Yield Prediction Modeling for Sorghum–Sudangrass Hybrid Based on Climatic, Soil, and Cultivar Data in the Republic of Korea

The objective of this study was to construct a sorghum–sudangrass hybrid (SSH) yield prediction model based on climatic, soil, and cultivar information in the southern area of the Korean Peninsula. Besides, the effects of climatic factors on SSH yield were investigated simultaneously. The SSH datase...

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Published inAgriculture (Basel) Vol. 10; no. 4; p. 137
Main Authors Peng, Jinglun, Kim, Moonju, Sung, Kyungil
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.04.2020
Subjects
Agricultural production
Big Data
Cellulose
Climate change
Climate effects
climatic factors
Construction
Corn
Crop growth
Crop yield
Crops
cultivar maturity
Cultivars
Cultivation
Datasets
Dry matter
Forage crops
general linear model
Harvest
Harvesting
Livestock
Modelling
Precipitation
Prediction models
Regression analysis
Remote sensing
Schedules
Seeding
soil
Soils
Sorghum
sorghum–sudangrass hybrid
Statistical analysis
Variables
United States > US
Korean Peninsula
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Summary:The objective of this study was to construct a sorghum–sudangrass hybrid (SSH) yield prediction model based on climatic, soil, and cultivar information in the southern area of the Korean Peninsula. Besides, the effects of climatic factors on SSH yield were investigated simultaneously. The SSH dataset (n = 105), including Dry Matter Yield (DMY, kg/ha), Seeding-Harvest Accumulated Temperature (SHaAT, °C), Seeding–Harvest Accumulated Precipitation (SHAP, mm), Seeding–Harvest Sunshine Duration (SHSD, h), Soil Suitability Score (SSS), and cultivar maturity information, was developed for model construction. Subsequently, using general linear modeling method, the SSH yield prediction model was constructed as follows: DMY = 6.5SHaAT – 4.9SHAP + 13.8SHSD – 54.4SSS – 1036.4 + Maturity. The impacts of the accumulated thermal climatic variables and accumulated precipitation during crop growth on the variance of SSH yield in this region were confirmed. The summer-concentrated precipitation in the southern area of the Korean Peninsula exceeded the proper range of SSH water requirement and led to stresses to its yield production. Furthermore, to improve the data quality for high fitness model construction, the standard schedule for forage crop cultivation experiment in this region was recommended to be developed, especially under the data requirement in the context of the big data era.
ISSN:2077-0472
2077-0472
DOI:10.3390/agriculture10040137