भा.कृ.अ.प. - भारतीय कृषि अनुसंधान संस्थान | ICAR-Indian Agricultural Research Institute

R.S. Indore, MP      (6 scientists)

Dr Gurumurthy S

   

Field of Specialisation : Mitigation and management of abiotic stresses in crop plants

Dr Gurumurthy S
Sr. Scientist

M.Sc. : CSAUA&T, Kanpur

Ph.D : ICAR-IARI, New Delhi

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Vidwan (Web Link)

PG School, Faculty Disciplines : Plant Physiology

No. of Students Guided : -    M.Sc :   5

   Ph.D :   2

Publications having NAAS rating 6 and above with first or corresponding author only

  1. Gurumurthy S, Sarkar B, Vanaja M, Lakshmi J Maheshwari M and Yadav SK (2019). Morpho-physiological and biochemical changes in black gram genotypes under drought stress at flowering stage. Acta Physiologiae Plantarum. 41:42. IF:2.8
  2. Gurumurthy, S., Ashu, A., Kruthika, S.et al. (2024). An innovative natural speed breeding technique for accelerated chickpea (Cicer arietinum L.) generation turnover. Plant Methods 20, 177. https://doi.org/10.1186/s13007-024-01299-9. IF:4.8
  3. Gurumurthy S, Mamatha, Basu, Rudresh, Basavaraja, Bheemanahalli, R., Pal, M., Jha, P., Soren, Nidagundi, Reddy, KS. & Rane J. (2024). Identification of photothermo-insensitive with climate-smart early-maturing chickpea genotypes. Plant Genetic Resources: Characterization and Utilization, 22, 149-157. IF:2.2
  4. Gurumurthy, S., Arora, A., Krishna, H., Chinnusamy, V. and Hazra, K.K. (2023). Genotypic capacity of post-anthesis stem reserve mobilization in wheat for yield sustainability under drought and heat stress in subtropical region. Frontiers in Genetics, 14: 1180941. IF:3.3
  5. Mamatha, B. C., Rudresh, K., Karthikeyan, N., Kumar, M., Ranjan Das., Taware, P. B., Khapte, P. S., Soren, K. R., Rane, J and Gurumurthy S (2023). Vegetal protein hydrolysates reduce the yield losses in off-season crops under combined heat and drought stress. Physiology and Molecular Biology of Plants, 29: 1049–1059. Corresponding author IF: 3.9
  6. Gurumurthy, S., Sanjay, U.N., Amaregouda, A. Reddy, K,S., et al (2023). Understanding the impact of combined heat and drought stress on the reproductive process of chickpea (Cicer arietinum L.). Plant Physiology Reports. https://doi.org/10.1007/s40502-023-00749-1 NAAS: 7.5
  7. Gurumurthy S Jagdish Singh, Basu PS, Meena SK, Singh NP, Rane J and Hazra KK (2022). Increased significance of chickpea senescence trait under water deficit environment. Environmental Challenges. 8:1-9.
  8. Gurumurthy, S., Soren, K.R., Pradhan, A. et al. (2022). Kharif Chickpea: A New Crop for the Western Maharashtra. National Academy Science Letters 45, 557–559. https://doi.org/10.1007/s40009-022-01144-4 NAAS: 7.10
  9. Gurumurthy S, Arora A, Sarkar B, Harikrishna, Singh VP, Yadav R, and Chinnusamy V (2019). Phenotyping for stem reserve mobilization under heat, drought and combined stress along with defoliation in wheat. Indian Journal of Agricultural Sciences. 89(5): 9-14. NAAS: 6.2
  10. Mohanty, P.K., Shiv Ramakrishnan, R., Mamatha, B.C., Rudresh, K., Sabale P.R., Madan Pal., Samaiya, R. K., Rane J. and Gurumurthy S (2023). Genotypes with high stem reserve mobilization can overcome the impact of rust on chickpea yield. Genetic Resources and Crop Evolution, 70: 1335-1340

Awards / Recognitions / Fellowship (Upto Five) :

  1. Innovation in Science Pursuit for Inspired Research (DST-INSPIRE) fellow