Litcius/Paper detail

Sweet Corn Yield Simulation Using Normalized Difference Vegetation Index and Leaf Area Index

Pavlo Lykhovyd

2020Journal of Ecological Engineering22 citationsDOIOpen Access PDF

Abstract

The authors determined the accuracy and reliability of yielding models by using the values of two differently obtained indices -the leaf area index (LAI) obtained through direct surface measurements, and the normalized difference vegetation index (NDVI) obtained through spatial remote sensing of crops. The study based on the drip-irrigated sweet corn yielded the data obtained in the field experiment held in the semi-arid climate on darkchestnut soil in the South of Ukraine. The suitability of the LAI and NDVI for the simulation of sweet corn yields was estimated by the regression analysis of the yielding data by correlation (R) and determination (R 2 ) coefficients. Additionally, mathematical models for the crop yields estimation based on the regression analysis were developed. It was determined that LAI is a more suitable index for the crop yield prediction: the R 2 value was 0.92 and 0.94 against 0.85 for the NDVI-based models.I It was determined that it is better to use the LAI values obtained at the stage of flowering, when R 2 averaged to 0.94, and the NDVI-based models does not depend on the crop stage (the R 2 was 0.85 both for the flowering and ripening stages of the plant development). The combined NDVI-LAI model showed that there is no necessity in the complication of the LAI-based model through introduction of the remotely sensed index because of insignificant improvement in the performance (R 2 was 0.94 and 0.92).

Topics & Concepts

Yield (engineering)Index (typography)Leaf area indexVegetation (pathology)Vegetation IndexEnvironmental scienceAgronomyMathematicsNormalized Difference Vegetation IndexHorticultureForestryBiologyGeographyComputer scienceMaterials scienceMetallurgyWorld Wide WebMedicinePathologyGreenhouse Technology and Climate ControlSoil and Land Suitability AnalysisRemote Sensing and Land Use