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Bioeconomy 101: Making Microbial Connections

Did you know that the tiniest parts of an ecosystem play massive roles in driving the economy? In fact, microbes are at the heart of energizing agriculture, transportation and pharmaceutical development worldwide.

This collective system—a cog in the global economic machine—is known as the bioeconomy. But what is the bioeconomy? What is the relationship between microbiology and the bioeconomy? And why is the bioeconomy relevant to One Health?

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What Is the Bioeconomy?

Capturing a single definition of the bioeconomy is challenging, . In general, bioeconomy is a facet of the global economy that uses biological resources to produce goods or services across a diverse network of industries. This encompasses a variety of fields, from food production to the development of biofuels. This often involves reusing or repurposing existing materials and products to reduce waste and minimize environmental impacts (i.e. contributing to an economy that is circular). The bioeconomy yields economic benefits by creating new jobs, advancing capital toward sustainable systems and more. Although defining the bioeconomy is complex, illustrating the importance and impact is imperative, and microbiologists—and the field of microbiology at large—will play a key role. 

What Is the Role of °®¶¹´«Ã½ in the Bioeconomy?

Microbes have many features that make them integral to the bioeconomy. In addition to being a renewable resource, they have varied metabolic capabilities and physiologic traits that can be harnessed to generate high-value, sustainable products.

Food Security

For example: fermentation is a microbial process critical to crafting dairy products like cheese and beverages, including wine and kombucha. The capabilities of not only support the overall making of fermented foods and drinks, but also prolong a product's shelf life and bolster food security in the long run.

Agricultural processes, too, benefit from microbial functions. Soil-dwelling microbes produce compounds that improve plant growth and promote the maturation of healthy crops to feed a growing population.

Biofuel Development and Electricity

Beyond food and agriculture, microbes can be employed to generate electricity. For instance, the emerging industry of bioelectrochemical systems leans on electrogenic bacteria that produce and sustain an electrical current. The production of biofuels, like biodiesel and biogas, similarly leverages the metabolic functions of microbes to power cars, heating and cooling systems, farming equipment and more.

Antimicrobial and Pharmaceutical Production

Pharmaceutical development is another microbiology-driven sector vital to global public health and economic growth. With the rising threat of antimicrobial resistance (AMR), microbiologists are using biological resources to design and test novel therapeutics that ultimately will prevent the overuse of antimicrobial drugs. This includes genetically engineering microbes to produce new antimicrobial compounds, as well as developing vaccines to combat diverse pathogens. New therapeutics will benefit patients worldwide, and, by improving .

Waste Management

Across sectors, the ability of microbes to degrade and transform pollutants and waste into useable products is groundbreaking. Reflecting circular economic practices, microbial processes continue to be relied on to reduce waste—for example, when used to help us reclaim our wastewater, remove radioactive waste and transform waste into products like bioplastics (i.e., bioremediation).

Why Is the Bioeconomy Important?

Advancing the bioeconomy is key for addressing some of the most pressing challenges of our time, like climate change and food security. Bioeconomic development eases our reliance on fossil fuels, reduces environmental pollution, informs development of drugs to improve human and animal health, promotes sustainable agricultural practices and expands the number of jobs available across diverse sectors. Ultimately, by leveraging bioeconomic processes, we can maintain and enhance the collective well-being of people, animals and the planet (i.e., support One Health)—now and in the future.

Author: Madeline Barron, Ph.D.

Madeline Barron, Ph.D., is the Science Communications Specialist at ASM. She obtained her Ph.D. from the University of Michigan in the Department of °®¶¹´«Ã½ and Immunology.

Author: Leah Potter, M.S.

Leah Potter, M.S., joined the American Society for °®¶¹´«Ã½ as the Communications Specialist in 2022. Potter earned a Bachelor of Arts degree in journalism and mass communication from The George Washington University and a Master of Science degree in health systems administration from Georgetown University.

Author: Emily Ready

Emily Ready is the Communications Program Officer at ASM. She earned her Bachelor of Arts degree in public relations from the University of South Carolina.

In This Issue

• Bioeconomy 101: Making Microbial Connections
• How the Bioeconomy Sustains People and the Planet
• Fueling the Future: How Microbes Will Power the Bioeconomy
• A Call for Microbiologists to Influence Bioeconomy Policy
• Fighting Foodborne Pathogens With Natural Antimicrobials
• Ruminant Methanogens as a Climate Change Target
• How Microbes Help Us Reclaim Our Wastewater
• Boosting Bee Health With Probiotics and Vaccines
• What’s That Smell? The Role of Microbes in the Scented World
• Are Bacteria the Next Big Thing in Fashion?