Leveraging Important Covariate Groups for Corn Yield Prediction

Leveraging Important Covariate Groups for Corn Yield Prediction

Accurate yield information empowers farmers to adapt, their governments to adopt timely agricultural and food policy interventions, and the markets they supply to prepare for production shifts. Unfortunately, the most representative yield data in the US, provided by the US Department of Agriculture,...

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Bibliographic Details
Published in:Agriculture (Basel) Vol. 13; no. 3; p. 618
Main Authors: Schumacher, Britta L., Burchfield, Emily K., Bean, Brennan, Yost, Matt A.
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-03-2023
Subjects:
Agricultural production
Agriculture
Climate change
Corn
Crop yield
Crop yields
data infilling
Datasets
Feature selection
Geographical distribution
Geographical locations
Machine learning
Polls & surveys
Precipitation
Predictions
random forest
Seasons
Surveys
Variables
Vegetables
yield modeling
yield prediction
United States > US
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Summary:Accurate yield information empowers farmers to adapt, their governments to adopt timely agricultural and food policy interventions, and the markets they supply to prepare for production shifts. Unfortunately, the most representative yield data in the US, provided by the US Department of Agriculture, National Agricultural Statistics Service (USDA-NASS) Surveys, are spatiotemporally patchy and inconsistent. This paper builds a more complete data product by examining the spatiotemporal efficacy of random forests (RF) in predicting county-level yields of corn—the most widely cultivated crop in the US. To meet our objective, we compare RF cross-validated prediction accuracy using several combinations of explanatory variables. We also utilize variable importance measures and partial dependence plots to compare and contextualize how key variables interact with corn yield. Results suggest that RF predicts US corn yields well using a relatively small subset of climate variables along with year and geographical location (RMSE = 17.1 bushels/acre (1.2 tons/hectare)). Of note is the insensitivity of RF prediction accuracy when removing variables traditionally thought to be predictive of yield or variables flagged as important by RF variable importance measures. Understanding what variables are needed to accurately predict corn yields provides a template for applying machine learning approaches to estimate county-level yields for other US crops.
ISSN:2077-0472
2077-0472
DOI:10.3390/agriculture13030618