Seed-Primed and Foliar Oxozinc Nanofiber Application Increased Wheat Production and Zn Biofortification in Calcareous-Alkaline Soil

Author:

Ahmad Wiqar123,Zou Zhiyou1,Awais Muhammad2,Munsif Fazal4,Khan Aziz5ORCID,Nepal Jaya6ORCID,Ahmad Masood7ORCID,Akbar Sultan8,Ahmad Ijaz9,Khan Muhammad Shahid10,Qamar Zahid11,Khan Haroon12

Affiliation:

1. School of Earth Sciences, Yangtze University, Jingzhou 434025, China

2. Department of Soil and Environmental Sciences, The University of Agriculture Peshawar, Amir Muhammad Khan Campus Mardan, Mardan 23200, Pakistan

3. Soil and Water Science Department, Indian River Research and Education Center, Institute of Food and Agricultural Sciences, University of Florida, 2199 South Rock Road, Fort Pierce, FL 34945, USA

4. Department of Agronomy, The University of Agriculture Peshawar, Amir Muhammad Khan Campus Mardan, Mardan 23200, Pakistan

5. Key Laboratory of Grassland Agroecosystems, Lanzhou University, Lanzhou 730000, China

6. Department of Soil, Water and Ecosystem Sciences, Indian River Research and Education Center, University of Florida, Fort Pierce, FL 34945, USA

7. Department of Horticulture, The University of Agriculture, Peshawar 25000, Pakistan

8. Department of Plant Breeding and Genetics, The University of Agriculture, Peshawar 25000, Pakistan

9. Department of PBG, The University of Agriculture Peshawar, Amir Muhammad Khan Campus Mardan, Mardan 23200, Pakistan

10. Department of Plant Protection, The University of Agriculture, Amir Muhammad Khan Campus, Peshawar 25000, Pakistan

11. Department of Applied Physics, Federal Urdu University of Science and Technology (FUUAST), Islamabad 44000, Pakistan

12. Department of Weed Science & Botany, The University of Agriculture, Peshawar 25000, Pakistan

Abstract

Low Zinc (Zn) availability in alkaline calcareous soil is one of the major causes of low cereal yield and quality. Conventional application of Zn sulfate (ZnSO4) fertilizer through soil application attains minimal Zn efficiency as it is readily fixed in such soils. Oxozinc nanofiber (ZnONF) was evaluated for wheat Zn biofortification using different application methods to tackle this issue. Pots in triplicate (each with 7 kg soil) were arranged in a completely randomized design with a control treatment without Zn application. The conventional ZnSO4 fertilizer recommended dose (5.5 µg Zn kg−1 of soil) was used for comparison and applied through soil addition, foliar spray, and seed priming, while the ZnONF was applied through foliar spray, seed coating, and seed priming (@ 0.5 kg ha−1) either alone or in combination with ½ZnSO4 applied to the soil. The application of ZnONF significantly improved wheat plant growth as evidenced by increased plant height (14.5%), spikelets per spike (13.7%), and Zn use efficacy (611%) regardless of application methods as compared to control. The highest Zn uptake efficiency (34%) for nanofibers was obtained for theseed primed, followed by seed coating (23%) and foiar application (7%), respectively. Moreover, at the combined ZnONF and ½ZnSO4 application, further improvements for spike length, number of spikelets spike−1, grain, leaf, root, and stem Zn concentrations, as well as their respective Zn contents, were noted. These results elucidated that Zn nutrition with ZnONF was either at par with or higher than the conventional ZnSO4 fertilizer application despite significantly reduced ZnONF quantity, irrespective of the application method used. Additionally, the combined ZnONF and ½ZnSO4 (foliar spray, seed coating, or seed priming) maximized the crop Zn accumulation, wherein the ½ZnSO4 + ZnONF through foliar application exceeded grain Zn biofortification. Thus, various Oxozinc nanofibers application modes may be recommended for wheat biofortification either separately or in combination with ZnSO4 in Zn deficient calcareous soils for improved Zn nourishment.

Funder

National Natural Science Foundation, China

Publisher

MDPI AG

Subject

Agronomy and Crop Science

Reference50 articles.

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