Have you ever been curious what is happening below ground in your fields? Hi Fidelity Genetics has developed technology to track root growth in real time that is beginning to unearth the importance of root traits for plant performance. This root information is being combined with decades of experience in traditional corn breeding to provide growers with a hybrid portfolio that combines elite genetics with superior root performance.
Check out our webinar from February 19, 2021 to learn more about our company, products and philosophy.
Finistere Expands Tech Leadership and Adds Presence in Research Triangle, NC — Arama Kukutai Interviews Adrian Percy to Discuss His New Role
Industry luminary Adrian Percy, PhD, the former head of R&D for the Crop Science Division of Bayer, recently joined Finistere Ventures as Chief Technology Officer.
In his new role, he will provide strategic, technical and regulatory guidance for current portfolio companies. He will also support Finistere’s continued investment efforts, working with the team to identify and evaluate potential opportunities.
He will be joining the Boards of two Finistere-backed companies, BioLumic and Hi Fidelity Genetics, and will play a pivotal role in helping shape their ongoing research and development strategies, as well as supporting their partnership and commercialization efforts.
DURHAM, N.C., Dec. 13, 2018 (GLOBE NEWSWIRE) -- Hi Fidelity Genetics (HFG), a computational crop breeding company, announced it has closed an $8.5 million Series A round of financing co-led by agtech investment pioneers Fall Line Capital and Finistere Ventures. Gro Alliance, KdT Ventures, Prairie Crest Capital, S2G and Tom Farms also joined the round.
“In agriculture, the most consolidated point of value and technology is genetics because the only thing a farmer actually has to buy to be in business is a seed. Unfortunately, many farmers don’t have access to high-quality genetics at reasonable cost,” noted Dr. Spencer Maughan, co-founder of HFG and Finistere Ventures. “By using novel data sets and predictive data science to create the first end-to-end predictive breeding platform for crops, HFG is changing this paradigm and empowering farmers.”
In an era of low commodity prices1, climate volatility2 and decreased rates of genetic improvement3, the importance of novel sensors and plant traits is heightened. Crop breeding decisions will be increasingly made by artificial intelligence (AI) and predictive data science. HFG will use this investment to bring its breeding platform to the $50B+ global agricultural seed market4, with an initial focus on broad acre crops such as corn and cotton.
“When my team at DuPont Pioneer created the industry leading, drought tolerant AQUAmax maize hybrids, we were the first to apply genomic selection to develop commercial products. I’m excited to work with HFG to take this powerful breeding technology to the next level for the benefit of farmers,” added Dr. Mark Cooper, consulting CTO at HFG.
Working with leading farmers, HFG has developed new non-Genetically Modified (non-GM) corn hybrids that are competitive with current commercial seed. HFG’s data-driven approach has helped drive rapid improvement of its proprietary corn seed and dramatically decreased the cost of traditional breeding. With the funding, HFG will accelerate development of RootTracker™, the first scalable in-field root architecture sensor system for breeding more robust root systems, and Luther™, its end-to-end artificial intelligence (AI) breeding platform with the first prediction engine for hybrid seed creation.
“Since the early 2000s, seed corn prices have gone up 2.5x faster than corn prices, eroding the farmer’s share of farm-gate value. The ability of HFG’s technology to rapidly create outstanding corn seed and the company’s initial focus on delivering seed into the non-GM market, which has the lowest regulatory hurdles, frames a really exciting opportunity for creating value,” noted Clay Mitchell of Fall Line Capital.
“Traditional breeding methods are manual and expensive, and there has been no scalable option to breed for root traits. However, the importance of roots in confronting abiotic stress, such as drought and nutrient scarcity, is well known. HFG solves for this limitation and delivers the first cost-effective, non-destructive, in-field approach to objectively map roots from individual plants to make advanced root breeding possible,” continued Maughan. “As climate volatility and water availability make current corn seed more vulnerable to large changes in yield performance, HFG sees incredible potential to build genomes with ‘drought insurance’ via enhanced root performance.”
To help lead the R&D and commercial efforts, the company has appointed Dr. Bill Niebur as COO and president. Most recently serving as the CEO of Origin Agritech, Niebur previously led Pioneer Dupont’s efforts in China after completing a lengthy tenure as Pioneer’s global head of R&D. “I could not pass up the chance to join the dynamic HFG team and accelerate product development and commercialization. Combining the understanding of how to improve below-ground performance of plants with the predictive power of machine learning focused on heterosis within Luther™, HFG can bring novel variation and value to growers across the spectrum of agricultural environments,” remarked Dr. Niebur.
Clay Mitchell of Fall Line Capital has joined the Board of Directors as Chairman alongside Finistere’s Arama Kukutai to actively support the company’s aggressive growth and help build its farmer- and commercial-partner network.
HFG’s growing team will now be based in its new headquarters in Durham, North Carolina. The company plans to continue to expand its hardware engineering, data science and molecular teams in the year ahead.
About Hi Fidelity Genetics
Hi Fidelity Genetics (HFG) is a computational breeding company that uses novel sensors, data science and statistical genetics to create the best crop plants in the world. Its technology platform helps farmers manage yield risks by optimizing and protecting crop yield in the face of a volatile climate. Led by engineers, geneticists, data scientists and second-generation breeders who like to solve hard problems, HFG developed the RootTracker™, the only way to analyze growing roots in the field, and Luther™, an end-to-end AI breeding engine. HFG solutions have low regulatory hurdles and decrease breeding time while increasing yield stability to empower the farmer. For more information, please visit www.hifidelitygenetics.com.
About Fall Line Capital
Fall Line Capital is a private equity firm uniquely focused on investments in U.S. farmland, active management of farmland, and AgTech startups that are strategic to its land holdings. Fall Line was co-founded in 2011 by Clay Mitchell, a fifth-generation Iowa corn and soybean farmer with degrees in biomedical engineering and agronomy, and Eric O'Brien, a Silicon Valley venture capital veteran with financial services and operations experience. Fall Line seeks to address the long-term supply and demand imbalance in agricultural commodities by combining the best of precision farming techniques with agronomy and the latest in new technologies to change the fundamental productivity and value of farmland. The firm is headquartered in San Mateo, CA with regional offices across the United States. http://fall-line-capital.com
About Finistere Ventures
Finistere Ventures is a leading California-based global technology and life sciences venture capital investor focused on changing the food value chain. Co-founded by Spencer Maughan and Arama Kukutai, Finistere has USA-based offices in Palo Alto and San Diego, and international offices in Ireland and Israel. Its team has developed and invested in some of the most successful agtech companies of the last 20 years—building and backing companies worth more than $5 billion. Visit Finistere.com.
1 Dow Jones Commodity Price Index: https://us.spindices.com/indices/commodities/dow-jones-commodity-index
2 FAO: http://www.fao.org/3/a-i6030e.pdf
3 FAO: http://www.fao.org/3/a-i4695e.pdf; USDA: NASS corn yield data
4 Research & Markets Report: https://www.researchandmarkets.com/reports/4535079/seeds-market-global-industry-trends-share
Hi Fidelity Genetics has been awarded a $224,999 grant from the STTR program of the Department of Energy. This award will be used to develop better ways to measure root system architecture and rhizosphere properties, both of which are critical for agricultural efficiency. A better understanding of the root-microbe-soil interactions that characterize the rhizosphere will help reduce fertilizer, pesticide, and herbicide inputs, improve effective carbon dioxide sequestration, enhance crop production, and lead to more efficient farms with higher profitability.
The rhizosphere is difficult to measure, requiring soil samples, complex spectroscopy, and other expensive and time-consuming procedures, which limit the pace of innovation. The device developed under this proposal overcomes these challenges. Unlike other approaches, e.g. soil sampling, the device functions in the field and can monitor the rhizosphere continuously without human intervention.
Hi Fidelity Genetics is proud to receive this grant and continue work that will improve agricultural efficiency.
Hi Fidelity Genetics has successfully deployed nearly a thousand of its root sensing devices. The trial marks a major milestone in HFG's development of its RootTracker technology. Previous efforts have focused on design refinements. This is the first effort dedicated to measuring root system architecture on a scale closer to that encountered in traditional plant breeding programs. The experiment will run for an entire season with special emphasis paid to root development during the first six weeks of the plants' growth. HFG expects to gain insights into instrument accuracy, statistical power, heritability, and root heterosis.
Hi Fidelity Genetics has been awarded a $499,833 grant from the IDEAS program of the U.S. Department of Energy’s Advanced Research Projects Agency (ARPA-E). This award will be used to develop a low-cost device to measure characteristics of plant roots.
The project addresses the critical need for field crops with increased drought tolerance and improved nutrient absorption, two ways to improve agricultural energy efficiency and reduce the demand for energy intensive fertilizer production. Both of these features are directly related to the root system architecture - the shape and arrangement of roots in soil and thus can be improved by plant breeding for improved root systems.
However, accurately measuring the roots of different plants is a major challenge. Laboratory methods limit the number of plants that can be easily studied, the size to which the plants can grow, and the type of environments to which the plants are exposed. Alternatively, field-deployable methods require digging up the plant, which is labor intensive and prevents multiple measurements of the same plant. New methods to measure root system architecture in the field at different times in the growth cycle will help researchers identify which root structures lead to greater agricultural efficiency.
Hi Fidelity Genetics is proud to receive this grant and continue work that will improve agricultural energy efficiency, and solve hard problems like feeding the world.