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Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization

Zinc (Zn) fertilization could be a viable approach for minimizing cadmium (Cd) accumulation in the food chain. The present study was carried out to investigate the role of various Zn fertilization treatments (control, foliar application at tasseling stage, foliar application at milky stage, rubber a...

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Autores principales: Fahad, Shah, Hussain, Saddam, Saud, Shah, Hassan, Shah, Shan, Darakh, Chen, Yutiao, Deng, Nanyan, Khan, Fahad, Wu, Chao, Wu, Wei, Shah, Farroq, Ullah, Bashir, Yousaf, Muhammad, Ali, Saqib, Huang, Jianliang
Formato: Journal Article
Lenguaje:Inglés
Publicado: Wiley 2015
Acceso en línea:https://hdl.handle.net/10568/165425
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author Fahad, Shah
Hussain, Saddam
Saud, Shah
Hassan, Shah
Shan, Darakh
Chen, Yutiao
Deng, Nanyan
Khan, Fahad
Wu, Chao
Wu, Wei
Shah, Farroq
Ullah, Bashir
Yousaf, Muhammad
Ali, Saqib
Huang, Jianliang
author_browse Ali, Saqib
Chen, Yutiao
Deng, Nanyan
Fahad, Shah
Hassan, Shah
Huang, Jianliang
Hussain, Saddam
Khan, Fahad
Saud, Shah
Shah, Farroq
Shan, Darakh
Ullah, Bashir
Wu, Chao
Wu, Wei
Yousaf, Muhammad
author_facet Fahad, Shah
Hussain, Saddam
Saud, Shah
Hassan, Shah
Shan, Darakh
Chen, Yutiao
Deng, Nanyan
Khan, Fahad
Wu, Chao
Wu, Wei
Shah, Farroq
Ullah, Bashir
Yousaf, Muhammad
Ali, Saqib
Huang, Jianliang
author_sort Fahad, Shah
collection Repository of Agricultural Research Outputs (CGSpace)
description Zinc (Zn) fertilization could be a viable approach for minimizing cadmium (Cd) accumulation in the food chain. The present study was carried out to investigate the role of various Zn fertilization treatments (control, foliar application at tasseling stage, foliar application at milky stage, rubber ash application, soil application of ZnSO4) and cultivars (Pop 2004B, Pop 2006, Azam, Sarhad (W), Pahari) on grain yield, grain Zn, and grain Cd concentrations in maize. All Zn fertilization treatments resulted in a significantly higher grain yield, higher grain Zn concentration, and reduced grain Cd concentration. The application of rubber ash remained the best among all Zn fertilization treatments as it resulted in a higher grain yield of 62% and a reduced grain Cd concentration by 57% compared to control. Contradictions were apparent between cultivars, and the cultivars which recorded a higher grain yield had a lower Zn concentration in their grains and vice versa. Regarding Cd accumulation, all cultivars except Azam, retained less Cd with increased grain Zn concentration. Future studies should focus on breeding/selection of high yielding and high quality cultivars. Furthermore, the feasibility of rubber ash maybe tested under different climatic and edaphic conditions against other heavy metals and other crops as well.
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language Inglés
publishDate 2015
publishDateRange 2015
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publisherStr Wiley
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spelling CGSpace1654252026-01-06T12:03:49Z Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization Fahad, Shah Hussain, Saddam Saud, Shah Hassan, Shah Shan, Darakh Chen, Yutiao Deng, Nanyan Khan, Fahad Wu, Chao Wu, Wei Shah, Farroq Ullah, Bashir Yousaf, Muhammad Ali, Saqib Huang, Jianliang Zinc (Zn) fertilization could be a viable approach for minimizing cadmium (Cd) accumulation in the food chain. The present study was carried out to investigate the role of various Zn fertilization treatments (control, foliar application at tasseling stage, foliar application at milky stage, rubber ash application, soil application of ZnSO4) and cultivars (Pop 2004B, Pop 2006, Azam, Sarhad (W), Pahari) on grain yield, grain Zn, and grain Cd concentrations in maize. All Zn fertilization treatments resulted in a significantly higher grain yield, higher grain Zn concentration, and reduced grain Cd concentration. The application of rubber ash remained the best among all Zn fertilization treatments as it resulted in a higher grain yield of 62% and a reduced grain Cd concentration by 57% compared to control. Contradictions were apparent between cultivars, and the cultivars which recorded a higher grain yield had a lower Zn concentration in their grains and vice versa. Regarding Cd accumulation, all cultivars except Azam, retained less Cd with increased grain Zn concentration. Future studies should focus on breeding/selection of high yielding and high quality cultivars. Furthermore, the feasibility of rubber ash maybe tested under different climatic and edaphic conditions against other heavy metals and other crops as well. 2015-10 2024-12-19T12:55:03Z 2024-12-19T12:55:03Z Journal Article https://hdl.handle.net/10568/165425 en Wiley Fahad, S.; Hussain, S.; Saud, S.; Hassan, H.; Chen, Y.; Deng, N. and Khan, F. 2015. Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization. CLEAN - Soil, Air, Water, asd
spellingShingle Fahad, Shah
Hussain, Saddam
Saud, Shah
Hassan, Shah
Shan, Darakh
Chen, Yutiao
Deng, Nanyan
Khan, Fahad
Wu, Chao
Wu, Wei
Shah, Farroq
Ullah, Bashir
Yousaf, Muhammad
Ali, Saqib
Huang, Jianliang
Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization
title Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization
title_full Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization
title_fullStr Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization
title_full_unstemmed Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization
title_short Grain Cadmium And Zinc Concentrations In Maize Influenced By Genotypic Variations And Zinc Fertilization
title_sort grain cadmium and zinc concentrations in maize influenced by genotypic variations and zinc fertilization
url https://hdl.handle.net/10568/165425
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