Enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in Aridisols

BACKGROUND: Zinc (Zn) deficiency and source-dependent Zn fertilization to achieve optimum Zn levels in rice and wheat grains remain global concern for human nutrition, especially in developing countries. To-date, little is known about the effectiveness of bioactive Zn-coated urea (BAZU) to enhance t...

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Autores principales: Shah, Syed Shahid Hussain, Azhar, Muhammad, Nadeem, Faisal, Ali, Muhammad Asif, Khan, Muhammad Naeem, Ahmad, Ijaz, Khurshid, Muhammad Yasir, Hasnain, Muhammad, Ali, Zeeshan, Shaheen, Ahmad Abu Al-Ala
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2023
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9997952/
https://www.ncbi.nlm.nih.gov/pubmed/36893144
http://dx.doi.org/10.1371/journal.pone.0282615
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author Shah, Syed Shahid Hussain
Azhar, Muhammad
Nadeem, Faisal
Ali, Muhammad Asif
Khan, Muhammad Naeem
Ahmad, Ijaz
Khurshid, Muhammad Yasir
Hasnain, Muhammad
Ali, Zeeshan
Shaheen, Ahmad Abu Al-Ala
author_facet Shah, Syed Shahid Hussain
Azhar, Muhammad
Nadeem, Faisal
Ali, Muhammad Asif
Khan, Muhammad Naeem
Ahmad, Ijaz
Khurshid, Muhammad Yasir
Hasnain, Muhammad
Ali, Zeeshan
Shaheen, Ahmad Abu Al-Ala
author_sort Shah, Syed Shahid Hussain
collection PubMed
description BACKGROUND: Zinc (Zn) deficiency and source-dependent Zn fertilization to achieve optimum Zn levels in rice and wheat grains remain global concern for human nutrition, especially in developing countries. To-date, little is known about the effectiveness of bioactive Zn-coated urea (BAZU) to enhance the concentration, uptake, and recovery of Zn in relation to agronomic efficiency in paddy and wheat grains. RESULTS: Field experiments were carried out during 2020–21 on the rice-wheat system at Lahore, Faisalabad, Sahiwal, and Multan, Punjab, Pakistan using four treatments viz.T(1) (Urea 46% N @ 185 kg ha(-1) + zero Zn), T(2) (Urea 46% N @ 185 kg ha(-1) + ZnSO(4) 33% Zn @ 15 kg ha(-1)), T(3) (BAZU 42% N @ 103 kg ha(-1) + Urea 46% N @ 62 kg ha(-1) + 1% bioactive Zn @ 1.03 kg ha(-1)) and T(4) (BAZU 42% N @ 125 kg ha(-1) + Urea 46% N @ 62 kg ha(-1) + 1% bioactive Zn @ 1.25 kg ha(-1)) in quadruplicate under Randomized Complete Block Design. Paddy yield was increased by 13, 11, 12, and 11% whereas wheat grain yield was enhanced by 12, 11, 11, and 10% under T(4) at Multan, Faisalabad, Sahiwal, and Lahore, respectively, compared to T(1). Similarly, paddy Zn concentration was increased by 58, 67, 65 and 77% (32.4, 30.7, 31.1, and 34.1 mg kg(-1)) in rice whereas grain Zn concentration was increased by 90, 87, 96 and 97% (46.2, 43.9, 46.7 and 44.9 mg kg(-1)) in wheat by the application of BAZU (T(4)) at Multan, Faisalabad, Sahiwal, and Lahore, respectively, in comparison to T(1). Zinc recovery was about 9-fold and 11-fold higher in paddy and wheat grains, respectively, under BAZU (T(4)) treatment relative to T(2) while, the agronomic efficiency was enhanced up to 130% and 141% in rice and wheat respectively as compared to T(2). CONCLUSION: Thus, T(4) application at the rate of 125 kg ha(-1) could prove effective in enhancing the rice paddy and wheat grain yield along with their Zn biofortification (∼34 mg kg(-1) and ∼47 mg kg(-1), respectively) through increased agronomic and Zn recovery efficiencies, the underlying physiological and molecular mechanisms of which can be further explored in future.
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spelling pubmed-99979522023-03-10 Enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in Aridisols Shah, Syed Shahid Hussain Azhar, Muhammad Nadeem, Faisal Ali, Muhammad Asif Khan, Muhammad Naeem Ahmad, Ijaz Khurshid, Muhammad Yasir Hasnain, Muhammad Ali, Zeeshan Shaheen, Ahmad Abu Al-Ala PLoS One Research Article BACKGROUND: Zinc (Zn) deficiency and source-dependent Zn fertilization to achieve optimum Zn levels in rice and wheat grains remain global concern for human nutrition, especially in developing countries. To-date, little is known about the effectiveness of bioactive Zn-coated urea (BAZU) to enhance the concentration, uptake, and recovery of Zn in relation to agronomic efficiency in paddy and wheat grains. RESULTS: Field experiments were carried out during 2020–21 on the rice-wheat system at Lahore, Faisalabad, Sahiwal, and Multan, Punjab, Pakistan using four treatments viz.T(1) (Urea 46% N @ 185 kg ha(-1) + zero Zn), T(2) (Urea 46% N @ 185 kg ha(-1) + ZnSO(4) 33% Zn @ 15 kg ha(-1)), T(3) (BAZU 42% N @ 103 kg ha(-1) + Urea 46% N @ 62 kg ha(-1) + 1% bioactive Zn @ 1.03 kg ha(-1)) and T(4) (BAZU 42% N @ 125 kg ha(-1) + Urea 46% N @ 62 kg ha(-1) + 1% bioactive Zn @ 1.25 kg ha(-1)) in quadruplicate under Randomized Complete Block Design. Paddy yield was increased by 13, 11, 12, and 11% whereas wheat grain yield was enhanced by 12, 11, 11, and 10% under T(4) at Multan, Faisalabad, Sahiwal, and Lahore, respectively, compared to T(1). Similarly, paddy Zn concentration was increased by 58, 67, 65 and 77% (32.4, 30.7, 31.1, and 34.1 mg kg(-1)) in rice whereas grain Zn concentration was increased by 90, 87, 96 and 97% (46.2, 43.9, 46.7 and 44.9 mg kg(-1)) in wheat by the application of BAZU (T(4)) at Multan, Faisalabad, Sahiwal, and Lahore, respectively, in comparison to T(1). Zinc recovery was about 9-fold and 11-fold higher in paddy and wheat grains, respectively, under BAZU (T(4)) treatment relative to T(2) while, the agronomic efficiency was enhanced up to 130% and 141% in rice and wheat respectively as compared to T(2). CONCLUSION: Thus, T(4) application at the rate of 125 kg ha(-1) could prove effective in enhancing the rice paddy and wheat grain yield along with their Zn biofortification (∼34 mg kg(-1) and ∼47 mg kg(-1), respectively) through increased agronomic and Zn recovery efficiencies, the underlying physiological and molecular mechanisms of which can be further explored in future. Public Library of Science 2023-03-09 /pmc/articles/PMC9997952/ /pubmed/36893144 http://dx.doi.org/10.1371/journal.pone.0282615 Text en © 2023 Shah et al https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Shah, Syed Shahid Hussain
Azhar, Muhammad
Nadeem, Faisal
Ali, Muhammad Asif
Khan, Muhammad Naeem
Ahmad, Ijaz
Khurshid, Muhammad Yasir
Hasnain, Muhammad
Ali, Zeeshan
Shaheen, Ahmad Abu Al-Ala
Enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in Aridisols
title Enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in Aridisols
title_full Enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in Aridisols
title_fullStr Enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in Aridisols
title_full_unstemmed Enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in Aridisols
title_short Enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in Aridisols
title_sort enhancements in yield, agronomic, and zinc recovery efficiencies of rice-wheat system through bioactive zinc coated urea application in aridisols
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9997952/
https://www.ncbi.nlm.nih.gov/pubmed/36893144
http://dx.doi.org/10.1371/journal.pone.0282615
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