CROPGRO-soybean model – Validation and application for the southern Amazon, Brazil

•The model was fitted to six soybean cultivars used in the State of Rondônia.•First-ever systematic use of soil, crop and climate data in SCRO region.•Model accurately simulates vegetative and reproductive stages, and crop yield. Agricultural models are useful tools for predicting phenology, biomass...

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Published in:Computers and electronics in agriculture 2024-01, Vol.216, p.108478, Article 108478
Main Authors: Crestani Mota, Marcelo, Antonio Candido, Luiz, Vianna Cuadra, Santiago, Antonio Marenco, Ricardo, Valéria Andreoli de Souza, Rita, Maito Tomé, Adriano, Back de Andrade Lopes, Andressa, Lopes de Lima, Francinei, Reis, Juliana, Morbeque Brizolla, Rafael
Format: Article
Language:English
Subjects:
agriculture
Amazonia
biomass
Brazil
Crop management
Crop simulation
crop yield
cultivars
electronics
Genetic coefficients
Leaf area index
model validation
phenology
prediction
Research tool
soil water content
soybeans
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Summary:•The model was fitted to six soybean cultivars used in the State of Rondônia.•First-ever systematic use of soil, crop and climate data in SCRO region.•Model accurately simulates vegetative and reproductive stages, and crop yield. Agricultural models are useful tools for predicting phenology, biomass, and crop yield under different environmental conditions during the growth period. Notwithstanding their use in the Southern Cone of Rondônia (southern Amazon, Brazil) is still limited. Thus, the objective in this work was to calibrate and validate the CROPGRO-Soybean model with soybean data collected in harvests of 2017 to 2019, being the data from the first growing period devoted to model calibration, and crop data from 2018/2019 to model validation. Six soybean cultivars were planted at the municipality of Vilhena, State of Rondônia, Brazil. The model was parameterized using climatic, hydric and physical soil properties, and growth data of the evaluated soybean cultivars. To evaluate the accuracy of model prediction we used the coefficient of determination (r2), percentage difference (Pd), root mean square error (RMSE), and Willmott’s index of agreement (d-value). The model accurately simulates the vegetative and reproductive stages, and the yields of the soybean cultivars under the climatic conditions of the Southern Cone of Rondônia. However, the CROPGRO-Soybean model tended to overestimate soil moisture content especially in upper soil layer (0.0–0.1 m depth). Taking the observed data, as the baseline, the model predicted the time to flowering, first pod, seeding, and physiological maturity, with a discrepancy of just one to seven days. In most of the soybean cultivars (five of the six cultivar evaluated), the differences between observed and simulated yields (growing cycle of 2018/2019 – validation harvest) ranged from –6 % to (underestimation) to 27 % (overestimation).
ISSN:0168-1699
1872-7107
DOI:10.1016/j.compag.2023.108478