ESTIMATION OF MAIZE GENETIC COEFFICIENTS FOR THE CERES-MAIZE MODEL USING NON-DESTRUCTIVE METHODS

Authors

DOI:

https://doi.org/10.47163/agrociencia.v57i2.2505

Keywords:

Keywords: Dynamic crop models, model parameters, leaf area index–LAI, days to anthesis, days to physiological maturity.

Abstract

The Crop Environment Resource Synthesis-Maize (CERES-Maize) mechanistic model, included in the Decision Support System for Agrotechnology Transfer (DSSAT), is a useful and powerful tool that simulates the growth and yield of maize in different environments. The qualitative and quantitative information provided to the CERES-Maize model guarantees reliability in the simulations obtained. However, it requires a lot of information such as soil characteristics, daily climate, crop characteristics and management, as well as six genetic coefficients. This research assessed a non-destructive methodology for estimating the six required parameters (genetic coefficients): P1, P2, P5, G2, G3 and PHINT, based on the maize physiology, measured from the Growing Degree Days (GDD) base 10.  An experiment was established at the experimental station of the International Maize and Wheat Improvement Center (CIMMYT) in Tlaltizapan, Morelos, Mexico, where 27 white maize hybrids and 14 yellow maize hybrids were manually sown in an irrigation conservation tillage system. Once the simulations of maize growth and yield were obtained with CERES-Maize model, the genetic coefficients were calibrated using the Generalized Likelihood Uncertainty Estimation (GLUE).  After calibration of the six genetic coefficients for all hybrids,  an average values of P1, G2 and G3 were within the typical range,  while  P2 and P5  were greater than  the typical range, and PHINT was below typical range.  However,  the simulation model showed  good performance after calibration, according to the average R2 of 0.9809 and 0.9730 between  measured and simulated yields for white and yellow hybrids respectively. The coefficients estimated in this study can be used in the CERES-Maize model to simulate maize yields in different regions of the country for the hybrids used here.

Author Biographies

José Luis Noriega Navarrete , Universidad Autónoma Chapingo

José Luis Noriega-Navarrete is an  agricultural engineer  graduated from “Universidad Nacional Autónoma de México” , completed a master's degree in horticulture and doctoral degree in Agricultural Engineering and Integrated Water Use at “Universidad Autónoma Chapingo”. Currently he works as a professor at the “Universidad para el Bienestar Benito Juárez”.

Raquel Salazar Moreno, Universidad Autónoma Chapingo

Raquel Salazar-Moreno obtain her Ph.D  in Agricultural and Biosystems Engineering at University of Arizona. Currently, she is a Professor-Researcher at the  Agricultural Mechanical Engineering Department and at the  Graduate Program in Agricultural Engineering and Integrated Water Use at the Universidad Autónoma Chapingo, in Mexico.  She is a member of the National System of Researchers of CONACYT (level I). She is doing research related to water and energy use efficiency, urban agriculture, crop modelling and  artificial neural networks applied to agricultural problems.

Juan Andrés Burgueño-Ferreira , CIMMYT

Juan Andrés Burgueño-Ferreira is an agricultural engineer  graduated from “Universidad de la República Uruguay”. He completed a master's degree and doctoral degree in Socioeconomics and Statistics Institute at Colegio de Posgraduados in Mexico. He has been working at International Maize and Wheat Improvement Center (CIMMYT) since 2011. He has multiple publications in various journals among which stand out “ Effects of conservation agriculture on physicochemical soil health in 20 maize‐based trials in different agro‐ecological regions across Mexico” , “Rapid Cycling Genomic Selection in a Multiparental Tropical Maize Population”.

Irineo López Cruz, Universidad Autónoma Chapingo

Irineo López Cruz obtain his Ph.D  in Agricultural Engineering from Wageningen University,  his master's degree in Artificial Intelligence from the Arturo Rosenblueth Foundation.  Currently, he is a Professor-Researcher at the  Agricultural Mechanical Engineering Department and at the  Graduate Program in Agricultural Engineering and Integrated Water Use at the Universidad Autónoma Chapingo, in Mexico.  He is a member of the National System of Researchers of CONACYT (level II). Member of the Mexican Academy of Sciences. Chairman of the Greenhouse Environment and climate control working group of the Horticultural Engineering commission of the International Society for Horticultural Science (ISHS).

César Daniel Petroli , CIMMYT

César Daniel Petroli  got his Ph. D at Universidad de Brasilia, in colaboration with  EMBRAPA (Agricultural Enterprise in  Brasil). Currently he is a high-throughput Genotyping Specialist at International Maize and Wheat Improvement Center (CIMMYT).

Dr. Petroli and his team have the ability to determine the genetic makeup of up to 2,500 corn samples per week, both for CIMMYT and its collaborators, and generate vast amounts of data in the process. He determined the genetic configuration of varieties and collections of corn and wheat, which  helps corn breeders to identify in DNA.

Additional Files

Published

15-03-2023

Issue

2023: Early Access 57 (2)

Section

Crop Science

License

Agrociencia is published every 45 days, in an English format, and it is edited by the Colegio de Postgraduados. Mexico-Texcoco highway Km. 36.5, Montecillo, Texcoco, Estado de México, CP 56264, Telephone (52) 5959284427. www.colpos.mx. Editor-in-Chief: Dr. Fernando Carlos Gómez Merino. Rights Reserved for Exclusive Use: 04-2021-031913431800-203, e-ISSN: 2521-9766, granted by the National Institute for Author Right.