- Author: Lauren Biron, Lawrence Berkeley National Laboratory
- Author: Pamela S Kan-Rice
UC ANR to help create database, support technology for sustainable bioproducts and biofuels
In California's Northern San Joaquin Valley, crop leftovers such as almond shells, fruit peels and orchard trimmings can potentially be converted into sustainable bioproducts and biofuels – with the right technology. The philanthropy Schmidt Sciences' Virtual Institute on Feedstocks of the Future, which supports replacing fossil feedstocks with renewable biomass sources, has awarded new funding to a group investigating how to make better use of the diverse agricultural waste in the region.
“This is an important project for California as it quantifies the diverse ‘ingredients' in the North San Joaquin Valley available to fuel the emerging biomanufacturing industry in the state,” said Gabe Youtsey, chief innovation officer for the University of California Agriculture and Natural Resources. “This foundational work will kickstart a completely new innovation bioeconomy in the Central Valley that will create new high-paying jobs for our communities and support a resilient food and agriculture industry through circular biomanufacturing.”
Circular biomanufacturing is a process that uses waste streams as raw materials to create new products.
“Circular means taking waste streams from agriculture such as almond shells or grape pomace, forest waste or food processing waste and using that material as the ‘feedstock' in a fermentation tank to create new bioproducts,” Youtsey explained.
The group, “Building the Circular Bioeconomy in the North San Joaquin Valley” or BioCircular Valley, is co-led by the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab), UC Berkeley, and BEAM Circular, with partners at UC Merced, UC Agriculture and Natural Resources, the Almond Board of California and USDA Agricultural Research Station in Albany.
“California has this incredible diversity of materials, but they aren't well understood – and this makes it difficult to know how to extract the most value out of them,” said Corinne Scown, a senior scientist at Berkeley Lab and UC Berkeley and one of the project leads. “We want to characterize them and make that information available so companies can more easily figure out which feedstock is a good match for them, and then use that agricultural residue to make everything from bio-based polymers and chemicals to sustainable materials and aviation fuels.”
One of the group's goals is to build a publicly accessible database and user-friendly map full of information about different feedstocks, the raw plant materials and biomass that can be broken down and used to make bioproducts. That includes where feedstocks are located, when they are available, how they are currently disposed of, how they perform in different bioreactors, how much sugar or lignin they contain, whether they can be processed with other feedstocks, their greenhouse gas footprint, the potential cost, and much more.
UC ANR's role is to collect data on available feedstocks from forest, agricultural and food processing byproducts, as well as municipal waste streams through sampling and observation.
“We will do this through the extensive knowledge and relationships we have with the California agriculture industry in the North San Joaquin Valley,” Youtsey said. “UC ANR will also support industry outreach as new ‘conversion' technologies are developed, to pilot them with California growers and processors.”
The project will also test ways to improve the flexibility of the conversion process, which breaks down feedstocks to prepare them to make bioproducts. Researchers will apply artificial intelligence to their lab-generated data to improve predictions of how feedstocks can be processed most efficiently or blended together. Being able to use the same technique on different (or mixed) kinds of plant matter would open up ways for companies to make bioproducts more easily.
“Our region has a fantastic combination of diverse and large-scale agricultural activities alongside manufacturing expertise, making this a great place to scale up bioeconomy innovation,” said Karen Warner, CEO of BEAM Circular. “This project will allow us to reduce barriers to using our region's abundant waste streams in more sustainable and valuable ways, so that we can create the products that people need with renewable inputs that are better for the planet.”
The project builds on ongoing efforts to establish biomanufacturing capabilities in the northern San Joaquin Valley, which includes San Joaquin, Stanislaus and Merced counties. Providing better data on how to convert the valley's millions of tons of agricultural waste into valuable products may spur biomanufacturing companies to build facilities nearby, minimizing how far the raw materials have to be moved and generating new jobs.
“This project is designed to benefit a region that has massive potential, but so far has been economically left behind, and to develop a new industry that can provide improvements in air quality, water quality and greenhouse gas emissions as well as significant opportunities in economic equity and the creation of new jobs,” said Blake Simmons, director of Berkeley Lab's Biological Systems and Engineering Division and the BioCircular Valley project lead.
“This kind of research started as basic science, and now we're bringing information and solutions to people who can use them. And the knowledge generated through this project will advance not only the ability of the NSJV to make use of its own regionally available future feedstocks, but will also accelerate the understanding of feedstocks relevant across California and across the U.S.”
The new funds for the project come from the Virtual Institute on Feedstocks of the Future, a partnership between Schmidt Sciences and the Foundation for Food & Agriculture that supports collaboration on research to transform biomass into alternative feedstocks for biomanufacturing. The award is one of five announced today, which total $47.3 million over five years. It is expected that the five teams will collaborate to share best practices and knowledge to boost the bioeconomy at the national level.
“We are grateful for Schmidt's generous support that will help deploy advanced technologies on the ground,” said Alicia Chang, interim president of Berkeley Lab Foundation. “The foundational research and expertise developed through work for the Department of Energy sets the stage for this team to apply their capabilities to bring jobs and lift the community and the economy in the Northern San Joaquin Valley.”
/h3>- Author: Anne Megaro
- Author: Sheron Violini
On May 8, the University of California hosted an emerging science and technology innovation day at the UC Center in Sacramento. The UC inventions showcased at the event were examples of how academic research translates into real-world applications that benefit Californians and the world.
Of the 25 innovations featured, UC ANR was represented by two inventions – Steam Weeder and CropManage. Innovations were displayed for legislators and staff for most of the day.
Vice President Glenda Humiston also participated in the Fireside Chat, where over lunch UC Board of Regents Chair Rich Leib and Regent Lark Park led a conversation on innovation, clean energy and biomedical discoveries.
Steam Weeder is a machine designed to inject steam into the soil, offering a safer alternative to chemical pesticides. By heating soil to a precise temperature, this device effectively eliminates pests by thermally rupturing their cell walls, protecting crops and reducing the need for hazardous chemicals. This innovative machine reduces weeds by 85% and decreases the incidence of soil-borne diseases. Steam Weeder is ideal for farmers managing row crops, vineyards and orchards, especially those facing increased costs and strict regulations for chemical fumigants. The Steam Weeder, developed by Steven Fennimore, UC Davis professor of Cooperative Extension and extension specialist for vegetable weed management, offers an effective, safe and economical solution for large-scale weed management.
CropManage is a web-based tool developed by UCCE Monterey County farm advisor Michael Cahn to help farmers manage and make informed decisions for efficient crop production. Using years of research and field studies, CropManage software integrates data from satellite imagery, water stations, soil maps and field sensors to tailor specific recommendations for irrigation and fertilization of crops. CropManage provides water and fertilizer management guidance while maximizing production efficiency.
UCCE Santa Clara County small farms advisor Aparna Gazula and grower Mark Mason participated in the event to explain to legislators and staff how CropManage helps growers save water and fertilizer.
- Author: Hanif Houston, The VINE
A series of VINE Build workshops aimed at equipping academic innovators with essential pathways to bring new inventions to market is being sponsored by The VINE, an initiative of University of California Agriculture and Natural Resources (UC ANR), in collaboration with Farmhand Ventures. These workshops are designed to empower participants with the knowledge and tools necessary to navigate the complex landscape of technology commercialization.
"These workshops represent a unique opportunity for academic innovators to gain invaluable insights into the commercialization process," said Gabe Youtsey, UC ANR chief innovation officer and founder of the VINE. "By bridging the gap between academia and industry, we aim to catalyze innovation and propel advancements in technology and agriculture so we can enjoy the benefits sooner."
The half-day sessions will explore various aspects of commercialization as a mechanism for technology transfer. Led by industry experts, the workshops will cover user-centered design principles, inclusive innovation basics, the role of commercialization in technology translation, commercialization strategies, intellectual property licensing, transitioning from academia to business, and the differences between non-dilutive and dilutive funding.
"For academics looking to make a real impact, these workshops provide an invaluable platform," said Connie Bowen, co-founder and managing partner of Farmhand Ventures. "By participating in these sessions, innovators have the opportunity to turn their great ideas into tangible products that address the big challenges facing our industry today."
People involved in applied food and agriculture research – including professors, graduate students, undergraduate students and others – are encouraged to participate.
The workshops will be held across various locations in California on the following dates:
- Fresno: May 9, 8:30 a.m. - 2 p.m., Smittcamp Alumni Center, Fresno State
- San Diego: May 23, 8:30 a.m. - 2 p.m., Salk Institute Foyer, San Diego
- Davis: May 29, 8:30 a.m. - 2 p.m Physical Sciences and Engineering Library, Conference Room, UC Davis
- Santa Cruz: Date and location to be determined.
For more information and to register for the workshops, please visit: https://bit.ly/vine-build-workshop
- Author: Hanif Houston
Researchers seek insight on emerging controlled environment agriculture trends
Greenhouse operators are encouraged to participate in the 2023 State of Controlled Environment Agriculture survey. IUNU, a technology company that specializes in AI and computer vision solutions for the agriculture industry, and the University of California Agriculture and Natural Resources are conducting the survey to gain insights on emerging trends and challenges to share with the controlled environment agriculture industry.
The survey takes approximately 25 minutes to complete. All growers using CEA – greenhouse, high tunnel or indoor – are invited to participate. All data collected is confidential and shared only as anonymous trends. No identifying information is ever shared. Growers who participate will get early access to the survey results report and will get access to an exclusive webinar to discuss the results with the authors of the report.
The fourth State of CEA Survey can be completed at https://www.surveymonkey.com/r/FVXJSY9.
The report, first released in 2016, was formerly titled “State of Indoor Farming” and managed by Artemis, which was acquired by IUNU in 2021.
This year, IUNU has expanded the survey to include the different leading segments of the controlled environment agriculture industry: greenhouse fruit and vegetable, and greenhouse ornamental production.
UC ANR's VINE agrifood technology innovation program, Global Controlled Environment Agriculture Consortium (GCEAC), and UC Davis-led AI Institute for Next Generation Food Systems (AIFS) are collaborating on the report.
“An industry-led, market-driven approach to guiding innovation priorities and investments is critical as we consider the future of indoor farming,” said Gabe Youtsey, UC ANR chief innovation officer and co-founder of The VINE. “I'm thrilled to partner with IUNU on the development of this State of CEA report with our UC innovation teams from The VINE, GCEAC and AIFS to create a robust state of CEA report that will guide our CEA open innovation priorities this year.”
Since the survey launched in 2016, more than 500 growers have participated in the survey and more than 2 million people have downloaded the report. The industry reports have become one of the most widely circulated and respected sources of industry data.
"This report is a trusted resource for the industry and we're thrilled to bring it back in an expanded capacity,” Allison Kopf, IUNU chief growth officer, said. “Over the past year, we've seen a swell of news around our industry. This report will go deeper into those stories and share data on how companies are performing, big market opportunities, and the real challenges growers are facing.”
Past CEA reports are available for download at https://artemisag.com/guides_reports.
About IUNU
Founded in 2013 and headquartered in Seattle, IUNU aims to close the loop in greenhouse autonomy and is focused on being the world's leading controlled environment specialist. IUNU's flagship platform LUNA combines software with a variety of high-definition cameras – both fixed and mobile – and environmental sensors to keep track of the minutiae of plant growth and health in indoor ag settings. LUNA's goal is to turn commercial greenhouses into precise, predictable, demand-based manufacturers that optimize yield, labor and product quality. www.IUNU.com
About The VINE by UC ANR
The VINE is California's agriculture, food and biotech innovation network powered by the University of California Agriculture and Natural Resources. We believe that the state's continued prosperity rests on creation of more productive, sustainable and equitable food systems. Every day, we harness the power of open innovation to connect entrepreneurs to a broad network of public and private sector resources to enable them to grow and scale globally, build collaborations that catalyze the development of climate-smart technology-based solutions to solve industry challenges, and grow regional capacity to support global innovation as an economic opportunity – because our future, and the nation's, depends on it.
The Global Controlled Environment Agriculture Consortium – an initiative of The VINE – seeks to build a worldwide ecosystem to bring technology to market that addresses global challenges in food, health and sustainability. GCEAC is an open innovation partnership between industry, university and government sectors in the United States and The Netherlands, led from California.
/h3>- Author: Hanif Houston, The VINE
University of California Agriculture and Natural Resources (UC ANR) has been awarded a $1 million UC Climate Action Innovation & Entrepreneurship grant for its VINE Climate Smart Agrifood Innovation Program. The VINE, a UC ANR program advancing sustainable agriculture and food innovation, will use the grant to develop new technologies and techniques that help California farmers adapt to climate change.
"Expanded programming from The VINE will improve UC ANR's overall ability to serve our mission of improving the lives of all Californians," said Glenda Humiston, UC vice president for agriculture and natural resources.
California's agricultural sector is the largest in the United States, producing over 400 crops that account for 25% of the nation's food production and 40% of its fruits, vegetables and tree nuts.
However, climate change is expected to have a significant impact on the productivity and resilience of California's working landscapes. Higher temperatures and changing precipitation patterns are projected to increase water demand for crops and create a more limited growing season that will produce lower yields in some crops. Additionally, climate change may increase weed growth and insect damage, leading to higher uses of herbicides and pesticides.
“We are thrilled to receive the UC Climate Action Innovation & Entrepreneurship Award,” said Gabe Youtsey, UC ANR's chief innovation officer. “With this grant, we will be able to support even more entrepreneurs and innovators in developing climate-resilient solutions for California's agriculture and food systems."
"Our ultimate goal is to build a bioeconomy in California's food valleys that rivals Silicon Valley in size and importance to the future U.S. economy, while also addressing urgent climate crises and advancing equity for underserved populations," Youtsey said.
The VINE Climate Smart Agrifood Innovation Program is designed to identify, commercialize, and scale science and technology breakthroughs that make food production more sustainable. The VINE team has already supported entrepreneurs in the areas of controlled environment agriculture, precision agriculture, robotics, biologicals, climate-resilient crops, livestock health, and other topics that have direct or indirect mitigating effects on climate change.
The UC Climate Action grant will enable The VINE program to expand its support for startups and entrepreneurs developing climate-resilient solutions for California's food system. The program will include the creation of a VINE Climate Solutions Seed Fund, which will provide project support for testing, trialing and demonstrating agrifood technology products or services to support commercial expansion.
The VINE Navigator Service will be expanded to provide matchmaking, mentoring, talent identification, finance connections and technical assistance to entrepreneurs from UC campuses, across California, or startups around the globe that have climate solutions in the agrifood sector.
An example of this work is farm-ng, a farm robotics start-up based in Watsonville that The VINE has been advising. With the networking opportunities facilitated by The VINE, farm-ng was able to secure 20 new customers, generating an estimated $500,000 in revenue. The VINE's involvement also enabled farm-ng to establish a professional manufacturing facility and employ local talent from disadvantaged communities.
The UC Climate Action award is part of a historic $185 million partnership between UC and the state of California to tackle the climate crisis, from developing new methods for carbon capture to creating innovative coping strategies for drought, wildfire and other impacts of a warming planet.
The VINE
The VINE program aims to create a next-generation agrifood technology bioeconomy in California's food valleys to promote sustainable economic growth, address climate crises, and advance equity for underserved regions and populations. The VINE team will work closely with local and regional partners to identify key industry-driven gaps and opportunities across the food system and provide critical support to startups and entrepreneurs developing new solutions for climate mitigation and adaptation.
For more information, please visit The VINE website: thevine.io.