Affiliation:
1. Yunnan Agricultural University, China
2. Dehong Prefecture Agricultural Technology Extension Centre, China
Abstract
Abstract The objective of this work was to establish and validate the dry matter distribution and yield prediction models based on physiological developmental timing, to compare the differences between the dry mass distribution index model and the dry mass distribution coefficient model, for the simulation of ear dry mass and to improve the accuracy of maize growth models for predicting yield. The experiments were conducted in three tropical sites (Longchuan, Mangshi, and Ruili) in the tropical region of Yunnan Province, China. The NRMS of ear dry mass and yield were generally less than 10. The dry mass distribution index method (NRMS = 5.44% and RMSE = 807.22 kg ha-1 for ear dry mass; and NRMS = 7.32% and RMSE = 707.67 kg ha-1 for grain yield) is better than the dry mass distribution coefficient method (NRMS = 7.52% and RMSE = 1115.31 kg ha-1 for ear dry mass; NRMS = 8.6% and RMSE = 830.76 kgha-1 for grain yield) to simulate maize ear dry mass and grain yield. The distribution index model improves the accuracy of the model, which is valuable for future maize production and management in Yunnan.
Subject
Agronomy and Crop Science,Animal Science and Zoology
Reference27 articles.
1. Performance of WOFOST model for simulating maize growth, leaf area index, biomass, grain yield, yield gap, and soil water under irrigation and rainfed conditions;AMIRI E.;Journal of Irrigation and Drainage Engineering,2022
2. Effects of improving evapotranspiration parameterization scheme on WOFOST model performance in simulating maize drought stress process;CAI F.;Journal of Applied Meteorological Science,2021
3. Simulation model of material accumulation and distribution of fresh cut tulips of different varieties;CHEN C.;Chinese Journal of Agrometeorology,2019
4. Maximizing final yield when growth is limited by time or by limiting resources;COHEN D.;Journal of Theoretical Biology,1971
5. Green bean under organic and integrated crop systems in a Mediterranean area greenhouse: effects on dry matter and nutrient-extraction distribution pattern;CONTRERAS J.I.;Communications in Soil Science and Plant Analysis,2013