Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigation

Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigation

Scarcity of water resources in the entire country is more serious in the northern provinces like Golestan. Therefore, farmers have to use saline water or waste waters. One way to adapt to this condition is to use unconventional water such as Caspian Sea water, with lower salinity as compared with wa...

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Main Authors: Esmael Shabani, Mehdi Zakerinia, Moosa Hesam
Format: Article
Language:fas
Published: Shahid Chamran University of Ahvaz 2019-06-01
Series:علوم و مهندسی آبیاری
Subjects:
biomass
salinity
water deficit
water productivity
Online Access:http://jise.scu.ac.ir/article_14395_379dba94e6635c2d2344dc97c826059d.pdf
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spelling doaj-3e031e2616d34d21949aa241ac4844d22020-11-25T02:36:39ZfasShahid Chamran University of Ahvazعلوم و مهندسی آبیاری2588-59522588-59602019-06-01422496210.22055/jise.2017.18343.133214395Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigationEsmael Shabani0Mehdi Zakerinia1Moosa Hesam2MSc student in Irrigation and Drainage, Water Engineering Department, Gorgan University of Agriculture Sciences and Natural Resources, Gorgan, Iran.Associate Professor, Water Engineering Department, College of Water and Soil, Gorgan University of Agriculture Sciences and Natural Resources, Gorgan, Iran .Associate Professor, Water Engineering Department, College of Water and Soil, Gorgan University of Agriculture Sciences and Natural Resources, Gorgan, Iran.Scarcity of water resources in the entire country is more serious in the northern provinces like Golestan. Therefore, farmers have to use saline water or waste waters. One way to adapt to this condition is to use unconventional water such as Caspian Sea water, with lower salinity as compared with water from free seas, for common crops like soybean. Thus feasibility of using Caspian Sea water that has integrated with narrow common water and the calibration of Aquacrop model under the effect of salinity and water stress for soybean crop in Golestan province are more important. The Aquacrop model assumes a linear relationship between the biomass yield (BY) and crop transpiration one one hand and water productivity (WP) value on the other (Steduto and Albrizio, 2005). This model, as compared to other crop models, requires minimal input data and its new version 4.0 (June, 2012) has a salinity module which was used in this research to simulate the grain yield  (GY) and WP of soybean under deficit and saline water irrigation. Furthermore, the AquaCrop model has not often been tested to simulate the yield of soybean under saline conditions in the semi-arid climate of Golestan province. This study aims at evaluating the efficiency of AquaCrop model in soybean yield simulation. The results are to be used for optimizing water consumption under water and saline stress. To this end, an experiment was carried out at the research farm of Gorgan University of Agricultural Sciences and Natural Resources.http://jise.scu.ac.ir/article_14395_379dba94e6635c2d2344dc97c826059d.pdfbiomasssalinitywater deficitwater productivity
collection DOAJ
language fas
format Article
sources DOAJ
author Esmael Shabani
Mehdi Zakerinia
Moosa Hesam
spellingShingle Esmael Shabani
Mehdi Zakerinia
Moosa Hesam
Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigation
علوم و مهندسی آبیاری
biomass
salinity
water deficit
water productivity
author_facet Esmael Shabani
Mehdi Zakerinia
Moosa Hesam
author_sort Esmael Shabani
title Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigation
title_short Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigation
title_full Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigation
title_fullStr Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigation
title_full_unstemmed Evaluating the Efficacy of Aquacrop Model Performance in Simulating Soybean Yield (Williams Cultivar) in Golestan Province Under Salt Stress Caused by Caspian Sea Water and Different Levels of İrrigation
title_sort evaluating the efficacy of aquacrop model performance in simulating soybean yield (williams cultivar) in golestan province under salt stress caused by caspian sea water and different levels of i̇rrigation
publisher Shahid Chamran University of Ahvaz
series علوم و مهندسی آبیاری
issn 2588-5952
2588-5960
publishDate 2019-06-01
description Scarcity of water resources in the entire country is more serious in the northern provinces like Golestan. Therefore, farmers have to use saline water or waste waters. One way to adapt to this condition is to use unconventional water such as Caspian Sea water, with lower salinity as compared with water from free seas, for common crops like soybean. Thus feasibility of using Caspian Sea water that has integrated with narrow common water and the calibration of Aquacrop model under the effect of salinity and water stress for soybean crop in Golestan province are more important. The Aquacrop model assumes a linear relationship between the biomass yield (BY) and crop transpiration one one hand and water productivity (WP) value on the other (Steduto and Albrizio, 2005). This model, as compared to other crop models, requires minimal input data and its new version 4.0 (June, 2012) has a salinity module which was used in this research to simulate the grain yield  (GY) and WP of soybean under deficit and saline water irrigation. Furthermore, the AquaCrop model has not often been tested to simulate the yield of soybean under saline conditions in the semi-arid climate of Golestan province. This study aims at evaluating the efficiency of AquaCrop model in soybean yield simulation. The results are to be used for optimizing water consumption under water and saline stress. To this end, an experiment was carried out at the research farm of Gorgan University of Agricultural Sciences and Natural Resources.
topic biomass
salinity
water deficit
water productivity
url http://jise.scu.ac.ir/article_14395_379dba94e6635c2d2344dc97c826059d.pdf
work_keys_str_mv AT esmaelshabani evaluatingtheefficacyofaquacropmodelperformanceinsimulatingsoybeanyieldwilliamscultivaringolestanprovinceundersaltstresscausedbycaspianseawateranddifferentlevelsofirrigation
AT mehdizakerinia evaluatingtheefficacyofaquacropmodelperformanceinsimulatingsoybeanyieldwilliamscultivaringolestanprovinceundersaltstresscausedbycaspianseawateranddifferentlevelsofirrigation
AT moosahesam evaluatingtheefficacyofaquacropmodelperformanceinsimulatingsoybeanyieldwilliamscultivaringolestanprovinceundersaltstresscausedbycaspianseawateranddifferentlevelsofirrigation
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