Study finds antimicrobial resistance in soils Scotland-wide

Resistance to antibiotics has been found in the environment across Scotland, according to a new study by scientists at The James Hutton Institute in Aberdeen, the University of Strathclyde, the Institute of Urban Environment in Xiamen, China, and Newcastle University.  

The study is the first to test – at a national level – Scotland’s soils for antimicrobial resistance, where microbes like bacteria have evolved to resist antimicrobial drugs such as antibiotics, leading to superbugs like MRSA. 

The study used soils in the National Soils Archive, which was created and is managed by the Hutton and contains soils dating from 1934 to the present, enabling scientists to “go back in time” to see how prevalence of things like antimicrobial resistance have changed.

Dr Charles W. Knapp, a Reader in the Department of Civil & Environmental Engineering at the University of Strathclyde and principal investigator, says, “This has been a unique opportunity to examine the National Soil Inventory of Scotland at Hutton.

“With over 200 locations and nearly 300 genes, we better understand how environmental conditions promote antimicrobial resistance abundance and diversity. More importantly, archives, as such, present a resource that can help elucidate epidemiological patterns by examining their genetic patterns in time and space, especially how they could be influenced by human impact.”

In addition to this study, the Hutton is also looking ways antimicrobial resistance (AMR) enters the environment, including through sewage and land use.

As one of the drivers of AMR is the amount of pharmaceuticals entering the environment, the institute’s scientists are also collaborating with the Scotland One Health Breakthrough Partnership and the NHS to see whether alternatives to prescribing of other medicines that increase AMR could help to tackle this problem. This could be social prescribing, including going for a swim or talking a walk or prescribing of environmentally less harmful compounds.

Limited picture of antimicrobial resistance prevalence, until now

Until now, research into antimicrobial resistance in Scotland has focused on specific locations, giving a limited picture of its prevalence in the wider environment.

For study of the spread of AMR in Scotland, nearly 200 soil samples, collected on a 20 km grid between 2007 and 2009, as part of the National Soil Inventory of Scotland (NSIS), were tested.

The study was limited to testing what was in the soils. While it looked for correlations between land use and location and antimicrobial resistance, little was found. However, other environmental factors like metals and organic pollutants were shown to play a role in levels and diversity of antimicrobial resistance genes.

The authors also note that, since the soil can be also highly variable, it’s also hard to infer too much from a single study. It’s also still unclear of the reasons for local hot spots, leading to a need to do more research.

However, the study does point to areas where extra surveillance might be wise and highlight areas such as Aberdeenshire where there were higher numbers of antimicrobial resistance genes to beta-lactam, an antibiotic group which includes penicillin.

The study can be found in Nature journal Communications Earth & Environment here.