Induced Mutagenesis Enhances Lodging Resistance and Photosynthetic Efficiency of Kodomillet (Paspalum Scrobiculatum)

Jency, J. Poornima; Ravikesavan, R.; Singh, Roshan Kumar; Raveendran, M.; J, Prabhakaran; Muthamilarasan, Mehanathan; Prasad, Manoj; Ganesan, J.

doi:10.3390/agronomy10020227

Cited by 16 publications

(6 citation statements)

References 28 publications

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“…Consequently, the Rht dwarfing alleles have been successfully used for breeding lodging‐resistant wheat. While dwarfism is unfavourable for biomass production, the search for alternative solutions continues, using innovative combinations of genome editing and synthetic biology, investigation of spontaneous mutants, genomic prediction studies, and other approaches (Fan et al ., 2017 ; Jency et al ., 2020 ; Juliana et al ., 2019 ; Kashiwagi et al ., 2008 ; Zhu et al ., 2017 ). The ‘Stabilstroh’ mutant contains the desired combination of lodging resistance with an increased plant height, making it a prime candidate for producing lodging‐resistant rye varieties with tall posture and high biomass production.…”

Section: Discussionmentioning

confidence: 99%

A mechanistic view on lodging resistance in rye and wheat: a multiscale comparative study

Muszyńska

Guendel

Melzer

et al. 2021

Plant Biotechnology Journal

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Summary The development of crop varieties that are resistant to lodging is a top priority for breeding programmes. Herein, we characterize the rye mutant ´Stabilstroh’ (‘stable straw’) possessing an exceptional combination of high lodging resistance, tall posture and high biomass production. Nuclear magnetic resonance imaging displayed the 3‐dimensional assembly of vascular bundles in stem. A higher number of vascular bundles and a higher degree of their incline were the features of lodging‐resistant versus lodging‐prone lines. Histology and electron microscopy revealed that stems are fortified by a higher proportion of sclerenchyma and thickened cell walls, as well as some epidermal invaginations. Biochemical analysis using Fourier‐transform infrared spectroscopy and inductively coupled plasma‐optical emission spectrometry further identified elevated levels of lignin, xylan, zinc and silicon as features associated with high lodging resistance. Combined effects of above features caused superior culm stability. A simplistic mathematical model showed how mechanical forces distribute within the stem under stress. Main traits of the lodging‐resistant parental line were heritable and could be traced back to the genetic structure of the mutant. Evaluation of lodging‐resistant wheat ‘Babax’ (‘Baviacora’) versus contrasting, lodging‐prone, genotype ´Pastor´ agreed with above findings on rye. Our findings on mechanical stability and extraordinary culm properties may be important for breeders for the improvement of lodging resistance of tall posture cereal crops.

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Section: Discussionmentioning

confidence: 99%

A mechanistic view on lodging resistance in rye and wheat: a multiscale comparative study

Muszyńska

Guendel

Melzer

et al. 2021

Plant Biotechnology Journal

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“…Given the availability of these resources, small millet breeding programs presently focus on resolving production constraints. Lodging and seed-shattering are major problems in millet cultivation [ 43 ], and in kodo millet, mutation-breeding has shown promising results to develop improved non-lodging varieties [ 44 ]. In addition, there are specific genetic traits of interest that have received less research attention.…”

Section: Mainstreaming Millets For Ensuring Multiple Securities Durinmentioning

confidence: 99%

Small Millets for Enduring Food Security Amidst Pandemics

Muthamilarasan

Prasad

2021

Trends in Plant Science

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107

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Food security is an ongoing problem, and current staple foods are not sufficient to overcome challenges such as the present COVID-19 pandemic. We propose here that small millets have the potential to become new staple crops, especially in hunger hotspots. Currently, the absence of intensification of millet farming, lack of deployment of genetic tools for trait improvement, and the need for optimization of storage and supply chains limit crop production. We highlight a roadmap to strengthen small millet cultivation, such as identifying varieties suitable for particular environments and targeting trait improvement using genetic and genomic approaches. These approaches will help to combat hunger and malnutrition and also economically benefit the farmers and stakeholders involved in small millet cultivation amidst the ongoing pandemic.

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“…Finger millet and other millets are prone to lodging which compromises crop yields. Breeding programs are looking at reducing this undesirable trait to improve millets' productivity [46]. The smallest finger millet grain yields were attained when no N fertilizer was applied.…”

Section: Nitrogen Management Remains Crucial In Cereal and Legume Grain Yields Even When Fe Is Suppliedmentioning

confidence: 99%

Can Nitrogen Fertilizer Management Improve Grain Iron Concentration of Agro-Biofortified Crops in Zimbabwe?

et al. 2021

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Improving iron (Fe) concentration in staple grain crops could help reduce Fe-deficiency anaemia in communities dependent on plant-based diets. Co-application of nitrogen (N) and zinc (Zn) fertilizers has been reported to improve both yield and grain Zn concentration of crops in smallholder farming systems. This study was conducted to determine if similar effects are observed for grain Fe concentration. Field experiments were conducted in two years, in two contrasting agro-ecologies in Zimbabwe, on maize (Zea mays L.), cowpea (Vigna unguiculata [L.] Walp) and two finger millet (Eleusine coracana (L.) Gaertn.) “seed pools”. The two finger millet “seed pools” were collected during previous farmer surveys to represent “high” and “low” Fe concentrations. All plots received foliar Fe-ethylene diamine tetra-acetic acid (EDTA) fertilizer and one of seven N treatments, representing mineral or organic N sources, and combinations thereof. Higher grain yields were observed in larger N treatments. Grain Fe concentration increased according to species: maize < finger millet < cowpea but varied widely according to treatment. Significant effects of N-form on grain Fe concentration were observed in the low finger millet “seed pool”, for which mineral N fertilizer application increased grain Fe concentration to a greater extent than other N forms, but not for the other species. Whilst good soil fertility management is essential for yield and grain quality, effects on grain Fe concentration are less consistent than reported previously for Zn.

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Induced Mutagenesis Enhances Lodging Resistance and Photosynthetic Efficiency of Kodomillet (Paspalum Scrobiculatum)

Cited by 16 publications

References 28 publications

A mechanistic view on lodging resistance in rye and wheat: a multiscale comparative study

A mechanistic view on lodging resistance in rye and wheat: a multiscale comparative study

Small Millets for Enduring Food Security Amidst Pandemics

Can Nitrogen Fertilizer Management Improve Grain Iron Concentration of Agro-Biofortified Crops in Zimbabwe?

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