BrightFarms, a leading supplier of locally grown packaged salads, recently announced that Jackie Hawkins has been promoted to director of food safety & quality. She will report directly to Josh Norbury, BrightFarms’ senior vice president of operations.

Hawkins will oversee all aspects of food safety and quality assurance as the company continues its rapid growth into new markets. Her responsibilities will include the development and execution of BrightFarms’ food-safety protocols across five facilities, as well as the coordination of customer, regulatory and third-party audits.

“Under Jackie’s leadership, BrightFarms is delivering the safest and freshest leafy greens to the nation’s largest retailers,” said Josh Norbury, senior vice president of operations. “She has built an industry-leading food safety program for the indoor production of leafy greens, and our rigorous protocols have set the standard for other companies in our space. We are fortunate to have her leadership and expertise as we continue to grow.”

Since joining BrightFarms in 2016, Hawkins contributions have been critical to the success of the company’s world-class operations team. She has designed and implemented the most comprehensive food-safety program in the indoor farming industry and maintains close working relationships with leading food-safety experts in the produce industry.

In 2018, Hawkins led the development of the Controlled Environment Agriculture (CEA) Food Safety Coalition, an independent and member-governed organization whose membership is comprised of controlled environment leafy greens growers who subject their production processes to external audit. She also led BrightFarms’ early adoption of IBM’s Food Trust platform to enhance traceability with blockchain technology.

“Food safety is a personal passion that I’ve dedicated my career to, and I couldn’t be more thrilled to step into my expanded role,” said Hawkins. “I’m thrilled that I have the opportunity to work for a company that places food safety at the centre of everything we do. I look forward to continuing to advance our leading protocols and providing our consumers with the safest, freshest and most nutritious greens on the market.”

Hawkins graduated from Oregon State University in 2016 with a B.S. in Environmental Science.

For more information about BrightFarms, visit www.brightfarms.com.

RESEARCH AND DEVELOPMENT

Led by a team of 38 scientists and another 100 R&D professionals, Sananbio is investing heavily in the science that is sustainable, local, and fresh indoor food and crop production. With deep expertise in photobiology, plant nutrition, and plant cultivation techniques, we are at the forefront of sustainable indoor agriculture.

PHOTOBIOLOGY/SPECTRAL RESEARCH

Photobiology is an evolving area of science that studies the interactions of light on living organisms. One of Sananbio’s core focuses is the optimization of lighting spectrum’s that allow plants to thrive at all stages of growth. Through the latest’s developments in LED lighting technology in conjunction with years of scientific research, Sananbio is working to understand the synergy that exists between artificial light and plants. Our unique spectra has been trialed on a multitude of cultivars and our results have shown that by optimizing the spectrum based off of the cultivar we are able to increase nutritional value, drive unique genetic expression, increase active naturally occurring chemical compounds, and shorten flowering times.

PLANT NUTRITION

Sananbio’s team of elite plant scientist’s have worked tirelessly to develop proprietary nutrient blends that support a wide array of cultivars at different life stages of growth while growing in a controlled environment setting. With so much of our food today lacking proper nutritional value, our team is working to understand the most effective way grow nutritionally dense food sustainably in a indoor vertical farm. This cutting-edge science will lead to breakthroughs in the way we grow our food, how and when it is consumed, how it is transported to ensure maximum nutritional value.

VERTICAL FARM DESIGN and SUPPORT EQUIPMENT RESEARCH

With a team of scientists, senior designers, engineers, and product developers solely dedicated to understanding building the eco-systems that support thriving vertical farms, Sananbio is positioned at the fore-front of the science of vertical farming design and plant factory operations. We are focused on providing a holistic solution that allows us to partner with our clients from the ideation phase to the execution of their indoor vertical farm. Our research has given way to various patents in areas of plant growth illumination, hydroponic cultivation equipment, and accessories/equipment for industrial plant production. Great grow technology and equipment is just one aspect that must be taken in to account when venturing in to indoor vertical farming. Know before you grow.

THE TECHNOLOGY BEHIND SANANBIO

INNOVATION AT OUR CORE

RESEARCH AND DEVELOPMENT THAT IS DRIVING INNOVATION IN LED LIGHTING

Manufacturing Capacity

Sanan Opto-electronics, a sister company of Sananbio, is the world’s largest LED chip manufacturer accounting for 20% of the global chip production capacity. Sanan Group, our parent company, has built the infrastructure that allows Sananbio to capitalize upon cutting-edge technology development while providing the production capacity to support global market adoption of our technologies in the Ag-Tech space.

Vertical Integration

The vertical integration of the Sanan Group gives Sananbio a massive competitive advantage by allowing us to control our supply chain. This insight and perspective gives us unmatched flexibility in to our production capacity, global reach, and technological know-how. The diversity of industries we support gives us the versatility to respond to rapidly evolving markets as consumer demands shift.

Research and Development

A subset of the semiconductor industry, LED technology is incredibly research and development intensive sector and Sanan Opto is a global leader in this space. With 470 PhD’s and 502 engineers from all over the world, Sanan Opto possess the largest talent pool in the world dedicated to active research into LED technology.

Today, in theory, there is enough food on the planet to feed approximately 12 billion people, but the way it is distributed around the world is inefficient and unsustainable. As food is transported across the entire globe, its shelf life or freshness tends to deteriorate considerably and a lot of food often goes to waste. Indoor growing is a step closer to a new situation – one in which it is possible to grow locally produced, fresh food all year round, regardless of the weather and external conditions. It may even enable us to change the face of the food industry.

However, this requires a different way of thinking. “Indoor growing is different from growing in a greenhouse in several ways,” says Fred Ruijgt, Market Development Indoor Growing. “In an automated, glass greenhouse you have to deal with external influences such as wind, rain, and sun. These variables need to be managed as effectively as possible, with or without additional technology. The grower is constantly working to achieve a stable climate for the crop. Indoor growing allows you to create your own optimal climate. The grower determines the growing conditions, from light level to air circulation.”

Comparing apples with oranges 
According to Fred, many investors try to compare indoor growing with traditional horticulture. “In terms of investment and profitability, it is difficult to compare them,” he says. “It’s like comparing apples with oranges. It’s important to understand the differences between traditional horticultural practices and indoor growing. You can’t simply calculate what a greenhouse yields per square meter and compare it to an indoor farm. In a greenhouse you have to consider the crop cycle and in which months you can harvest and thus what you can supply to your customers. With indoor growing you can supply all year round, creating more opportunities to reach supply agreements with customers. But you also need to invest.

Indoor growing offers some sustainability benefits because considerable savings can be made on water, nutrients and use of pesticides. But, compared to a traditional greenhouse, much more artificial lighting is required. Also, the location and local sales potential should be included in the comparison. After all, a traditional greenhouse is not even an option in some countries, whereas in the Netherlands, for example, it probably costs two to three times more to grow fresh produce in an indoor farm than it does in a greenhouse.” Another difference is that traditional horticulture has traditional sales channels such as auctions, traders and cooperatives. That’s not the case with indoor growing – it’s more important to understand and collaborate with the entire chain.

Food security and food safety
The fact that indoor growing doesn’t have traditional sales channels is precisely what makes it special. “Indoor growing is clean and pesticide-free, resulting in high-quality and plannable production. An indoor farm can also be built in urban areas, which means that there’s always fresh, locally grown produce available for consumers. The product is often shipped directly from the indoor farm to, for example, the supermarket, so the route to the consumer is shorter. Therefore, in the case of indoor growing, it is important that the facility is an integrated part of the total chain: from suppliers to customers. That keeps the route nice and short,” continues Fred.

An indoor farm can be situated anywhere in the world and in any type of climate, whereas it is often not possible to build a greenhouse in certain areas. Fred: “In Singapore, for example, no more greenhouses can be built because there’s no agricultural or horticultural land available. An indoor farm offers a solution because it can be set up inside an existing building. This is an efficient alternative and it greatly reduces the dependence on food imports.”

Down to the consumer
The technology has already been proven in a number of large-scale indoor growing projects. So why isn’t this way of growing more common? “That’s because of several factors,” explains Fred. “Right now, indoor farms are mainly being integrated into existing retail chains. In addition, the demand largely comes from areas with a high average income. The existing retail chains have a vision and they always want to deliver good-quality products, so it makes sense for them to invest in this. But what are consumers prepared to pay for a fresh head of lettuce, for example,? If consumers start to value fresh and good-quality food more, entrepreneurs will be more willing to invest in a more sustainable way of producing food.”

For more information:
Priva
www.priva.com
contact.priva@priva.nl 

Publication date: Tue 18 Aug 2020