together to support life and are self-sufficiently sustainable.

The extent of Hydroponics spreads exponentially more and beyond. It has been experimented in the farming sector and is successfully solving major world crises in the present and for the coming future. The growing trend in architecture shall meet advanced technology and who knows, we might even have growing buildings using hydroponics! Contradicting what we’ve always been taught – I would recommend building castles in the air. It could be one significant bridge for the human race to jump to productive architecture.

Tanushree Saluja

Architectural Journalist

Rethinking The Future

Tanushree Saluja is constantly inspired by connecting different forms of art and translating into architectural experiences. She strives for the eccentricity that’s interminable in the mind of the receiver. Bringing in fresh perspectives and unique outlook has been the greatest challenge and reward to her creativity.

ANAND GROVERANNIEARCHITECTUREARCHITECTURE COLLEGEHYDROPONICSINDIAURBAN CITIES

Dublin, Ireland | May 19th, 2020 ​

SANANBIO, a global leader provider in LED horticulture lighting and vertical farm technology, announces strategic distribution partnership with Dublin based startup for European markets. Farmony will build a network of interconnected, controlled environment vertical farms across Europe.

Irish Agtech company Farmony has signed a European distribution deal with Sananbio for their vertical farming Radix systems. The Dublin based startup, established in 2018, will incorporate Sananbio’s technology into their controlled environment vertical farming solutions.

“As our climate continues to change and populations across the globe expand, food production must evolve in order to keep pace with these unprecedented changes. We are delighted to announce our partnership with Sananbio; global leaders in cutting-edge vertical farming technology developed to empower the modern farmer and spur sustainable local food production. Sananbio is the ideal technology partner to complement our own customized, automated controlled environment software & hardware solution. ”-​ ​John Paul Prior, Strategy and Sales Director, Farmony

“Farmony provides Sananbio with the ideal partner to expand our industry leading technology into the European markets. With over one million square feet of commercial vertical farms currently using RADIX, farmers, and investors in more than 10 countries believe in our company's highly engineered grow technology. In Farmony we have a partner that adds significant value to our product offering through exceptional sales & marketing, IOT focus and new product development. " -​Michael Yates, Vice President Sales, Sananbio

ABOUT Sananbio®

SANANBIO is a leading Ag-tech company backed by one of the world’s largest LED chip manufacturers. Supported by an elite R&D team comprised of plant scientists, researchers, and engineers; SANANBIO utilizes state-of-the-art technology that enables growers worldwide in the horticulture industry to increase the quality and quantity of their yields. Years of extensive research and real-world deployment and operations allow SANANBIO to offer its customers proven, scalable, efficient and cost-effective solutions in LED horticulture lighting and Controlled Environment Agriculture (CEA) vertical farming grow system; as well as turn-key vertical farm solutions including building, transfer, financing, and training of staff for both large and small-scale farming facilities. SANANBIO empowers growers with the technology and knowledge to achieve unprecedented results in farming operations.

Learn more:​ ​ SANANBIO

John Paul Prior asks will vertical farming mean that Irish horticulture finally gets its 'day in the sun'?

ABOUT Farmony

With offices in Dublin & mainland Europe; Farmony provides an operating system for Controlled Environment Farms through a combination of software and hardware, customized specifically for vertical farming applications. The Farmony operating system provides producers with grow recipes, real time alerts, and feedback on the efficiencies of their farm, while also automating dosage, irrigation, and lighting.

Through the aggregation of the associated growing data from their network of producers, Farmony can then optimize yields and, through machine learning technology, ensure that the network is constantly improving it’s output for its network of users, establishing a growing efficiency algorithm.

Their partnership with Sananbio, facilitates all-year-round pesticide-free growth of leafy greens, microgreens, and herbs from a footprint of 55 Square Meters, producing the output equivalent of 5 acres of traditional farmland. Farmony has recently opened a facility in Poland to support their European expansion.

Learn More:​ ​www.farmony.ie​ ​www.farmony.pl

Media Contact: John Paul Prior +353 86 8116708

Jim Pantaleo is a renowned expert and consultant for Indoor Vertical Farming and offers ag companies sound and technical advice on best practices. Some of his services include performing market research and business development work. Other than companies, Jim also works with different universities such as the University of Arizona, UC Davis, and the University of Santa Barbara. He also enjoys writing about indoor vertical farming and regularly speaks at ag-related conventions.

Jim joins me today to describe how indoor vertical farming will change the way we look at sustainable food sources. He shares the current technology available for indoor vertical farming and what we can expect in the next few years. He discusses the myths about soil nutrition and crops regarding indoor environments. Jim also explains why the ag industry is experiencing its own version of the Dot Com era. 

“There’s no degradation of nutrients when growing indoors because you’re controlling that environment.” – Jim Pantaleo

This Week on The Future of Agriculture Podcast:

• The different kinds of skills modern agriculture needs.

• Why fruiting plants are the goal of indoor agriculture.

• The current challenges of indoor vertical farming.

• The debate around nutrients, soil, and natural sunlight.

• How they control the crops’ nutrient inputs.

• What The AgTech scene in Los Angeles is like.

• The major costs of having an indoor farm.

• Startups that have made great strides in indoor farming.

• Comparing the Dot Com era and the rise of indoor farming.

Resources Mentioned:

Gotham Greens

Connect With Jim Pantaleo on LinkedIn