Area estimation of soybean leaves of different shapes with artificial neural networks

Area estimation of soybean leaves of different shapes with artificial neural networks

Leaf area is one of the most commonly used physiological parameters in plant growth analysis because it facilitates the interpretation of factors associated with yield. The different leaf formats related to soybean genotypes can influence the quality of the model fit for the estimation of leaf area....

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Bibliographic Details
Published in:Acta scientiarum. Agronomy Vol. 44; no. 1; p. e54787
Main Authors: Sá, Ludimila Geiciane de, Albuquerque, Carlos Juliano Brant, Valadares, Nermy Ribeiro, Brito, Orlando Gonçalves, Mota, Amara Nunes, Fernandes, Ana Clara Gonçalves, Azevedo, Alcinei Mistico
Format: Journal Article
Language:English
Published: Editora da Universidade Estadual de Maringá - EDUEM 2022
Eduem (Editora da Universidade Estadual de Maringá)
Subjects:
AGRONOMY
Glycine max; multilayer perceptrons; computational intelligence
multilayer perceptrons
computational intelligence
Glycine max
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Summary:Leaf area is one of the most commonly used physiological parameters in plant growth analysis because it facilitates the interpretation of factors associated with yield. The different leaf formats related to soybean genotypes can influence the quality of the model fit for the estimation of leaf area. Direct leaf area measurement is difficult and inaccurate, requires expensive equipment, and is labor intensive. This study developed methodologies to estimate soybean leaf area using neural networks and considering different leaf shapes. A field experiment was carried out from February to July 2017. Data were collected from thirty-six cultivars separated into three groups according to the leaf shape. Multilayer perceptrons were developed using 300 leaves per group, of which 70% were used for training and 30% for validation. The most important morphological measures were also tested with Garson’s method. The artificial neural networks were efficient in estimating the soybean leaf area, with coefficients of determination close to 0.90. The left leaflet width and right leaflet length are sufficient to estimate the leaf area. Network 4, trained with leaves from all groups, was the most general and suitable for the prediction of soybean leaf area.
ISSN:1679-9275
1807-8621
1807-8621
DOI:10.4025/actasciagron.v44i1.54787