Basso, B., T. Tadielle, N. Millar, G. P. Robertson, K. Paustian, F. Maureira, S. Albarenque, B. Baer, L. Price, P. Sharma, C. Villalobos, A. Fowler, M. Delandmeter, M. Acutis, S. Archontoulis, K. R. Covey, L. Doro, B. Dumont, P. R. Grace, G. Hoogenboom, J. W. Jones, A. Perego, A. Ruane, C. O. Stockle, and Y. Zhang. 2025. A multi model ensemble reveals net climate benefits from regenerative practices in US Midwest croplands. Scientific Reports 15:24881.

Process-based cropping systems models (CSMs) are key components of measurement, monitoring, reporting, and verification frameworks of carbon markets, but model-specific differences limit their applicability across diverse pedo-climatic conditions and agronomic practices. Multi-model ensemble (MME) provides an opportunity to better estimate changes in soil organic carbon (SOC) and nitrous oxide (N2O) emissions from agronomic practices at scale. We used an MME across 46 million hectares of US Midwest cropland at a resolution of 4-km2 to assess the aggregate ability of different regenerative practices to sequester SOC and N2O emissions compared to their counterfactual dynamic baselines. MME was validated against long-term trials and compared to its constituent CSMs, showing greater accuracy and lower uncertainty. The results show that adopting no-till combined with cover crops increased SOC stocks by 0.36 ± 0.12 Mg ha-1 yr-1, corresponding to a net regional SOC gain of 16.4 Tg C yr-1 compared to business-as-usual baselines. These benefits are halved when each management is practiced individually, and the SOC gains are only fully realized with low initial carbon stock. By including N₂O emissions, we can assess the overall climate mitigation potential, specifically, the extent to which carbon sequestration can offset direct N2O emissions. The magnitude of this potential varies depending on management practices and geographic location with net climate benefits on average ranging from 0 to 3 Mg CO2-eq ha-1 yr-1. High-resolution MME results allow for robust estimates of climate mitigation, reducing barriers to carbon market participation and supporting regenerative agriculture initiatives at scale.

DOI: 10.1038/s41598-025-08419-y

Associated Treatment Areas:

• Modeling
• Regional or Synthesis

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