Ecophysiology modeling by artificial neural networks for different spacings in eucalypt

10.14295/CS.v9i3.2741

Bruno Oliveira Lafetá；Reynaldo Campos Santana；Gilciano Saraiva Nogueira；Tamires Mousslech Andrade Penido；Diego dos Santos Vieira

wood biomass ； planting density ； ecophysiology ； artificial intelligence ； prognosis

Comunicata Scientiae

9卷3期（2018 / 09 / 01）

438 - 448

英文

Growth and production models are widely used to predict yields and support forestry decisions. Artificial Neural Networks (ANN) are computational models that simulate the brain and nervous system human functions, with a memory capable of establishing mathematical relationships between independent variables to estimate the dependent variables. This work aimed to evaluate the efficiency of eucalypt biomass modeling under different spacings using Multilayer Perceptron networks, trained through the backpropagation algorithm. The experiment was installed in randomized block, and the effect of five planting spacings was studied in three blocks: T1 - 3.0 x 0.5 m; T2 - 3.0 x 1.0 m; T3 - 3.0 x 1.5 m; T4 - 3.0 x 2.0 m e T5 - 3.0 x 3.0 m. A continuous forest inventory was carried out at the ages of 48, 61, 73, 85 and 101 months. The leaf area, leaf perimeter and specific leaf area were measured at 101 months in one sample tree per experimental unit. Two thousand ANN were trained, using all inventoried trees, to estimate the eco-physiological attributes and the prognosis of the wood biomass. The artificial neural networks modeling was adequate to estimate eucalypt wood biomass, according to age and under different spacings, using the diameter-at-breast-height and leaf perimeter as predictor variables.