Nonlinear models in the height description of the Rhino sunflower cultivar

Anderson Chuquel Mello,Vinícius Martins,João Antônio Paraginski,Rafael Rodrigues De Souza,Antônio Carlos Vieira Pinto,Marcos Toebe,Junior Carvalho Somavilla

doi:10.1590/0103-8478cr20210213

Anderson Chuquel Mello, Vinícius Martins + Show 5 more

Open Access

https://doi.org/10.1590/0103-8478cr20210213

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Journal: Ciência Rural	Publication Date: Jan 1, 2022
Citations: 2	License type: CC BY 4.0

Affiliation: Universidade Federal de Santa Maria

Abstract

ABSTRACT: Sunflower produces achenes and oil of good quality, besides serving for production of silage, forage and biodiesel. Growth modeling allows knowing the growth pattern of the crop and optimizing the management. The research characterized the growth of the Rhino sunflower cultivar using the Logistic and Gompertz models and to make considerations regarding management based on critical points. The data used come from three uniformity trials with the Rhino confectionery sunflower cultivar carried out in the experimental area of the Federal University of Santa Maria - Campus Frederico Westphalen in the 2019/2020 agricultural harvest. In the first, second and third trials 14, 12 and 10 weekly height evaluations were performed on 10 plants, respectively. The data were adjusted for the thermal time accumulated. The parameters were estimated by ordinary least square’s method using the Gauss-Newton algorithm. The fitting quality of the models to the data was measured by the adjusted coefficient of determination, Akaike information criterion, Bayesian information criterion, and through intrinsic and parametric nonlinearity. The inflection points (IP), maximum acceleration (MAP), maximum deceleration (MDP) and asymptotic deceleration (ADP) were determined. Statistical analyses were performed with Microsoft Office Excel® and R software. The models satisfactorily described the height growth curve of sunflower, providing parameters with practical interpretations. The Logistics model has the best fitting quality, being the most suitable for characterizing the growth curve. The estimated critical points provide important information for crop management. Weeds must be controlled until the MAP. Covered fertilizer applications must be carried out between the MAP and IP range. ADP is an indicator of maturity, after reaching this point, the plants can be harvested for the production of silage without loss of volume and quality.

Highlights

Sunflower (Helianthus annuus L.) is an annual broadleaf crop belonging to the Asteraceae family, known worldwide for producing achenes and 1 oil of the highest quality (KOUTROUBAS et al, 2 2020)
About 10% of the world’s annual sunflower points, maximum acceleration and maximum production is destined for non-oil purposes, this deceleration, made use of the asymptotic deceleration demand being met by confectionery genotypes that point to describe the accumulation of fresh and dry are characterized by having greater stature of larger rye mass
The models did not deviate from the normality, homogeneity and independence assumptions, as the values of the Shapiro-Wilk, Durbin- 1

Summary

Introduction

Sunflower (Helianthus annuus L.) is an annual broadleaf crop belonging to the Asteraceae family, known worldwide for producing achenes and 1 oil of the highest quality (KOUTROUBAS et al, 2 2020). Rhino by nonlinear Logistic and Gompertz models plants is one of the most important characters for and to make considerations regarding management confectionery sunflower genotypes Gompertz model stim or greater height asymptotic 6 values (parameter a) for the third trial and the fourth 7 situation (All) using all trial, compared to the Logistic 8 model (Table 1).

Results

Conclusion