The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water Stress

The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water Stress

This study aims to investigate the effect of biological inoculation with Azotobacter chrococcum and Glomus mosseae on the growth and yield of Zea mays L., the variety of Baghdad 3 under different levels of water stress. A field experiment was carried out in the fall season of 2020 in a private farm...

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Bibliographic Details
Main Authors: Tabarak Shuppar, Jawad kadhem
Format: Article
Language:Arabic
Published: University of Al-Qadisiya 2021-06-01
Series:Al-Qadisiyah Journal For Agriculture Sciences
Subjects:
maize
azotobacter chrococcum
glomus mosseae
bio-fertilizers
iron availability
Online Access:https://jouagr.qu.edu.iq/article_168290_b8c93253381a2e026bbe02cab75cc186.pdf
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spelling doaj-5ba1975e7b284be7bcc8f37b9a01d1242021-08-30T17:48:13ZaraUniversity of Al-QadisiyaAl-Qadisiyah Journal For Agriculture Sciences2077-58222618-14792021-06-01111728010.33794/qjas.2021.168290168290The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water StressTabarak Shuppar0Jawad kadhem1College of Agriculture, University of Al-Qadisiyah, IraqCollege of Agriculture, University of Al-Qadisiyah, IraqThis study aims to investigate the effect of biological inoculation with Azotobacter chrococcum and Glomus mosseae on the growth and yield of Zea mays L., the variety of Baghdad 3 under different levels of water stress. A field experiment was carried out in the fall season of 2020 in a private farm in the Diwaniyah Governorate-Afak district. According to the Randomized Complete Block Design R.C.B.D, the experiment was designed with three replications, and the treatment was distributed randomly. Three levels of irrigation were used in the experiment (I4 irrigation every four days, I7 irrigation every seven days,  I10 irrigation every ten days) and the levels of inoculation (B1 inoculation with A-chrococcum and B0 not inoculating with bacteria) and ( F1 inoculating with G-mosseae and F0 non-inoculation) and ( B1F1 interaction between fungus and bacteria). The means were compared using the L.S.D. Test at a 5% significance level. The results present that the treatments inoculated with fungi or bacteria or both, and for a seven-day irrigation period, significantly increased the values ​​of the traits (plant height, dry weight of the vegetative part, length of corn cob, protein percentage, soil content of available iron during the flowering and end of season periods). They had the highest values ​​ 358, 85.71, 25.63, 12.23, 0.5423, and 0.4873 cm plant-1, respectively, compared to the treatments (control + irrigation every ten days) as they resulted in 165, 32.87, 9.07, 6.75, 0.3133, and 0.2823 cm plant-1, respectively.https://jouagr.qu.edu.iq/article_168290_b8c93253381a2e026bbe02cab75cc186.pdfmaizeazotobacter chrococcumglomus mosseaebio-fertilizersiron availability
collection DOAJ
language Arabic
format Article
sources DOAJ
author Tabarak Shuppar
Jawad kadhem
spellingShingle Tabarak Shuppar
Jawad kadhem
The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water Stress
Al-Qadisiyah Journal For Agriculture Sciences
maize
azotobacter chrococcum
glomus mosseae
bio-fertilizers
iron availability
author_facet Tabarak Shuppar
Jawad kadhem
author_sort Tabarak Shuppar
title The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water Stress
title_short The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water Stress
title_full The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water Stress
title_fullStr The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water Stress
title_full_unstemmed The Impact of Biological Inoculation on Zea Mays L. growth, Protein Content, and Iron Availability Under Different Levels of Water Stress
title_sort impact of biological inoculation on zea mays l. growth, protein content, and iron availability under different levels of water stress
publisher University of Al-Qadisiya
series Al-Qadisiyah Journal For Agriculture Sciences
issn 2077-5822
2618-1479
publishDate 2021-06-01
description This study aims to investigate the effect of biological inoculation with Azotobacter chrococcum and Glomus mosseae on the growth and yield of Zea mays L., the variety of Baghdad 3 under different levels of water stress. A field experiment was carried out in the fall season of 2020 in a private farm in the Diwaniyah Governorate-Afak district. According to the Randomized Complete Block Design R.C.B.D, the experiment was designed with three replications, and the treatment was distributed randomly. Three levels of irrigation were used in the experiment (I4 irrigation every four days, I7 irrigation every seven days,  I10 irrigation every ten days) and the levels of inoculation (B1 inoculation with A-chrococcum and B0 not inoculating with bacteria) and ( F1 inoculating with G-mosseae and F0 non-inoculation) and ( B1F1 interaction between fungus and bacteria). The means were compared using the L.S.D. Test at a 5% significance level. The results present that the treatments inoculated with fungi or bacteria or both, and for a seven-day irrigation period, significantly increased the values ​​of the traits (plant height, dry weight of the vegetative part, length of corn cob, protein percentage, soil content of available iron during the flowering and end of season periods). They had the highest values ​​ 358, 85.71, 25.63, 12.23, 0.5423, and 0.4873 cm plant-1, respectively, compared to the treatments (control + irrigation every ten days) as they resulted in 165, 32.87, 9.07, 6.75, 0.3133, and 0.2823 cm plant-1, respectively.
topic maize
azotobacter chrococcum
glomus mosseae
bio-fertilizers
iron availability
url https://jouagr.qu.edu.iq/article_168290_b8c93253381a2e026bbe02cab75cc186.pdf
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AT tabarakshuppar impactofbiologicalinoculationonzeamayslgrowthproteincontentandironavailabilityunderdifferentlevelsofwaterstress
AT jawadkadhem impactofbiologicalinoculationonzeamayslgrowthproteincontentandironavailabilityunderdifferentlevelsofwaterstress
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