Modeling the impact of global warming on the sorghum sowing window in distinct climates in Brazil

Modeling the impact of global warming on the sorghum sowing window in distinct climates in Brazil

•Climate change may modify the grain yield, depending on sowing date.•Crop model better reproduces the observations when is forced by ECHAM time series.•The seeding of sorghum will be held later. Crop models have been used as an important tool to evaluate the agricultural response to climate conditi...

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Veröffentlicht in:European journal of agronomy 2013-11, Vol.51, p.53-64
Hauptverfasser: Grossi, Marine Cirino, Justino, Flavio, Andrade, Camilo de Lelis Teixeira, Santos, Eduardo Alvarez, Rodrigues, Rafael Avila, Costa, Luiz C.
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Sprache:eng
Schlagworte:
Agronomy. Soil science and plant productions
Biological and medical sciences
biomass production
climate
climate models
Crop models
field experimentation
Fundamental and applied biological sciences. Psychology
Global circulation models
Global warming
grain yield
leaf area
phenology
planting date
Sorghum
sowing
weather
yield components
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container_end_page 64
container_issue
container_start_page 53
container_title European journal of agronomy
container_volume 51
creator Grossi, Marine Cirino
Justino, Flavio
Andrade, Camilo de Lelis Teixeira
Santos, Eduardo Alvarez
Rodrigues, Rafael Avila
Costa, Luiz C.
description •Climate change may modify the grain yield, depending on sowing date.•Crop model better reproduces the observations when is forced by ECHAM time series.•The seeding of sorghum will be held later. Crop models have been used as an important tool to evaluate the agricultural response to climate conditions. This study aims to calibrate, and validate the CSM-CERES-Sorghum model and to investigate the vulnerability of sorghum yield for current (1982–1999) and future (2047–2064) epochs, by applying weather observations and climate outputs based on ECHAM, CCCma and GFDL models. Field experiments have been conducted in the experimental area of Janaúba and Sete Lagoas located in Minas Gerais State, Brazil. It has been found that the CSM-CERES-Sorghum model reasonably simulates crop phenology, crop biomass production, leaf area and yield components that are crucial to ensure the model reliability to reproduce in situ conditions. Comparison between the CSM-CERES-Sorghum results driven by the climate models and baseline observations shows that the ECHAM better reproduces the current observations. However, inaccurate results are found by utilizing the GFDL climate primarily due to lower precipitation values. This is found for both cities. Turning to future conditions, the simulations indicated that in Janaúba the average yields for current and future climate conditions were not statistically different, but in Sete Lagoas, there was a statistically significant increase in the sorghum productivity in the latter scenario. Moreover, it has been found that the simulations using the 52 sowing dates indicated that climate change modifies the grain yield projecting a delay in the most favorable planting date. According to the results the seeding of sorghum will very likely be held later in both cities.
doi_str_mv 10.1016/j.eja.2013.07.002
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ispartof European journal of agronomy, 2013-11, Vol.51, p.53-64
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subjects Agronomy. Soil science and plant productions
Biological and medical sciences
biomass production
climate
climate models
Crop models
field experimentation
Fundamental and applied biological sciences. Psychology
Global circulation models
Global warming
grain yield
leaf area
phenology
planting date
Sorghum
sowing
weather
yield components
title Modeling the impact of global warming on the sorghum sowing window in distinct climates in Brazil
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