Biochar was blended with NPK fertilizer and applied at the Tuv experiment in rates of 1 ton per hectare per year. Credit: Thiago Inagaki
Cover crops, plants grown to protect and enrich the soil, are known to boost soil health and help store carbon. However, the exact mechanisms behind these benefits, especially under Nordic climate conditions, have been unclear—until now.
A recently published study led by NIBIO researcher Dr. Thiago Inagaki, shows that [root grow…
Biochar was blended with NPK fertilizer and applied at the Tuv experiment in rates of 1 ton per hectare per year. Credit: Thiago Inagaki
Cover crops, plants grown to protect and enrich the soil, are known to boost soil health and help store carbon. However, the exact mechanisms behind these benefits, especially under Nordic climate conditions, have been unclear—until now.
A recently published study led by NIBIO researcher Dr. Thiago Inagaki, shows that root growth is a major driver of forming stable organic matter in soil, known as mineral-associated organic matter (MAOM). The findings are published in the journal Agriculture, Ecosystems & Environment.
“This form of carbon is less likely to break down, meaning it can persist in the soil for years, helping to fight climate change,” says Dr. Inagaki.
“Our results show that systems with more root biomass, like those with ryegrass and clover, stored significantly more mineral-associated organic matter than others.”
Building resilient soil for the future
The research was conducted during a case study at Tuv Gård in Steinkjer in central Norway, where cover crop systems have been managed for five years. Here, the researchers investigated how different cover crop mixtures, grown alongside barley, affect soil quality, nutrient cycling, carbon storage, and crop yields.
One highlight of the study was that the most effective way to build persistent soil organic matter in Norway is through practices that encourage root growth, especially with the use of cover crops like ryegrass and clover.
“While improvements in soil structure and microbial abundance were seen in more diverse mixtures, including chicory and bird’s-foot trefoil, these did not immediately translate into higher carbon storage. This suggests that some benefits may take longer to appear,” says Dr. Inagaki.
“Instead of focusing only on total carbon, we should target the formation of stable organic matter fractions through biologically intensive practices.”
An upcoming study led by NIBIO researcher Dr. Frederik Bøe in the same area shows positive interactions between root growth and microbial abundance in promoting nutrient cycling, especially phosphorus. These findings show that root growth is not only beneficial for promoting carbon storage, but also for nutrient retention.
Cover crops: No yield penalty
The study led by Dr. Thiago found that adding cover crops, even in diverse mixtures, does not reduce barley yields.
“Our research suggests that cover crops can improve soil health without sacrificing productivity,” says the researcher. “This addresses a common concern among farmers that cover crops might compete with main crops for nutrients.”
The multidisciplinary team also tested biochar, a carbon-rich soil amendment made from plant material.
“While biochar did not significantly boost soil quality or yields in our study, it did not cause any harm either. The effects of biochar on improving soil quality and crop yield at high latitudes, may be limited to specific circumstances, such as degraded or polluted soils,” says Dr. Thiago.
“As no negative effects were observed, the practice is still promising for carbon storage purposes and can become a viable economic practice for farmers in the future as the carbon credits market develops,” he adds.
Looking ahead for new discoveries
The story doesn’t end here. NIBIO’s team is continuing their work in Steinkjer as part of the ongoing AgroMixNorth project, where researchers are now taking a deeper look at the nitrogen cycle and plant development, including advanced measurements of photosynthesis activity.
Meike S. Bärmann, a master’s student from Goethe University in Frankfurt, is currently doing evaluations on plant development and soil fertility throughout the cropping season, with advice from Dr. Inagaki.
“This next phase will help unravel how cover crops and root systems optimize nutrient cycling and soil health in Nordic agriculture, with a focus on nitrogen dynamics,” says Dr. Inagaki.
“Hopefully our findings can help reframe soil management in Nordic agriculture.”
More information: Thiago M. Inagaki et al, Root development as a driver of mineral-associated organic matter formation in cover crop systems of high-latitude agriculture, Agriculture, Ecosystems & Environment (2026). DOI: 10.1016/j.agee.2025.109968
Provided by Norwegian Institute of Bioeconomy Research
Citation: Cover crops hold key to healthier soils in Norwegian agriculture (2025, November 3) retrieved 3 November 2025 from https://phys.org/news/2025-11-crops-key-healthier-soils-norwegian.html
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