Original research articles

1. Das S, Kundu S, Meena K, Jha RK, Varma A, Bahuguna RN*, Tripathi S (2023). Seed biopriming with potential bioagents influences physiological processes and plant defense enzymes to ameliorate sheath blight-induced yield loss in rice (Oryza sativa L.). World Journal of Microbiology and Biotechnology, 39(5), 136.  [Impact factor: 4.10]

2. Kumar R, Bahuguna RN*, Tiwari M, Pal M, Chinnusamy V, Sreeman S, Muthurajan R, Jagadish SVK (2022). Walking through crossroads – Rice responses to heat and biotic stress interactions. Theoretical and Applied Genetics. (In Press) (*Joint First Authorship) [Impact factor: 5.699] 

3. Yadav C, Bahuguna RN*, Dhankher OP, Singla-Pareek SL, Pareek A (2022) Physiological and molecular signatures reveal differential response of rice genotypes to drought and drought combination with heat and salinity stress. Physiology and Molecular Biology of Plants, doi.org/10.1007/s12298-022-01162-y (*Joint first authorship) [Impact factor: 2.836]

4. Singh SK, Barman M, Prasad JP, Bahuguna RN (2022) Phenotyping diverse wheat genotypes under terminal heat stress reveal canopy temperature as critical determinant of grain yield. Plant Physiology Reports, https://doi.org/10.1007/s40502-022-00647-y

5. Bahuguna RN, Chaturvedi AK, Pal M, Viswanathan C, Jagadish SVK, Pareek A (2021) Carbon dioxide responsiveness mitigates rice yield loss under high night temperature. Plant Physiology, 188 (1): 285-300. [Impact factor: 8.972]

6. Khalid A, Joshi R, Morales A, Das G, Yin X, Anten N, Raghuvanshi S, Bahuguna RN, Singh MP, Singh RK, Zanten M, Sasidharan R, Singla-Pareek S, Pareek A (2021). Genetic diversity reveals synergistic interaction between yield components could improve the sink size and yield in rice. Food and Energy Security (open access), https://doi.org/10.1002/fes3.334  [Impact factor: 4.109]

7. Das A, Karwa S, Taunk J, Bahuguna RN, Chaturvedi AK, Kumar P, Chinnusamy V, Pal M (2021) Putrescine exogenous application alleviates oxidative stress in reproductive tissue under high temperature in rice. Plant Physiology Reports 26(2):381–391

8. Das P, Bahuguna RN Rathore RS, Abbat S, Nongpiur RC, Sarsu F, Singla-Pareek SL, Pareek A (2021) Gain-of-function mutants in rice with tolerance to multiple abiotic stresses show high constitutive abundance of stress-related transcripts and proteins. Australian Journal of Crop Sciences 13 (S05), doi: 10.21475/ajcs.21.15.07b.sp-1 [Impact factor: 1.02]

9. Karwa S, Bahuguna RN, Chaturvedi AK, Maurya S, Arya SS, Chinnusamy V, Pal M (2020) Phenotyping and characterization of heat stress tolerance at reproductive stage in rice (Oryza sativa L.). Acta Physiologiae Plantarum (42), 29. [Impact factor: 2.711]

10. Dabral S, Yashaswee, Varma A, Choudhary DK, Bahuguna RN,* Nath M (2019) Biopriming with Piriformospora indica ameliorates cadmium stress in rice by lowering oxidative stress and cell death in root cells. Ecotoxicology and Environment Safety 186: 109741. *Corresponding author. [Impact factor: 6.291]

11. Bahuguna RN, Tamilselvan A, Muthurajan R, Solis C, Jagadish SVK (2018) Short-term mild drought priming alleviates severe drought stress impact on seed-set and sink strength in rice. Functional Plant Biology. 45(8) 827-839 [Impact factor: 3.10]

12. Chaturvedi AK, Bahuguna RN*, Shah D, Pal M, Jagadish SVK (2017) High-temperature stress during flowering and grain filling offsets the beneficial impact of elevated CO2 on assimilate partitioning and sink-strength in rice. Nature-Scientific Reports. 7, 8227. (*Joint First Authorship). [Impact factor: 5.1]

13. Kadam N, Tamilselvan A, Lawas L, Quinones C, Bahuguna RN, Thomson M, Dingkuhn M, Muthurajan R, Struik P, Yin S, Jagadish SVK (2017) Genetic control of plasticity in root morphology and anatomy of rice in response to water-deficit. Plant Physiology, 174 (4): 2302-2315 [Impact factor: 8.972]

14. Chaturvedi AK, Bahuguna RN, Pal M, Shah D, Maurya S, Jagadish SVK (2017) Elevated CO2 and heat stress interactions affect grain yield, quality and mineral nutrient composition in rice under field conditions. Field Crop Research, 206: 149-157. [Impact factor: 5.22]

15. Bahuguna RN, Solis CA, Shi W, Jagadish SVK (2017) Post-flowering night respiration and altered sink activity account for high night temperature-induced grain yield and quality loss in rice (Oryza sativa L.). Physiologia Plantarum, 159: 59-73 [Impact factor: 6.400] 

16. Bahuguna RN, Jha J, Pal M, Shah D, Lawas ML, Khetarpal S, Jagadish SVK (2015) Physiological and biochemical characterization of NERICA-L 44: A novel source of heat tolerance at the vegetative and reproductive stages in rice. Physiologia Plantarum. 154: 543-559 [Impact factor: 6.400]

17. Pal M, Chaturvedi AK, Pandey SK, Bahuguna RN, Khetarpal S, Anand A (2014) Rising atmospheric CO2 may affect oil quality and seed yield of sunflower (Helianthus annus L.). Acta Physiologia Plantarum. 11: 2853-2861 [Impact factor: 2.711]

18. Bahuguna RN, Joshi R, Pandey M, Shukla A, Kumar J (2012) Thiamine primed defense provides a reliable alternative to systemic fungicide carbendazim against sheath blight disease in rice (Oryza sativa L.). Plant Physiology and Biochemistry. 57:159-167. [Impact factor: 6.5]

19. Bahuguna RN, Joshi R, Singh G, Shukla A, Gupta R, Bains G (2011) Micro-propagation and total alkaloid extraction of Rauwolfia serpentina: an important anti- hypersensitive medicinal shrub. Indian J Agricultural Sciences. 81 (12): 1124-1129. [Impact factor: 0.371]

20. Aien A, Chatruvedi AK, Bahuguna RN, Pal M (2016). Phenological sensitivity to high-temperature stress determines dry matter partitioning and yield in potato. Indian J of Plant Physiology. 22(1): 63-69.

21. Pal M, Chaturvedi AK, Shah D, Bahuguna RN, Sadhana, Singh S, Mukhopadhyay D, Khetarpal S, Anand A, Deshmukh PS, Bhardwaj C, Kumar J (2013). Growth dynamics and temperature sensitivity of late planting chickpea under Delhi conditions. Indian J. Plant Physiology 18: 79-82.

22. Bahuguna RN, Shah D, Jha J, Pandey SK, Khetarpal S, Pal M (2012) Effect of mild temperature stress on reproduction dynamics and yield of two promising chickpea (Cicer arietinum L.) genotypes. Indian J Plant Physiology, 17 (1): 1-8.

23. Aien A, Bahuguna RN, Khetarpal S, Pal M (2011) Higher glycinebetaine and antioxidant enzymes activity are associated with high temperature tolerance in potato. Indian Journal of Plant Physiology, 16(3), 285-293.

24. Pandey SK, Bahuguna RN, Pal M, Trivedi AK, Hemantaranjan A, Srivastava JP (2010) Effects of pre-treatment and foliar application of zinc on growth and yield components of mung bean (Vigna radiate L.) under induced salinity. Indian J. of Plant Physiology, 15(2), 164- 167.

25. Bahuguna RN, Shukla A, Pandey M, Nath M, Kumar J (2009) Physiological evaluation of Trichoderma harzianum against sheath blight in rice. Indian Journal of Plant Physiology 14 (2): 205-208.

Review Articles

26. Nan E, Ainsworth E, Bahuguna RN et al. (2022). Climate change challenges, plant science solutions. The Plant Cell (In Press). [Impact factor: 12.796]

27. Tripathi S, Bahuguna RN*, Shrivastava N, Singh S, Chatterjee A, Varma A, Jagadish SVK (2022). Microbial biofortification: A sustainable route to grow nutrient-rich crops under changing climate. Field Crops Research, 287, 108662. (*Joint First Authorship) [Impact factor: 6.145]

28. Kumar B, Singh A, Bahuguna RN, Pareek A, Pareek, SS (2022). Orphan crops: A genetic treasure trove for hunting stress tolerance genes. Food Energy and Security. (In Press) [Impact factor: 4.667]

29. Ostmeyer T, Bahuguna RN, Kirkham MB, Bean S, Jagadish SVK (2022). Enhancing sorghum yield through efficient use of nitrogen - challenges and opportunities. Frontiers in Plant Sciences 13: 845443. doi: 10.3389/fpls.2022.845443 [Impact factor: 5.753]

30. Bahuguna RN, Gupta P, Bagri J, Singh D, Dewi AK, Mirza Islam LT, Sarsu F, Singla-Pareek SL, Pareek A (2018). Forward and reverse genetics approaches for combined stress tolerance in rice. Indian J. of Plant Physiology, 23: 630–646.

31. Jagadish SVK, Bahuguna RN*, Djanaguiraman M, Gamuyao R, Prasad PVV, Craufurd PQ (2016) Implication of high temperature and elevated CO2 on flowering time in plants. Frontiers in Plant Sciences, 7:913 (*Joint First Authorship). [Impact factor: 5.753]

32. Jagadish SVK, Kishor PBK, Bahuguna RN, von Wirén N, Sreenivasulu N (2015) Staying Alive or Going to Die During Terminal Senescence—An Enigma Surrounding Yield Stability. Frontiers in Plant Science, 6: 1070. [Impact factor: 5.753]

33. Bahuguna RN, Jagadish SVK (2015) Temperature regulation of plant phenological development. Environmental and Experimental Botany. 111: 83-90. [Impact factor: 5.545]

34. Kadam NN, Xiao G, Melgar RJ, Bahuguna RN, Quinones C, Tamilselvan A, Prasad PVV, Jagadish SVK (2014) Agronomic and Physiological Responses to High Temperature, Drought, and Elevated CO2 Interactions in Cereals. In: Sparks, D. (Ed.), Advances in Agronomy. Academic Press, Elsevier Inc, 111–156. [Impact factor: 6.919]

35. Bahuguna RN, Chaturvedi A K, Pal M (2016). Physiological traits for improving high temperature stress tolerance in rice. Indian J of Plant Physiology. 21: 420-427.

Book Chapters

36. Das P, Bahuguna RN, Joshi R, Singla-Pareek SL, Pareek A (2021) In search of mutants for gene discovery and functional genomics for multiple stress tolerance in rice. In: Sivasankar S, Ellis THN, Jankuloski L, Ingelbrecht I (Eds.) Mutation breeding, genetic diversity and crop adaptation to climate change. Chapter 45. CABI, UK. Pp 444-450. (ISBN: 9781789249095).

37. Bahuguna RN, Jagadish KSV, Coast O, Wassmann R (2014) Plant Abiotic Stress: Temperature Extremes. In: Neal Van Alfen, editor-in-chief. Encyclopedia of Agriculture and Food Systems, Vol. 4, San Diego: Elsevier. pp. 330-334.

38. Bahuguna RN, Pal M (2011) Physiology of nitrogen fixation in legumes under elevated CO2. 2011. In: Climate change: Impacts and adaptations in crop plants. Today & Tomorrow’s Printers and Publishers, New Delhi, India. Pp: 213-228.

Books

39. Book titled “Pre-Field Screening Protocols For Heat Tolerant Mutant in Rice. (2017) Authors: Fatma Sarsu, Priyanka Das, Bahuguna, R.N. Kusolwa Paul Mbogo, Muhammad Ashraf, Sneh Lata Singla Pareek, Brian P. Forster, Ashwani Pareek. Publication from Joint FAO/IAEA Program (Nuclear Techniques in Food and Agriculture), ISBN: 9783319773377

40. Practical Manual on Genomics and Proteomics, University Press Publication No. PD/101/RPCAU, Pusa. 

Patents

41. A novel rice mutant having multiple abiotic stress tolerance. Investigators: Ashwani Pareek, Priyanka Das, Bahuguna, R.N. Ray Singh Rathore, Sneh Lata Singla-Pareek. Indian Patent Application No. 4025/DEL/2015.

Technology/Variety

42. Contributed in the development of a high yielding blast resistant finger millet (Eleucine coracana) variety Rajendra Madua-1 (RAUF-17) Dr Rajendra Prasad Central Agricultural University, Pusa, Samastipur, Bihar.

43. Contributed in the development of a high yielding, iron and zinc biofortified wheat (Triticum aestivum L.) variety Rajendra Genhu-4 (HUW-828) Dr Rajendra Prasad Central Agricultural University, Pusa, Samastipur, Bihar.

44. Developed a unique low-cost field-based plant phenotyping platform for screening crops and mapping populations for combinations of different abiotic stresses such as Heat, Drought, Salinity and elevated CO2 at Indian Agricultural Research Institute, Pusa New Delhi and Dr Rajendra Prasad Central Agricultural University, Pusa, Samastipur, Bihar.