Parameterizing Biochar Effect On Climate-Smart Agriculture Using Artificial Intelligence And Land Surface Model

Presenter: Sabrina Wilson P251
Co-Author(s): Sabrina Wilson1, Sagar Gautam2, Umakant Mishra2, Yang Song1
Advisor(s): Yang Song
1Hydrology & Atmospheric Sciences


Poster PDF
Poster Session 2

Biochar addition is a potential climate-smart agriculture practice due to biochar’s capacity to sequestrate carbon, hold water, and increase nutrient availability. However, these biochar benefits to agriculture and environments still showed large uncertainty depending on the physical and chemical characterization of biochar, and diverse soil environments where biochar is applied. To date, increased model efforts have outlined long-term single characterized biochar addition to a few sites, whereas there is still a lack of clear understanding about the effect of biochar addition on soil chemical and physical processes and the consequent impact on crop productivity, greenhouse gas (GHG) emission, and carbon sequestration, much less a comprehensive upscaling impact over diverse environments.  To address this knowledge fap, we explored the heterogeneity of biochar’s effect by integrating global-scale biochar addition experiments with process-based and artificial intelligence (AI) models. We incorporated biochar decomposition dynamics into the Community Land Model (CLM5.0). We integrated a total of 359 biochar addition experiments from 69 diverse locations across the globe to train and AI-based surrogate model for parameterizing the biochar effect on the decomposition of natural soil organic matter (SOM). We then applied the coupled CLM-AI model to investigate the heterogeneity of biochar’s effect on GHG emissions and carbon sequestration. Our results indicated that the carbon benefit of biochar addition would be more obvious in nutrient-deficient soils due to increased SOM adsorption by biochar and play carbon input with improved nutrient availability due to biochar-derived nitrogen mineralization.


Go to El Dia 2024 Home Page