- Biochar is a sustainable form of charcoal that can store carbon in soil
- Aston University Energy and Bioproducts Research Institute (EBRI) worked with infrastructure group Kier to add biochar to new saplings in Birmingham
- After one year, saplings that had been planted with just 5% biochar had grown 50% more than saplings planted without biochar
Tree saplings planted with biochar added to the soil grow 50% more than saplings planted without biochar, according to new research from Aston University Energy and Bioproducts Research Institute (EBRI).
Biochar is form of sustainable charcoal that is extremely stable and can store carbon in soil. It is used in horticulture to increase soil aeration, improve soil fertility, reduce nutrient leaching and reduce soil acidity. The growth of young trees is influenced by the ability to establish a strong root system within the first 12-36 months, which is affected by water availability, soil quality and protection from external damage.
Trees planted in public spaces in the UK often suffer problems establishing and need replacing, which is expensive and wasteful. The researchers at EBRI worked with Kier, an infrastructure services, construction and property developments group, to see if biochar could improve the growth of young saplings planted along roads in Hall Green, Birmingham.
Biochar is produced by heating sources of carbon, such as wood and agricultural byproducts like straw, to very high temperatures in the absence of oxygen, in a process known as pyrolysis. As well as biochar, pyrolysis produces fuel gas and liquids that can be used to replace materials produced from petrochemicals such as plastics and surface coatings. At EBRI, biochar is made using PyroFlex technology, developed in association with industrial partners including FuturEnergy.
For the trial with Kier, EBRI provided biochar produced by heating pinewood pellets to 500°C. This was mixed with compost at a ratio of 5% biochar to 95% compost by volume. A total of 14 lime (Tilia x europaea) saplings were planted using the biochar compost, while a control group of six trees were planted without biochar.
After one year, the trunk diameter of the saplings which had received biochar had an average increase of 2.2cm, while the trunk diameter of the control group had increased by 1.1cm. The team found that adding biochar improves the retention of key nutrients, particularly potassium.
Tim Miller, director of engagement at EBRI, said:
“The trial proved that using biochar in urban settings can significantly increase the growth of trees in stressful environments. This not only reduces costs but also captures carbon in the soils and in the additional wood produced by accelerated grown.”
Ian Davies, general manager at Kier Infrastructure, said:
“The results of this trial show how innovative, low‑carbon approaches can strengthen the city’s infrastructure and environmental resilience; all while helping us meet our wider sustainability goals as a business.”
Visit https://bioenergy-for-business.org/wp-content/uploads/2026/03/EBRI-and-Kier-tree-planting-case-study.pdf to read the case study.
- Notes to editors
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About Aston University
For over 130 years, Aston University has been making our world a better place through education, research and innovation. Our history is intertwined with the remarkable city of Birmingham, once the heartland of the Industrial Revolution and now the thriving base for an innovation ecosystem of global significance, which Aston is co-creating.
Our vision is to be a leading university for science, technology and enterprise, measured by the positive transformational impact we achieve for our people, students, businesses and the communities we serve.
Aston focuses on high-quality, exploitable research that has an impact on society through medical breakthroughs, advancements in engineering, policy and practice in government, and the strategies and performance of business.
The University offers a range of undergraduate and postgraduate degree programmes, as well as continuing professional development solutions.
Thanks to its focus on delivering excellent outcomes for students, Aston University's reputation continues to grow. It was recognised as the Daily Mail University of the Year for Student Success 2025, is second in England for social mobility (2023 HEPI Social Mobility Index), and is top 20 for graduate salaries (2024 Longitudinal Education Outcomes).
Aston University is now defining its place in the Fourth Industrial Revolution (and beyond) within a rapidly changing world.
For media inquiries in relation to this release, contact Helen Tunnicliffe, Press and Communications Manager, on (+44) 7827 090240 or email: h.tunnicliffe@aston.ac.uk.
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