Zinc use efficiency is enhanced in wheat through nanofertilization
Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of people all over the world. During fertilization, application of large quantities of micronutrients often results in nutrient wastage and subsequent envir...
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| Published in | Scientific reports Vol. 8; no. 1; pp. 6832 - 7 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
01.05.2018
Nature Publishing Group Nature Portfolio |
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| Online Access | Get full text |
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| Abstract | Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of people all over the world. During fertilization, application of large quantities of micronutrients often results in nutrient wastage and subsequent environmental pollution. Here, we report zinc complexed chitosan nanoparticles (Zn-CNP) for ferti-fortification of durum wheat in field-scale experiments. The efficacy of Zn-CNP was assessed vis-à-vis conventionally applied ZnSO
4
(0.2%; 400 mgL
−1
zinc) in two durum wheat genotypes (MACS 3125, an indigenous high yielding genotype and UC 1114, a genotype containing the
Gpc-B1
gene). The observed grain zinc enrichment using Zn-CNP nanocarrier (~36%) and conventional ZnSO
4
(~50%) were comparable, despite 10 folds less zinc (40 mgL
−1
) used in the former. Nanofertilizer application increased grain zinc content without affecting grain yield, protein content, spikelets per spike, thousand kernel weight, etc. Grain zinc enrichment observed in the four-year field trials on plots with varying soil zinc content was consistent, proving the utility of Zn-CNP as a novel nanofertilizer which enhanced fertilizer use efficiency. Our work describes a new paradigm in micronutrient fortification, viz. ‘use nanofertilizers at the right place, right time and in right doses’. |
|---|---|
| AbstractList | Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of people all over the world. During fertilization, application of large quantities of micronutrients often results in nutrient wastage and subsequent environmental pollution. Here, we report zinc complexed chitosan nanoparticles (Zn-CNP) for ferti-fortification of durum wheat in field-scale experiments. The efficacy of Zn-CNP was assessed vis-à-vis conventionally applied ZnSO
4
(0.2%; 400 mgL
−1
zinc) in two durum wheat genotypes (MACS 3125, an indigenous high yielding genotype and UC 1114, a genotype containing the
Gpc-B1
gene). The observed grain zinc enrichment using Zn-CNP nanocarrier (~36%) and conventional ZnSO
4
(~50%) were comparable, despite 10 folds less zinc (40 mgL
−1
) used in the former. Nanofertilizer application increased grain zinc content without affecting grain yield, protein content, spikelets per spike, thousand kernel weight, etc. Grain zinc enrichment observed in the four-year field trials on plots with varying soil zinc content was consistent, proving the utility of Zn-CNP as a novel nanofertilizer which enhanced fertilizer use efficiency. Our work describes a new paradigm in micronutrient fortification, viz. ‘use nanofertilizers at the right place, right time and in right doses’. Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of people all over the world. During fertilization, application of large quantities of micronutrients often results in nutrient wastage and subsequent environmental pollution. Here, we report zinc complexed chitosan nanoparticles (Zn-CNP) for ferti-fortification of durum wheat in field-scale experiments. The efficacy of Zn-CNP was assessed vis-à-vis conventionally applied ZnSO4 (0.2%; 400 mgL−1 zinc) in two durum wheat genotypes (MACS 3125, an indigenous high yielding genotype and UC 1114, a genotype containing the Gpc-B1gene). The observed grain zinc enrichment using Zn-CNP nanocarrier (~36%) and conventional ZnSO4 (~50%) were comparable, despite 10 folds less zinc (40 mgL−1) used in the former. Nanofertilizer application increased grain zinc content without affecting grain yield, protein content, spikelets per spike, thousand kernel weight, etc. Grain zinc enrichment observed in the four-year field trials on plots with varying soil zinc content was consistent, proving the utility of Zn-CNP as a novel nanofertilizer which enhanced fertilizer use efficiency. Our work describes a new paradigm in micronutrient fortification, viz. ‘use nanofertilizers at the right place, right time and in right doses’. Abstract Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of people all over the world. During fertilization, application of large quantities of micronutrients often results in nutrient wastage and subsequent environmental pollution. Here, we report zinc complexed chitosan nanoparticles (Zn-CNP) for ferti-fortification of durum wheat in field-scale experiments. The efficacy of Zn-CNP was assessed vis-à-vis conventionally applied ZnSO 4 (0.2%; 400 mgL −1 zinc) in two durum wheat genotypes (MACS 3125, an indigenous high yielding genotype and UC 1114, a genotype containing the Gpc-B1 gene). The observed grain zinc enrichment using Zn-CNP nanocarrier (~36%) and conventional ZnSO 4 (~50%) were comparable, despite 10 folds less zinc (40 mgL −1 ) used in the former. Nanofertilizer application increased grain zinc content without affecting grain yield, protein content, spikelets per spike, thousand kernel weight, etc. Grain zinc enrichment observed in the four-year field trials on plots with varying soil zinc content was consistent, proving the utility of Zn-CNP as a novel nanofertilizer which enhanced fertilizer use efficiency. Our work describes a new paradigm in micronutrient fortification, viz. ‘use nanofertilizers at the right place, right time and in right doses’. Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating 'hidden hunger' in a large proportion of people all over the world. During fertilization, application of large quantities of micronutrients often results in nutrient wastage and subsequent environmental pollution. Here, we report zinc complexed chitosan nanoparticles (Zn-CNP) for ferti-fortification of durum wheat in field-scale experiments. The efficacy of Zn-CNP was assessed vis-à-vis conventionally applied ZnSO (0.2%; 400 mgL zinc) in two durum wheat genotypes (MACS 3125, an indigenous high yielding genotype and UC 1114, a genotype containing the Gpc-B1gene). The observed grain zinc enrichment using Zn-CNP nanocarrier (~36%) and conventional ZnSO (~50%) were comparable, despite 10 folds less zinc (40 mgL ) used in the former. Nanofertilizer application increased grain zinc content without affecting grain yield, protein content, spikelets per spike, thousand kernel weight, etc. Grain zinc enrichment observed in the four-year field trials on plots with varying soil zinc content was consistent, proving the utility of Zn-CNP as a novel nanofertilizer which enhanced fertilizer use efficiency. Our work describes a new paradigm in micronutrient fortification, viz. 'use nanofertilizers at the right place, right time and in right doses'. Abstract Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of people all over the world. During fertilization, application of large quantities of micronutrients often results in nutrient wastage and subsequent environmental pollution. Here, we report zinc complexed chitosan nanoparticles (Zn-CNP) for ferti-fortification of durum wheat in field-scale experiments. The efficacy of Zn-CNP was assessed vis-à-vis conventionally applied ZnSO4 (0.2%; 400 mgL−1 zinc) in two durum wheat genotypes (MACS 3125, an indigenous high yielding genotype and UC 1114, a genotype containing the Gpc-B1gene). The observed grain zinc enrichment using Zn-CNP nanocarrier (~36%) and conventional ZnSO4 (~50%) were comparable, despite 10 folds less zinc (40 mgL−1) used in the former. Nanofertilizer application increased grain zinc content without affecting grain yield, protein content, spikelets per spike, thousand kernel weight, etc. Grain zinc enrichment observed in the four-year field trials on plots with varying soil zinc content was consistent, proving the utility of Zn-CNP as a novel nanofertilizer which enhanced fertilizer use efficiency. Our work describes a new paradigm in micronutrient fortification, viz. ‘use nanofertilizers at the right place, right time and in right doses’. |
| ArticleNumber | 6832 |
| Author | Oak, Manoj D. Paknikar, Kishore M. Rajwade, Jyutika M. Dapkekar, Ashwin Deshpande, Paresh |
| Author_xml | – sequence: 1 givenname: Ashwin surname: Dapkekar fullname: Dapkekar, Ashwin organization: Nanobioscience group, Agharkar Research Institute, SavitribaiPhule Pune University – sequence: 2 givenname: Paresh surname: Deshpande fullname: Deshpande, Paresh organization: Nanobioscience group, Agharkar Research Institute, SavitribaiPhule Pune University – sequence: 3 givenname: Manoj D. surname: Oak fullname: Oak, Manoj D. email: mdoak@aripune.org organization: Genetics and Plant Breeding, Agharkar Research Institute, SavitribaiPhule Pune University – sequence: 4 givenname: Kishore M. orcidid: 0000-0001-5602-7518 surname: Paknikar fullname: Paknikar, Kishore M. email: kpaknikar@gmail.com organization: Nanobioscience group, Agharkar Research Institute, SavitribaiPhule Pune University – sequence: 5 givenname: Jyutika M. surname: Rajwade fullname: Rajwade, Jyutika M. email: jrajwade@aripune.org organization: Nanobioscience group, Agharkar Research Institute, SavitribaiPhule Pune University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29717180$$D View this record in MEDLINE/PubMed |
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| Snippet | Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of people all... Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating 'hidden hunger' in a large proportion of people all... Abstract Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of... Abstract Ferti-fortification of wheat with zinc, an essential micronutrient is one of the strategies for combating ‘hidden hunger’ in a large proportion of... |
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| SubjectTerms | 631/449 631/449/447/2312 Agricultural production Cereals Chitosan Cultivars Efficiency Fertilization Fertilizers Gene expression Genotype & phenotype Genotypes Grain Humanities and Social Sciences Hunger Micronutrients multidisciplinary Nanoparticles Nutrient content Proteins Science Science (multidisciplinary) Triticum Triticum durum Variance analysis Wheat Zinc |
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| Title | Zinc use efficiency is enhanced in wheat through nanofertilization |
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