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Abstract
Evaluating crop health and forecasting yields in the early stages are crucial for effective crop and market management during periods of biotic stress for both farmers and policymakers. Field experiments were conducted during 2017–18 and 2018–19 with objective to evaluate the effect of yellow rust on various biophysical parameters of 24 wheat cultivars, with varying levels of resistance to yellow rust and to develop machine learning (ML) models with improved accuracy for predicting yield by integrating thermal and RGB indices with crucial plant biophysical parameters. Results revealed that as the level of rust increased, so did the canopy temperature and there was a significant decrease in crop photosynthesis, transpiration, stomatal conductance, leaf area index, membrane stability index, relative leaf water content, and normalized difference vegetation index due to rust, and the reductions were directly correlated with levels of rust severity. The yield reduction in moderate resistant, low resistant and susceptible cultivars as compared to resistant cultivars, varied from 15.9–16.9%, 28.6–34.4% and 59–61.1%, respectively. The ML models were able to provide relatively accurate early yield estimates, with the accuracy increasing as the harvest approached. The yield prediction performance of the different ML models varied with the stage of the crop growth. Based on the validation output of different ML models, Cubist, PLS, and SpikeSlab models were found to be effective in predicting the wheat yield at an early stage (55-60 days after sowing) of crop growth. The KNN, Cubist, SLR, RF, SpikeSlab, XGB, GPR and PLS models were proved to be more useful in predicting the crop yield at the middle stage (70 days after sowing) of the crop, while RF, SpikeSlab, KNN, Cubist, ELNET, GPR, SLR, XGB and MARS models were found good to predict the crop yield at late stage (80 days after sowing). The study quantified the impact of different levels of rust severity on crop biophysical parameters and demonstrated the usefulness of remote sensing and biophysical parameters data integration using machine-learning models for early yield prediction under biotically stressed conditions.
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Details
1 ICAR-Indian Agricultural Research Institute, Division of Agricultural Physics, New Delhi, India (GRID:grid.418196.3) (ISNI:0000 0001 2172 0814); ICAR-National Institute of Abiotic Stress Management, Pune, India (GRID:grid.464970.8) (ISNI:0000 0004 1772 8233)
2 ICAR-Indian Agricultural Research Institute, Division of Agricultural Physics, New Delhi, India (GRID:grid.418196.3) (ISNI:0000 0001 2172 0814)
3 ICAR-Indian Agricultural Research Institute, Division of Plant Pathology, New Delhi, India (GRID:grid.418196.3) (ISNI:0000 0001 2172 0814)
4 ICAR-National Institute of Abiotic Stress Management, Pune, India (GRID:grid.464970.8) (ISNI:0000 0004 1772 8233)
5 ICAR-Central Coastal Agricultural Research Institute, Old Goa, India (GRID:grid.506016.4) (ISNI:0000 0004 0639 5461)