could microbes be the answer to detoxifying scottish water sources?

03 april 2024

acid mine drainage damage pr.png

scottish researchers are discovering new ways of combatting environmental damage caused by acid mine drainage in scotland by studying bacteria which can degrade the dangerous waste products.

researchers at the university of edinburgh, scotland, are sequencing the dna of bacteria found in areas polluted by acid mine drainage. they have discovered that the bacteria not only survived but had the potential to detoxify the environment by removing polluting heavy metals.

coal mining was a major industry in scotland until the last deep mine closed in 2002. and while scotland has effectively banned coal mining due to environmental concerns, the effects of the practice continue to damage scotland’s world-renowned landscapes.

acid mine drainage occurs in areas where metal-containing wastes from mining are exposed to air and water, creating a hazardous acidic environment. areas polluted by acid mine drainage are nearly 100 times more acidic than naturally occurring acidic areas, like peat bogs, which means they are extreme environments where it is nearly impossible for other life forms to survive.

the waste from mining is not only dangerous for the surrounding environment but is also hazardous due to the leakage and spread of mobile heavy metals. heavy metals are dangerous pollutants; if heavy metals leach into drinking water and are consumed in high quantities they can cause liver, kidney and intestinal damage and even cancer.

even though mining puts extreme pressure on the environment, previous research has identified rarely documented populations of bacteria that have evolved to survive in the acidic conditions that mining creates. now, for the first time, researchers have discovered how microbes can degrade these dangerous heavy metals to survive and are considering how they could be used in protecting and cleaning the environment.

researchers from the university of edinburgh, scotland, were interested to find out more about these microorganisms; how they survive and whether they have any useful characteristics to exploit in biotechnology. michael mcdonald, a phd student at the university in dr andrew free’s lab said “the microbes can cope with these conditions, they’ve evolved in harsh environments, and we consider them to be extremophiles. we wanted to know what they were capable of and whether they could hold potential for exploitation and further use in biotechnology.”

michael and his colleagues began by collecting multiple samples of contaminated sediment from acid mine drainage areas 30 miles west of edinburgh. they then reassembled the genomes of bacteria present to understand more about them. they found that the bacteria didn’t just survive, their genomes showed that they had the ability to actively detoxify the environment and reduce the damage caused by heavy metals. these results show that organisms can not only survive in acidic environments but thrive and contribute to the function of the ecosystem and natural cycles.

michael hopes that the characteristics identified in the bacteria by this research could prove even more useful in the future. “now we know what they are capable of doing, in the future we may be able to exploit these bacteria in a sustainable way to help the clean-up of these sites.” more research needs to take place, but researchers hope that as the bacteria are native to the site and can cope with the acidic conditions, they could be used in environmental recovery to protect scottish water sources.


notes for editors:

michael mcdonald will present his data at this year's 英格兰vs美国谁会赢? annual conference which will take place from monday 8 april–thursday 11 april 2024 at edinburgh international convention centre. his talk “microbial life in acid mine drainage: detection of novel functions through metagenomics” will take place on wednesday 10 april at 16:45.

about the 英格兰vs美国谁会赢?

the 英格兰vs美国谁会赢? is a 2022世界杯对阵分析 charity for scientists interested in microbes, their effects and their practical uses. it has a worldwide 2022世界杯对阵分析 based in universities, industry, hospitals, research institutes, schools, and other organisations. find out more at www.banhxebo.com.

for further information please contact [email protected]

about the university of edinburgh

founded in 1583, the university of edinburgh is a global leader of academic excellence. the university is one of the oldest academic intuitions in the united kingdom, and the largest within scotland. a member of the russel group, the university has a world renounced reputation and an outstanding legacy of discovery and innovation. edinburgh provides a high quality of learning and teaching to cohorts of undergraduate and postgraduate students and has and an active community of research students and world-leading academics. the university of edinburgh is consistency ranked amongst the world’s leading institutions of higher learning and is currently ranked 22nd in the qs university world rankings for 2024.

the university’s school of biological sciences is ranked fifth in the uk, and top ranked in scotland, for the quality and breadth of its research, known as research power, by times higher education. the school of biological sciences promotes a strong emphasis on interdisciplinary research; major strategic research themes include engineering biology, biotechnology, the biology of health and disease and fundamental research into the biology of our changing world.

funding information

the phd work outlined above was completed through the east of scotland bioscience doctoral training partnership (eastbio dtp) and funded by a biotechnology and biological sciences research council (bbrsc) eastbio scholarship. eastbio is part of the bbsrc united kingdom research and innovation (ukri) group, providing training in areas of strategic relevance to uk bioscience. eastbio has been selected by the bbsrc as the largest of its 14 uk doctoral training partnerships. the eastbio partnership encompasses partner institutions along the scottish east coast, a critical region in the country which drives novel and innovative scientific and industrial research


image: michael mcdonald.