Mathematical Models of Leaf Area Index and Yield for Grapevines Grown in the Turpan Area, Xinjiang, China

Article Geography, Physical

Winter wheat leaf area index inversion by the genetic algorithms neural network model based on SAR data

Xiaoping Lu et al.

Summary: The study successfully applied a genetic algorithms neural network model to remotely sense the leaf area index (LAI) of winter wheat, achieving high accuracy and reliability.

INTERNATIONAL JOURNAL OF DIGITAL EARTH (2022)

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Article Multidisciplinary Sciences

Wheat growth monitoring and yield estimation based on remote sensing data assimilation into the SAFY crop growth model

Chunyan Ma et al.

Summary: In this study, remote sensing data assimilation was used to estimate the leaf area index, biomass, and yield in wheat. The results showed high applicability of this method in crop monitoring and yield estimation, and it provided a reference for assimilating remote sensing data into crop growth models for regional crop monitoring and yield estimation.

SCIENTIFIC REPORTS (2022)

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Article Environmental Sciences

Integrated Growth Model of Typical Crops in China with Regional Parameters

Fangliang Liu et al.

Summary: The analysis of common growth properties among crops is crucial for understanding crop growth in different regions. In this study, a comprehensive model was developed to simulate the growth of four typical crops in China: winter wheat, summer maize, rice, and cotton. The rates and characteristics of crop growth were examined using semirelative and fully relative logistic models, and a comprehensive logistic model was established. The spatial distribution of key growth indicators, such as maximum leaf area index (LAI(max)) and maximum dry-matter accumulation (DMA(max)), were analyzed for the four crops. The results showed that the fully relative logistic model better represented the essential characteristics of growth and the characteristics of the crops at each stage of growth compared to the semirelative model. The comprehensive logistic model successfully fitted the growth of all four crops. LAI(max) and DMA(max) varied greatly among the crops and showed strong regional distribution. These findings provide a novel method for quantitatively assessing crop growth, predicting yields, and planning agricultural planting at a regional scale.

WATER (2022)

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Article Agronomy

Cotton growth model under drip irrigation with film mulching: A case study of Xinjiang, China

Kang Wang et al.

Summary: The study found that GDD has a significant impact on cotton growth and can improve the accuracy of yield prediction. In the Xinjiang region under drip irrigation with film mulch, there is a relationship between cotton growth and GDD, and a growth model was established. By analyzing different management measures and environmental factors, a uniform law of cotton growth can be obtained.

AGRONOMY JOURNAL (2021)

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Review Agriculture, Multidisciplinary