Seed Priming and Coating by Nano-Scale Zinc Oxide Particles Improved Vegetative Growth, Yield and Quality of Fodder Maize (Zea mays)

Nano-fertilizers of essential plant nutrients, including micronutrients, have the potential to improve nutrient use efficiency and productivity of field crops in deficient soils. The present study reports the comparative influence of zinc oxide nanoparticles (ZnONPs) and bulk Zn salt (ZnSO4) on the...

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Published in	Agronomy (Basel) Vol. 11; no. 4; p. 729
Main Authors	Tondey, Manisha, Kalia, Anu, Singh, Alla, Dheri, Gurmeet Singh, Taggar, Monica Sachdeva, Nepovimova, Eugenie, Krejcar, Ondrej, Kuca, Kamil
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.04.2021
Subjects	acid detergent fiber agronomy Alkaline phosphatase Cellulose Cellulose fibers Cereal crops Chlorophyll Coatings Corn enhanced biomass Enzymatic activity Fertilizers Forage forage crop fortification Hemicellulose Micronutrients Microorganisms nano-micronutrient Nanoparticles neutral detergent fiber nitrogen nutrient use efficiency Nutrients oxidoreductases Phosphorus phytomass Plant biomass Plant growth plant height Plants (botany) potassium Priming Scale (corrosion) seed treatment Seeds soil soil enzymes Soils Stover vegetative growth Zea mays zinc Zinc coatings Zinc oxide Zinc oxides Zinc salts Zinc sulfate Japan India
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Abstract	Nano-fertilizers of essential plant nutrients, including micronutrients, have the potential to improve nutrient use efficiency and productivity of field crops in deficient soils. The present study reports the comparative influence of zinc oxide nanoparticles (ZnONPs) and bulk Zn salt (ZnSO4) on the growth, yield, and quality of fodder maize (Zea mays) (var. J-1006) cultivated under field conditions in the year 2019. Three levels (0, 20, and 40 mg L−1) of Zn fertilizers were used for seed priming and coating in triplicate following the randomized complete block design model. An increase in vegetative and yield parameters (number of plants, plant height, stover yield, plant biomass), acid detergent fiber (ADF%), and hemicellulose contents and shoot zinc (Zn) content on treatment of seeds with ZnONPs (20 mg L−1) concentration as compared to bulk ZnSO4 and control treatments was observed. The application of ZnONPs (40 mg L−1) significantly enhanced the total chlorophyll content, available soil nitrogen and phosphorus, neutral detergent fiber (NDF%), and cellulose contents and improved the total soil microbial counts and soil enzyme activities (dehydrogenase, acid and alkaline phosphatase enzyme activities), whereas a significant increase in available soil potassium and zinc contents was recorded under ZnONPs (20 mg L−1) treatments. These findings suggest an encouraging effect on the growth and yield attributing characteristics of fodder maize after ZnONPs seed coating at low concentration. Furthermore, ZnONPs seed coating can also be considered an effective tool for the delivery of Zn micronutrient to fodder maize crop.
AbstractList	Nano-fertilizers of essential plant nutrients, including micronutrients, have the potential to improve nutrient use efficiency and productivity of field crops in deficient soils. The present study reports the comparative influence of zinc oxide nanoparticles (ZnONPs) and bulk Zn salt (ZnSO4) on the growth, yield, and quality of fodder maize (Zea mays) (var. J-1006) cultivated under field conditions in the year 2019. Three levels (0, 20, and 40 mg L−1) of Zn fertilizers were used for seed priming and coating in triplicate following the randomized complete block design model. An increase in vegetative and yield parameters (number of plants, plant height, stover yield, plant biomass), acid detergent fiber (ADF%), and hemicellulose contents and shoot zinc (Zn) content on treatment of seeds with ZnONPs (20 mg L−1) concentration as compared to bulk ZnSO4 and control treatments was observed. The application of ZnONPs (40 mg L−1) significantly enhanced the total chlorophyll content, available soil nitrogen and phosphorus, neutral detergent fiber (NDF%), and cellulose contents and improved the total soil microbial counts and soil enzyme activities (dehydrogenase, acid and alkaline phosphatase enzyme activities), whereas a significant increase in available soil potassium and zinc contents was recorded under ZnONPs (20 mg L−1) treatments. These findings suggest an encouraging effect on the growth and yield attributing characteristics of fodder maize after ZnONPs seed coating at low concentration. Furthermore, ZnONPs seed coating can also be considered an effective tool for the delivery of Zn micronutrient to fodder maize crop. Nano-fertilizers of essential plant nutrients, including micronutrients, have the potential to improve nutrient use efficiency and productivity of field crops in deficient soils. The present study reports the comparative influence of zinc oxide nanoparticles (ZnONPs) and bulk Zn salt (ZnSO₄) on the growth, yield, and quality of fodder maize (Zea mays) (var. J-1006) cultivated under field conditions in the year 2019. Three levels (0, 20, and 40 mg L⁻¹) of Zn fertilizers were used for seed priming and coating in triplicate following the randomized complete block design model. An increase in vegetative and yield parameters (number of plants, plant height, stover yield, plant biomass), acid detergent fiber (ADF%), and hemicellulose contents and shoot zinc (Zn) content on treatment of seeds with ZnONPs (20 mg L⁻¹) concentration as compared to bulk ZnSO₄ and control treatments was observed. The application of ZnONPs (40 mg L⁻¹) significantly enhanced the total chlorophyll content, available soil nitrogen and phosphorus, neutral detergent fiber (NDF%), and cellulose contents and improved the total soil microbial counts and soil enzyme activities (dehydrogenase, acid and alkaline phosphatase enzyme activities), whereas a significant increase in available soil potassium and zinc contents was recorded under ZnONPs (20 mg L⁻¹) treatments. These findings suggest an encouraging effect on the growth and yield attributing characteristics of fodder maize after ZnONPs seed coating at low concentration. Furthermore, ZnONPs seed coating can also be considered an effective tool for the delivery of Zn micronutrient to fodder maize crop.
Author	Kalia, Anu Singh, Alla Nepovimova, Eugenie Taggar, Monica Sachdeva Kuca, Kamil Tondey, Manisha Dheri, Gurmeet Singh Krejcar, Ondrej
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SubjectTerms	acid detergent fiber agronomy Alkaline phosphatase Cellulose Cellulose fibers Cereal crops Chlorophyll Coatings Corn enhanced biomass Enzymatic activity Fertilizers Forage forage crop fortification Hemicellulose Micronutrients Microorganisms nano-micronutrient Nanoparticles neutral detergent fiber nitrogen nutrient use efficiency Nutrients oxidoreductases Phosphorus phytomass Plant biomass Plant growth plant height Plants (botany) potassium Priming Scale (corrosion) seed treatment Seeds soil soil enzymes Soils Stover vegetative growth Zea mays zinc Zinc coatings Zinc oxide Zinc oxides Zinc salts Zinc sulfate
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Title	Seed Priming and Coating by Nano-Scale Zinc Oxide Particles Improved Vegetative Growth, Yield and Quality of Fodder Maize (Zea mays)
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