With increasing complexity of technology and a growing population, humans need more and more metals.
A lot of these metals are critical resources, meaning that they are both of high economic importance and at supply risk [1].
We currently obtain these metals from traditional mining practices. These threaten the health of miners and leave toxic tailings behind. Additionally, building new mines puts ecologically important regions at risk.
At the same time, 40% of our planet’s lakes and rivers have been polluted by heavy metals [2]. Sources include mining practices, industry outlets and domestic waste.
Metals in the environment can cause harm to aquatic and terrestrial ecosystems and human health.
Current methods of wastewater decontamination have limited metal recovery capacity, they use hazardous chemicals in the leaching process and have low efficacy in low metal concentrations.
Recognizing these problems, we embarked on developing a biomining strategy that could decontaminate wastewater and contribute to a circular economy by recycling the metals.
We engineered bacteria to take up metals from the environment by expressing proteins with a high affinity for specific metals. Our engineered bacteria are mixed with wastewater where they bind to their target metals.
Find out more about our measurementsOur project encourages a circular economy and contributes to less metal pollution in the environment and more place for nature, by reducing the amount of mining cites needed. We highly value our sustainability collaborations as well.
Find out more about our sustainability effortsSynthetic biology will shape all of our futures, it is therefore important that everyone has the ability to learn about it. In order to have truly sustainable changes, science and industry need to be representative. We want to show that science is for everyone.
Find out more about our inclusivity actionsThis way we prevent the metals from contaminating the environment and we close the circle of metal recycling, combatting wast of valuable metals.
[1] European Comission (2023).Study on the EU’s list of Cricial Raw Materials - Final Report.
[2] Zhou, Q., Yang, N., Li, Y., Ren, B., Ding, X., Bian, H., & Yao, X. (2020). Total concentrations and sources of heavy metal pollution in global river and lake water bodies from 1972 to 2017. Global Ecology and Conservation, 22, e00925-. https://doi.org/10.1016/j.gecco.2020.e00925