Boosting carbon sequestration by using forage grass in tropical deep soil with no-tillage

Soil is a significant reservoir of carbon (C), and soil management can lead to C release or sequestration. This 15-
year study investigated the impact of intercropping on C dynamics during two growing seasons (2021/2022 and
2022/2023) of a soybean–maize succession system under long-term no-tillage. The treatments involved different
crops intercropped with maize: no intercropping (fallow); ruzigrass; sunn hemp; and sunn hemp plus ruzigrass.
Compared to no intercropping, intercropping ruzigrass enhanced C sequestration, resulting in a positive C balance (0.72 and 0.16 Mg ha− 1 in the first and second evaluated seasons, respectively) and an average increase in C
stocks (1-m depth) per growing season of ~50 Mg ha⁻¹ . Conventional soil C assessments conforming to Intergovernmental Panel on Climate Change (IPCC) standards (up to 0.3 m depth) underestimated the total C stock by
~64.9 %, revealing that these standards may not be suitable for accurately determining soil C stocks in tropical
regions, particularly in deeper soil layers. These findings highlight not only the benefits of ruzigrass intercropping, emphasizing the role of cover crops in C sequestration and climate change mitigation, but also the limitations of conventional soil C assessments.