Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case study

Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case study

The synthesis methodology, particle size and shape, dose optimization, and toxicity studies of nano-fertilizers are vital prior to their field application. This study investigates the comparative response of chemically synthesized and biologically synthesized iron oxide nanorods (NRs) using moringa...

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Main Authors: Murtaza Hasan, Saira Rafique, Ayesha Zafar, Suraj Loomba, Rida Khan, Shahbaz Gul Hassan, Muhammad Waqas Khan, Sadaf Zahra, Muhammad Zia, Ghazala Mustafa, Xugang Shu, Zahid Ihsan, Nasir Mahmood
Format: Article
Language:English
Published: Elsevier 2020-08-01
Series:Heliyon
Subjects:
Nanofertilizers
Withania coagulans
Iron nutrition
Bioinspired synthesis
Anti-oxidative stress
Agricultural science
Online Access:http://www.sciencedirect.com/science/article/pii/S2405844020314390
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spelling doaj-fe226b862b924adc9526d4612c17f75c2020-11-25T03:21:57ZengElsevierHeliyon2405-84402020-08-0168e04595Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case studyMurtaza Hasan0Saira Rafique1Ayesha Zafar2Suraj Loomba3Rida Khan4Shahbaz Gul Hassan5Muhammad Waqas Khan6Sadaf Zahra7Muhammad Zia8Ghazala Mustafa9Xugang Shu10Zahid Ihsan11Nasir Mahmood12College of Chemistry and Chemical Engineering, Zhongkai University of Agriculture and Engineering, Guangzhou 510225, China; Corresponding author.Department of Biochemistry & Biotechnology (Baghdad-ul-Jadeed Campus), The Islamia University of Bahawalpur, 63100, PakistanDepartment of Biochemistry & Biotechnology (Baghdad-ul-Jadeed Campus), The Islamia University of Bahawalpur, 63100, PakistanSchool of Engineering, RMIT University, 124 La Trobe Street, Melbourne, Victoria, 3001, AustraliaDepartment of Biochemistry & Biotechnology (Baghdad-ul-Jadeed Campus), The Islamia University of Bahawalpur, 63100, PakistanCollege of Information Science and Engineering, Zhongkai University of Agriculture and Engineering, Guangzhou 510225, ChinaSchool of Engineering, RMIT University, 124 La Trobe Street, Melbourne, Victoria, 3001, AustraliaDepartment of Botany, The Islamia University, Bahawalpur 63100, PakistanDepartment of Biotechnology, Quaid-i-Azam University, Islamabad 45320, PakistanDepartment of Plant Sciences, Quaid-i-Azam University, Islamabad 45320, PakistanCollege of Chemistry and Chemical Engineering, Zhongkai University of Agriculture and Engineering, Guangzhou 510225, China; Corresponding author.Cholistan Institute of Desert Studies (CIDS), The Islamia University of Bahawalpur, 63100, Pakistan; Corresponding author.School of Engineering, RMIT University, 124 La Trobe Street, Melbourne, Victoria, 3001, Australia; Corresponding author.The synthesis methodology, particle size and shape, dose optimization, and toxicity studies of nano-fertilizers are vital prior to their field application. This study investigates the comparative response of chemically synthesized and biologically synthesized iron oxide nanorods (NRs) using moringa olefera along with bulk FeCl3 on summer maize (Zea mays). It is found that FeCl3 salt and chemically synthesized iron oxides NRs caused growth retardation and impaired plant physiological and anti-oxidative activities at a concentration higher than 25 mg/L due to toxicity by over accumulation. While iron released form biologically synthesized NRs have shown significantly positive results even at 50 mg/L due to their low toxicity, an improved leaf area (13%), number of leaves per plant (26%), total chlorophyll content (80%) and nitrate content (6%) with biologically synthesized NRs are obtained. Moreover, the plant anti-oxidative activity also increased on treatment with biologically synthesized NRs because of their ability to form a complex with metal ions. These findings suggest that biologically synthesized iron oxides NRs are an efficient iron source and can last for a long time. Thus, proving that nanofertilizer are required to have specific surface chemistry to release the nutrient in an appropriate concentration for better plant growth.http://www.sciencedirect.com/science/article/pii/S2405844020314390NanofertilizersWithania coagulansIron nutritionBioinspired synthesisAnti-oxidative stressAgricultural science
collection DOAJ
language English
format Article
sources DOAJ
author Murtaza Hasan
Saira Rafique
Ayesha Zafar
Suraj Loomba
Rida Khan
Shahbaz Gul Hassan
Muhammad Waqas Khan
Sadaf Zahra
Muhammad Zia
Ghazala Mustafa
Xugang Shu
Zahid Ihsan
Nasir Mahmood
spellingShingle Murtaza Hasan
Saira Rafique
Ayesha Zafar
Suraj Loomba
Rida Khan
Shahbaz Gul Hassan
Muhammad Waqas Khan
Sadaf Zahra
Muhammad Zia
Ghazala Mustafa
Xugang Shu
Zahid Ihsan
Nasir Mahmood
Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case study
Heliyon
Nanofertilizers
Withania coagulans
Iron nutrition
Bioinspired synthesis
Anti-oxidative stress
Agricultural science
author_facet Murtaza Hasan
Saira Rafique
Ayesha Zafar
Suraj Loomba
Rida Khan
Shahbaz Gul Hassan
Muhammad Waqas Khan
Sadaf Zahra
Muhammad Zia
Ghazala Mustafa
Xugang Shu
Zahid Ihsan
Nasir Mahmood
author_sort Murtaza Hasan
title Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case study
title_short Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case study
title_full Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case study
title_fullStr Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case study
title_full_unstemmed Physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: Zea mays a case study
title_sort physiological and anti-oxidative response of biologically and chemically synthesized iron oxide: zea mays a case study
publisher Elsevier
series Heliyon
issn 2405-8440
publishDate 2020-08-01
description The synthesis methodology, particle size and shape, dose optimization, and toxicity studies of nano-fertilizers are vital prior to their field application. This study investigates the comparative response of chemically synthesized and biologically synthesized iron oxide nanorods (NRs) using moringa olefera along with bulk FeCl3 on summer maize (Zea mays). It is found that FeCl3 salt and chemically synthesized iron oxides NRs caused growth retardation and impaired plant physiological and anti-oxidative activities at a concentration higher than 25 mg/L due to toxicity by over accumulation. While iron released form biologically synthesized NRs have shown significantly positive results even at 50 mg/L due to their low toxicity, an improved leaf area (13%), number of leaves per plant (26%), total chlorophyll content (80%) and nitrate content (6%) with biologically synthesized NRs are obtained. Moreover, the plant anti-oxidative activity also increased on treatment with biologically synthesized NRs because of their ability to form a complex with metal ions. These findings suggest that biologically synthesized iron oxides NRs are an efficient iron source and can last for a long time. Thus, proving that nanofertilizer are required to have specific surface chemistry to release the nutrient in an appropriate concentration for better plant growth.
topic Nanofertilizers
Withania coagulans
Iron nutrition
Bioinspired synthesis
Anti-oxidative stress
Agricultural science
url http://www.sciencedirect.com/science/article/pii/S2405844020314390
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