| # | Title | Journal | Year | Citations |
|---|
| 1 | Transcription Factors and Plants Response to Drought Stress: Current Understanding and Future Directions | Frontiers in Plant Science | 2016 | 611 |
| 2 | Development of genic-SSR markers by deep transcriptome sequencing in pigeonpea [Cajanus cajan (L.) Millspaugh] | BMC Plant Biology | 2011 | 251 |
| 3 | Effects of Drought, Heat and Their Interaction on the Growth, Yield and Photosynthetic Function of Lentil (Lens culinaris Medikus) Genotypes Varying in Heat and Drought Sensitivity | Frontiers in Plant Science | 2017 | 199 |
| 4 | The first draft of the pigeonpea genome sequence | Journal of Plant Biochemistry and Biotechnology | 2012 | 167 |
| 5 | Towards marker‐assisted selection in pulses: a review | Plant Breeding | 2011 | 156 |
| 6 | Biocontrol Potential of Soybean Bacterial Endophytes Against Charcoal Rot Fungus, Rhizoctonia bataticola | Current Microbiology | 2009 | 113 |
| 7 | Differential regulation of microRNAs in response to osmotic, salt and cold stresses in wheat | Molecular Biology Reports | 2014 | 111 |
| 8 | Breeding approaches and genomics technologies to increase crop yield under low-temperature stress | Plant Cell Reports | 2017 | 110 |
| 9 | Genotype by environment studies demonstrate the critical role of phenology in adaptation of chickpea (Cicer arietinum L.) to high and low yielding environments of India | Field Crops Research | 2006 | 107 |
| 10 | Developing Climate-Resilient Chickpea Involving Physiological and Molecular Approaches With a Focus on Temperature and Drought Stresses | Frontiers in Plant Science | 2019 | 107 |
| 11 | Identification of High-Temperature Tolerant Lentil (Lens culinaris Medik.) Genotypes through Leaf and Pollen Traits | Frontiers in Plant Science | 2017 | 101 |
| 12 | Current knowledge in lentil genomics and its application for crop improvement | Frontiers in Plant Science | 2015 | 93 |
| 13 | Nanofertilizers for agricultural and environmental sustainability | Chemosphere | 2022 | 92 |
| 14 | Influence of drought and heat stress, applied independently or in combination during seed development, on qualitative and quantitative aspects of seeds of lentil (Lens culinaris Medikus) genotypes, differing in drought sensitivity | Plant, Cell and Environment | 2019 | 86 |
| 15 | Introgression of a major gene for high grain protein content in some Indian bread wheat cultivars | Field Crops Research | 2011 | 83 |
| 16 | Identification and characterisation of a highly divergent geminivirus: Evolutionary and taxonomic implications | Virus Research | 2013 | 76 |
| 17 | Long-term effect of pulses and nutrient management on soil carbon sequestration in Indo-Gangetic plains of India | Canadian Journal of Soil Science | 2013 | 76 |
| 18 | Multi-level impacts of the COVID-19 lockdown on agricultural systems in India: The case of Uttar Pradesh | Agricultural Systems | 2021 | 71 |
| 19 | (null) | Euphytica | 2003 | 63 |
| 20 | Heat stress induced impairment of starch mobilisation regulates pollen viability and grain yield in wheat: Study in Eastern Indo-Gangetic Plains | Field Crops Research | 2017 | 63 |
| 21 | LONG-TERM EFFECT OF PULSES AND NUTRIENT MANAGEMENT ON SOIL ORGANIC CARBON DYNAMICS AND SUSTAINABILITY ON AN INCEPTISOL OF INDO-GANGETIC PLAINS OF INDIA | Experimental Agriculture | 2012 | 57 |
| 22 | Phenotyping of traits imparting drought tolerance in lentil | Crop and Pasture Science | 2012 | 55 |
| 23 | Identification and Characterization of Contrasting Genotypes/Cultivars for Developing Heat Tolerance in Agricultural Crops: Current Status and Prospects | Frontiers in Plant Science | 2020 | 54 |
| 24 | Impact of heat stress during seed filling on seed quality and seed yield in lentil (Lens culinaris Medikus) genotypes | Journal of the Science of Food and Agriculture | 2018 | 48 |
| 25 | Root‐specific expression of chickpea cytokinin oxidase/dehydrogenase 6 leads to enhanced root growth, drought tolerance and yield without compromising nodulation | Plant Biotechnology Journal | 2020 | 46 |
| 26 | Two major genes for seed size in chickpea (Cicer arietinum L.) | Euphytica | 2006 | 42 |
| 27 | Morpho-physiological and biochemical changes in black gram (Vigna mungo L. Hepper) genotypes under drought stress at flowering stage | Acta Physiologiae Plantarum | 2019 | 42 |
| 28 | Genomic resources for improving food legume crops | Journal of Agricultural Science | 2012 | 41 |
| 29 | Assessment of mungbean genotypes for durable resistance to Yellow Mosaic Disease: Genotype × Environment interactions | Plant Breeding | 2017 | 40 |
| 30 | A protocol for high-quality genomic DNA extraction from legumes | Genetics and Molecular Research | 2012 | 39 |
| 31 | Long-term effect of pulse crops inclusion on soil–plant nutrient dynamics in puddled rice (Oryza sativa L.)-wheat (Triticum aestivum L.) cropping system on an Inceptisol of Indo-Gangetic plain zone of India | Nutrient Cycling in Agroecosystems | 2014 | 38 |
| 32 | Soil changes following long-term cultivation of pulses | Journal of Agricultural Science | 2009 | 37 |
| 33 | A study of genetic diversity among Indian bread wheat (Triticum aestivum L.) cultivars released during last 100 years | Genetic Resources and Crop Evolution | 2012 | 37 |
| 34 | Mining of rice blast resistance gene Pi54 shows effect of single nucleotide polymorphisms on phenotypic expression of the alleles | European Journal of Plant Pathology | 2013 | 35 |
| 35 | Identification and characterization of sources for photo‐ and thermo‐insensitivity in Vigna species | Plant Breeding | 2014 | 35 |
| 36 | Phosphorus and Micronutrient Nutrition of Chickpea Genotypes in a Multi-Nutrient-Deficient Typic Ustochrept | Journal of Plant Nutrition | 2006 | 34 |
| 37 | Exploring the Genetic Cipher of Chickpea (Cicer arietinum L.) Through Identification and Multi-environment Validation of Resistant Sources Against Fusarium Wilt (Fusarium oxysporum f. sp. ciceris) | Frontiers in Sustainable Food Systems | 2019 | 32 |
| 38 | Effects of stubble length of rice in mitigating soil moisture stress and on yield of lentil (Lens culinaris Medik) in rice-lentil relay crop | Agricultural Water Management | 2016 | 30 |
| 39 | Cross-genera amplification of informative microsatellite markers from common bean and lentil for the assessment of genetic diversity in pigeonpea | Physiology and Molecular Biology of Plants | 2010 | 29 |
| 40 | Erysiphe trifolii is able to overcome er1 and Er3, but not er2, resistance genes in pea | European Journal of Plant Pathology | 2013 | 29 |
| 41 | Identification and detection of genetic relatedness among important varieties of pea (Pisum sativum L.) grown in India | Genetica | 2007 | 26 |
| 42 | Abscisic acid biosynthesis under water stress: anomalous behavior of the 9-cis-epoxycarotenoid dioxygenase1 (NCED1) gene in rice | Biologia Plantarum | 2018 | 26 |
| 43 | PulsExpert: An expert system for the diagnosis and control of diseases in pulse crops | Expert Systems With Applications | 2011 | 25 |
| 44 | ‘Omics’ approaches in developing combined drought and heat tolerance in food crops | Plant Cell Reports | 2022 | 25 |
| 45 | Effect of soaking and cooking on dietary fibre components of different type of chickpea genotypes | Journal of Food Science and Technology | 2013 | 24 |
| 46 | Diversification of indigenous gene- pool by using exotic germplasm in lentil (Lens culinaris Medikus subsp. culinaris) | Physiology and Molecular Biology of Plants | 2014 | 24 |
| 47 | Improving Salt Tolerance of Chickpea Using Modern Genomics Tools and Molecular Breeding | Current Genomics | 2017 | 23 |
| 48 | Allelic relationships of genes controlling number of flowers per axis in chickpea | Euphytica | 2006 | 22 |
| 49 | Assessment of genetic diversity of pigeonpea cultivars using RAPD analysis | Biologia Plantarum | 2008 | 22 |
| 50 | Genetic Similarity Analysis in Lentil Using Cross‐Genera Legume Sequence Tagged Microsatellite Site Markers | Crop Science | 2011 | 22 |
