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  2. Prathibha M.D

Prathibha M.D

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Designation: 
Scientist
Division/Section: 
Division of Basic Sciences
Specialisation: 
Plant Physiology
Publications: 

(Best 10/High Impact) 

  1. Doddaraju, P., Dharmappa, P.M., Thiagarayaselvam, A., Vijayaraghavareddy, P., Bheemanahalli, R., Basavaraddi, P.A., Malagondanahalli, M.K.V., Kambalimath, S., Thulasiram, H.V. and Sreeman, S.M., 2023. Comprehensive analysis of physiological and metabolomic responses to drought reveals specific modulation of acquired tolerance mechanisms in Rice. Physiologia Plantarum, p.e13917.
  2. Saha, D., Choyal, P., Mishra, U.N., Dey, P., Bose, B., Prathibha, M.D., Gupta, N.K., Mehta, B.K., Kumar, P., Pandey, S. and Chauhan, J., 2022. Drought stress responses and inducing tolerance by seed priming approach in plants. Plant Stress, p.100066.
  3. Prathibha M.D., Pushpa D., Mohan Kumar M.V., Raju B.R., Mallikarjuna N.M., Sowmya HR., Rajanna M.P., Udaya kumar M. and Sheshshayee M.S. Introgression of drought adaptive traits through Marker assisted backcrossing - An evidence for physiological breeding in rice (Oryza sativa), 2019, Rice. 
  4. Sheshshayee M.S, Preethi N.V, Rohini Sreevathsa, Sowmya H.R, Smitharani J.A, Pooja Bharti, Prathibha M.D. and Raju S.Y, Is Water Use Efficiency a relevant trait to improve drought tolerance? Current concepts and future opportunities.2018, Frontiers in Chemistry.
  5. Prathibha, M.D., Pushpa, D. and Rajashekar, R.B.H., 2015. Improving adaptability of IR-64 to aerobic condition through introgressing root and water use efficiency (WUE) by marker assisted backcross breeding (MABC). Trends in Biosciences8(21), pp.5937-5940.
  6. Saha, D., Parida, S., Kulkarni, C., Saha, P., Mishra, U.N., Dey, P., Kesawat, M.S., Prathibha, M.D., Singhal, R.K. and Anuragi, H., 2022. Crucial plant processes under excess of metals/metalloids and tolerance through omics approaches. In Metals Metalloids Soil Plant Water Systems (pp. 91-110). Academic Press.
  7. Dar, Z.A., Lone, A.A., Pratibha, M.D., Sofi, P.A., Abidi, I., Ali, G., Wani, M.A. and Khan, J.A., 2017. Variability in epicuticular wax content among temperate maize lines as a drought tolerance related mechanism. Int. J. Curr. Microbiol. App. Sci6(4), pp.441-445.
  8. Dar, Z.A., Ahmad, M., Lone, A.A., Sheshsayee, M.S., Pratibha, M.D., Alaie, B.A., Gulzafar, M.I., Makdoomi, A. and Gulzar, S., 2016. Genetic studies for drought related traits in temperate maize. Electronic Journal of Plant Breeding7(4), pp.1224-1232.
  9. Prathibha, M.D., Rajanna, M.P. and Sheshshayee, M.S., 2015. Marker Assisted Introgression of Water Use Efficiency (WUE) and Root Traits by Novel Multi-parent Backcross Breeding Strategy (MABC) in Rice (Oryza sativa L.). ecialise Sp49(2), pp.296-298.

Book Chapter

  1. Prathibha, M.D., Harsha, S.G., Geetha, G.A., Lokesha, A.N. and Shivashankara, K.S., 2023. Metabolomics as a Selection Tool for Abiotic Stress Tolerance in Crops. In Translating Physiological Tools to Augment Crop Breeding (pp. 311-335). Singapore: Springer Nature Singapore
  2. Basavaraj, P.S., Rane, J., Prathibha, M.D., Boraiah, K.M. and Kumar, M., 2023. Advances in High-Throughput Phenotyping of Maize (Zea Mays L.) for Climate Resilience. In Maize Improvement: Current Advances in Yield, Quality, and Stress Tolerance under Changing Climatic Scenarios (pp. 259-288). Cham: Springer International Publishing
  3. Raju, B.R., Mathithumilan, B., Pratibha, M.D., Sheshshayee, M.S., Mohanraju, B., Bollinedi, H., Shashank, P.R. and Kumar, U., 2014. Drought adaptive traits in rice: need for comprehensive approach. Not Available.
  4. Sheshshayee, M.S., Mohankumar, M.V., Raju, B.R., Pratibha, M.D., Rajanna, M.P., Mohanraju, B. and Udayakumar, M., Enhancing Water Use Efficiency and Effective Use of Water as A Potential Strategy to Develop Rice Cultivars Suitable for Semi-Irrigated Aerobic Cultivation.