Evaluation of pearl millet [<i>Pennisetum glaucum</i> (L.) R. Br.] for grain iron and zinc content in different agro climatic zones of India

Anuradha, N; Satyavathi, C. Tara; Meena, Mahesh Chand; Sankar, Surya; Bharadwaj, Chellapilla; Bhat, J. A.; Singh, Omvir; Singh, Sher

doi:10.5958/0975-6906.2017.00009.8

Cited by 23 publications

(22 citation statements)

References 26 publications

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“…During the fourth phase, great emphasis was laid on the genetic diversity of seed and pollinator parents and adaptation to niche areas, resulting in the release of a large number of cultivars and a significant increase in productivity 31.1 kg/ha/year, which was almost five times in comparison with Green Revolution Era (Govindaraj et al, 2010 ; Kumara et al, 2014 ; Yadav et al, 2019 ). In the next phase, biofortification of the grain for micronutrients, largely for zinc and iron and application of molecular techniques were focused to speed up the cultivar development program (Rai et al, 2013 ; Kanatti et al, 2016 , Kumar et al, 2016 , 2018 ; Anuradha et al, 2017 ; Singhal et al, 2018 ; Govindaraj et al, 2019 ). These cultivars were widely adopted by Indian farmers resulting in enhanced crop productivity from 305 kg/ha during 1951–1955 to 998 kg/ha during 2008–2012 and 1,243 kg/ha during 2018–19 (Yadav and Rai, 2013 ; Satyavathi et al, 2020 ) ( Figure 2 ).…”

Section: Pearl Millet Improvementmentioning

confidence: 99%

“…It also possesses the huge capability to eliminate micronutrient deficiency among developing countries (Rai et al, 2012 ; Anuradha et al, 2017 ; Singhal et al, 2018 ) as it supplies 30–40% of inorganic nutrients and bestows affordable staple food along with ample amounts of iron and zinc (Rao et al, 2006 ). It has very high nutritional values and is a good source of energy, carbohydrates, crude fibers [resistant starch (RS), soluble and insoluble dietary fibers], soluble and insoluble fat, proteins (8–19%), ash, dietary fibers (1.2 g/100 g), antioxidants and fat (3–8%) with better fat digestibility, iron, and zinc in comparison with other major cereals (Uppal et al, 2015 ).…”

Section: Introductionmentioning

confidence: 99%

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Pearl Millet: A Climate-Resilient Nutricereal for Mitigating Hidden Hunger and Provide Nutritional Security

et al. 2021

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Pearl millet [Pennisetum glaucum (L.) R. Br.] is the sixth most important cereal crop after rice, wheat, maize, barley and sorghum. It is widely grown on 30 million ha in the arid and semi-arid tropical regions of Asia and Africa, accounting for almost half of the global millet production. Climate change affects crop production by directly influencing biophysical factors such as plant and animal growth along with the various areas associated with food processing and distribution. Assessment of the effects of global climate changes on agriculture can be helpful to anticipate and adapt farming to maximize the agricultural production more effectively. Pearl millet being a climate-resilient crop is important to minimize the adverse effects of climate change and has the potential to increase income and food security of farming communities in arid regions. Pearl millet has a deep root system and can survive in a wide range of ecological conditions under water scarcity. It has high photosynthetic efficiency with an excellent productivity and growth in low nutrient soil conditions and is less reliant on chemical fertilizers. These attributes have made it a crop of choice for cultivation in arid and semi-arid regions of the world; however, fewer efforts have been made to study the climate-resilient features of pearl millet in comparison to the other major cereals. Several hybrids and varieties of pearl millet were developed during the past 50 years in India by both the public and private sectors. Pearl millet is also nutritionally superior and rich in micronutrients such as iron and zinc and can mitigate malnutrition and hidden hunger. Inclusion of minimum standards for micronutrients—grain iron and zinc content in the cultivar release policy—is the first of its kind step taken in pearl millet anywhere in the world, which can lead toward enhanced food and nutritional security. The availability of high-quality whole-genome sequencing and re-sequencing information of several lines may aid genomic dissection of stress tolerance and provide a good opportunity to further exploit the nutritional and climate-resilient attributes of pearl millet. Hence, more efforts should be put into its genetic enhancement and improvement in inheritance to exploit it in a better way. Thus, pearl millet is the next-generation crop holding the potential of nutritional richness and the climate resilience and efforts must be targeted to develop nutritionally dense hybrids/varieties tolerant to drought using different omics approaches.

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Section: Pearl Millet Improvementmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Pearl Millet: A Climate-Resilient Nutricereal for Mitigating Hidden Hunger and Provide Nutritional Security

et al. 2021

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“…Genotype by environment interaction influences micronutrient concentrations by affecting their uptake by roots, translocation through shoots and assimilation in grains [41]. Many researchers have documented significant effect of GEI for grain Fe and Zn concentrations in various crops including wheat [30][31][32], maize [34], sorghum [43], pearl millet [35,44] and lentil [45]. The high magnitude of genotypic effect implies hereditary factors do govern these traits but the presence of GEI and the environmental effect led differential responses of genotypes across environments.…”

Section: Discussionmentioning

confidence: 99%

Genotype by Environment Interaction Effect on Grain Iron and Zinc Concentration of Indian and Mediterranean Lentil Genotypes

et al. 2021

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Lentil grains with high nutritional value qualify as a promising candidate for alleviation of micronutrient malnutrition in South Asia and North Africa. Genetic variation for micronutrient concentration in germplasm is prerequisite for biofortification of this crop. In the present study, ninety-six lentil genotypes consisting of Indian (released varieties, advanced breeding lines and germplasm lines) and Mediterranean (germplasm lines and landraces) line were evaluated for grain iron (Fe) and zinc (Zn) concentrations and the stability of these traits was studied across three different locations in India. The pooled analysis of variance revealed significant genotype, environment and genotype by environment interaction (GEI) mean squares for both the micronutrients. Stability analysis employing the AMMI model elucidated the first two interaction principal components as significant and cumulatively explained 100% of GEI variation. The first two components explained 55.9% and 44.1% of the GEI sum of squares for grain iron and 50.8% and 49.2% for grain zinc concentration, respectively. No correlation between grain iron and zinc concentration was observed. Among 96 lines, genotypes IG 49, P 16214, ILL 147 and P 2118 were found to be relatively stable, having higher mean iron and zinc concentrations with low modified AMMI stability value (MASV), modified AMMI stability index (MASI) and genotype selection index (GSI). The identified promising genotypes (high Fe: P16214, IG 115, P 2127 and IC 560812 and high Zn: P 8115, P3234, LL 461 and IC 560812) can be utilized for studying the genetics of grain Fe and Zn concentration by developing mapping populations and for biofortification of Indian lentil.

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“…Br.] is a nutritious, highly cross-pollinated C 4 monocot species belonging to the family Poaceae with protogynous condition and resilient crop in the face of climate change (Anuradha et al, 2017;Sangwan et al, 2019). It is mainly cultivated as a staple food crop in all around the world especially in dry and semi-dry regions of Asia, Africa and Latin America with more than 30 million hectares (Yadav and Rai, 2013).…”

Section: Introductionmentioning

confidence: 99%

Heterosis Studies for Grain Yield and its Contributing Traits in Pearl millet (Pennisetum glaucum (L.) R. Br.) under Different Sowing Conditions

Pareek¹,

Sharma²,

Singh³

et al. 2020

Int.J.Curr.Microbiol.App.Sci

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Evaluation of pearl millet [Pennisetum glaucum (L.) R. Br.] for grain iron and zinc content in different agro climatic zones of India

Cited by 23 publications

References 26 publications

Pearl Millet: A Climate-Resilient Nutricereal for Mitigating Hidden Hunger and Provide Nutritional Security

Pearl Millet: A Climate-Resilient Nutricereal for Mitigating Hidden Hunger and Provide Nutritional Security

Genotype by Environment Interaction Effect on Grain Iron and Zinc Concentration of Indian and Mediterranean Lentil Genotypes

Heterosis Studies for Grain Yield and its Contributing Traits in Pearl millet (Pennisetum glaucum (L.) R. Br.) under Different Sowing Conditions

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