Journal article
New approach for predicting nitrification and its fraction of N2O emissions in global terrestrial ecosystems
B Pan, SK Lam, E Wang, A Mosier, D Chen
Environmental Research Letters | IOP Publishing Ltd | Published : 2021
Abstract
Nitrification is a major pathway of N2O production in aerobic soils. Measurements and model simulations of nitrification and associated N2O emission are challenging. Here we innovatively integrated data mining and machine learning to predict nitrification rate (Rnit) and the fraction of nitrification as N2O emissions (fN2ONit). Using our global database on Rnit and fN2ONit, we found that the machine-learning based stochastic gradient boosting (SGB) model outperformed three widely used process-based models in estimating Rnit and N2O emission from nitrification. We then applied the SGB technique for global prediction. The potential Rnit was driven by long-term mean annual temperature, soil C/N..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
The authors acknowledge support from Australian Research Council Linkage Project (LP160101417), Australian Government Research Training Program Scholarship, Leslie H Brunning Research Scholarship and the Australia-China Joint Research CentreHealthy Soils for Sustainable Food Production and Environmental Quality (ACSRF48165), and advice on the machine-learning technique from Usha Nattala and Geordie Zhang of the Melbourne Data Analytics Platform of the University of Melbourne.