Calibration and validation of the AquaCrop model for the soybean crop grown under different levels of irrigation in the Motopiba region, Brazil

Silva, Vicente de Paulo Rodrigues da; Silva, Roberta Araújo e; Maciel, Girlene Figueiredo; Júnior, José Luiz Cabral da Silva; Souza, Ênio Pereira de; Almeida, Rafaela Silveira Rodrigues; Silva, Madson Tavares; Holanda, Romildo Morant de

doi:10.1590/0103-8478cr20161118

Cited by 16 publications

(19 citation statements)

References 12 publications

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“…These results also indicate that the model has better performance in the simulation for the condition of no water deficit throughout the soybean cultivation cycle or in only one development stage. Similar results were obtained by Silva et al (2018) when they calibrated and validated the AquaCrop model to obtain soybean yield under different irrigation depths in the geographic region of Matopiba. Table 4 presents the CO 2 concentration and soybean yield for average medium-term period (2045/2046 and 2055/2056) and long-term period (2075/2076 and 2094/2095), compared with the current scenario, projected by the models HadGEM2-ES and MIROC5 under the scenarios RCP 4.5 and 8.5 in the study area.…”

Section: Resultssupporting

confidence: 77%

“…Further details of the methodological procedures of the AquaCrop model can be found in Silva et al (2018). The AquaCrop model was calibrated and validated for the MATOPIBA geographic region using as input the daily data of the elements of climate (maximum and minimum air temperatures, maximum and minimum air relative humidity, rainfall, wind speed and solar radiation), crop, soil and field management collected from two field experiments, installed in the experimental area of the Universidade Federal de Tocantins (UFT), on the campus of Palmas, Brazil.…”

Section: Methodsmentioning

confidence: 99%

“…Grain production in the Matopiba region already represents 12.8% of the total production in Brazil, with soybean as the main grain and also the one with highest profitability, where much that is produced is intended for export. According to data from Brasil (2015), soybean production has significantly increased in the four states comprising the Matopiba region, with increments of 26.4% in Bahia,23.1% in Piauí,13.5% in Maranhão and 20.2% in Tocantins,Brazil. The possible climate changes projected for the 21 st century could significantly alter agricultural production, biodiversity and water resources, because with the warming evaporation will increase and water availability will decrease as the stored water is removed from the soil, generating a greater water deficit (Silva et al, 2018). Climate change can significantly alter crop production (FAO, 2012) because it will probably be accompanied by an increase in air temperature due to the increase in the concentration of carbon dioxide (CO 2 ), directly influencing the development, growth and yield of agricultural crops (Fagundes et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

“…The capacity of the AquaCrop model (Raes et al, 2009;Steduto et al, 2009) to simulate the yield of different crops has been tested by several researchers worldwide: wheat in Siberia (Stricevic et al, 2011), cotton in the USA (Baumhardt et al, 2009), barley in Ethiopia (Araya et al, 2010); maize in Portugal (Paredes et al, 2015); soybean in Lebanon (Abi Saab et al, 2014) and in the Matopiba region, Brazil (Silva et al, 2018). In the context of the economic importance of soybean for the Matopiba region, it is imperative to conduct research studies addressing water use, taking into account the current pressure of agricultural practices on the water resources of this region through climate change scenarios.…”

Section: Introductionmentioning

confidence: 99%

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Soybean yield in the Matopiba region under climate changes

Silva

Maciel

et al. 2020

Rev. bras. eng. agríc. ambient.

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The climatic conditions along the cycle are the main factors responsible for the final production of any crop. This study aimed to evaluate the current conditions and the effects of climate change scenarios on the yield of soybean grown in the Matopiba region, located between the states of Tocantins, south and northeast of Maranhão, south of Piauí and west of Bahia, Brazil. The AquaCrop model of FAO, version 5.0, was calibrated with data of 2014 and validated with those of 2016, using climate, soil and crop management parameters collected in two experimental campaigns conducted between June and October in 2014 and 2016 in Palmas, TO, Brazil. The performance of the model was evaluated using the following statistical indicators: prediction error (PE), coefficient of determination (R2), normalized root mean square error (NRMSE), Nash-Sutcliffe model efficiency coefficient (EF) and Willmott’s index of agreement (d). It was verified that the AquaCrop model underestimates soybean grain yield under severe water stress conditions throughout the growing cycle. The increase in CO2 concentration and in the air temperature, projected by the climate models HadGEM2-ES and MIROC5 under the scenario of stabilization (RCP 4.5) and the scenario of progression (RCP 8.5), have contributed to the increase in soybean yield by the end of this century.

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Section: Resultssupporting

confidence: 77%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Soybean yield in the Matopiba region under climate changes

Silva

Maciel

et al. 2020

Rev. bras. eng. agríc. ambient.

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“…This model has been used globally for crop growth modelling for different crops under diverse agro‐ecological conditions (Rezaverdinejad et al, ; Tavakoli et al, ). The AquaCrop model is an important tool with a major focus on increasing the number of irrigated zones and water consumption (da Silva, ). Recognizing the capabilities of AquaCrop, different research studies have assessed its application for the development of irrigation approaches (Linker et al, ; Linker and Ioslovich, ; Umair et al, ; Ojeda et al, ).…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Aquacrop Model in Simulating Bitter Gourd Water Productivity Under Saline Irrigation

Soomro

Alaghmand

Shahid

et al. 2019

Irrigation and Drainage

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The agricultural sector, globally, faces multifaceted challenges to produce more with a minimum amount of water to enhance water productivity (WP). In this regard, crop modelling is an efficient approach for estimating WP and plays a significant role in addressing water management strategies. The present research has been conducted in Malir, Karachi—a semi‐arid region in the Sindh Province of Pakistan. The aim was to evaluate the effects of two different qualities of irrigation water including, fresh quality (IT1 0.56 dS m−1) and saline groundwater (IT2 2.89 dS m−1) on canopy cover (CC), biomass, crop yield and water productivity (WP) of bitter‐gourd. The AquaCrop model was used for the first time for bitter gourd in a semi‐arid region under drip irrigation. Simulations were carried out for two cropping seasons (i.e. season one (summer) and season two (winter). The modelled values were slightly higher than the measured biomass and yield values in both calibration and validation procedures. The performance of the AquaCrop model was estimated through different statistical indicators such as model efficiency (E), root mean square error (RMSE), and index of agreement (dindex). These indicators revealed that the model simulated bitter gourd biomass and crop yield well. In addition, the model's performance was good under all irrigation treatments, with RMSE in the range 1.2–3.7, 0.5–1.8, dindex 0.94–0.98 and E 0.93–0.97. The model also overestimated the biomass and crop yield. Overall, the AquaCrop model overestimated biomass and crop yield for both seasons. © 2019 John Wiley & Sons, Ltd.

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The state of the art on deficit irrigation in soybean

Morbidini,

Barrera,

Zanin

et al. 2023

Irrigation and Drainage

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Deficit irrigation (DI) could be an important strategy to achieve the goal of reducing irrigation water consumption. This review aims to identify the impact of different DI strategies on grain yield, water use efficiency (WUE) and oil and protein content in soybean seeds. A total of 25 articles were considered and then divided into DI throughout the whole cycle (standard deficit irrigation, StDI) and DI only at certain stages of the cycle (regulated deficit irrigation, RDI). In StDI, yield reductions were approximately 20% when the replacement of the crop water requirement was between 70% and 90%. For RDI, yield reductions ranging from 9% to 30% were observed depending on the phenological stage at which the crop evapotranspiration (ETc) deficit was imposed. StDI always increased WUE compared to full irrigation, whereas for RDI, the response in terms of WUE changed considering the stressed phenological stage. Few studies have reported the effects on oil and protein content, showing high variability and contrasting results. In general, the application of a reduced amount of water led to a decrease in yield and an increase in WUE, with a magnitude significantly influenced by the stage at which the stress was imposed.

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Calibration and validation of the AquaCrop model for the soybean crop grown under different levels of irrigation in the Motopiba region, Brazil

Cited by 16 publications

References 12 publications

Soybean yield in the Matopiba region under climate changes

Soybean yield in the Matopiba region under climate changes

Evaluation of Aquacrop Model in Simulating Bitter Gourd Water Productivity Under Saline Irrigation

The state of the art on deficit irrigation in soybean

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