VERTICALLY URBAN AND MICROSOFT PLOT GROWTH OF AI PARNTNERSHIP

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The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

FEED THE WORLD

With the world’s population set to rise to around 9.8 billion by 2050, it is thought that global food production must increase by around 70% to ensure food stays on everybody’s table. At the same time, we are already losing traditional farmland at an alarming rate mostly because of pollution and climate change.

UK based Agri-tech manufacturer Vertically Urban and global tech leader Microsoft both believe that Controlled Environment Agriculture (CEA), not only has the power to play a pivotal role in ensuring food security for future generations but believe they can bring about significant improvements in the efficiency and quality of the process.

DEVELOPING HORISS WITH MICROSOFT AI

The two companies are working together to develop Vertically Urban’s AI-based CEA control platform HORISS. The aim of HORISS is for it to be an intelligent control system that autonomously monitors and reacts to environmental and physical changes within the growing area, ensuring crops are grown to exact specification, using precisely the resources required.

Andrew Littler (AL), Vertically Urban’s CEO, sat down with Jens Hansen (JH), General Manager (EMEA) of Data & AI at Microsoft, to discuss Microsoft’s partnership with Vertically Urban and how AI has the power to accelerate the new farming revolution in controlled environment agriculture and secure adequate food supplies for future generations.

Watch a video excerpt from the interview between Vertically Urban’s CEO, Andrew Littler and Jens Hansen, General Manager (EMEA) of Data & AI at Microsoft.

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SugaROx raises £850k from Regenerate Ventures and UK Innovation & Science Seed Fund

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SugaROx

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

SugaROx has raised £850k from Regenerate Ventures (RV) and the UK Innovation & Science Seed Fund (UKI2S) to allow investment in the scale up and registration of a cutting-edge biostimulant platform originally developed by Rothamsted Research and Oxford University. RV and UKI2S have been the stimulus in SugaROx raising £1.4M in its Seed Round.

Field trials conducted over several years show that SugaROx’s unique single molecule trehalose-6-phosphate (T6P) biostimulant platform can boost wheat yields between 12-22%. Remarkable results have also been obtained under controlled conditions for barley, millet, and sorghum (featured image).

“The investment will allow us to accelerate field testing, prepare to launch registration in major markets and obtain proof-of-concept on additional crops”, says SugaROx CEO Mark Robbins. “We are delighted to have attracted investment from UKI2S and RV. Together, they bring a track record supporting science-based ventures and invaluable expertise on agrochemicals”.

“We are excited to be joining SugaROx on their journey as we have a strong conviction in both the team and the technology”, says Paul Rous, Managing Director at RV. “A combination of strong market growth, a unique value proposition, supportive regulations and potential for high returns makes investment in biostimulants an attractive opportunity for our investors.”

Andrew Muir, Investment Director at UKI2S, believes SugaROx is a great exemplar for the fund’s thesis. “High quality, collaborative science which addresses a real global challenge and a significant market make for an excellent investment opportunity. SugaROx also has the potential to accelerate the transition to low carbon economies through reduced fertiliser inputs.”

The investment gives SugaROx a great head start – and other exciting developments are also in the pipeline. For updates, follow us at www.linkedin.com/company/sugarox-ltd/.

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How can aeroponics increase productivity in greenhouses?

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LettUs Grow Ltd.

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

Greenhouses and polytunnels neatly bridge the gap between outdoor and indoor farming. The levels of control can vary greatly depending on the system: some use LED lights to compliment natural sunlight, deliver nutrients as part of the irrigation process, and sustain warm enough temperatures to grow crops out of season. All these conditions will go some way to protect growers and their produce from the ever-increasing threat of climate change.

Harvesting crops throughout the year with the lowered threat of pests, disease or extreme weather can make greenhouses vastly more productive than land outdoors. With retailers increasingly turning to CEA to help them achieve their sustainability goals, it’s no wonder the commercial greenhouse market size is predicted to grow to $49.26 billion by 2027.

But the reality is that commercial greenhouse growers still see threats to their productivity, especially with extortionate energy costs eating up a healthy chunk of profits. A year on from the start of the Russian war on Ukraine, and parliamentary figures are still working at odds with potential solutions to the energy crisis, leaving individuals and businesses alike struggling to keep afloat. Due to the breadth and scale of their operation, greenhouse growers in particular face a unique set of challenges – and can see their productivity being capped.

If greenhouse growers are to see an improvement in profits, their operational efficiency and productivity must be improved.

The big picture

Productivity comes down to one core aspect: crop yields. Powering lights alone can make up to 30% of a greenhouses outgoing costs, with labour and operational costs that come with producing and distributing crops at scale eating into potential profits too. Simply turning the lighting off and relying on natural sunlight is one option – but this will only lead to a further drop in productivity, especially in the winter months. If a greenhouse facility is already automated, and is running with minimal staff and a mix of cost-effective energy sources, increasing crop yields is going to be the most effective way to improve profitability.

There are guaranteed ways to make greenhouses more efficient, and although these can make greenhouses more resilient or streamlined, increasing productivity is going to be the leading factor in growing revenue. The three main areas that greenhouses have to control and improve are lighting, temperature and irrigation.

Temperature control

Low control

Making changes to ambient environments in greenhouses is a particular struggle. In hectare-scale facilities, greenhouse growers will typically find pockets of inconsistencies in temperature, CO², oxygen, humidity and airflow rates. Heating and cooling vast areas is costly, so they could find internal temperatures to be at the mercy of outdoor factors a lot more than vertical farming set-ups.

Automation has also vastly improved the efficiency of greenhouses, which is why it is so widely adopted in large-scale facilities. Growers can accurately automate transportation, nutrients and lighting, but greenhouse environmental control has not yet benefited from the same level of optimisation. You can transport crops with ease, but the ambient temperatures and pockets of temperature inconsistencies in hectare-scale facilities make this element a particular challenge.

Lighting

Medium control

Greenhouse growers have a particular advantage over vertical farming set-ups in this area. Using a combination of sunlight and UV LEDs will greatly reduce overall lighting costs while giving plants all the energy they need to flourish. The LED grow light industry is rapidly changing, and has benefited from an increased amount of research in recent years.

With advancements accelerating, greenhouse growers are now encouraged to choose up-to-date LED lighting over fluorescent or high-pressure sodium lights, use equipment that is no more than five years old, and consider the right spectrums for their crops.

Ultimately these updates will allow greater control over costs, growth performance and overall plant health, but are unlikely to greatly increase the overall productivity of greenhouses significantly.

Irrigation

High control

Irrigation is the way in which growers water their crops. Greenhouses typically use hydroponics feeding water and nutrients directly to the roots, trickle irrigation in the soil, or overhead irrigation lines to crops planted in the soil, and in recent years has not seen as much innovation or development when compared to the lighting industry, for example. Irrigation holds untapped potential, and for greenhouse growers they can not only have vastly increased control, but can significantly increase crop production.

Aeroponics is an irrigation method which is not currently used at scale, but could be the key for many greenhouse growers to greatly improve productivity. With aeroponics, plant roots are irrigated with a nutrient-rich mist, and allows crops to grow between 20-200% faster when compared to hydroponics. Thousands of water droplets are dispersed using ultrasonic sound waves, irrigating a perfect blend of water, nutrients and oxygen onto plant roots. This greater access to oxygen means that plants are healthier, happier and most importantly grow faster.

Using ultrasonics also removes the need for nozzles, a common method used throughout the aeroponic industry. Using nozzles to create mist adds significant complexity and maintenance issues, making it unsuitable for large-scale commercial growers. Although nozzle-free aeroponics is not yet widely available, LettUs Grow are working to make that a reality.

LettUs Grow are currently working with Crop Health and Protection and Stockbridge Technology Centre to bring Aeroponic Rolling Benches™ to the large-scale greenhouse market, allowing commercial growers to unlock and accelerate their productivity potential.

Ultimately, there are many factors to consider when looking to improve productivity, and it’s likely a combination of all of the above will be considered to make a real impact in both efficiency and productivity.

LettUs Grow is dedicated to working in collaboration with world-leading greenhouse growers to bring ultrasonic aeroponics to the hectare-scale growing industry, and open doors to new and innovative irrigation technologies. If you’d like to find out how Aeroponic Rolling Benches could work in your greenhouse, make sure to sign-up for the mailing list here.

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ICRISAT and Eagle Genomics partnership to accelerate microbiome-based solutions to drive global climate resilience, sustainable food systems and improved nutrition

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Eagle Genomics

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

ICRISAT and Eagle Genomics sign Memorandum of Understanding

Internationally renowned science-based organisation and pioneering TechBio platform expected to deliver innovative nature-based solutions through exciting public-private relationship
Networking microbiome science to tackle the world’s Grand Challenges including effects of climate change

Hyderabad, India: A new cooperation framework was signed today between the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) and Eagle Genomics at the International Conference on Innovations to Transform Drylands. 

Director General, ICRISAT, Dr Jacqueline Hughes and Eagle Genomics CEO, Anthony Finbow signed the agreement overseen by an international gathering of some of the world’s foremost dryland agrifood system experts. 

The MOU will see leading organizations – Eagle Genomics, the pioneering UK-based TechBio platform business applying network science to biology and ICRISAT, an India-headquartered international non-profit organization that undertakes scientific research for development – collaborate at the intersection of life science and data science to help solve urgent global challenges in food security, nutrition, and agriculture. 

Eagle Genomics CEO, Anthony Finbow, said the collaboration with ICRISAT was a natural fit given the innovative and purpose-driven nature of both organizations, to improve the lives of those suffering from hunger and malnutrition. 

Achieving Safe and Nutritious Food for All

There is growing awareness that malnutrition cannot be solved without a robust understanding of the role of the microbiome both in enhancing resilience to climate change but also in enhancing nutrient absorption. This includes ensuring access to safe and healthy food and targeting novel microbial-based solutions to improve nutrition, enhance wellness and reduce disease.

The e[datascientist]™ is a platform powered by network science¹ and multilayer hypergraphs², applying machine learning and artificial intelligence to provide a data-driven insight journey into solving complex problems and delivering greater impact in climate resilience, improving plant nutrient density, and increasing data-driven wellness and human health outcomes.

The platform integrates active learning at every step of the microbiome innovation journey, from characterising and describing microbiomes, to a better understanding of complex causal mechanisms to elucidating host-microbiome interactions. Eagle Genomics is reinventing life sciences research and development by bridging the ‘translation gap,’ enabling scientific knowledge from a range of disparate sources and data sets to be integrated and analyzed through the e[datascientist]™ platform to create novel hypotheses and deliver robust, scientifically underpinned practical solutions.

“We are energised to partner with ICRISAT, which has over half a century of experience in improving dryland agri-food systems across the poorest communities of the world from which we can draw valuable data and explore the pressing questions of our time that remain unanswered. 

“This promises enormous consequences for both public policies to incentivize private sector investment in new initiatives, and measures to address global challenges, that are jointly good for humanity and a corporation’s bottom line. 

“Just as the digital revolution has brought new opportunities and improved our world, so can the Bio Revolution – towards which we are working with ICRISAT alongside other partners,” said Anthony Finbow.

Sharing Knowledge for More World Firsts 

Director General ICRISAT, Dr Jacqueline Hughes said the MOU would see ICRISAT share datasets with Eagle Genomics, drawing upon extensive on-the-ground experience in Asia and Africa that had led to several agricultural world firsts. These include developing early maturing groundnut as well as high iron biofortified pearl millet, innovations that have directly responded to the challenges posed by climate change. This new partnership offers an opportunity to address, and even leapfrog beyond, the Sustainable Development Goals to drive science-based targets for regenerative agriculture. 

“The efficacy of our interventions both past and emerging and on which some 2.2. billion people depend, will increasingly depend on informed data-driven decisions in an increasingly complex world.

“This partnership will advance an understanding of microbiome interactions – from soil, to plant, to farm, to fork, to gut, to health, and their relationship with our food system and offer new approaches to sequester carbon efficiently, enhance nitrogen and phosphate availability for plants, reduce soil erosion and flooding and improve crop and community resilience to climate change and climatic events. Furthermore, it will provide meaningful nature-based metrics to enhance our understanding of regenerative impact from a biological standpoint.

“Increasing the nutrient density in our food through enhancement of microbiomes will help ensure ICRISAT’s mandate crops can address food security and malnutrition, in populations living in drought-prone dryland areas. 

“I am delighted that our collaboration with Eagle Genomics, and the strength they bring to our high-calibre partnerships, will advance our mission of reducing poverty, hunger and malnutrition for the world’s poor,” said Dr Hughes. 

At the conclusion of the signing, ICRISAT and Eagle Genomics applauded the Innovations for Drylands Conference. They said that the MOU would help underpin next-generation innovation to safeguard the lives and livelihoods of the over two billion people living in the drylands of Asia, Africa and beyond. It will contribute to safe and nutritious food for all, through a shift to sustainable consumption and nature-positive production systems that can drive One Health outcomes for humans, animals, and the environment. 

Notes

Network science is the study of complex networks of physical, biological, and social phenomena, and can also be used to explain and deeply understand these phenomena.
Multi-layer hypergraphs enable scientists to explore conjectures, questions, and hypotheses to generate novel insights in the form of further hypotheses, evidence and claims data using a dynamic, evolvable, and context-based data network composed of several layers, e.g., study, subject, treatment, and measurement.

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GROWPURA GAINS TWO MORE INTERNATIONAL PATENTS

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GrowPura

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

GrowPura® is delighted to have been awarded a further two International Patents in Canada and Australia for its unique and world-first GrowPura® Vertical Farming System (VFS) .

This builds on other GrowPura country patents already granted in the UK, and Singapore with other countries due to be announced soon.

The licensable GrowPura VFS delivers improved sustainability performance and commercial results and is suitable for existing or new vertical farming companies.

Its inherent lower carbon and start-up cost design delivers an extra 100-300% output for an equivalent building with the same growing space.

The GrowPura VFS features unique patented automated moving technology which combines to reduce energy demand for lighting, uses fewer fixtures, a lower real estate footprint but enhances the stimulation of the crops to give a higher output.

Nick Bateman, Executive Chairman of GrowPura says:

“GrowPura has invested significant resources over the last ten years to innovate the GrowPura VFS and is committed to offering the technology to drive more access for citizens to more sustainable and wholesome food solutions.

Our vision to help grow food and ingredients that are better for the planet and better for people is a commitment all our team share as we strive to power the next generation of vertical farming”.

For further information on our technology, contact our team on 0345 5481812

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Norfolk based Gravitilab Aerospace Services closes its £500k Bridge round with significant over-fund

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Anglia Capital Group

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

Gravitilab has raised more than £900k during the last quarter, including one investment from an ACG member, and is now embarking on a new £5mil Series A round.

Gravitilab, based at the Scottow Enterprise Park just north of Norwich, is a SpaceTech business that provides Research, Testing and Qualification services, specialising in microgravity and Space environments. Its customers come from a wide variety of sectors including Commercial, Academic and Government. In the Anglia region there is particular interest from AgriTech, BioTech, Engineering, and ClimateTech industries.

“It’s not everyday that we see a pitch which involves launching rockets! Gravitilab have seen excellent growth since inception in 2019 and is a fantastic example of the exciting innovation which we’re proud to see coming out of our region.” Hannah Smith, Managing Director, Anglia Capital Group.

In an exciting development, Gravitilab recently achieved a “world first” with the launch of its commercial microgravity service using its patented LOUIS UAV / drone technology. This was the first time that a UAV drop-pod has been used to generate a microgravity environment and paves the way for widespread commercial use across industries as diverse as cosmetics and satellites.

Gravitilab’s technology solutions are set to disrupt the existing institutional market for research and testing (which remains dominated by legacy technology), but with safer and more affordable services available at much shorter notice it is also opening up new avenues within the £65bn UK R&D industry.

“We are delighted to have overfunded to such an extent last year and been able to successfully launch our microgravity service last month. We now look forward to raising £5mil from venture funds in order to complete the development of our hybrid suborbital rocket and roll out our full suite of commercial services.” James Kilpatrick, Founder, Gravitilab Aerospace Services.

In addition to making microgravity and Space environments so much more accessible Gravitilab is also on a mission to improve Sustainability in Space. Its hybrid rockets are initially set to reduce launch emissions by 75%, and it hopes to be carbon neutral before long as it is developing a new rocket fuel based on beeswax in conjunction with a leading Norfolk apiary. What is more the advent of more rigorous testing regimes, which the company can facilitate, will substantially help to reduce the build up of debris in Space.

Don’t invest unless you’re prepared to lose all the money you invest. This is a high-risk investment, and you are unlikely to be protected if something goes wrong. Take 2 mins to learn more. Investor Risk Warning – Anglia Capital Group

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Gardin and Boxford Farms Partner to Improve Commercial Glasshouse Crop Performance

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Gardin Ltd

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

Glasshouse Innovation

Gardin has partnered with Boxford Farms to showcase its innovative technology that helps commercial glasshouse growers monitor their crop’s health, reduce variance across the farm and increase yield. As part of their ongoing partnership, Gardin and Boxford Farms have collaborated to monitor the health of commercially grown strawberry plants using Gardin’s innovative technology, demonstrating it’s potential to drive performance improvements for glasshouse growers.

Addressing Variability

A key challenge for commercial glasshouse growers is microclimate variability within the same greenhouse zone, which leads to non-uniform distributions of temperature, relative humidity, carbon dioxide concentration, and irradiation. This heterogeneity creates problems for crop growth, production, and quality. Gardin’s technology provides easy to read, actionable insights through measurements of photosynthetic performance, which are highly sensitive early indicators of stress, providing farmers with a way to monitor their crop’s health in real-time.

Positive Results

The collaboration, conducted in partnership with award-winning, British fruit farm Boxford Farms, involved the monitoring of the grower’s strawberry plants in two areas of their commercial glasshouse – the historically best and worse yielding areas. Gardin’s monitoring system detected immediate differences in plant health between the two areas, with the lower yield area seeing a continuous deterioration in health, while the higher yield area maintained a steady health status.

“Our technology’s ability to detect these differences in plant health and provide real-time insights to farmers is what sets it apart,” said Dr. Steven Grundy, Senior Plant Scientist at Gardin. “The trial results show a promising positive correlation between the change in plant health and the yield of the strawberries, demonstrating the value of our technology in improving crop health and boosting yield.”

Mike Marita, Boxford’s Farm Manager said:

“We have noticed before that plants in certain areas of our glasshouse were getting stressed, but it was difficult to know exactly when or what was going wrong. The Gardin solution allows us to see decline in health in real-time and well before it becomes visible. This in turn allows us to adjust our growing strategy and farm operations. The correlations between Gardin insights and yields were very promising, and we hope they will allow us to optimise performance next season […]”

A Fruitful Partnership

Gardin is delighted to continue its partnership with Boxford Farms into 2023, monitoring strawberries throughout their growing season. This partnership will help Boxford optimise farm performance and further demonstrate the company’s commitment to improving crop health and yield for commercial glasshouse growers.

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Slugs sought for feeding trials

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BOFIN

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

A farmer-led research project exploring new ways to manage slug damage is seeking ‘Slug Scouts’ who will trap and send in slugs for feeding studies.

Farmers across the UK are being encouraged to capture grey field slugs and send them in to John Innes Centre in Norwich for what is claimed to be a “ground-breaking” scientific study taking place early this spring.

The scientists are hoping farmers will harvest around 1000 slugs from their fields. These will be used for feeding trials just getting underway at the John Innes Centre Insectary.

The project, led by the British On-Farm Innovation Network (BOFIN), aims to gauge how palatable a range of different wheats are to slugs, and help farmers move away from a reliance on chemical control measures and the potential environmental impact of those chemicals.

It follows initial studies that indicated one landrace wheat, known as Watkins 788, may be resistant to the slimy pests, that cost UK arable farmers £100M every year.

“Slugs are UK arable farming’s most damaging pest,” notes Oxfordshire farmer and BOFIN founder Tom Allen-Stevens, who co-ordinates farmer involvement in the project. As they get active again this month, rather than let them graze on our crops, we’re keen for farmers to join our group of ‘Slug Scouts’, who will trap the pests and send them in for this important study.”

Setting up a ‘slimery’

The Slug Scout volunteers will be provided with a pack, including containers and postage-paid envelopes, as well as instructions on how to set up an effective ‘Slimery’.

“This is what you use to attract and trap your slug population that you can then harvest periodically – it’ll want to be in the most slug-infested spot of your farm,” explains Tom.

The trials are part of a wider project that aims to explore the palatability of wheat and the grazing behaviour of slugs, with the aim of identifying a possible slug-resistant trait for the development of future varieties.

Watkins 788 is one of a collection of landrace wheats currently being screened for interesting traits by scientists working on the Defra-funded Wheat Genetic Improvement Network (WGIN) programme.

“The initial feeding trials showed Watkins788 was consistently spurned by slugs,” explains Dr Simon Griffiths of John Innes Centre who leads the research. “So we multiplied up enough of the variety for farmer-led trials that took place on farms across England over the autumn and winter.”

These were conducted by Slug Sleuths, 10 BOFIN farmers who followed an in-field trial protocol drawn up by slug behaviour expert Professor Keith Walters of Harper Adams University.

Results are currently being assessed and are due to be published next month at a webinar taking place on 16 March 2023.

“The feeding trials will repeat the initial trials and then look in more detail at how slugs graze – whether it’s the Watkins seed or young shoots they tend to spurn, for example,” continues Simon. “We also now have 84 RILs (Recombinant Inbred Lines) of Watkins 788 crossed into Paragon, a more modern wheat, and we aim to screen these for palatability which should allow us to select more precisely for resistance.

“And there’s an elite line – a cross of KWS Santiago and Graham – that we believe may have a special quality. So we’re testing this in the feeding trials for the first time,” he adds.

How to get involved

The Slug-Resistant Wheat project is a farmer-led study that started in April 2022. Co-ordinated by BOFIN, anyone can join for free and get involved in the Slug Circle – a group of around 60 farmers and scientists who have come together to explore alternative forms of slug control and who have helped shape the project as it progresses.

“The field trials, that we intend to repeat this coming autumn, are essential to finding out whether there truly is a slug-resistant trait,” says Tom “The lab-based feeding trials will inform what we put in the field and the urgency now is to collect enough slugs to explore thoroughly how they feed. So we’re really keen for farmers to volunteer as Slug Scouts, collect the slugs and send them in.

“But it’s not just about the trait – we have learned so much already that the Slug Sleuths will be sharing with members of the Slug Circle over the coming months. We want this farmer-led voyage of knowledge discovery to help build a more resilient and sustainable approach to managing slugs in future that moves away from our current over-reliance on chemical control.”

The Slug Resistant Wheat project is a one-year study, led by BOFIN and is supported through a contribution by the Environment Agency as part of its Environment Programme. This supports partner-led projects as part of a Catchment Based Approach to improve the chemical and ecological quality of waterbodies.

Driven and steered by the farmers themselves, at the centre of the project are the 10 Slug Sleuths, who carry out the on-farm trials with genetics expertise provided by Dr Griffiths, and seed multiplied up by JIC at its Dorothea de Winton Field Station, Norwich. Trial protocols were drawn up by Prof. Walters of Harper Adams University who has provided additional insight on slug behaviour.

The feeding trials are the final, new element of the project and will involve the volunteer Slug Scouts who will gather slugs from the field and send them in for lab-based feeding studies. These are conducted by Victor Soria-Carrasco and the team at the John Innes Centre Insectary.

To find out how to become a Slug Scout, join the Slug Circle and for details of the webinar on 16 March, visit www.bofin.org.uk or email info@bofin.org.uk

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Perennial inspiration from the TMAF annual meeting

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The Morley Agricultural Foundation

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

TMAF demonstrated again at its annual meeting how it maintains its role at the heart of agricultural development. Illustrations of the research it is supporting was combined with discussion of key current issues such as measuring farming’s real carbon footprint and asking what the science of regeneration actually looks like.

An audience of over 50 East Anglian farmers, advisors and other agri-professionals gathered to hear the afternoon of talks and debate. For, while field walks and online talks are one way to feel the pulse of the current challenges, there is nothing as satisfying or as inspiring as hearing research updates and perspectives in person from those at the forefront of discovery.

Trial and tribulation

Whether or not virus yellows disease becomes an issue for the region’s beet crop in 2023 remains to be seen. The extraordinary weather and the beet moth infestation in 2022 certainly posed challenges for the research underway at Morley to test varietal resistance to these yield-damaging infections, according to Suzannah Harder.

Suzannah’s TMAF-supported research is well underway, as she has reported recently. She shared the trials (and tribulations) of rearing six variants from three strains and the aphids to inoculate them into her sugar beet plots at Morley. “No-one else I know has put six variants of disease into a beet field trial. It is very stressful but very rewarding.

I have found significant differences between varieties’ in-bred resistance, and adjusted yield tonne/hectare from the harvested crop, and is making me think we have to make changes to a strain, such as BBRO BMYV that have been kept and multiplied for years now. It might have gone a bit ‘soft’ and should be replaced with a strain more akin to the wild strains, such as I received into the lab in my ‘bouquets’ of infected beet leaves sent to me.”

No longer in a state of flux

oon there will be new structures appearing in Morley fields. BBRO’s Dr Georgina Barrett is the driving force behind the new TMAF-supported project to assess the carbon dynamics in sugar beet. The means to measure the carbon emissions will be two flux towers. As wind pockets flow across the fieldscape, the instruments capture samples and, through “clever maths by CEH” will give information on CO₂production.

Dr Barrett explained that this will happen over the farming year with sugar beet from bare soil, through drilling and the full season of growth. “This is a long period to measure capture or release of carbon. Also, what is novel about the plan here at Morley is that this trial will just focus on sugar beet. What’s more we will have two flux towers to be able to compare management systems.”

It is recognised that there could be a push to reach net zero for sugar beet and the research at Morley could provide the data to show what is possible. “The data from this work could help British Sugar with carbon mapping, guide growers with the best practice to reduce greenhouse gas emissions, contribute to wider soil health objectives and add value to UK grown sugar in the supply chain.”

Regenerating research along same lines

Contributing to the science of regenerative farming was the topic addressed by the final TMAF annual meeting speaker, Niab CEO Mario Caccamo. He began by stating that food production must undergo a transformation in order to tackle the multiple challenges of producing enough food, restoring biodiversity and averting climate change.

“In 100 years of Niab’s work” he said “we have worked on the same issues and crises. Our priority areas remain crop improvement (with gene editing and precision breeding), new farming systems and getting crop perfomance data.” He also says he advocates the production of tools to. make measuring easier, such as with Niab’s Soil Health cards.

Making change

For John Wallace, the TMAF annual meeting was his last as Chair. For his seven years of leadership he was thanked and presented with a silver platter. Longtime trustee Philip Richardson, also retiring, was also presented with a gift.

In his acceptance of the engraved platter, John announced that his successor will be Richard Wilbourn, assisted by new Deputy Chair Sue Lord. He also took the moment to reflect on how, since he very first visited Morley as a young Suffolk farmer, he has continued to be inspired by the evidence from the TMAF research at Morley of what good agricultural practice can be. On such foundations and with the outlined expectations TMAF’s next year will be a positive one.

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What is the Relationship Between Organic Farming and Vertical Farming?

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Kroptek Ltd

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

Once seen as a silver bullet for sustainable and food production, sales of organic produce have fallen by 2.1% over the past year and research has shown that if countries like the UK were to go fully organic it would increase greenhouse gas emissions and reduce biodiversity.

In opposition to this trend, the market for controlled environment agriculture has been steadily increasing and is predicted to exceed £9 billion worldwide by 2026.

Whilst vertical farms do not grow in soil, they do allow for dramatic reductions in water use and can completely cut out pesticide use and food waste. Many vertical farms suggest that their produce should be considered organic

In this article, we review why produce grown in vertical farms doesn’t qualify as organic and look to some of our clients to see some of the reasons it should or shouldn’t be.

According to UK and EU law, fresh produce can only be considered to be produced organically if the farm is registered with an approved control body, such as Organic Farmers & Growers or the Soil Association and must undergo regular inspections to ensure they meet their standards.

Standards such as using non-GMO seeds, the responsible use of resources, maintenance of biodiversity, and the maintenance of local water quality.

Crucially, to be classified as organic, produce must be grown in soil and be part of a sustainable effort to manage soil quality. As a result, anything grown using hydroponics or aeroponics as is the case with vertical farming can’t be classified as organic.

The Overlap Between Organic and Vertical Farms

Despite this many vertical farms suggest they meet many of the other standards needed to be classified as organic.

Firstly, because crops are grown in a sterile controlled environment, the risk of contamination is significantly lower compared to all existing alternatives, thus vertical farms don’t need to use pesticides or herbicides. It is to note that organic produce may still contain some pesticides but in quantities that are below thresholds set by the industry body.
Secondly, as factors affected by ecosystems such as atmosphere, animals, bacteria, or soil quality are negligible in vertical farms, there is little reason to use genetically modified seeds as non-GMO as heritage seed varieties can thrive without these external stressors. There is however a vibrant research community that is looking at optimizing the cultivars and varieties for this new growing environment.
ertical farms have a range of advantages when it comes to the use of natural resources compared not only to traditional farms but also to organic farms. They can use up to 95% less water than traditional farms due to their ability to recycle it. Using state-of-the-art LED lights like Kroptek’s range of LEDs allows for considerable gains in energy efficiency, resulting in lower energy use. Vertical farms have a much smaller land footprint relative to their yield, so they use far less land to produce more food. Finally, vertical farms free the supply chain from having to grow in specific locations as food can be grown within a walking distance from its consumers in urban areas for 12 months a year. This has a very big impact on reducing the food chain’s carbon footprint as it eliminates the need to transport refrigerated produce across thousands of miles.

Whilst not allowed to be classified as such, these regulations are not identical globally.

Under the Singapore Standard 632 introduced in 2019, produce grown in urban vertical farms can be classified and sold as organic. That means the produce grown using Kroptek’s LEDs by vertical farms like this can be deemed organic.

The Organics of Tomorrow

It is unlikely that the classifications in the EU or UK will change anytime soon to reflect the type of classification on offer in Singapore. But there is a lot the vertical farming industry can learn from the experience of the organic farming industry.

Crucially, both movements are driven by the mission to create a more sustainable food system that is better for the consumer than the modern intensive farming techniques developed in the second half of the 20^th century. Whilst sales of organic produce have fallen over the past year since the movement began many of the principles of organic farming have been integrated into conventional farming methods. Using fewer pesticides, monitoring water maintenance, and improving biodiversity on farms has become common practice for many farms.

With greater awareness of the benefits and the methods of organic farming, its popularity soared over the last 30 years. It is clear that the lesson to learn from organic farming is that increasing public awareness of the role vertical farms can play in climate-orientated efforts is key. From reducing air miles, localising food production, and improving food security, to being able to grow regardless of climate and extreme weather conditions; boosting public awareness of the value of vertical farms is a key lesson to be learnt from organic farming.

If you’re interested in how Kroptek supports local and urban indoor farms as part of the larger mission to develop a more sustainable food system, get in touch with one of our experts today.

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This story has been submitted by an Agri-TechE member.

Kroptek Ltd

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Diversity of thought in agri-tech innovation

Member News

Innovate UK - UKRI

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

9 February 2023

Highlighting the work of female innovators working on the transforming food production challenge of feeding a growing world population in a changing climate.

In the last couple of years, the aftermath of the COVID-19 pandemic, as well as recent climate, food and energy crisis have caused current global challenges to be exacerbated. As a result of this, we have experienced drastic changes within our economic sectors and their supply chains. The agricultural sector has been undergoing change to address these emerging issues. However, these growing problems also open up new opportunities for innovation in the sector.

Innovation and more innovation

Innovation in agri-tech is important to help increase the resilience of the sector and address the challenges we’re facing. This includes finding new and sustainable solutions to:

produce food
improve animal welfare
reduce emissions and pollution
deal with rising energy costs

All this, while meeting the challenge of feeding a growing world population in a changing climate. New ideas, technologies, and the adoption of these solutions, are going to be key for both the immediate and near future. Innovation in the sector requires diversity of people as well as diversity of thought to realise these ambitions.

Dispelling the stereotype

In the past, the sector has been widely considered to be an older male-dominated industry. When you look at this from an outside perspective, onlookers might feel like one has to conform to the stereotype to fit into agriculture, but this really isn’t true and there is already great talent, from a range of backgrounds, within agri-tech right now.

Trail-blazing women in agri-tech

Last summer we released a series of videos featuring some of the founders and pioneers we have worked with as part of the transforming food production (TFP) challenge. Among them were several women working on tackling sustainability, productivity, and resilience of the UK food sector through their innovations and businesses.

View the ’meet the pioneers’ playlist on YouTube.

There are lots of exciting technologies and changes happening within this sector. Women in agri-tech have a large role to play in challenging the gender stereotype of what a typical person working in this sector looks like.

Within the TFP team, we wanted to shine a light on the diversity that exists across our current project portfolio. So after speaking to our female innovators to understand their journeys into the sector, we put together a video of our 4 leading innovators. Here they share their journey and provide valuable advice to anyone interested in a career within the sector.

The TFP team, is also looking at what more we can do to help support greater diversity within the agri-tech sector. We have seen that some of the best solutions to the challenges we’re facing initiate via creative thinking from individuals from a diverse range of backgrounds and cultures.

Embracing diversity within the innovation process will be critical to develop solutions that tackle the biggest and most pressing challenges we will face in the coming decades, such as food security and climate change.

The TFP challenge is delivered by Innovate UK.

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This story has been submitted by an Agri-TechE member.

Innovate UK - UKRI

Member News

Tiptree partners with Antobot to deliver affordable robotics for sustainable fruit production!

Member News

Antobot Ltd.

The views expressed in this Member News article are the author's own and do not necessarily represent those of Agri-TechE.

We’re thrilled to announce our partnership with Wilkin & Sons Ltd, you might know them as Tiptree, the historic jam and conserve producer based just next door to us in Essex!

Wilkin & Sons Ltd started growing fruit in the 1700s with their jam and conserve business dating back to 1885. Since then, the company has gone from strength to strength, acquiring several well-respected brands, opening tea rooms in Essex and beyond, all whilst maintaining their 850 acres of top grade fruit. Receiving Royal recognition with a visit from Her Majesty Queen Elizabeth II to mark the anniversary of 125 years of their jam-making, Tiptree is the best-known jam business in the UK and one of the most iconic producers worldwide.

Now sharing ownership with their employees, the team at Tiptree are striving to keep their products high quality and increasingly sustainable. They are dedicated to innovation such as through irrigation systems with reservoirs built on site and installation of the first New Growing Systems in the UK in 2016 which involve movable suspended platforms for strawberries.

Our team visited their site this Wednesday to discuss our collaboration for 2023. After enjoying some warm freshly made scones with their iconic strawberry jam, we learnt all about Tiptree’s history and enjoyed a tour of their facilities including their innovative growing and irrigation systems.

“We’re excited about getting the Antobot team working on site here at Tiptree with their robots. We look forward to the innovations which this collaboration will bring.” – Andrey Ivanov, Farm Manager Tiptree

“We are looking forward to working closely with the team at Tiptree as an iconic British brand and brilliant innovator in horticulture. We can’t wait to see how this partnership can strengthen robotics and automation for the fruit sector.” – Howard Wu, CEO & Founder Antobot

Thank you to Andrey, Veso and Rado for the warm welcome and we are looking forward to a jam-packed year of activities on farm!

You can read more about Tiptree, its history (from 1757!), its ethos (sustainability and innovation!) and much more here on their website

Group of people standing in front of a sign for Tiptree

Group of people walking outside in poly tunnels

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This story has been submitted by an Agri-TechE member.

Antobot Ltd.

Member News

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Agri-TechE Newsletter

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What is the Relationship Between Organic Farming and Vertical Farming?

In this article, we review why produce grown in vertical farms doesn’t qualify as organic and look to some of our clients to see some of the reasons it should or shouldn’t be.

The Overlap Between Organic and Vertical Farms

The Organics of Tomorrow

Post Overview

Agri-TechE Newsletter

Diversity of thought in agri-tech innovation

Innovation and more innovation

Dispelling the stereotype

Trail-blazing women in agri-tech

Post Overview

Agri-TechE Newsletter

Tiptree partners with Antobot to deliver affordable robotics for sustainable fruit production!

Post Overview

Sharing Knowledge for More World Firsts 