By Nimrod Bar Zvi, Chief Commercial Officer, Pluri
Key takeaways:
- Prices of many top food ingredients are soaring due to widespread, growing shortages caused by climate change.
- Escalating severe weather ranging from droughts to flooding impacts the entire world, demonstrating that no corner of the world — or its key crops — is safe from climate change.
- New technologies like cell expansion, cell culturing, and fermenting ingredients from other crops are addressing the climate-related risks that threaten the global food supply.
These days, it just takes a single trip to the grocery store to see how much food prices are rising. Those rising prices are largely due to climate change and increased demand stemming from population growth, which are weighing on production and supply of key ingredients like coffee, cocoa, vanilla, potatoes, soybeans, rice, and other staples.
However, agtech is tackling this challenge head-on with new, innovative solutions designed to combat shortages while meeting increasing demand.
How climate change is putting commodity ingredients at risk
No matter where we look in the world, severe weather is destroying crops and gradually making it impossible to grow certain crops in the already-limited regions of the world where they thrive.
Coffee: Providing one-third of the global coffee supply, Brazil has been dealing with the worst drought in over 70 years. As a result, this year’s drought has sent coffee prices to the highest level in 13 years after adjusting for inflation, according to the International Coffee Organization. Farmers have also warned that their crop for next year has already been affected by this year’s drought. This trend is predicted to continue with the amount of land available for growing coffee expected to be slashed by 55% to 62% by 2050.
Cocoa: The Ivory Coast and Ghana, the two largest producers of cocoa in the world, have recently had three years of poor cocoa harvests, with a fourth expected, due to anticipated hotter, drier weather that has been threatening cocoa crops. Cocoa prices have more than doubled over the past year, repeatedly hitting record highs due to these climate-related events.
Vanilla: In Mexico, temperature changes endanger vanilla production. As a result, the vanilla planifolia plant is now subject to special protection under Mexican regulations. The Convention on International Trade in Endangered Species of Wild Flora and Fauna also lists vanilla planifolia as an endangered species.
In addition to these commodities, the World Economic Forum lists olive oil, rice, soybeans, and potatoes as crops facing the biggest impacts from climate change.
Cell-expansion technology takes on potential ingredient shortages
Several companies are working on solutions to address climate-related risks for coffee and other major food ingredients without having to break ground or use pesticides or fertilizers. Instead, key commodities are being grown in laboratories – at commercial scale – while using far fewer resources, like land, water, and electricity.
For example, ChiBotanic received a grant from the U.S. Department of Agriculture to develop its cell-cultured Vanilla 2.0 technology. Needing only the source plant’s stem cells, the cell-cultured vanilla can be grown anywhere in the world 30 times faster than plants and will produce high concentrations of vanillin alongside the many other flavor and fragrance profiles of authentic vanilla.
Additionally, Pluri has 3D cell-expansion technologies that use coffee plant leaves to produce molecularly identical ground coffee. The company’s proprietary 3D bioreactors mimic the conditions in which coffee is naturally grown, producing the same amount of coffee produced by 1,000 plants in just three weeks.
The two examples demonstrate how plant cell cultivation produces targeted compounds while minimizing the environmental impact of agriculture. Cultivating plant cells in a controlled environment uses a safer, more efficient platform to produce a range of plant metabolites.
Plant cell culturing is also possible with a virtually endless list of food ingredients. In some cases, plant cell culturing is even enabling companies to make adjustments to the cells of plants normally grown in the ground. For example, ReaGenics has been able to deploy its plant cell culture to create potato biomass with 31% protein content. Normally, potatoes contain only 2% protein by weight, so ReaGenics hopes to open a new market for a protein it claims offers major advantages over soy and pea protein.
Pluri is also collaborating with several companies to explore how its cell-expansion technology can be used to support vegetable and grain crops beyond coffee, plus their technology is proven to support the expansion of meat and fish products.
Other ways agtech is addressing ingredient shortages
Aside from cell-expansion technology, several companies are working on beanless coffee by upcycling alternative ingredients like date pits and then blending them with caffeine derived from tea, chicory root, and grapes to create a drink similar to coffee. Startup Atomo states that its product uses 94% less water and generates 93% lower carbon emissions than conventional coffee.
Companies like Spero Renewables are developing solutions for the soaring vanilla prices. The company has been working on using corn fiber to produce natural vanilla. Spero’s extracts ferulic acid from corn fiber and ferments it to make natural vanilla.
The Future of Agtech: Innovations in Sustainable Food Production
Planet A Foods is revolutionizing the way we think about chocolate with their sustainable, alternative form of chocolate that mimics the taste and texture of traditional chocolate. Their process involves fermenting plant-based ingredients to recreate the flavors and fats found in chocolate, all while decoupling the production from limited resources and exploitation. This innovative approach is projected to save 500 million tons of carbon dioxide annually.
One key aspect of this process is similar to how vanilla is made within the vanilla bean, except that Planet A Foods does it outside of the bean. By harnessing the power of fermentation technology, they are able to create a delicious and sustainable chocolate alternative that consumers can enjoy guilt-free.
On the other hand, global plant nutrition leader ICL is leading the charge in sustainable agriculture with initiatives like the Enhanced Efficiency Fertilizer Challenge. This challenge aims to enhance nutrient uptake in plants while reducing environmental impact. Additionally, ICL has partnered with Pluri to develop bioactive carrier and biostimulant products, further contributing to the advancement of sustainable agriculture.
A Brighter Future Ahead
Despite the challenges posed by climate change, there is hope on the horizon with these innovative technologies in agtech. While the number and intensity of extreme weather events are on the rise, solutions like alternative chocolate production and enhanced fertilizer efficiency offer promising paths forward.
Of course, these technologies are not a quick fix, and sustained investments are needed to ensure a stable food supply as the global population continues to grow. Collaborations and partnerships will be crucial in advancing agtech and securing the future of food production.
As we look towards a more sustainable future, it is clear that the innovations in agtech hold the key to addressing the challenges of food security and environmental sustainability. With companies like Planet A Foods and ICL paving the way, we can be optimistic about the future of agriculture and food production.
Nimrod Bar Zvi, Chief Commercial Officer at Pluri, brings a wealth of experience in global pharmaceutical markets and active ingredients to the forefront of sustainable food production. With his leadership, Pluri is poised to make a significant impact in the field of cell-based technology.
