Consumer education on the food safety of cultivated meat can positively impact consumer acceptance when sufficient information is provided. Additional research and efforts to increase transparent science communication on the food safety benefits of cultivated meat are needed.
To expand the technical talent pipeline, various players in the alternative protein field should reach out to scientists and engineers in relevant disciplines (e.g., biotech, biopharma, and food science) to inform them of opportunities to apply their existing expertise to this field. Efforts should target students and seasoned professionals.
To date, no robust environmental assessments have been conducted to compare alternative seafood to its conventional counterparts. An open-access, quantitative analysis of the relative environmental impacts of alternative seafood will help garner support for the industry from policymakers, nonprofit organizations, consumers, investors, foodservice outlets, and retailers.
The manufacturing capacity for rapid and cost-effective scale-up of alternative protein production is a current constraint on the growth of the industry. Repurposing and retrofitting stranded or underutilized assets such as shuttered bioethanol plants can help mitigate some of the financial hurdles and shorten the amount of time required for companies to expand production.
Many alternative protein companies are interested in exporting their products or ingredients, and this is matched by interest from businesses in many countries eager to import exciting products. But import/export is a complex endeavor with many legal, logistical, and administrative challenges. There are many opportunities for brokers, directories, legal firms, and service providers to facilitate global trade in alternative proteins, including consulting services on regulatory compliance, facilitating introductions to in-country distribution partners, and aggregating listings of government support programs and trade contacts.
Plant-based protein makerspaces would be publicly available spaces where interested members of the public could learn, experiment, and work collaboratively on projects related to plant-based proteins. They could offer access to the physical equipment necessary to conduct projects as well as technical assistance to inform them. The aim would be to encourage more interaction between the public and the alternative protein industry, thus stimulating the exploration and development of more ideas. Makerspaces may also be able to increase positive consumer perception of the technology by increasing familiarity with the relevant production processes. The logistics of the makerspace should be done in such a way to maximize democratization and inclusion of a large segment of the public.
Both the cultivated meat industry and interested members of the general public would benefit from the creation of makerspaces focused on cultivated meat. These would be publicly available spaces where community members can learn, experiment, and work collaboratively on projects related to cultivated meat. Here, they would have access to the physical equipment necessary to conduct projects as well as technical assistance to inform them. The aim of this project is to encourage more interaction between the public and the alternative protein industry, thus stimulating the exploration and development of more ideas. Makerspaces could also promote greater understanding of and openness to cultivated meat among future consumers of the product.
There is currently a lack of resources for high school students interested in alternative proteins. Students interested in entering this field would benefit from the creation of summer courses that provide motivated high school students with the theoretical background, hands on experience, and a network of peers to help foster their interest in alternative proteins. The aim of initiating such a program is to encourage students to pursue self-directed learning in this area, thus stimulating growth in the alternative protein community.
Elevating the visibility and credibility of the field at scientific conferences will expand the technical talent pipeline and amplify collaboration and funding efforts.
To ensure a strong talent pipeline, there is a need to launch robust university programming, ranging from certificate programs to short multi-course modules, centered around alternative protein. Full majors would include food science and other enabling sciences that help propel alternative protein food technology forward, as well as interdisciplinary coursework providing historical, economic, and philosophical context for food technology. Shorter multi-course modules and non-major certificate programs (like minors) could focus on enabling sciences, interdisciplinary background subjects, and/or business strategies for transforming our food system.