Wednesday, 26 November 2025
A new study led by experts at the University of Nottingham and published today in Nature uncovers how plants are fighting their way through hard soil to thrive.
The groundbreaking research, carried out in collaboration with researchers at Shanghai Jiao Tong University and the University of Copenhagen, has discovered that plants use a sophisticated mechanical strategy, one that mirrors engineering and construction design, to force their roots through compacted soil.
The hardening of soil caused by heavy machinery, livestock, or erosion is one of the biggest threats to modern agriculture. When soil becomes densely packed, plant roots struggle to grow downward. As a result, crops develop shallow root systems that cannot reach the deep reserves of water and nutrients they need to survive drought or climate stress. This problem costs global agriculture billions every year.
Led by Dr Bipin Pandey, Associate Professor in the School of Biosciences at the University of Nottingham, the team revealed that the plant hormone ethylene acts as the master regulator of this process.
“When soil becomes compacted, ethylene builds up around the root. The root senses this signal and begins to completely remodel its architecture,” said Dr Pandey.
The researchers found that ethylene switches on a gene called OsARF1, which in turn reduces cellulose production in the specific middle layer of root cells. This makes those cells thinner, softer, and more flexible,allowing them to swell and expand when the root encounters resistance. At the same time, the root reinforces its outermost cell layer, making it thicker and stronger.
“In other words, the root behaves like a perfectly designed mechanical object: the wider the structure and the stronger its outer shell, the better it can resist buckling under pressure,” Dr Pandey explained.
The combination of a soft, expandable core and a rigid outer casing transforms the root into a living biological wedge, enabling it to pry apart dense soil as it grows.
Professor Staffan Persson, senior author from the University of Copenhagen said: “It’s astonishing to see plants use mechanical strategies that mirror principles used in civil engineering, nature has solved the challenge of soil resistance in an elegant and highly optimised way.”
Beyond its scientific significance, the work has major implications for global agriculture.
Understanding this mechanism gives us a powerful blueprint for creating crops with deeper, stronger roots. If we can breed or engineer plants that use this strategy more effectively, we can develop crops that thrive in compacted soils, use water more efficiently, and withstand climate extremes.
As soil compaction intensifies worldwide due to modern farming practices and climate-driven drought, this discovery opens new pathways to building the climate-resilient crops of the future.
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More information is available from Dr Bipin Pandey in the School of Biosciences via Bipin.Pandey@nottingham.ac.uk
Notes to editors:
About the University of Nottingham
Ranked 97 in the world and 17th in the UK by the QS World University Rankings, the University of Nottingham is a founding member of Russell Group of research-intensive universities. Studying at the University of Nottingham is a life-changing experience, and we pride ourselves on unlocking the potential of our students. We have a pioneering spirit, expressed in the vision of our founder Sir Jesse Boot, which has seen us lead the way in establishing campuses in China and Malaysia - part of a globally connected network of education, research and industrial engagement.
Nottingham was crowned Sports University of the Year by The Times and Sunday Times Good University Guide 2024 – the third time it has been given the honour since 2018 – and by the Daily Mail University Guide 2024.
The university is among the best universities in the UK for the strength of our research, positioned seventh for research power in the UK according to REF 2021. The birthplace of discoveries such as MRI and ibuprofen, our innovations transform lives and tackle global problems such as sustainable food supplies, ending modern slavery, developing greener transport, and reducing reliance on fossil fuels.
The university is a major employer and industry partner - locally and globally - and our graduates are the third most targeted by the UK's top employers, according to The Graduate Market in 2024 report by High Fliers Research.
We lead the Universities for Nottingham initiative, in partnership with Nottingham Trent University, a pioneering collaboration between the city’s two world-class institutions to improve levels of prosperity, opportunity, sustainability, health and wellbeing for residents in the city and region we are proud to call home.
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