Your search keyword '"G. P. Singh"' showing total 509 results

1. Temporal behavior of wheat – Puccinia striiformis interaction prompted defense-responsive genes

Author

Charu Lata, Pramod Prasad, O. P. Gangwar, Sneha Adhikari, Rajni Kant Thakur, Siddanna Savadi, Kuldeep Kumar, Subodh Kumar, G. P. Singh, and S. C. Bhardwaj

Subjects

Triticum aestivum L, Puccinia striiformis, defense-responsive genes, gene expression, compatible and incompatible interaction, Plant culture, SB1-1110, Plant ecology, QK900-989

Abstract

Wheat stripe rust caused by Puccinia striiformis Westend. f.sp. tritici (Pst) is a global threat to wheat production. Genetic modification of defense-responsive factors in wheat rust interactions could help devise strategies to control stripe rust on wheat. This experiment studied the interaction between Pst pathotype 78S84 in PBW343 and FLW-3 by evaluating the quantitative temporal transcription profiles of defense-related genes at different time points. This is the first attempt to exhibit inter-connections among different proteins and depict a hypothetical model for the mechanism of R gene-mediated resistance. Transcript levels of LTP, AQP1, PR1, PR2, PR4, and PR10 were relatively higher under compatible interaction, while under incompatible interaction, transcript levels of COMT1, PRA2, WCAB, and PR9 were significantly high. This study projected the role of defense-responsive genes, inter-networking of proteins, and R gene-mediated resistance between wheat and stripe rust.

Published

2022

2. Identification of genomic regions of wheat associated with grain Fe and Zn content under drought and heat stress using genome-wide association study

Author

Narayana Bhat Devate, Hari Krishna, V. P. Sunilkumar, Karthik Kumar Manjunath, C. N. Mishra, Neelu Jain, G. P. Singh, and P. K. Singh

Subjects

wheat, grain iron and zinc content, GWAS, drought stress, heat stress, Genetics, QH426-470

Abstract

Wheat is the staple food crop of global importance for its grain nutrient quality. Grain iron and zinc content of the wheat grain is an important quantitatively inherited trait that is influenced by the environmental factors such as drought and heat stress. Phenotypic evaluation of 295 advanced breeding lines from the wheat stress breeding program of IARI was carried out under timely sown irrigated (IR), restricted irrigated, and late-sown conditions at New Delhi during the cropping season of 2020–21, and grain iron (GFeC) and zinc (GZnC) contents were estimated from both control and treatments. A statistically significant increase in GFeC and GZnC was observed under stress conditions compared to that of the control. Genotyping was carried out with the SNPs from the 35K Axiom Breeder’s array, and marker–trait association was identified by GWAS analysis. Of the 23 MTAs identified, seven were linked with GFeC and sixteen were linked with GZnC. In silico analysis revealed a few important transcripts involved in various plant metabolism, growth, and development activities such as auxin response factor, root UVB sensitive proteins, potassium transporter, glycosyl transferase, COBRA, and F-box-like domain. The identified MTAs can be used for molecular breeding after validation and also for rapid development of micronutrient-rich varieties of wheat to mitigate hidden hunger.

Published

2022

3. Marker assisted improvement for leaf rust and moisture deficit stress tolerance in wheat variety HD3086

Author

V.P. Sunilkumar, Hari Krishna, Narayana Bhat Devate, Karthik Kumar Manjunath, Divya Chauhan, Shweta Singh, Nivedita Sinha, Jang Bahadur Singh, T. L. Prakasha, Dharam Pal, M. Sivasamy, Neelu Jain, G. P. Singh, and P. K. Singh

Subjects

Lr24, leaf rust resistance, drought tolerance, QTLs, MABB, Plant culture, SB1-1110

Abstract

There is a significant yield reduction in the wheat crop as a result of different biotic and abiotic stresses, and changing climate, among them moisture deficit stress and leaf rust are the major ones affecting wheat worldwide. HD3086 is a high-yielding wheat variety that has been released for commercial cultivation under timely sown irrigated conditions in the Indo-Gangetic plains of India. Variety HD3086 provides a good, stable yield, and it is the choice of millions of farmers in India. It becomes susceptible to the most prevalent pathotypes 77-5 and 77-9 of Puccinia triticina (causing leaf rust) in the production environment and its potential yield cannot be realized under moisture deficit stress. The present study demonstrates the use of a marker-assisted back cross breeding approach to the successful transfer of leaf rust resistance gene Lr24 and QTLs linked to moisture deficit stress tolerance in the background of HD3086. The genotype HI1500 was used as a donor parent that possesses leaf rust-resistant gene Lr24, which confers resistance against the major pathotypes found in the production environment. It possesses inbuilt tolerance under abiotic stresses with superior quality traits. Foreground selection for gene Lr24 and moisture deficit stress tolerance QTLs linked to Canopy temperature (CT), Normal Differential Vegetation Index (NDVI) and Thousand Kernel Weight (TKW) in different generations of the backcrossing and selection. In BC2F2, foreground selection was carried out to identify homozygous lines based on the linked markers and were advanced following pedigree based phenotypic selection. The selected lines were evaluated against P. triticina pathotypes 77-5 and 77-9 under controlled conditions. Recurrent parent recovery of the selected lines ranged from 78-94%. The identified lines were evaluated for their tolerance to moisture stress under field conditions and their resistance to rust under artificial epiphytotic conditions for two years. In BC2F5 generation, eight positive lines for marker alleles were selected which showed resistance to leaf rust and recorded an improvement in component traits of moisture deficit stress tolerance such as CT, NDVI, TKW and yield compared to the recurrent parent HD3086. The derived line is named HD3471 and is nominated for national trials for testing and further release for commercial cultivation.

Published

2022

4. Sustainable intensification of maize and wheat cropping system through pulse intercropping

Author

S. C. Tripathi, Karnam Venkatesh, Raj Pal Meena, Subhash Chander, and G. P. Singh

Subjects

Medicine, Science

Abstract

Abstract The intercropping of legumes with cereals help to achieve sustainable intensification by their mutual complementarity at efficiently using radiation, nutrients, etc. Several studies indicated such beneficial effects on the other component crop however, little research has been conducted to quantify their effects on the subsequent crop in a cropping system. In this study, the effect of the legume intercropping on the entire cropping system, particularly the maize + legume-wheat system was studied. Four legumes intercropped to maize followed by wheat crop were studied for intensification measures such as wheat equivalent yield (WEY), land equivalent ratio (LER), sustainable value index (SVI), and economic returns. N saving effect of legumes on the subsequent wheat crop was quantified with two N levels. Maize + cowpea-wheat combination was the most productive and economic intercrop combination (LER = 1.71, SVI = 0.96) with an increase in net economic return (43.63%) with a B:C ratio of 1.94. An additional 25% N (37.5 kg ha−1) was saved in the wheat crop when the legume intercropping was undertaken with maize. The results suggest that intercropping is the key to diversification and reduces the risk of crop failures by enhancing land-use efficiency, soil fertility, and economic returns under weather vagaries. This will be beneficial to small and marginal farmers of many countries.

Published

2021

5. Integration of Dual Stress Transcriptomes and Major QTLs from a Pair of Genotypes Contrasting for Drought and Chronic Nitrogen Starvation Identifies Key Stress Responsive Genes in Rice

Author

Amitha Mithra Sevanthi, Subodh Kumar Sinha, Sureshkumar V, Manju Rani, Manish Ranjan Saini, Sapna Kumari, Megha Kaushik, Chandra Prakash, Venkatesh K., G. P. Singh, Trilochan Mohapatra, and Pranab Kumar Mandal

Subjects

Nitrogen stress, Drought stress, Rice, QTLs under nitrogen stress, RNA-seq, Nitrogen use efficiency, Plant culture, SB1-1110

Abstract

Abstract We report here the genome-wide changes resulting from low N (N-W+), low water (N+W-)) and dual stresses (N-W-) in root and shoot tissues of two rice genotypes, namely, IR 64 (IR64) and Nagina 22 (N22), and their association with the QTLs for nitrogen use efficiency. For all the root parameters, except for root length under N-W+, N22 performed better than IR64. Chlorophyll a, b and carotenoid content were higher in IR64 under N+W+ treatment and N-W+ and N+W- stresses; however, under dual stress, N22 had higher chlorophyll b content. While nitrite reductase, glutamate synthase (GS) and citrate synthase assays showed better specific activity in IR64, glutamate dehydrogenase showed better specific activity in N22 under dual stress (N-W-); the other N and C assimilating enzymes showed similar but low specific activities in both the genotypes. A total of 8926 differentially expressed genes (DEGs) were identified compared to optimal (N+W+) condition from across all treatments. While 1174, 698 and 903 DEGs in IR64 roots and 1197, 187 and 781 in N22 roots were identified, nearly double the number of DEGs were found in the shoot tissues; 3357, 1006 and 4005 in IR64 and 4004, 990 and 2143 in N22, under N-W+, N+W- and N-W- treatments, respectively. IR64 and N22 showed differential expression in 15 and 11 N-transporter genes respectively, under one or more stress treatments, out of which four showed differential expression also in N+W- condition. The negative regulators of N- stress, e.g., NIGT1, OsACTPK1 and OsBT were downregulated in IR64 while in N22, OsBT was not downregulated. Overall, N22 performed better under dual stress conditions owing to its better root architecture, chlorophyll and porphyrin synthesis and oxidative stress management. We identified 12 QTLs for seed and straw N content using 253 recombinant inbred lines derived from IR64 and N22 and a 5K SNP array. The QTL hotspot region on chromosome 6 comprised of 61 genes, of which, five were DEGs encoding for UDP-glucuronosyltransferase, serine threonine kinase, anthocyanidin 3-O-glucosyltransferase, and nitrate induced proteins. The DEGs, QTLs and candidate genes reported in this study can serve as a major resource for both rice improvement and functional biology.

Published

2021

6. Identification and development of novel salt-responsive candidate gene based SSRs (cg-SSRs) and MIR gene based SSRs (mir-SSRs) in bread wheat (Triticum aestivum)

Author

Geetika Mehta, Senthilkumar K. Muthusamy, G. P. Singh, and Pradeep Sharma

Subjects

Medicine, Science

Abstract

Abstract Salt stress adversely affects the global wheat production and productivity. To improve salinity tolerance of crops, identification of robust molecular markers is highly imperative for development of salt-tolerant cultivars to mimic yield losses under saline conditions. In this study, we mined 171 salt-responsive genes (including 10 miRNAs) from bread wheat genome using the sequence information of functionally validated salt-responsive rice genes. Salt-stress, tissue and developmental stage-specific expression analysis of RNA-seq datasets revealed the constitutive as well as the inductive response of salt-responsive genes in different tissues of wheat. Fifty-four genotypes were phenotyped for salt stress tolerance. The stress tolerance index of the genotypes ranged from 0.30 to 3.18. In order to understand the genetic diversity, candidate gene based SSRs (cg-SSRs) and MIR gene based SSRs (miR-SSRs) were mined from 171 members of salt-responsive genes of wheat and validated among the contrasting panels of 54 tolerant as well as susceptible wheat genotypes. Among 53 SSR markers screened, 10 cg-SSRs and 8 miR-SSRs were found to be polymorphic. Polymorphic information content between the wheat genotypes ranged from 0.07 to 0.67, indicating the extant of wide genetic variation among the salt tolerant and susceptible genotypes at the DNA level. The genetic diversity analysis based on the allelic data grouped the wheat genotypes into three separate clusters of which single group encompassing most of the salt susceptible genotypes and two of them containing salt tolerance and moderately salt tolerance wheat genotypes were in congruence with penotypic data. Our study showed that both salt-responsive genes and miRNAs based SSRs were more diverse and can be effectively used for diversity analysis. This study reports the first extensive survey on genome-wide analysis, identification, development and validation of salt-responsive cg-SSRs and miR-SSRs in wheat. The information generated in the present study on genetic divergence among genotypes having a differential response to salt will help in the selection of suitable lines as parents for developing salt tolerant cultivars in wheat.

Published

2021

7. Genome-Wide Association Study and Post-genome-Wide Association Study Analysis for Spike Fertility and Yield Related Traits in Bread Wheat

Author

S. Sheoran, S. Jaiswal, N. Raghav, R. Sharma, Sabhyata, A. Gaur, J. Jaisri, Gitanjali Tandon, S. Singh, P. Sharma, R. Singh, M. A. Iquebal, U. B. Angadi, A. Gupta, G. Singh, G. P. Singh, A. Rai, D. Kumar, and R. Tiwari

Subjects

GWAS, 35K, MTAs, spike fertility, yield, wheat, Plant culture, SB1-1110

Abstract

Spike fertility and associated traits are key factors in deciding the grain yield potential of wheat. Genome-wide association study (GWAS) interwoven with advanced post-GWAS analysis such as a genotype-phenotype network (geno-pheno network) for spike fertility, grain yield, and associated traits allow to identify of novel genomic regions and represents attractive targets for future marker-assisted wheat improvement programs. In this study, GWAS was performed on 200 diverse wheat genotypes using Breeders’ 35K Axiom array that led to the identification of 255 significant marker-trait associations (MTAs) (–log10P ≥ 3) for 15 metric traits phenotyped over three consecutive years. MTAs detected on chromosomes 3A, 3D, 5B, and 6A were most promising for spike fertility, grain yield, and associated traits. Furthermore, the geno-pheno network prioritised 11 significant MTAs that can be utilised as a minimal marker system for improving spike fertility and yield traits. In total, 119 MTAs were linked to 81 candidate genes encoding different types of functional proteins involved in various key pathways that affect the studied traits either way. Twenty-two novel loci were identified in present GWAS, twelve of which overlapped by candidate genes. These results were further validated by the gene expression analysis, Knetminer, and protein modelling. MTAs identified from this study hold promise for improving yield and related traits in wheat for continued genetic gain and in rapidly evolving artificial intelligence (AI) tools to apply in the breeding program.

Published

2022

8. Unprecedented heavy rainfall event over Yamunanagar, India during 14 July 2016: An observational and modelling study

Author

N. Narasimha Rao, Surender Paul, M. S. Skekhar, G. P. Singh, A. K. Mitra, and S. C. Bhan

Subjects

climate change impacts, extreme rainfall, extremes, forecasting, hazards, mesoscale convective system, Meteorology. Climatology, QC851-999

Abstract

Abstract Extreme rainfall events have posed several serious threats to many populated and urbanized areas in the world including the Indian subcontinent. Therefore, accurate predictions of their intensity and areas of influence are important for flood‐prone risk assessments. On 14 July 2016, heavy to exceptionally heavy rainfall occurred in Yamunanagar (30.16° N, 77.29° E), located in the state of Haryana in North India, which led to widespread disruption of communication, electricity, inundation of houses, and so forth. The present paper aims at examining observational, synoptic, thermo‐dynamical, and numerical features associated with this devastating rainfall episode. The analysis found that during extreme rainfall episodes, a trough in mid‐tropospheric westerlies and a strong low‐level atmospheric monsoonal flow seem to have strongly interacted with each other, creating a strong convergence zone near study areas that led to a severe rainstorm. The quasi‐stationary supercells were also noticed due to continuous moisture incursions from the Bay of Bengal and orographic uplift over the Himalayas near Yamunanagar. A deep layer of wind shear interacts dynamically with the convergence zone and leads to a potential rainstorm. Thermodynamic indices indicate high instability over the heavy rainfall area. The dynamics of this event were studied in detail by using three‐dimensional variational data assimilation within the weather research and forecasting model, configured with triple two‐way nesting domains (27, 9, and 3 km). The model results show that the weather research and forecasting model satisfactorily captures the quantitative precipitation (300 mm) in 24 h over the Yamunanagar region as compared with observation (365 mm).

Published

2021

9. Understanding the Role of Gibberellic Acid and Paclobutrazol in Terminal Heat Stress Tolerance in Wheat

Author

Shivani Nagar, V. P. Singh, Ajay Arora, Rajkumar Dhakar, Neera Singh, G. P. Singh, Shashi Meena, Sudhir Kumar, and R. Shiv Ramakrishnan

Subjects

gibberellic acid, wheat, terminal heat tolerance, reactive oxygen species, cell expansin, Plant culture, SB1-1110

Abstract

Understanding the physiological mechanism of tolerance under stress conditions is an imperative aspect of the crop improvement programme. The role of plant hormones is well-established in abiotic stress tolerance. However, the information on the role of gibberellic acid (GA) in abiotic stress tolerance in late sown wheat is still not thoroughly explored. Thus, we aimed to investigate the role of endogenous GA3 level in stress tolerance in contrasting wheat cultivars, viz., temperature-tolerant (HD 2643 and DBW 14) and susceptible (HD 2189 and HD 2833) cultivars under timely and late sown conditions. We created the variation in endogenous GA3 level by exogenous spray of GA3 and its biosynthesis inhibitor paclobutrazol (PBZ). Tolerant genotypes had higher antioxidant enzyme activity, membrane stability, and photosynthesis rate, lower lipid peroxidase activity, and better growth and yield traits under late sown conditions attributed to H2O2 content. Application of PBZ escalated antioxidant enzymes activity and photosynthesis rate, and reduced the lipid peroxidation and ion leakage in stress, leading to improved thermotolerance. GA3 had a non-significant effect on antioxidant enzyme activity, lipid peroxidation, and membrane stability. However, GA3 application increased the test weight in HD 2643 and HD 2833 under timely and late sown conditions. GA3 upregulated GA biosynthesis and degradation pathway genes, and PBZ downregulated kaurene oxidase and GA2ox gene expression. GA3 also upregulated the expression of the cell expansins gene under both timely and late sown conditions. Exogenous GA3 did not increase thermotolerance but positively affected test weight and cell expansins gene expression. No direct relationship existed between endogenous GA3 content and stress tolerance traits, indicating that PBZ could have conferred thermotolerance through an alternative mechanism instead of inhibiting GA3biosynthesis.

Published

2021

10. Resurrection of Wheat Cultivar PBW343 Using Marker-Assisted Gene Pyramiding for Rust Resistance

Author

Achla Sharma, Puja Srivastava, G. S. Mavi, Satinder Kaur, Jaspal Kaur, Ritu Bala, Tarvinder Pal Singh, V. S. Sohu, Parveen Chhuneja, Navtej S. Bains, and G. P. Singh

Subjects

wheat breeding, PBW343, leaf rust, stripe rust, gene pyramiding, marker assisted selection, Plant culture, SB1-1110

Abstract

Wheat variety PBW343, released in India in 1995, became the most widely grown cultivar in the country by the year 2000 owing to its wide adaptability and yield potential. It initially succumbed to leaf rust, and resistance genes Lr24 and Lr28 were transferred to PBW343. After an unbroken reign of about 10 years, the virulence against gene Yr27 made PBW343 susceptible to stripe rust. Owing to its wide adaptability and yield potential, PBW343 became the prime target for marker-assisted introgression of stripe rust resistance genes. The leaf rust-resistant versions formed the base for pyramiding stripe rust resistance genes Yr5, Yr10, Yr15, Yr17, and Yr70, in different introgression programs. Advanced breeding lines with different gene combinations, PBW665, PBW683, PBW698, and PBW703 were tested in national trials but could not be released as varieties. The genes from alien segments, Aegilops ventricosa (Lr37/Yr17/Sr38) and Aegilops umbellulata (Lr76/Yr70), were later pyramided in PBW343. Modified marker-assisted backcross breeding was performed, and 81.57% of the genetic background was recovered in one of the selected derivative lines, PBW723. This line was evaluated in coordinated national trials and was released for cultivation under timely sown irrigated conditions in the North Western Plain Zone of India. PBW723 yields an average of 58.0 qtl/ha in Punjab with high potential yields. The genes incorporated are susceptible to stripe rust individually, but PBW723 with both genes showed enhanced resistance. Three years post-release, PBW723 occupies approximately 8–9% of the cultivated area in the Punjab state. A regular inflow of diverse resistant genes, their rapid mobilization to most productive backgrounds, and keeping a close eye on pathogen evolution is essential to protect the overall progress for productivity and resistance in wheat breeding, thus helping breeders to keep pace with pathogen evolution.

Published

2021

11. Uncovering Genomic Regions Associated With 36 Agro-Morphological Traits in Indian Spring Wheat Using GWAS

Author

Sonia Sheoran, Sarika Jaiswal, Deepender Kumar, Nishu Raghav, Ruchika Sharma, Sushma Pawar, Surinder Paul, M. A. Iquebal, Akanksha Jaiswar, Pradeep Sharma, Rajender Singh, C. P. Singh, Arun Gupta, Neeraj Kumar, U. B. Angadi, Anil Rai, G. P. Singh, Dinesh Kumar, and Ratan Tiwari

Subjects

35K Axiom array, agro-morphological, GWAS, SNP, wheat, Plant culture, SB1-1110

Abstract

Wheat genetic improvement by integration of advanced genomic technologies is one way of improving productivity. To facilitate the breeding of economically important traits in wheat, SNP loci and underlying candidate genes associated with the 36 agro-morphological traits were studied in a diverse panel of 404 genotypes. By using Breeders’ 35K Axiom array in a comprehensive genome-wide association study covering 4364.79 cM of the wheat genome and applying a compressed mixed linear model, a total of 146 SNPs (-log10P ≥ 4) were found associated with 23 traits out of 36 traits studied explaining 3.7–47.0% of phenotypic variance. To reveal this a subset of 260 genotypes was characterized phenotypically for six quantitative traits [days to heading (DTH), days to maturity (DTM), plant height (PH), spike length (SL), awn length (Awn_L), and leaf length (Leaf_L)] under five environments. Gene annotations mined ∼38 putative candidate genes which were confirmed using tissue and stage specific gene expression data from RNA Seq. We observed strong co-localized loci for four traits (glume pubescence, SL, PH, and awn color) on chromosome 1B (24.64 cM) annotated five putative candidate genes. This study led to the discovery of hitherto unreported loci for some less explored traits (such as leaf sheath wax, awn attitude, and glume pubescence) besides the refined chromosomal regions of known loci associated with the traits. This study provides valuable information of the genetic loci and their potential genes underlying the traits such as awn characters which are being considered as important contributors toward yield enhancement.

Published

2019

12. Effect of Rice Residue Retention and Foliar Application of K on Water Productivity and Profitability of Wheat in North West India

Author

Raj Pal Meena, Karnam Venkatesh, Rinki Khobra, S. C. Tripathi, Kailash Prajapat, R. K. Sharma, and G. P. Singh

Subjects

wheat yield, rice residue retention, water use efficiency (wue), profitability, foliar application of k, Agriculture

Abstract

The rice−wheat cropping system being the backbone of food security in South-Asia has resulted in soil health deterioration, declining water table, and air pollution affecting livability index of the region. The effect of rice residue retention (RRR), irrigation levels and foliar application of K on wheat grain yield (GY), water use efficiency (WUE) and profitability was tested over three years. RRR increased wheat GY (5224 kg ha−1), above-ground biomass (AGBM = 11.9 t ha−1), tillers per square meter (TPM = 469) and grains per meter square (GrPMS = 13,917) significantly. Relative water content (RWC = 93.8) and WUE (2.45 k gm−3) were also increased significantly by RRR. Consequently, profitability (Net return = 624.4 $ and Benefit to cost (B:C) ratio) was enhanced. Foliar application of K enhanced GY (5151 kg ha−1), AGBM (12 t ha−1), RWC (94.1), SPAD (52.2), WUE (2.40 kg m−3), net returns (625.2 $) and BC ratio (1.62) significantly. RRR increased GY (15.66%) and WUE (17.39%) with additional revenue of 151 $ with only one irrigation at the CRI stage (ICS). RRR adopted over 10% of the area can earn 187 million-US$ annually. RRR if adopted over existing practice on a large area would reduce environmental degradation with an enhanced income to small and marginal farmers.

Published

2020

13. Putative Microsatellite DNA Marker-Based Wheat Genomic Resource for Varietal Improvement and Management

Author

Sarika Jaiswal, Sonia Sheoran, Vasu Arora, Ulavappa B. Angadi, Mir A. Iquebal, Nishu Raghav, Bharti Aneja, Deepender Kumar, Rajender Singh, Pradeep Sharma, G. P. Singh, Anil Rai, Ratan Tiwari, and Dinesh Kumar

Subjects

DUS, EDV, e-PCR, molecular marker, seed purity, SSR, Plant culture, SB1-1110

Abstract

Wheat fulfills 20% of global caloric requirement. World needs 60% more wheat for 9 billion population by 2050 but climate change with increasing temperature is projected to affect wheat productivity adversely. Trait improvement and management of wheat germplasm requires genomic resource. Simple Sequence Repeats (SSRs) being highly polymorphic and ubiquitously distributed in the genome, can be a marker of choice but there is no structured marker database with options to generate primer pairs for genotyping on desired chromosome/physical location. Previously associated markers with different wheat trait are also not available in any database. Limitations of in vitro SSR discovery can be overcome by genome-wide in silico mining of SSR. Triticum aestivum SSR database (TaSSRDb) is an integrated online database with three-tier architecture, developed using PHP and MySQL and accessible at http://webtom.cabgrid.res.in/wheatssr/. For genotyping, Primer3 standalone code computes primers on user request. Chromosome-wise SSR calling for all the three sub genomes along with choice of motif types is provided in addition to the primer generation for desired marker. We report here a database of highest number of SSRs (476,169) from complex, hexaploid wheat genome (~17 GB) along with previously reported 268 SSR markers associated with 11 traits. Highest (116.93 SSRs/Mb) and lowest (74.57 SSRs/Mb) SSR densities were found on 2D and 3A chromosome, respectively. To obtain homozygous locus, e-PCR was done. Such 30 loci were randomly selected for PCR validation in panel of 18 wheat Advance Varietal Trial (AVT) lines. TaSSRDb can be a valuable genomic resource tool for linkage mapping, gene/QTL (Quantitative trait locus) discovery, diversity analysis, traceability and variety identification. Varietal specific profiling and differentiation can supplement DUS (Distinctiveness, Uniformity, and Stability) testing, EDV (Essentially Derived Variety)/IV (Initial Variety) disputes, seed purity and hybrid wheat testing. All these are required in germplasm management as well as also in the endeavor of wheat productivity.

Published

2017

14. Bulk Viscous Cosmological Model in Brans-Dicke Theory with New Form of Time Varying Deceleration Parameter

Author

G. P. Singh and Binaya K. Bishi

Subjects

Physics, QC1-999

Abstract

We have presented FRW cosmological model in the framework of Brans-Dicke theory. This paper deals with a new proposed form of deceleration parameter and cosmological constant Λ. The effect of bulk viscosity is also studied in the presence of modified Chaplygin gas equation of state (p=Aρ-B/ρn). Furthermore, we have discussed the physical behaviours of the models.

Published

2017

15. Bianchi Type-I Universe with Cosmological Constant and Quadratic Equation of State in f(R,T) Modified Gravity

Author

G. P. Singh and Binaya K. Bishi

Subjects

Physics, QC1-999

Abstract

This paper deals with the study of Bianchi type-I universe in the context of f(R,T) gravity. Einstein’s field equations in f(R,T) gravity have been solved in the presence of cosmological constant Λ and quadratic equation of state (EoS) p=αρ2-ρ, where α≠0 is a constant. Here, we have discussed two classes of f(R,T) gravity; that is, f(R,T)=R+2f(T) and f(R,T)=f1(R)+f2(T). A set of models has been taken into consideration based on the plausible relation. Also, we have studied some physical and kinematical properties of the models.

Published

2015

16. A general class of improved population variance estimators under non-sampling errors using calibrated weights in stratified sampling

Author

M. K. Pandey, G. N. Singh, Tolga Zaman, Aned Al Mutairi, and Manahil SidAhmed Mustafa

Subjects

Medicine, Science

Abstract

Abstract This paper proposes a new calibration estimator for population variance within a stratified two-phase sampling design. It takes into account random non-response and measurement errors, specifically applying this method to estimate the variance in Gas turbine exhaust pressure data. The study integrates additional information from two highly positively correlated auxiliary variables to develop a general class of estimators tailored for the stratified two-phase sampling scheme. The properties of these estimators, in terms of their biases and mean square errors, have been thoroughly examined and extensively analyzed through numerical and simulation studies. Furthermore, the calibrated weights of the strata are derived. The proposed estimators outperform the natural estimator of population variance. Finally, suitable recommendations have been made for survey statisticians intending to apply these findings to real-life problems.

Published

2024

17. Genetic evaluation of hulless barley (Hordeum vulgare) genotypes for morpho-physiological traits and stripe rust resistance

Author

JOGENDRA SINGH, SUDHEER KUMAR, O P GANGWAR, DINESH KUMAR, LOKENDRA KUMAR, CHUNI LAL, AJAY VERMA, REKHA MALIK, A S KHARUB, R P S VERMA, and G P SINGH

Subjects

Hulless barley, Morpho-physiological traits, Resistance, Stripe rust, Agriculture

Abstract

Nowadays, hulless barley (Hordeum vulgare L.) is gaining importance as a raw material for food industry due to its highly nutritive value. Non-availability of high yield and disease resistant varieties has restricted its production in marginal areas over the last two decades. Therefore, an experiment was conducted during 2017–18 and 2018–19 at the Seed and Research Farm of ICAR-Indian Institute of Wheat and Barley Research, Karnal, Haryana to characterized 11 exotic hulless barley genotypes and 4 Indian barley cultivars for morpho-physiological characters and stripe rust resistance. Seedling resistant test for stripe rust was done at Regional Station (ICAR-Indian Institute of Wheat and Barley Research), Flowerdale, Shimla, Himachal Pradesh. Highly significant genotypic differences were found for morpho-physiological traits during analysis of variance. Genotype DWRNB28 showed a good combination of desirable traits, viz. early maturity (118 days), dwarf plant height (64.4 cm) and high 1000-grain weight (55.2 g). Maximum number of tillers per meter (149) was observed in DWRNB17. Genotype DWRNB25 was found resistant to maximum pathotypes (6S0, 7S0, and Q) at the seedling stage. DWRNB23 and DWRNB25 with pooled ACI=0 and ACI=0.04 respectively, were found immune to stripe rust in field conditions. These promising genotypes can be utilized as donor parents for the development of high-yielding and stripe-rust-resistant hulless barley varieties.

Published

2024

18. Indigenous chicken production system in different agro-ecology of Indian Himalayan Region: implication on food and economic security

Author

Mahak Singh, R. N. Patton, R. T. Mollier, N. Pongener, Rekha Yadav, Vinay Singh, Rahul Katiyar, G. D. Singh, Sourabh Deori, Sunil Doley, J. K. Chaudhary, Subhash Babu, H. Kalita, and V. K. Mishra

Subjects

indigenous chicken production system, Indian Himalayan Region, food security, economic security, ecological resilience, Nutrition. Foods and food supply, TX341-641

Abstract

The indigenous chicken production system (ICPS) has several use values and ecosystem services. In the last few years, ICPS has been recognized for its possible contribution to household food security, income generation, wildlife protection, and bettering the women’s lives. This study aimed to collect, for the first time, comprehensive information about ICPS in three different agro-ecologies (tropical, sub-tropical, and sub-temperate) of the Indian Himalayan Region (IHR) and its role in food and economic security of traditional communities. In this study region, ICPS is semi-extensive, providing homegrown feed and temporary night shelter. In sub-temperate agro-ecology, females owned non-significant (p = 0.170) more indigenous chicken flocks than males. Households in sub-temperate agro-ecologies had significantly (p ≤ 0.001) larger flock sizes and tropical livestock units (chicken-TLU). However, the livestock diversity index (LDI) was significantly higher (p ≤ 0.001) in tropical and subtropical agro-ecology. The households in the sub-temperate region highly (p ≤ 0.001) valued indigenous chicken because of its survivability and adaptability. In absolute numbers significant (p ≤ 0.001) higher numbers of adult birds died in past 1 year in sub-temperate agro-ecology. The mortality rate of adult birds in sub-temperate agro-ecology was 9%, and it was 14 and 15% in tropical and sub-tropical agro-ecologies, respectively. In sub-temperate agro-ecology, larger flock size translated into significantly higher (p ≤ 0.001) egg production and subsequently a significant (p ≤ 0.001) higher egg consumption per household per month. In sub-temperate agro-ecology, households’ dietary diversity score was significantly (p ≤ 0.001) higher. Similarly, the average annual income from ICPS was significantly higher (p ≤ 0.001) in sub-temperate agro-ecology and accounted for 18% of household income. ICPS’ marketing chain was relatively short in the sub-temperate region. In all agro-ecologies, indigenous chicken and egg demand was significantly higher (p ≤ 0.001) in the winter. ICPS litter is used as farmyard manure, enhancing ecological resilience. In all agro-ecologies, the three most frequently cited obstacles to extending the indigenous chicken production system are illnesses, predators, and a lack of chicks availability. ICPS contributes to food and nutritional security, economic stability, and ecological resilience in this hilly and fragile ecosystem. Even though the system is self-sustaining, management and health interventions can increase production and productivity.

Published

2023

19. Comment on Dao et al. Retrospective Analysis of Real-World Data for the Treatment of Obstructive Sleep Apnea with Slow Maxillary Expansion Using a Unique Expansion Dental Appliance (DNA). Pathophysiology 2023, 30, 199–208

Author

G. Dave Singh

Subjects

n/a, Physiology, QP1-981

Abstract

I found the recent article by Dao et al [...]

Published

2023

20. Genome-wide association mapping of genomic regions associated with drought stress tolerance at seedling and reproductive stages in bread wheat

Author

S Srinatha Reddy, Dinesh Kumar Saini, G Mahendra Singh, Sandeep Sharma, Vinod Kumar Mishra, and Arun Kumar Joshi

Subjects

drought, hydroponics, seedling, reproductive, wheat, GWAS, Plant culture, SB1-1110

Abstract

Understanding the genetic architecture of drought stress tolerance in bread wheat at seedling and reproductive stages is crucial for developing drought-tolerant varieties. In the present study, 192 diverse wheat genotypes, a subset from the Wheat Associated Mapping Initiative (WAMI) panel, were evaluated at the seedling stage in a hydroponics system for chlorophyll content (CL), shoot length (SLT), shoot weight (SWT), root length (RLT), and root weight (RWT) under both drought and optimum conditions. Following that, a genome-wide association study (GWAS) was carried out using the phenotypic data recorded during the hydroponics experiment as well as data available from previously conducted multi-location field trials under optimal and drought stress conditions. The panel had previously been genotyped using the Infinium iSelect 90K SNP array with 26,814 polymorphic markers. Using single as well as multi-locus models, GWAS identified 94 significant marker-trait associations (MTAs) or SNPs associated with traits recorded at the seedling stage and 451 for traits recorded at the reproductive stage. The significant SNPs included several novel, significant, and promising MTAs for different traits. The average LD decay distance for the whole genome was approximately 0.48 Mbp, ranging from 0.07 Mbp (chromosome 6D) to 4.14 Mbp (chromosome 2A). Furthermore, several promising SNPs revealed significant differences among haplotypes for traits such as RLT, RWT, SLT, SWT, and GY under drought stress. Functional annotation and in silico expression analysis revealed important putative candidate genes underlying the identified stable genomic regions such as protein kinases, O-methyltransferases, GroES-like superfamily proteins, NAD-dependent dehydratases, etc. The findings of the present study may be useful for improving yield potential, and stability under drought stress conditions.

Published

2023

21. Use of growth regulators for lodging tolerance and increasing productivity of barley (Hordeum vulgare): An empirical study

Author

A S KHARUB, HARI RAM, BHAGAT SINGH, SUDESH KUMAR, NEELAM BERKESIA, MALURAM YADAV, B P SINGH, MANINDER KAUR, DINESH KUMAR, R P S VERMA, and G P SINGH

Subjects

Barley, Crop lodging, Crop productivity, Nitrogen management, Plant growth regulators, Agriculture

Abstract

A field study was carried out during winter (rabi) seasons of 2015–16 to 2017–18 at Karnal, Hisar, Ludhiana, Durgapura and Agra to evaluate the efficacy of plant growth regulators (CCC, ethephon and their combination) to reduce lodging and enhance productivity of barley (Hordeum vulgare L.) under high nitrogen level. Results revealed that application of 75 kg N/ha increased the grain yield by 3.17% over the recommended 60 kg/ha. The pooled mean lodging score with the application of growth regulators, viz. CCC, ethephon and combination of both was 5.21, 4.28 and 3.03 respectively, while without growth regulators application the lodging score was 9.57. With the application of plant growth regulator, the yield increased in the range of 2.5–4.1 q/ha (5.7–9.4%). The effect of CCC was relatively lesser as compared to ethephon, however the combination of both gave additive effect on yield increment (8.78%). Application of growth regulators increased 1000-grain weight by 6.21% over control. Therefore, the use of plant growth regulators i.e. CCC and ethephon under high nitrogen (75 kg N/ha) can be advocated as a sustainable strategy to enhance the productivity of barley through decreasing lodging problem.

Published

2022

22. Opportunities in valorisation of industrial food waste into extruded snack products – A review

Author

ANGAM RALENG, N G JOYKUMAR SINGH, PRASAD CHAVAN, and ARUN KUMAR ATTKAN

Subjects

Extrusion technology, Fortified snack, Fruit and vegetable by-products, Industrial waste utilization, Agriculture

Abstract

Fruit and vegetable by-product production produces a large amount of waste material, which poses a significant disposal issue for the food industry and can have harmful effect on the environment, if left unused. This waste includes nutrients like dietary fibre, vitamins and minerals, as well as bioactive like flavonoids and lycopene. The functional and nutritional characteristics of by-products of fruit and vegetable processing, as well as their possible utilization in food extrusion technology as noble ingredients for enhancing the nutritional value in snack foods are the subject of this study. This review also proposes a method for producing a less expensive value-added ingredient, which reduces the current methods of disposing of these waste (that can have a negative impact on the environment) but still saving money for the manufacturer. The potential and opportunity for fruit and vegetable by-products incorporation in extruded snack products, thereby enriching the fibre and other nutritional components of the snack, is reflected in this paper. Ingredient industries are constantly searching for cheaper but value-added raw materials. So, this review will also enhance the horizon for not only the food industries but also encourage micro food entrepreneurs, the Self Help Groups and certain other domestic food enterprises in terms of the utility of the food waste, the methods of development and value added aspects as a whole.

Published

2022

23. Midfacial development and the wisdom of teeth: A case series

Author

G. Dave Singh and Sangmin Lee

Subjects

biomimetic, eruption, impacted third molars, oral appliance therapy, Medicine, Medicine (General), R5-920

Abstract

Abstract The alignment of third molars has largely been overlooked by orthodontists. Since difficulties arise during their eruption, a plethora of surgical procedures is advocated for their management, including prophylactic extraction. This case series describes the use of midfacial development in 4 patients and illustrates successful patterns of third molar eruption.

Published

2022

24. Assessment of competencies of postgraduate students for veterinary extension at Indian Agricultural Universities

Author

GIRIJESH SINGH MAHRA, S K KASHYAP, NEELAM BHARDWAJ, V L V KAMESWARI, PRATIBHA JOSHI, and G K SINGH

Subjects

Agricultural universities, Competency fulfilment, Extension education, Postgraduate students, Veterinary extension, Animal culture, SF1-1100

Abstract

In Indian content of National Agricultural Research and Education System (NARES), agricultural extension connects agricultural research and farmers. Post-graduate teaching in Extension discipline across all agricultural universities prepares students to transfer relevant technologies to farming community and to conduct need-based research by inculcating desired competencies among students. The present study primarily focuses on assessing the overall competency fulfilment level of postgraduate extension students with respect to veterinary extension. The acquisition level of core competencies among students was compared with importance level of respective competencies associated by Livestock Extension professionals. The investigation was based on primary data compiled from 30 livestock extension professionals working in Uttarakhand and 210 postgraduates (M.Sc. and Ph.D.) students across ten agricultural universities of northern India. It was found that ten core competencies related to veterinary extension which were perceived as highly important by Livestock Extension professionals had low acquisition level among students. Out of the ten universities examined for competency fulfilment, only two universities had high level of competency fulfilment while four universities had low level of competency fulfilment. The overall competency fulfilment index of all ten universities was 0.522 indicating a competency fulfilment of just above average with respect to identified 24 competencies. The competency fulfilment index developed can be utilized by agricultural universities for competency mapping of livestock extension professionals and students for further investigations.

Published

2021

25. Genetic variability, Genotype × Environment interaction for grain yield of wheat (Triticum aestivum) backcross inbred lines population under different moisture regimes

Author

SHASHIKUMARA P, HARIKRISHNA HARIKRISHNA, NEELU JAIN, NIVEDITA SINHA, DIVYA CHAUHAN, RAHUL M PHUKE, DIVYA AMBATI, J B SINGH, S V SAI PRASAD, G P SINGH, K V PRABHU, and P K SINGH

Subjects

Drought, GGE biplot, Ideal genotype, Physiological traits, Yield stability, Agriculture

Abstract

Drought stress is well known phenomenon that affects the productivity of wheat (Triticum aestivum L). Knowledge on genetic variation, genotype × environment interaction and association between physiological and yield component traits is crucial for the development of improved varieties having high yield and water use efficiency. The present study consists of 280 backcross inbred lines (BILs) population evaluated for grain yield and morpho-physiological traits for two years at three locations. Combined ANOVA unfolded significant variability among traits in BILs population for yield and morpho-physiological traits.Grain yield showed significant association with normalized difference vegetation index (NDVI), soil plant analysis development (SPAD), thousand grain weight (TGW), and canopy temperature (CT). The genotype, environment and genotype ×environment interaction for yield was highly significant (p< 0.01). ASV (AMMI stability value) was calculated and top 29 genotypes were selected and further analyzed with AMMI and GGE biplot analysis for dissecting out genotype × environment interaction. The results classified genotypes G82, G202, G234, G263, G6, G192 and G77 are most stable and high yielding genotypes.

Published

2020

26. Identification of resistant genotypes and representative environments for spot blotch (Biploris sorokiniana) in barley (Hordeum vulgare)

Author

VISHNU KUMAR, SUDHEER KUMAR, S P SINGH, S S VAISH, DEEPSHIKHA DEEPSHIKHA, J B KHAN, A S KHARUB, and G P SINGH

Subjects

AMMI, Barley, HA-GGE, Spot blotch, Agriculture

Abstract

A set of 31 barley genotypes was evaluated at four locations, viz. Kanpur, Pantnagar, Varanasi and Faizabad for two years (2016 and 2017) against spot blotch [Biploris sorokiniana (Sacc.) Shoem.] resistance. The combined analysis of variance revealed significant influence of year (5.64%) and location (18.08%) effects with significant genotypic effects (29.05%). Location-wise, the highest susceptibility was observed at Varanasi (51.61%) followed by Kanpur (19.35%) whereas, the moderately susceptible reactions were obtained at Faizabad (67.74 %) and Kanpur (61.29%) locations. In heritability adjusted GGE biplot analysis, the ratio of (G+G × E)/(E+G+G × E) was estimated as 71.77 % and substantiated usefulness of generated biplots to elucidate resistant and stable genotypes with location discrimination. In AMMI analysis, the initial two principal components (PCs) cumulatively explained 90.7 % of total variation with individual scores of 51.8 % and 38.9 %, respectively. The triangular image of the initial three PCs depicted scattered pattern for disease reaction and varied response for the locations. The weather parameters, viz. maximum temperature, minimum temperature and sunshine hr/day showed strong correlations 0.87**, 0.83** and 0.64* with spot blotch severity. The genotypes, DWRB 180, PL 891 and DWRB 190 were found promising and suggested to be used in future resistance breeding and spot blotch genetic studies. The locations Varanasi and Faizabad were found type 2 discriminative and representative environments for spot blotch.

Published

2020

27. Characterizing waterlogging tolerance using multiple selection indices in bread wheat (Triticum aestivum)

Author

GYANENDRA SINGH, PRADEEP KUMAR, VIKAS GUPTA, B S TYAGI, CHARAN SINGH, A K SHARMA, and G P SINGH

Subjects

ICAR-Indian Institute of Wheat and Barley Research, Karnal, Haryana 132 001, India, Agriculture

Abstract

WL stress significantly affected grain yield, biological yield, tillers per meter, plant height and spike weight. The plant height, tillers per meter, spike weight, and biological yield were found to be positively and significantly correlated with grain yield under WL conditions. Among these traits, biological yield has maximum contribution towards WL tolerance and can be used for selection of tolerant genotypes. Significant and desirable correlation of different selection indices, viz. HM, MP, YSI, STI and PRGY indicated that any one of these can be used interchangeably to select stress tolerant genotypes.

Published

2020

28. G × E models for yield adaptation and target environment analysis in barley (Hordeum vulgare)

Author

VISHNU KUMAR, A S SHEKHAWAT, YOGENDER KUMAR, SIMARJIT KAUR, SWATI SWATI, A S KHARUB, and G P SINGH

Subjects

ER regression, G × E, HA-GGE, Unscaled GGE, YSI, Agriculture

Abstract

The present study was conducted to find out the best stability models out of methods, viz. Eberhart and Russell regression (ER model), yield stability index (YSI), AMMI, unscaled GGE and heritability adjusted GGE (HA-GGE) with target environment delineation in multi-location barley yield trials conducted at 08 locations during rabi, 2016–17. The pooled analysis revealed significant mean squares and large variations were attributed by the location effect (56.38%) followed by G × E (21.06%) and genotypes (7.77%), respectively. The initial two PCs exhibited 30.14 and 20.51 % variations in HA- GGE, which was slightly lower for PC1 and was marginally higher for PC2 than unscaled GGE. The which won where and mean vs. stability of GGE biplots model were useful to judge crossover G × E and in selecting specifically adapted genotypes easily. The YSI concluded based on grain yield and stability value simultaneously, hence found reliable than AMMI stability value. The locations Pantnagar and Modipuram were discriminating for genotypic differences, while the environments Durgapura and Ludhiana were found representative and discriminative for future barley yield trials. The genotype DWRB160 and two-row malt barley checks DWRB123 and RD2849 were found consistent and promising. Therefore, we suggest applying HA-GGE in coordinated barley yield trials to identify representative locations and thereby curtailing evaluation cost.

Published

2020

29. Tertiary Himalayan Coal-bearing Sequences of India: A Reappraisal of their Evolutionary Consequences

Author

Prakash K. Singh, B. P. Singh, Alok K. Singh, and G. P. Singh

Subjects

Geology

Published

2022

30. Documentation of multi-pathotype durable resistance in exotic wheat genotypes to deadly stripe and leaf rust diseases

Author

Katravath Srinivas, Vaibhav K. Singh, Bhukya Srinivas, Koshal K. Sameriya, Uttam Kumar, O. P. Gangwar, Subodh Kumar, Lakshman Prasad, and G. P. Singh

Subjects

Physiology, Genetics, Agronomy and Crop Science

Published

2023

31. Cosmological study with hyperbolic solution in modified f(Q, T) gravity theory

Author

G. P. Singh and Ashwini R. Lalke

Subjects

General Physics and Astronomy

Published

2022

32. Bianchi-I cosmology with generalised Chaplygin gas and periodic deceleration parameter

Author

N. Hulke, G. P. Singh, and Binaya K. Bishi

Subjects

General Physics and Astronomy

Published

2022

33. Relevance of height, heading and maturity in productivity enhancement of wheat

Author

G. P. Singh, Gyanendra . Singh, Rinki . Khobra, H. M. Mamrutha, and D. . Mohan

Subjects

Genetics, Plant Science

Abstract

Yield improvement in wheat through grain number and grain weight has become increasingly difficult in many production environments. Can the non-grain yield parameters of yield like height, flowering and maturity be explored as an alternate for further yield enhancement? This study comprehends such possibilities by analysing performance of the released and pre-released varieties evaluated in ten diverse production environments of India during the period 2000-2021. Regression analysis has highlighted relevance of these three crop expressions in wheat yield and based upon their contribution, selection criteria has been suggested for different production environments of India. Magnitude of impact varied under each environment and their collective contribution was highest in a production environment where growth condition was most favourable for wheat growth i.e., north-western plains. Increase in height and maturity duration coupled with early heading was found useful in this region for both wheat category, i.e., timely-sown and late-sown. These three yield determinants were found highly effective in timely-sown of the adjoining north-eastern plains also but under late-sown condition, prolonged heading was the chief yield predictor. Height for timely-sown and maturity for late-sown condition was most crucial for central India. Delayed heading in timely-sown and late flowering with extra height in late-sown wheat had been tipped for yield improvement in peninsular India. Delayed maturity for timely-sown and height for late-sown wheat had been suggested for productivity enhancement in the northern hills. Besides grain yield, this selection strategy based upon height and crop phenology also enhanced grain weight in certain environments. At a time when selection for grain attributes is not providing further push in productivity enhancement; it would be worth trying to explore these non-grain field indicators as selection strategy for further advancement in productivity of bread wheat.

Published

2022

34. Use of sequential compression device for prevention of hypotension associated with spinal anesthesia in elective caesarean section

Author

Vipin Kumar Singh, Aayushi Agarwal, Vinita Singh, and G P Singh

Abstract

A very high incidence of hypotension associated with spinal anesthesia (SA) is a matter of concern in obstetric anesthesia and a stable hemodynamic status is required to reduce morbidity furthermore to improve maternal safety. In this study we aim to evaluate the efficacy of sequential compression device for prevention of spinal anesthesia induced hypotension as compared to the standard crystalloid preloading.In this prospective randomized study, total 80 patients with ASA grade I/II divided were enrolled after ethical approval. The patients were randomly allocated into two groups (40 patients in each group) using the computer generated random table. Mechanical Pump (Group M): Sequential compression device was applied and discontinuous compression was started at 60 mmHg and Crystalloid group (Group C) - Patients were preloaded with Ringer’s lactate (RL) at dose of 10 ml/kg for not more than 10 minutes. Spinal block was given and RL was started at rate of 10-15 drops/min to keep venous line patent. The Chi Square test and Unpaired Student’s‘t’ tests were used. Statistically significant differences were observed in heart rate, systolic BP, diastolic BP, mean arterial pressure. The percentage drop in systolic BP from baseline was significantly more in crystalloid group (p=0.043). The sequential compression device is useful for prevention of hypotension in pregnant females undergoing elective caesarean section under spinal anesthesia.

Published

2022

35. Plasmonic Au–rGO–TiO2 ternary photocatalyst for photocatalytic hydrogen production and dye degradation

Author

Neha Singh, Soumita Jana, G. P. Singh, and R. K. Dey

Subjects

Environmental Engineering, Environmental Chemistry, Bioengineering

Published

2022

36. Comparative analysis of genotype x environments interaction for wheat genotypes by AMMI and BLUP for Peninsular zone

Author

A. VERMA and G. P. SINGH

Subjects

General Medicine

Published

2022

37. Advances in research in jamun (Syzygium cuminii): A review

Author

Sanjay Singh, A K Singh, D S Mishra, G P Singh, and B D Sharma

Subjects

General Earth and Planetary Sciences, General Environmental Science

Published

2022

38. TiO2 supported cobalt oxide for olefin epoxidation reaction – characterization, catalytic activities and mechanism – using a DFT model

Author

Subhashree Mishra, Simon Watre Sangma, Mukesh Kumar Poddar, Rajaram Bal, G. P. Singh, and Ratan Kumar Dey

Subjects

Inorganic Chemistry

Abstract

Conversion of olefin to epoxide: Surface acidic sites of the catalysts allow the electron rich olefin to get adsorb on the catalyst and facilitate the bond cleavage to form epoxides.

Published

2022

39. Late-time acceleration from ekpyrotic bounce in f(Q,T) gravity

Author

A. R. Lalke, G. P. Singh, and A. Singh

Subjects

Physics and Astronomy (miscellaneous)

Abstract

In this paper, we investigate the late-time accelerated universe evolution in a flat, homogeneous and isotropic model in the context of [Formula: see text] gravity, where [Formula: see text] and [Formula: see text] are non-metricity scalar and trace of energy–momentum tensor, respectively. The scale factor, by construction, yields ekpyrotic contraction era followed by a non-singular bounce. The expanding era of the universe yields late-time dark energy era preceded by matter-dominating decelerating era. The model unifies an ekpyrotic, non-singular bounce with the present dark energy-dominated epoch. The model parameters in the functional form of [Formula: see text] gravity affect the dynamical evolution of the equation of state (EoS) parameter. The theoretical value of EoS parameter is found to be [Formula: see text] for [Formula: see text], respectively, and it lies in range of the estimated value of EoS parameter from the Planck+SNe+BAO observational data. Different aspects of this bouncing model including behavior of geometrical and physical quantities along with energy conditions have been discussed in detail.

Published

2023

40. Multi-environment phenotyping to identify broad-based, stable resistance in wheat germplasms against leaf and stripe rust diseases

Author

Katravath Srinivas, Vaibhav K. Singh, Koshal K. Sameriya, O. P. Gangwar, Subodh Kumar, Lakshman Prasad, and G. P. Singh

Subjects

Physiology, Genetics, Agronomy and Crop Science

Published

2023

41. Diagnosis and Detection of Soil-Borne Fungal Phytopathogens in Major Crops

Author

Ravindra Kumar, Seweta Srivastava, Sudheer Kumar, Udai B. Singh, Tsewang Chosdon, Manoj Kumar Yadav, Ankush Kumar, Aradhana Sagwal, Ratan Tiwari, and G. P. Singh

Published

2023

42. Tensile and compression behaviour, microstructural characterization on Mg-3Zn-3Sn-0.7Mn alloy reinforced with SiCp prepared through powder metallurgy method

Author

G Robert Singh, S Christopher Ezhil Singh, M Sivapragash, Lenin Anselm, R Sanjeev Kumar, and A Haiter Lenin

Subjects

Mg-3Zn-3Sn-0.7Mn, silicon carbide, hardness, strength, SEM, powder metallurgy, Materials of engineering and construction. Mechanics of materials, TA401-492, Chemical technology, TP1-1185

Abstract

In this research paper, Mg-3Zn-3Sn-0.7Mn/SiC composite is developed by reinforcing various weight fractions of SiC _p in Mg-3Zn-3Sn-0.7Mn alloy through powder metallurgy route. The weight fraction of SiC _p usage is varied from 3% to 15% in Mg-3Zn-3Sn-0.7Mn alloy (i.e., in Mg-3Zn-3Sn-0.7Mn/ x SiC; the sample values are varies for x is 3, 6, 9, 12 and 15%). The effect of SiC _p addition got tested against its tensile strength, compression behavior, hardness, microstructure, alloying nature and porosity. This study shows better grain refinement with improved properties while reinforcing Mg-3Zn-3Sn-0.7Mn alloy with 6 wt% SiC composites. It was observed that the grain refinement occurred while adding up to 6 wt% of SiC particles in the composite and thereafter increase in SiC caused little grain refinement effect. Hardness is getting increased with the increase of SiC weight fraction and reached maximum to 133 HV at 12SiC/ Mg-3Zn-3Sn-0.7Mn. Higher UTS of 293 MPa obtained from the sample prepared with 12%SiC for 0.0533 s ^−1 strain rate. The highest UCS of 341 MPa is obtained from the sample made with 15%SiC inclusion for 0.0.0533 s ^−1 strain rate. From the SEM fracture analysis, the Mg-3Zn-3Sn-0.7Mn alloy and Mg-3Zn-3Sn-0.7Mn/SiC composite exhibit the almost same type of fracture called quasi-cleavage regardless of the % addition of SiC reinforcement. It was observed that the increase of SiC weight fraction increases the UCS because of its increased load-bearing capacity and reduction in cleavage facets.

Published

2020

43. Disposal Pattern of Vegetables in District Varanasi

Author

Pavan Kumar Singh, Ajeet Kumar, Bhartendu Yadav, Harendra Pratap Singh Choudri, and G. P. Singh

Subjects

General Medicine

Abstract

To analyze the disposal pattern of vegetables in district Varanasi, a purposive cum random sampling technique was used for the selection of district, blocks, villages and the respondents. From the study it is concluded that total disposal of cauliflower was 38.85 quintals, of tomato was 140.22 quintals, brinjal was 38.85 quintals and pea was 11.84 quintals. Maximum disposal of all the selected vegetables was found maximum through the channel III in case of both marginal and small farms. It shows the efficient involvement of the intermediaries in the marketing procedure.

Published

2021

44. Challenges and opportunities in productivity and sustainability of rice cultivation system: a critical review in Indian perspective

Author

Ajit Singh Kharub, Anandkumar Naorem, R. S. Chhokar, C. P. Sawant, Manoj Kumar, Subhash Chander Gill, Satendra K. Mangrauthia, Raj Pal Meena, G. P. Singh, O. P. Gupta, S. C. Tripathi, Raman Meenakshi Sundaram, Ajita Gupta, and Neeraj Kumar

Subjects

education.field_of_study, Conservation agriculture, Physiology, business.industry, Agroforestry, Global warming, Population, Residue management, food and beverages, Review, Groundwater table, Natural resource, Factor productivity, Water conservation, Rice production, Agriculture, Sustainability, Genetics, Cultivation System, business, education, Agronomy and Crop Science, Productivity

Abstract

Rice–wheat cropping system, intensively followed in Indo-Gangetic plains (IGP), played a prominent role in fulfilling the food grains demand of the increasing population of South Asia. In northern Indian plains, some practices such as intensive rice cultivation with traditional method for long-term have been associated with severe deterioration of natural resources, declining factor productivity, multiple nutrients deficiencies, depleting groundwater, labour scarcity and higher cost of cultivation, putting the agricultural sustainability in question. Varietal development, soil and water management, and adoption of resource conservation technologies in rice cultivation are the key interventions areas to address these challenges. The cultivation of lesser water requiring crops, replacing rice in light-textured soil and rainfed condition, should be encouraged through policy interventions. Direct seeding of short duration, high-yielding and stress tolerant rice varieties with water conservation technologies can be a successful approach to improve the input use efficiency in rice cultivation under medium–heavy-textured soils. Moreover, integrated approach of suitable cultivars for conservation agriculture, mechanized transplanting on zero-tilled/unpuddled field and need-based application of water, fertilizer and chemicals might be a successful approach for sustainable rice production system in the current scenario. In this review study, various challenges in productivity and sustainability of rice cultivation system and possible alternatives and solutions to overcome such challenges are discussed in details. Graphic abstract

Published

2021

45. Direct introgression of untapped diversity into elite wheat lines

Author

Ernesto Solís-Moya, Carolina Sansaloni, K. A. Laghari, Peter Wenzl, Lourdes Ledesma-Ramírez, Mandeep Randhawa, Mehboob Ali Sial, Satyavir Singh, Himanshi Chaudhary, Ashwani K. Basandrai, Mian Abdur Rehman Arif, Sridhar Bhavani, Daisy Basandrai, Juan Burgueño, Abdulqader Jighly, Navtej Singh Bains, Achala Sharma, Velu Govindan, Neftali Pardo, G. P. Singh, Sukhwinder Singh, Reem Joukhadar, S P Singh, Deepmala Sehgal, N. A. Saeed, Sajid Shokat, Muhammad Imtiaz, Prashant Vikram, and Virinder Singh Sohu

Subjects

Germplasm, Genetic diversity, education.field_of_study, Food security, Plant genetics, Population, Introgression, Biology, Evolutionary biology, Animal Science and Zoology, Plant breeding, education, Agronomy and Crop Science, Selection (genetic algorithm), Food Science

Abstract

The effective utilization of natural variation has become essential in addressing the challenges that climate change and population growth pose to global food security. Currently adopted protracted approaches to introgress exotic alleles into elite cultivars need substantial transformation. Here, through a strategic three-way crossing scheme among diverse exotics and the best historical elites (exotic/elite1//elite2), 2,867 pre-breeding lines were developed, genotyped and screened for multiple agronomic traits in four mega-environments. A meta-genome-wide association study, selective sweeps and haplotype-block-based analyses unveiled selection footprints in the genomes of pre-breeding lines as well as exotic-specific associations with agronomic traits. A simulation with a neutrality assumption demonstrated that many pre-breeding lines had significant exotic contributions despite substantial selection bias towards elite genomes. National breeding programmes worldwide have adopted 95 lines for germplasm enhancement, and 7 additional lines are being advanced in varietal release trials. This study presents a great leap forwards in the mobilization of GenBank variation to the breeding pipelines. Ancestral wheat relatives can enrich the genetic diversity of modern cultivars and contribute to stress adaptation. A meta-genome-wide association study identifies the exotic genome footprints in a wheat pre-breeding population, as well as some exotic-specific agronomic traits.

Published

2021

46. Epidemiology of dog bites in Patna: A cross sectional study

Author

N Agarwal, C M Singh, Kumar Gulsha, S Singh, S Sinha, K Singh, and G K Singh

Subjects

dog bite, rabies death, rabies vaccination, wound wash practice, dog bite category, Public aspects of medicine, RA1-1270

Abstract

Background: Dogs bite more than 4.7 million people a globally. India has the highest rate of human rabies in the world, primarily because of stray dogs, whose number has largely increased since 2001. Experts believe that public education can prevent these bites. The objectives are to estimate dog bite rate, describe dog bite characteristics, its risk factors and heath seeking behaviour of victims. Material and Methods: A community based cross sectional survey was done in urban areas of Patna, the capital of Bihar. A multistage sampling technique was used. Dog bite cases in the last one year were included. Results: We studied 5140 individuals (male 53%; female 47%). Dog bite cases were twice in males than that of females (26% and 13% respectively; p=0.0010) which increases with age up to 15 years, came down at 45 years and further went up, showing a bi-modal pattern. Dog bite incidence rate was 20 cases/1000 population (95%CI: 16, 24). The proportion of category III bite, leg bite, bite by male dog and bleeding was observed in 82.5%, 68%, 80% and 74% of cases respectively. Ninety two percent subjects took treatment within 24 hours, 45% washed their wound(s) with soap and water immediately after the dog bite, 76% sought medical help whereas 47% got vaccinated. Conclusion: Males are being more affected than the females and pattern of bite is bimodal, most bites were of cat III and involved dogs were male. Dog bites occur more during the summer season. Only one third of dogs who bit someone were found to be vaccinated. About 92% study subjects took treatment within 24 hrs of bite.

Published

2015

47. HD 3298: Biofortified, climate-resilient, high-yielding wheat variety for very late sown conditions of North-Western Plains of India

Author

Rajbir Yadav, Kiran B. Gaikwad, Manjeet Kumar, G. P. Singh, R. K. Sharma, P. K. Singh, Naresh Kumar, Prashanth Babu, Vinod ., Anju M. Singh, M. Sivasamy, P. Nallathambi, Vaibhav K. Singh, S.V. Sai Prasad, Sanjay Kumar, R. N. Yadav, Dharam Pal Walia, J. B. Sharma, Ambrish Sharma, Jang Bahadur Singh, Neelu Jain, Shailendra K. Jha, V. K. Vikas, Madhu Patial, T. R. Das, Niharika Mallick, Divya Ambati, Niranjana M., Harikrishna ., Raghunandan K., Rahul Phuke, M. S. Saharan, P. Jayaprakash, T. L. Prakasha, and K. Vinod Prabhu

Subjects

General Engineering

Published

2022

48. Physiologic Specialization and Genetic Differentiation of Puccinia triticina Causing Leaf Rust of Wheat on the Indian Subcontinent During 2016 to 2019

Author

Pramod Prasad, Nakul Gupta, O. P. Gangwar, Subhash C. Bhardwaj, Prem Lal Kashyap, Hanif Khan, G. P. Singh, R. Thakur, S. Kumar, and Siddanna Savadi

Subjects

Crop, Indian subcontinent, Wheat leaf rust, Puccinia triticina, biology, Agronomy, Plant Science, biology.organism_classification, Agronomy and Crop Science, Rust, Genetic differentiation

Abstract

Wheat is the second most cultivated cereal crop in the world and is an important crop in India. Leaf (brown) rust, caused by Puccinia triticina, was the most prevalent among the three rusts found in all the wheat-growing areas of India, Bhutan, and Nepal during 2016 to 2019. Leaf rust samples from wheat crops in these countries were pathotyped using the wheat differential genotypes and binomial Indian system of nomenclature. To facilitate international communication, each pathotype identified was also tested using the North American differentials. A total of 33 pathotypes were identified from 1,086 samples, including three new pathotypes: 61R47 (162-5 = KHTPM) and 93R49 (49 = NHKTN) from India and 93R57 (20-1 = NHKTN) from Nepal. Two pathotypes, 121R60-1 (77-9/52 = MHTKL) and 121R63-1 (77-5 = THTTM), accounted for 79.46% of the population. Virulence on Lr19 was identified in 0.27% of the samples from Nepal only. The proportion of pathotype 121R60-1 (77-9 = MHTKL) increased to 57.55% during these years. Virulence was not observed on Lr9, Lr24, Lr25, Lr28, Lr32, Lr39, Lr45, and Lr47 in the population of the Indian subcontinent. Eighteen polymorphic simple sequence repeat (SSR) primer pairs tested on the isolates amplified 48 alleles with an average of 2.66 alleles per primer pair. Based on SSR genotyping, these pathotypes could be grouped into two clades with another two subclades each. Many of the Lr genes present in Indian wheat germplasm (Lr1, Lr3a, Lr10, Lr11, Lr14a, Lr15, Lr16, Lr17, Lr20, Lr23, and Lr26) were ineffective for a majority of pathotypes. Most of these varieties possessed a high degree of leaf rust resistance. The field resistance of wheat varieties could be attributed to the interaction of genes, unknown resistance, or adult plant resistance.

Published

2021

49. Clinical and cone beam computed tomography comparison of NovaBone Dental Putty and PerioGlas in the treatment of mandibular Class II furcations

Author

Asmita, Vivek Gupta, Vivek Kumar Bains, G P Singh, and Rajesh Jhingran

Subjects

Cone beam computed tomography, furcation defect, NovaBone Dental Putty, PerioGlas, Dentistry, RK1-715

Abstract

Objective: The objective of this study is to compare the putty form of bioactive glass (NovaBone Dental Putty) and particulate form (PerioGlas) in the resolution of Class II furcation defects. Background: Use of bone regeneration materials is becoming common in periodontal surgeries including furcation defects and the promising role of bioactive allograft materials has encouraged their presentation in different morphologic forms with their own advantages and disadvantages giving the operator ample of choices in his/her periodontal armamentarium. Materials and Methods: A total of 28 patients with 40 Class II furcation defects were enrolled in the study and were randomly allocated to two groups with 20 sites in each group. Measurement of defects was done using clinical and cone beam computed tomography (CBCT) methods. The patients were followed-up at 6 months. Intergroup comparisons were done using Mann-Whitney U-test. Results: There was no significance between group differences in clinical parameters and defect size at the baseline. After 6 months, particulate form showed a mean resolution of 50.48 ± 16.47% and 51.11 ± 9.48%, respectively for vertical defect and horizontal defect while putty form showed a mean resolution of 43.48 ± 9.33% and 42.88 ± 11.09%, respectively. Mean resolution in furcation width was 40.15 ± 13.00% for particulate form as compared with 36.27 ± 11.41% in putty form. Statistically, there was no significant difference between two groups except for the horizontal defect fill where PerioGlas showed statistically better results. Conclusion: Putty form was comparable to particulate form for resolution of Class II furcation defects.

Published

2014

50. ADAPTABILITY PERFORMANCE OF FEED BARLEY GENOTYPES EVALUATED UNDER NWPZ OF THE COUNTRY

Author

Rps Verma, Lalit Kumar, Ajay Verma, G. P. Singh, and J. P. Singh

Subjects

Agronomy, media_common.quotation_subject, Genotype, Biology, Adaptability, media_common

Published

2021