In The Spotlight
The Regen Dairy Project launched its 'Let’s Get Serious About Making Dairy Regenerative' report at the recently held 2024 Regenerative Agriculture Summit Europe
With little research done on regenerative dairy to date or a clear vision on the transition required by all those in the supply chain and at scale, the Regen Dairy Project is defining a clear roadmap towards a positive food system for people, animals and the planet. The report considers current global food systems and their associated problems, focusing on dairy as a sector willing and able to change.
Having taken a farmer-centric approach to understanding regenerative dairy, the report outlines recommendations for transition and suggested actions for all those involved - including often overlooked stakeholders such as banks and lenders, media and wider society.
“We believe regenerative dairying can play a significant role in tackling important environmental challenges, as well as combating critical issues facing humanity, like human health, environmental degradation, animal welfare, and water use," said CEO of FAI Farms, Øistein Thorsen. "And all while producing the nutritious food needed to feed a growing global population and helping farmers stay profitable.”
He also concluded by saying that rather than telling farmers what to do, the report focused more about achieving change in a food system, which is often considered complex since it requires input and action from everyone. "We are all responsible for educating ourselves on what regenerative agriculture is and the benefits it provides, and for many this could include a shift in mindset. We are excited to see what can be achieved,” Thorsen said.
Leading agricultural data and AI-powered technology company, Agmatix announced the launch of RegenIQ at the Regenerative Agriculture Summit in Europe
Designed to drive the adoption of regenerative agriculture, RegenIQ offers a structured approach to assessing the impact of field-level efforts, supporting both environmental health and productivity. By connecting agrifood companies to real-time field-level activities, RegenIQ enables them to tailor regenerative practices to specific crops and conditions through a standardised, data-driven approach. Moreover, the approach also addresses one of the most pressing challenges: the lack of a consistent and acceptable measurement system at scale. Companies can therefore, confidently track and achieve their ESG goals and Scope 3 requirements by actively working with growers at scale.
RegenIQ offers a scalable and adaptable approach to assessing the impact of local practices on environmental outcomes and crop yields across four key areas including soil health, water, biodiversity and climate. By integrating remote sensing data with ground-truth data from Agmatix’s Sustainability Solutions, RegenIQ ensures adaptability to any crop and location, providing comprehensive assessments across key impact areas including soil health, water, biodiversity and climate.
“In an industry where profit margins are tight, growers are understandably cautious about investing in farming techniques that don't guarantee strong returns," said CEO of Agmatix, Ron Baruchi. "RegenIQ addresses this concern by focusing on efficient resource use and financial viability, helping to derisk investment decisions. It provides essential data for food and beverage companies, agronomists, and growers to evaluate the viability and potential impact of regenerative practices on their operations. From smallholder farms to large commercial operations, RegenIQ helps make fields more productive while minimising environmental impacts and ensuring a more resilient supply chain.”
According to a recent report from Weihai Daily, the local media's visit to the Xinyuan Modern Apple Planting Demonstration Base in East China's Weihai city has revealed the continuous advancement of modern technology in the city's apple industry
An orchard featured with various technologies including integrated water and fertiliser irrigation facilities, online environment monitoring systems, visual management systems and big data management centres enables staff to monitor soil temperature and humidity as well as pest and disease conditions in real-time through computers or smartphones, greatly improving the comprehensive agricultural production capacity.
The base's 80 mu of apple orchards are planted with 20 apple varieties and these apples are about to enter the peak production period, said Qu Jiashuai, the person in charge of the base adding that all apple yields per mu can reach 4,000-5,000 Kg, which comprises twice the yield of traditional orchards. Self-propelled picking platforms have also significantly improved the picking efficiency, allowing 500 Kg of apples to be picked by a single person per day.
The apple production technology and innovation centre at the orchid which was set up by the local authorities last year, not only serves as a highland of technology but also as a cradle for talent cultivation. Discussions, internships and training activities related to the apple industry have also been organised throughout the city. Moreover, experimental research has also been conducted, injecting new vitality into the high-quality development of the industry.
While sustainable food production through aquaponic systems is promising, achieving economic sustainability requires the addressing of specific technical challenges, writes Saurabh Maral
Sustainable food production through aquaponic systems is promising. Consegic Business Intelligence analyses that the aquaponics market size is growing with a CAGR of 10.8% during the forecast period (2023-2031), and is projected to be valued at US$2,151.97mn by 2031. The following are the major areas that should be carefully examined for the proper functioning of the systems and to ensure that they are profitable:
Balancing nutrient supply and demand
One of the biggest issues in aquaponics is to make the waste of fish nutrient producers in the same way as plants need it. Fish produce waste as ammonia, which is converted to nitrites and nitrates by bacteria. Besides, plants rely on these compounds to grow, though the unbalance can lead to poor nutrient use or else toxic conditions for fish. A multi-stage biofiltration system will be a successful part of the process of the plant requirements with the desired quality of biofertiliser. Both the bacteria conversion part and the phytoplankton assimilation part from plants should be framed within the biofiltration and recycling of the waste in the closed aquatic ecosystem.
Maintaining water quality
Quality of water is very critical for the well-being of both fish and plants. However, critical parameters such as pH, dissolved oxygen, and temperature should be constantly monitored to prevent any growth issues or mortality in the system. Water monitoring systems that are automated with sensors can provide data in real time and make adjustments as necessary. On the other hand, incorporating machine learning algorithms allows predictive maintenance to take place, thus, reducing the risk of system failure. Additionally, water testing on a regular basis, along with filter maintenance, also plays a huge role in maintaining smooth operation.
Energy efficiency
Aquaponic systems can require a lot of power because of water pumping, aeration, and temperature control. Eroding the profit margin through high energy bills makes energy efficiency a crucial element of sustainability. Energy-conservation equipment such as variable-speed pumps, which are quiet and can be run at different speeds, and high-efficiency aerators can significantly save energy. Besides this, companies can also contribute to absorbing energy costs by employing solar panels and optimising the system design so that water traveling distance would be minimised to lower energy consumption.
Fish and plant species selection
For the aquaponic system to be successful, it is important the appropriate fish and plants are chosen as not all of them are suitable for such kind of systems. The fish that are going to be introduced into the system need to be sturdy because sometimes water conditions can be less than ideal. Also, the plants should get their nutrients from the fish waste. Tilapia, catfish, and trout are the species of fish that are widely used for their robustness, while leafy greens and herbs like lettuces and basil are plants that are particularly recommended. Small-scale trials on different species arrangements will give the combination of plants and fish that will result in the best performance of the system.
Scaling the system economically
The project of upgrading a layer that grows in the system of aquaponics to a commercial level conduces to the augmentation of the complexity in front of high upfront costs, increased production of labour, and more complex system dynamics. The goal of achieving economies of scale without a decrease in the sustainability of the system is of utmost importance. The modular system design helps scale down the size of the farm gradually while at the same time reducing the risks and the initial investment. Automation of the main processes in the life cycle such as feeding, water circulation, and environmental control will minimise labeling work. Data-based tools for analysing the performance of the systems guarantee scalability and constant yield development.
Conclusion
To attain a profitable aquaponic model, it is imperative to deal with main difficulties like nutrient balance, water quality, energy efficiency, species selection, and system scalability. By employing innovative biofiltration systems, automation technologies, power-efficient building components, and data-centric decision support systems, managers will be able to get the most out of the system at the same time as reducing operating expenditures. By means of such approaches, aquaponics promises to be a sustainable food production method that is environmentally friendly and economically sound for the long term.
The International Aquaculture Conference 2024 held during Vietstock and Aquaculture Vietnam 2024 will be taking place from 9-11 October at the Saigon Exhibition and Convention Center (SECC) in Ho Chi Minh City, Vietnam
The aquaculture industry significantly contributes to Vietnam’s seafood production, providing nutritious food and supporting millions of livelihoods. However, the industry faces significant challenges due to climate change and environmental degradation. Although economically profitable, the traditional aquaculture model is increasingly unsustainable, owing to its contribution to global warming and ecosystem degradation. This can in turn lead to numerous factors including lower productivity, reduced product quality, and a heightened risk of disease outbreaks and resource scarcity.
In an attempt to combat these challenges and secure the sustainable growth of the aquaculture sector, the International Aquaculture Vietnam Conference, held as part of the Vietstock and Aquaculture Vietnam in October will be collaborating with experts and businesses to find solutions to the most pressing aquacultural issues.
Recognising the industry’s current state, the sixth edition of the International Aquaculture Vietnam Conference will present the theme 'Greenhouse Emission Reduction and Development of Green Economy in Aquaculture.' With support from the Vietnam Fisheries Society (VINAFIS) and the International Collaborating Centre for Aquaculture and Fisheries Sustainability (ICAFIS), attendees will have access to in-depth content and optimal solutions to improve aquaculture models and production while protecting aquatic ecosystems.
The first day of the conference will deep dive into the rich tapestry of 'Aquaculture Species diversity'. The second day will focus on the technological advancements and strategic approaches to develop aquaculture industry sustainability.
Vietstock 2024 and Aquaculture Vietnam 2024 will take place concurrently, providing a comprehensive platform for the development of the livestock and aquaculture industries. The event will bring together 400 exhibitors and 13,000 visitors from 50 countries and regions. Companies are also offered an opportunity to contribute their voice through sponsorship and by becoming speakers at the International Aquaculture Vietnam Conference.
Gridtractor, Monarch Tractor, and Borg Warner have achieved a significant milestone by successfully demonstrating Vehicle-to-Grid (V2G) capabilities utilising a Monarch MK-V tractor, a Borg Warner 60 kW DC fast charger, and Gridtractor’s cloud-based charge management system employing the Open Charge Point Protocol (OCPP)
Wierzejki, one of Poland’s largest meat manufacturers has installed a new Ishida multihead weigher, significantly improving the line throughputs
This has been achieved when packing the company’s new range of dumplings, with the investment resulting in a payback of approximately 18 months. Previously a laborious and time-consuming hand packing operation that required six people to achieve the 1.2 tonnes of dumplings to be packed every hour, the Ishida CCW-RVE-214W-1S-30-WP has considerably reduced overall losses from 5% to less that 2% per pack.
The new product weighs dumplings mainly into 400g packs but is able to handle a large variety of pack weights, including multiple weighments into the same pack for very large foodservice packs, using the 'multi-dump' mode. This gives Wierzejki the flexibility to respond quickly to market and customer demands. Equally important, the consistency of pack weights that the Ishida weigher delivers helps to enhance the consumer experience to support Wierzejki’s premium brand image.
Featuring a patented Pulse Width Modulation (PWM) technology, the Ishida RVE model provides greater control of the infeed of product at the top of the weigher and during transfer to the hoppers. By being able to automatically vary both the amplitude and duration of vibration, the vibratory feeders deliver a controlled and consistent flow of product in order to maintain speed and efficiencies while virtually eliminating overfill in the hoppers. Embossed surfaces facilitate a smooth product flow throughout the weigher. A special distribution system beneath the Ishida weigher provides a fast and efficient transfer of dumplings into the thermoforming machine.
Thanks to its intuitive touch screen operation, the Ishida multihead which is in operation for 12 hours each day requires only one operator to supervise the line, with set up and changeovers being easy to undertake. Moreover, the weigher’s modular design allows easy removal and replacement of contact parts for a fast and thorough daily clean down.
This is the second Ishida multihead weigher to be installed at Wierzejki and like the first, which Wierzejki reports has been working perfectly for over two years, the new model has proved extremely reliable. The weigher was installed by Ishida’s long term local partner in Poland, Fenix Systems, with the installation being completed in under two days. Fenix also hosted a a one-day workshop to help operators familiarise themselves with the machine, as well as providing ongoing remote technical support.
“Precision is everything in our business and this was the driving force behind our investment in the Ishida solution,” said Adam Zdanowski from Wierzejki. “Our new Ishida weigher has given us increased accuracy and efficiency, and no downtime, together with excellent service and support, all of which are delivering significant improvements to the bottom line.”