Microbes can help us achieve a sustainable planet

Microbes might just be the unseen heroes of sustainability! They impact everything from food production and healthcare to waste management and renewable energy. From producing eco-friendly materials and cleaning up pollution to helping fight climate change, microbes are essential in achieving the UN's Sustainable Development Goals. Read on to learn how they help us create a greener future.

When the millennium dawned in 2000, leaders across the world established key goals to create a better and healthier world. The immediate need was to end hunger, promote health and protect the ecosystem. At the same time, it was essential to ensure that both our and future generations lived within their means.

The term “sustainability” was introduced. This concept focuses on a world in which we live well within the resources of our planet, today and tomorrow. Based on environmental, social and economic sustainability, the United Nations launched the 17 Sustainable Development Goals in 2015.

The UN Sustainable development goals 2015-2030, with microbes impacting most of them.

The idea was to combine science, society and technology to reach these goals and create a healthier planet and society. Fortunately, among the many contributors to this mission, we also have our tiny friends—microbes.

About the role of microbes in sustainability development

Microbes have existed for billions of years, making up 99% of our ecosystem. They have been breaking down waste, recycling matter and helping maintain balance on Earth long before humans arrived.

Considering that microbes and bacteria influence most of the 17 Sustainable Development Goals, scientists aim to use their superpowers for the sustainable development of our planet. So, let’s look in more detail at how microbes impact planetary sustainability:

Goal 2: Zero Hunger

Microbes are directly and indirectly involved in food production and agriculture.

Some microbes are even food themselves! Many bacteria and fungi are protein sources for both humans and animals. They are grown from agricultural and industrial waste and purified to meet food quality standards. This so-called ‘Single-cell protein‘ or microbial protein is now being explored as an eco-friendly and nutritious alternative to animal-derived protein.

Goal 3: Good Health and Well-being

While some bacteria do cause disease, many others do the exact opposite:

Faecalibacteria impact human health

Goal 6: Clean Water and Sanitation

Yes, some bacteria can contaminate water and you surely want to keep these out of your water. Yet, other microbes do the opposite:

Goal 7: Affordable and Clean Energy

One of our global challenges is to reduce our dependence on non-renewable fossil fuels for electricity and energy.

  • Bacteria come to the rescue as they produce bioelectricity from organic material, the so-called cable bacteria, conducting electrons across a few centimetres
  • Bacteria can convert renewable materials like agricultural and industrial by-products into clean liquid biofuels, offering eco-friendly alternatives to fossil-derived fuels

Goals 9 and 12: Industry, Innovation and Infrastructure & Responsible Production and Consumption

One way to protect our environment is to produce essential materials from renewable sources and recycle waste in industries – an approach called circular economy. Some microbes can degrade organic material, while others produce various chemicals and necessary materials. That is why microbes play a key role in this sustainability area.

Goal 13: Climate Action

Despite ongoing efforts, greenhouse gas emissions remain high due to human activity, leading to adverse climate change. It is expected that the global temperature will rise by 2.5°C by 2050.

Since microbes have been maintaining the carbon balance in the ecosystem for ages, they are essential players in curbing climate change. Yet microbes are adapting and changing their behaviour according to climate change. Understanding the relationship between the production and consumption of greenhouse gases by microbes and climate change can help us restore balance sooner rather than later!

Goal 14: Life Below Water

Pollution from human activities is impacting our oceans. We see that the residuals of medicines, caffeine from the coffee we consume, harmful waste from industries, plastics and heavy metals go right into the ocean.

All of this often has a negative effect on marine ecosystems. Gladly, microbes can help break down these harmful pollutants. They use toxic substances as food and convert them into less toxic by-products, water and carbon dioxide. This is called bioremediation, a process that keeps our waters and marine ecosystems clean and healthy.

Goal 15: Life on Land

All life on land needs food. We depend directly and indirectly (through animals) on plants for our everyday nutrition. Plants get their essential nutrients from soil, with microbes having a huge impact on the amount and availability of soil nutrients.

Microbes in the ecosystem work in groups to transport chemicals between the atmosphere and land, maintaining a natural balance. However, with human activity, the microbial communities are affected and disturbed. While we still don’t fully understand the extent of their role in ecosystem functioning, it is possible that supporting co-living microbial communities in the environment can help restore the ecosystem.

Goal 16: Peace, Justice and Strong Institutions

Throughout history, the growing demand for better food, resources, health and living conditions has often led human societies to compete—and sometimes even to go to war. But as we’ve seen, microbes offer solutions and services across various spheres of our needs. So microbes can even help us promote harmony and peace – one of the foundations of social sustainability.

How microbes can support achieving sustainability

We’re now beginning to understand the power of microbes in moving towards a greener planet. So next time you want to make an impact on the health of our planet, you can also include microbes in your decision-making.

You could, for example, choose products responsibly produced using bio-based processes, encouraging industries to shift to circular bioeconomy. Composting waste from your kitchen to be used as biofertiliser is a great way to use microbial superpowers on a small-scale level.

Infographic about how microbes support the UN sustainability development goals

There’s still a long way to go in terms of large-scale production and applications, but progress is underway. By recognising and harnessing the potential of microbes, we can make a difference and move a step closer towards the UN Sustainable Development Goals. The future of sustainability might just depend on microbes, their superpowers and the innovative ways we choose to work with them.

Sign up for our Newsletter to receive a free sneak preview into the BacterialWorld Colouring Book

Share #BacterialWorld

Related posts

Do you want to spread your love for bacteria?

This post speaks about

Leave a Reply

Your email address will not be published. Required fields are marked *

4 × 1 =

Explore more