Dr. Mirza Hasanuzzaman
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Dr. Mirza Hasanuzzaman

Professor
Department of Agronomy, Faculty of Agriculture, Sher-e-Bangla Agricultural University, Bangladesh


Highest Degree
PostDoc. in Plant Stress Physiology from University of Tasmania, Australia

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Biography

Dr. Mirza Hasanuzzaman is Professor of Agronomy at Sher-e-Bangla Agricultural University, Dhaka, Bangladesh. He completed his Bachelor of Science in Agriculture (Hons.) from Sher-e-Bangla Agricultural University, where he achieved first class, received a gold medal for being first in his class, and earned a Sher-e-Bangla Agricultural University Award. He also completed a Master of Science in Agronomy from the same university, where he was once again top of his class with a CGPA 4.0. In 2012, he received his PhD with a dissertation on ‘Plant Stress Physiology and Antioxidant Metabolism’ from the United Graduate School of Agricultural Sciences, Ehime University, Japan with a Japanese Government (MEXT) Scholarship. Later, he completed his postdoctoral research in the Center of Molecular Biosciences (COMB), University of the Ryukyus, Okinawa, Japan with a ‘Japan Society for the Promotion of Science (JSPS)’ postdoctoral fellowship. Subsequently, he became an Adjunct Senior Researcher at the University of Tasmania with an Australian Government’s Endeavour Research Fellowship. Prof. Hasanuzzaman has published over 100 articles in peer-reviewed journals and books, and has edited 7 books and written over 30 book chapters on important aspects of plant physiology, plant stress responses, and environmental problems in relation to plant species. He is Editor and a reviewer for more than 50 peer-reviewed international journals and the recipient of ‘Publons Peer Review Award 2017, 2018 and 2019’. He is member of 40 professional societies and is the Research and Publication Secretary of the Bangladesh JSPS Alumni Association. He received the World Academy of Science (TWAS) Young Scientist Award 2014. Prof. Hasanuzzaman is among the top 10 Bangladeshi researchers as per Scopus (2020) and one of the 5 researchers having more than 5000 citations.

Area of Interest:

Plant and Soil Sciences
100%
Agronomy
62%
Abiotic Stress in Crop Plants
90%
Plant Physiology
75%
Plant Nutrient
55%

Research Publications in Numbers

Books
18
Chapters
23
Articles
175
Abstracts
45

Selected Publications

  1. Rahman, A., Mazhar Ul Alam, M.S. Hossain, J. Al Mahmud, K. Nahar, M. Fujita and M. Hasanuzzaman, 2023. Exogenous gallic acid confers salt tolerance in rice seedlings: Modulation of ion homeostasis, osmoregulation, antioxidant defense, and methylglyoxal detoxification systems. Agronomy, Vol. 13. 10.3390/agronomy13010016.
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  2. Hasanuzzaman, M., M.R.H. Raihan, H.F. Alharby, H.S. Al-Zahrani and H. Alsamadany et al., 2023. Foliar application of ascorbic acid and tocopherol in conferring salt tolerance in rapeseed by enhancing K+/Na+ homeostasis, osmoregulation, antioxidant defense, and glyoxalase system. Agronomy, Vol. 13. 10.3390/agronomy13020361.
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  3. El-Hawary, M.M., O.S.M. Hashem and M. Hasanuzzaman, 2023. Seed priming and foliar application with ascorbic acid and salicylic acid mitigate salt stress in wheat. Agronomy, Vol. 13. 10.3390/agronomy13020493.
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  4. Timilsina, A., W. Dong, M. Hasanuzzaman, B. Liu and C. Hu, 2022. Nitrate-nitrite-nitric oxide pathway: A mechanism of hypoxia and anoxia tolerance in plants. Int. J. Mol. Sci., Vol. 23. 10.3390/ijms231911522.
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  5. Saha, I., A. Ghosh, D. Dolui, M. Fujita, M. Hasanuzzaman and M.K. Adak, 2022. Differential impact of nitric oxide and abscisic acid on the cellular and physiological functioning of sub1A QTL bearing rice genotype under salt stress. Plants, Vol. 11. 10.3390/plants11081084.
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  6. Raihan, M.R.H., M. Rahman, N.U. Mahmud, M.K. Adak, T. Islam, M. Fujita and M. Hasanuzzaman, 2022. Application of rhizobacteria, Paraburkholderia fungorum and Delftia sp. confer cadmium tolerance in rapeseed (Brassica campestris) through modulating antioxidant defense and glyoxalase systems. Plants, Vol. 11. 10.3390/plants11202738.
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  7. Nahar, K., M.S. Rhaman, K. Parvin, K. Bardhan, D.N. Marques, P. García-Caparrós and M. Hasanuzzaman, 2022. Arsenic-induced oxidative stress and antioxidant defense in plants. Stresses, 2: 179-209.
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  8. Kaur, N., S. Sharma, M. Hasanuzzaman and P.K. Pati, 2022. Genome editing: A promising approach for achieving abiotic stress tolerance in plants. Int. J. Genomics, Vol. 2022. 10.1155/2022/5547231.
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  9. Hasanuzzaman, M., M.R.H. Raihan, F. Nowroz and M. Fujita, 2022. Insight into the mechanism of salt-induced oxidative stress tolerance in soybean by the application of Bacillus subtilis: Coordinated actions of osmoregulation, ion homeostasis, antioxidant defense, and methylglyoxal detoxification. Antioxidants, Vol. 11. 10.3390/antiox11101856.
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  10. Hasanuzzaman, M., L.S. di Toppi and T. Adhikari, 2022. Stress responses in crops. Stresses, 2: 231-233.
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  11. Hasanuzzaman, M. and M. Fujita, 2022. Plant responses and tolerance to salt stress: Physiological and molecular interventions. Int. J. Mol. Sci., Vol. 23. 10.3390/ijms23094810.
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  12. Hasanuzzaman, M. and M. Fujita, 2022. Plant oxidative stress: Biology, physiology and mitigation. Plants, Vol. 11. 10.3390/plants11091185.
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  13. Gupta, A., R. Mishra, S. Rai, A. Bano and N. Pathak et al., 2022. Mechanistic insights of plant growth promoting bacteria mediated drought and salt stress tolerance in plants for sustainable agriculture. Int. J. Mol. Sci., Vol. 23. 10.3390/ijms23073741.
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  14. Gupta, A., P. Dubey, M. Kumar, A. Roy and D. Sharma et al., 2022. Consequences of arsenic contamination on plants and mycoremediation-mediated arsenic stress tolerance for sustainable agriculture. Plants, Vol. 11. 10.3390/plants11233220.
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  15. Ghosh, A., I. Saha, M. Fujita, S.C. Debnath, A.K. Hazra, M.K. Adak and M. Hasanuzzaman, 2022. Photoactivated TiO2 nanocomposite delays the postharvest ripening phenomenon through ethylene metabolism and related physiological changes in Capsicum fruit. Plants, Vol. 11. 10.3390/plants11040513.
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  16. Ghannad, R., M.M. Haghjou, A. Raza and M. Hasanuzzaman, 2022. Induction of hydrolytic enzyme activities in dormant seeds of Dracocephalum kotschyi Boiss. causes improvement of germination and seedling vigor indices. Acta Physiol. Plant., Vol. 44. 10.1007/s11738-022-03381-y.
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  17. Fujita, M. and M. Hasanuzzaman, 2022. Approaches to enhancing antioxidant defense in plants. Antioxidants, Vol. 11. 10.3390/antiox11050925.
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  18. Emamverdian, A., Y. Ding, J. Barker, G. Liu and M. Hasanuzzaman et al., 2022. Co-application of 24-epibrassinolide and titanium oxide nanoparticles promotes Pleioblastus pygmaeus plant tolerance to Cu and Cd toxicity by increasing antioxidant activity and photosynthetic capacity and reducing heavy metal accumulation and translocation. Antioxidants, Vol. 11. 10.3390/antiox11030451.
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  19. Dolui, D., M. Hasanuzzaman, I. Saha, A. Ghosh and M.K. Adak, 2022. Amelioration of sodium and arsenic toxicity in Salvinia natans L. with 2,4-D priming through physiological responses. Environ. Sci. Pollut. Res., 29: 9232-9247.
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  20. Al-Zahrani, H.S., K. Nahar, H.F. Alharby, H. Alsamadany, K.R. Hakeem and M. Hasanuzzaman, 2022. Zinc supplementation enhances glutathione-mediated antioxidant defense and glyoxalase systems to conferring salt tolerance in soybean (Glycine max L.). Agronomy, Vol. 12. 10.3390/agronomy12051032.
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  21. Sachdev, S., S.A. Ansari, M.I. Ansari, M. Fujita and M. Hasanuzzaman, 2021. Abiotic stress and reactive oxygen species: Generation, signaling, and defense mechanisms. Antioxidants, Vol. 10. 10.3390/antiox10020277.
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  22. Raza, A., A. Razzaq, S.S. Mehmood, M.A. Hussain and S. Wei et al., 2021. Omics: The way forward to enhance abiotic stress tolerance in Brassica napus L. GM Crops Food, 12: 251-281.
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  23. Rahman, M., K. Rahman, K.S. Sathi, M.M. Alam, K. Nahar, M. Fujita and M. Hasanuzzaman, 2021. Supplemental selenium and boron mitigate salt-induced oxidative damages in Glycine max L. Plants, Vol. 10. 10.3390/plants10102224.
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  24. Pirasteh-Anosheh, H., A. Mirhosseini, N.A. Akram and M. Hasanuzzaman, 2021. Forage potential of Salsola species in arid-saline rangelands. Turk. J. Bot., 45: 203-215.
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  25. Hasanuzzaman, M., M.R.H. Raihan, E. Khojah, B.N. Samra, M. Fujita and K. Nahar, 2021. Biochar and chitosan regulate antioxidant defense and methylglyoxal detoxification systems and enhance salt tolerance in jute (Corchorus olitorius L.). Antioxidants, Vol. 10. 10.3390/antiox10122017.
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  26. Hasanuzzaman, M., M. Inafuku, K. Nahar, M. Fujita and H. Oku, 2021. Nitric oxide regulates plant growth, physiology, antioxidant defense, and ion homeostasis to confer salt tolerance in the mangrove species, Kandelia obovata. Antioxidants, Vol. 10. 10.3390/antiox10040611.
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  27. Elbasiouny, H., F. Elbehiry, H. El-Ramady and M. Hasanuzzaman, 2021. Contradictory results of soil greenhouse gas emissions as affected by biochar application: Special focus on alkaline soils. Int. J. Environ. Res., 15: 903-920.
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  28. ElSayed, A.I., M.S. Rafudeen, A.M. Gomaa and M. Hasanuzzaman, 2021. Exogenous melatonin enhances the reactive oxygen species metabolism, antioxidant defense-related gene expression, and photosynthetic capacity of Phaseolus vulgaris L. to confer salt stress tolerance. Physiol. Plant., 173: 1369-1381.
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  29. Alharby, H.F., K. Nahar, H.S. Al-Zahrani, K.R. Hakeem and M. Hasanuzzaman, 2021. Enhancing salt tolerance in soybean by exogenous boron: Intrinsic study of the ascorbate-glutathione and glyoxalase pathways. Plants, Vol. 10. 10.3390/plants10102085.
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  30. ALKahtani, M., Y. Hafez, K. Attia, T. Al-Ateeq, M.A.M. Ali, M. Hasanuzzaman and K. Abdelaal, 2021. Bacillus thuringiensis and silicon modulate antioxidant metabolism and improve the physiological traits to confer salt tolerance in lettuce. Plants, Vol. 10. 10.3390/plants10051025.
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  31. Soliman, M.H., T.S. Alnusaire, N.F. Abdelbaky, A.A.M. Alayafi and M. Hasanuzzaman et al., 2020. Trichoderma-induced improvement in growth, photosynthetic pigments, proline, and glutathione levels in Cucurbita pepo seedlings under salt stress. Phyton-Int. J. Exp. Bot., 10.32604/phyton.2020.08795.
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  32. Sikdar, A., J. Wang, M. Hasanuzzaman, X. Liu and S. Feng et al., 2020. Phytostabilization of Pb-Zn mine tailings with Amorpha fruticosa aided by organic amendments and triple superphosphate. Molecules, Vol. 25, No. 7. 10.3390/molecules25071617.
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  33. Saleem, M.H., S. Ali, M. Rehman, M. Hasanuzzaman and M. Rizwan et al., 2020. Jute: A potential candidate for phytoremediation of metals—a review. Plants, Vol. 9, No. 2. 10.3390/plants9020258.
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  34. Saha, I., M. Hasanuzzaman, D. Dolui, D. Sikdar, S.C. Debnath an dM.K. Adak, 2020. Silver-nanoparticle and abscisic acid modulate sub1A quantitative trait loci functioning towards submergence tolerance in rice (Oryza sativa L.). Environ. Exp. Botany, 10.1016/j.envexpbot.2020.104276.
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  35. Rhaman, M.S., S. Imran, F. Rauf, M. Khatun, C.C. Baskin, Y. Murata and M. Hasanuzzaman, 2020. Seed priming with phytohormones: An effective approach for the mitigation of abiotic stress. Plants, Vol. 10. 10.3390/plants10010037.
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  36. Raza, A., S. Charagh, Z. Zahid, M.S. Mubarik, R. Javed, M.H. Siddiqui and M. Hasanuzzaman, 2020. Jasmonic acid: a key frontier in conferring abiotic stress tolerance in plants. Plant Cell Rep., 10.1007/s00299-020-02614-z.
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  37. Raza, A., M. Habib, S.N. Kakavand, Z. Zahid, N. Zahra, R. Sharif and M. Hasanuzzaman, 2020. Phytoremediation of cadmium: Physiological, biochemical, and molecular mechanisms. Biology, Vol. 9. 10.3390/biology9070177.
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  38. Parvin, K., M. Hasanuzzaman, S.M. Mohsin, K. Nahar and M. Fujita, 2020. Coumarin improves tomato plant tolerance to salinity by enhancing antioxidant defense, glyoxalase system and ion homeostasis. Plant Biol., 10.1111/plb.13208.
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  39. Ozturk, M., B.T. Unal, P. Garcu00edau2010Caparru00f3s, A. Khursheed, A. Gul and M. Hasanuzzaman, 2020. Osmoregulation and its actions during the drought stress in plants. Physiol. Plant., 10.1111/ppl.13297.
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  40. Naveed, M., N. Ramzan, A. Mustafa, A. Samad and B. Niamat et al., 2020. Alleviation of salinity induced oxidative stress in Chenopodium quinoa by Fe biofortification and biochar-endophyte interaction. Agronomy, Vol. 10. 10.3390/agronomy10020168.
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  41. Moustafa-Farag, M., A. Mahmoud, M.B. Arnao, M.S. Sheteiwy and M. Dafea et al., 2020. Melatonin-induced water stress tolerance in plants: Recent advances. Antioxidants, Vol. 9. 10.3390/antiox9090809.
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  42. Moustafa-Farag, M., A. Elkelish, M. Dafea, M. Khan and M.B. Arnao et al., 2020. Role of melatonin in plant tolerance to soil stressors: salinity, pH and heavy metals. Molecules, 10.3390/molecules25225359.
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  43. Monsur, M.B., N.A. Ivy, M.M. Haque, M. Hasanuzzaman, A.E. Sabagh and M.M. Rohman, 2020. Oxidative stress tolerance mechanism in rice under salinity. Phyton-Int. J. Exp. Bot., 10.32604/phyton.2020.09144.
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  44. Mohsin, S.M., M. Hasanuzzaman, K. Parvin and M. Fujita, 2020. Pretreatment of wheat (Triticum aestivum L.) seedlings with 2,4-D improves tolerance to salinity-induced oxidative stress and methylglyoxal toxicity by modulating ion homeostasis, antioxidant defenses, and glyoxalase systems. Plant Physiol. Biochem., 152: 221-231.
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  45. Mohsin, S.M., M. Hasanuzzaman, K. Nahar, M.S. Hossain, M.B. Bhuyan, K. Parvin and M. Fujita, 2020. Tebuconazole and trifloxystrobin regulate the physiology, antioxidant defense and methylglyoxal detoxification systems in conferring salt stress tolerance in Triticum aestivum L. Physiol. Mol. Biol. Plants, Vol. 26. 10.1007/s12298-020-00810-5.
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  46. Mahmud, J.A., M. Hasanuzzaman, M.I.R. Khan, K. Nahar and M. Fujita, 2020. ß-aminobutyric acid pretreatment confers salt stress tolerance in Brassica napus L. by modulating reactive oxygen species metabolism and methylglyoxal detoxification. Plants, Vol. 9, No. 2, 10.3390/plants9020241.
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  47. Liu, J., M. Hasanuzzaman, H. Sun, J. Zhang and T. Peng et al., 2020. Comparative morphological and transcriptomic responses of lowland and upland rice to root-zone hypoxia. Environ. Exp. Bot., Vol. 169. 10.1016/j.envexpbot.2019.103916.
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  48. Kapoor, R.T. and M. Hasanuzzaman, 2020. Exogenous kinetin and putrescine synergistically mitigate salt stress in Luffa acutangula by modulating physiology and antioxidant defense. Physiol. Mol. Biol. Plants, 26: 2125-2137.
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  49. Hossain, M.S., M. Abdelrahman, C.D. Tran, K.H. Nguyen and H.D. Chu et al., 2020. Insights into acetate-mediated copper homeostasis and antioxidant defense in lentil under excessive copper stress. Environ. Pollut., Vol. 258. 10.1016/j.envpol.2019.113544.
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  50. Hasanuzzaman, M., S.M. Mohsin, M.H.M.B. Bhuyan, T.F. Bhuiyan, T.I. Anee, A.A.C. Masud and K. Nahar, 2020. Phytotoxicity, environmental and health hazards of herbicides: challenges and ways forward. In: Agrochemicals Detection, Treatment and Remediation. Prasad, M.N.V., Elsevier, Amsterdam, Netherlands, pp: 55-99.
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  51. Hasanuzzaman, M., M.H.M.B. Bhuyan, K. Parvin, T.F. Bhuiyan and T.I. Anee et al., 2020. Regulation of ros metabolism in plants under environmental stress: a review of recent experimental evidence. Int. J. Mol. Sci., 10.3390/ijms21228695.
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  52. Hasanuzzaman, M., M.H.M.B. Bhuyan, K. Nahar, S.M. Mohsin, J. Al-Mahmud, K. Parvin and M. Fujita, 2020. Exogenous nitric oxide‐ and hydrogen sulfide‐induced abiotic stress tolerance in plants. In: Protective Chemical Agents in the Amelioration of Plant Abiotic Stress: Biochemical and Molecular Perspectives, Roychoudhury, A. and D.K. Tripathi, Wiley, Hoboken, New Jersey, United States, Pages: 40.
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  53. Hasanuzzaman, M., M.H.M.B. Bhuyan, F. Zulfiqar, A. Raza, S.M. Mohsin, J. Al Mahmud, M. Fujita and V. Fotopoulos, 2020. Reactive oxygen species and antioxidant defense in plants under abiotic stress: revisiting the crucial role of a universal defense regulator. Antioxidants, Vol. 9. 10.3390/antiox9080681.
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  54. Hasanuzzaman, M., M.H.M.B. Bhuyan, A. Raza, B. Hawrylak-Nowak, R. Matraszek-Gawron, K. Nahar and M. Fujita, 2020. Selenium toxicity in plants and environment: biogeochemistry and remediation possibilities. Plants, 10.3390/plants9121711.
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  55. Hasanuzzaman, M., M.H.M.B. Bhuyan, A. Raza, B. Hawrylak-Nowak and R. Matraszek-Gawron et al., 2020. Selenium in plants: boon or bane? Environ. Exp. Bot., 10.1016/j.envexpbot.2020.104170.
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  56. Hasanuzzaman, M., K. Nahar, M.I.R. Khan, J.A. Mahmud, M.M. Alam and M. Fujita, 2020. Regulation of reactive oxygen species metabolism and glyoxalase systems by exogenous osmolytes confers thermotolerance in Brassica napus. Gesunde Pflanz., 72: 3-16.
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  57. Hasanuzzaman, M., 2020. Agronomic Crops. 1st Edn., Springer Singapore Germany, ISBN-13 978-981-15-0027-5, Pages: 658.
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  58. Hasanuzzaman, M. and M. Tanveer, 2020. Salt and Drought Stress Tolerance in Plants. 1st Edn., Springer, Chem, Switzerland, ISBN: 978-3-030-40279-2, Pages: 403.
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  59. Georgakis, N., N. Poudel, A.C. Papageorgiou and N.E. Labrou, 2020. Comparative structural and functional analysis of phi class glutathione transferases involved in multiple-herbicide resistance of grass weeds and crops. Plant Physiol. Biochem., 149: 266-276.
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  60. Garcu00eda-Caparru00f3s, P., L.D. Filippis, A. Gul, M. Hasanuzzaman, M. Ozturk, V. Altay and M.T. Lao, 2020. Oxidative stress and antioxidant metabolism under adverse environmental conditions: a review. Botanical Rev., 10.1007/s12229-020-09231-1.
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  61. Elkelish, A.A., H.A.S. Alhaithloul, S.H. Qari, M.H. Soliman and M. Hasanuzzaman, 2020. Pretreatment with Trichoderma harzianum alleviates waterlogging-induced growth alterations in tomato seedlings by modulating physiological, biochemical, and molecular mechanisms. Environ. Exp. Bot., Vol. 171. 10.1016/j.envexpbot.2019.103946.
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  62. Chakraborty, M., M. Hasanuzzaman, M. Rahman, M.A.R. Khan and P. Bhowmik et al., 2020. Mechanism of plant growth promotion and disease suppression by chitosan biopolymer. Agriculture, 10.3390/agriculture10120624.
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  63. Borhannuddin Bhuyan, M.H.M., M. Hasanuzzaman, K. Parvin, S.M. Mohsin, J. Al Mahmud, K. Nahar and M. Fujita, 2020. Nitric oxide and hydrogen sulfide: Two intimate collaborators regulating plant defense against abiotic stress. Plant Growth Regul., 90: 409-424.
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  64. Borhannuddin Bhuyan, M.H.M., K. Parvin, S.M. Mohsin, J.A. Mahmud, M. Hasanuzzaman and M. Fujita, 2020. Modulation of cadmium tolerance in rice: Insight into vanillic acid-induced upregulation of antioxidant defense and glyoxalase systems. Plants, Vol. 9, No. 2. 10.3390/plants9020188.
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  65. Ali, S., Z. Abbas, M.F. Seleiman, M. Rizwan and u0130. YAVAu015e et al., 2020. Glycine betaine accumulation, significance and interests for heavy metal tolerance in plants. Plants, 10.3390/plants9070896.
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  66. Ali, S., Z. Abbas, M. Rizwan, I.E. Zaheer and İ. Yavaş et al., 2020. Application of floating aquatic plants in phytoremediation of heavy metals polluted water: A review. Sustainability, Vol. 12, No. 5. 10.3390/su12051927.
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  67. Ali, S., M. Rizwan, M.S. Arif, R. Ahmad, M. Hasanuzzaman, B. Ali and A. Hussain, 2020. Approaches in enhancing thermotolerance in plants: An updated review. J. Plant Growth Regul., 39: 456-480.
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  68. Alam, M.K., R.W. Bell, M. Hasanuzzaman, N. Salahin and M.H. Rashid et al., 2020. Rice (Oryza sativa L.) establishment techniques and their implications for soil properties, global warming potential mitigation and crop yields. Agronomy, 10.3390/agronomy10060888.
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  69. Tanveer, M., M. Hasanuzzaman and L. Wang, 2019. Lithium in environment and potential targets to reduce lithium toxicity in plants. J. Plant Growth Regul., 38: 1574-1586.
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  70. Rohman, M., M. Islam, M.B. Monsur, M. Amiruzzaman, M. Fujita and M. Hasanuzzaman, 2019. Trehalose protects maize plants from salt stress and phosphorus deficiency. Plants, Vol. 8, No. 12. 10.3390/plants8120568.
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  71. Parvin, K., M. Hasanuzzaman, M.H.M. Bhuyan, S.M. Mohsin and M. Fujita, 2019. Quercetin mediated salt tolerance in tomato through the enhancement of plant antioxidant defense and glyoxalase systems. Plants, Vol. 8, No. 8. 10.3390/plants8080247.
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  72. Parvin, K., M. Hasanuzzaman, M.H.M. Bhuyan, K. Nahar, S.M. Mohsin and M. Fujita, 2019. Comparative physiological and biochemical changes in tomato (Solanum lycopersicum L.) under salt stress and recovery: Role of antioxidant defense and glyoxalase systems. Antioxidants, Vol. 8, No. 9. 10.3390/antiox8090350.
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  73. Liu, J., M. Hasanuzzaman, H. Wen, J. Zhang, T. Peng, H. Sun and Q. Zhao, 2019. High temperature and drought stress cause abscisic acid and reactive oxygen species accumulation and suppress seed germination growth in rice. Protoplasma, 256: 1217-1227.
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  74. Ibrahim, E.AA., 2019. Fundamental Processes Involved in Seed Priming. In: Priming and Pretreatment of Seeds and Seedlings, Hasanuzzaman, M. and V. Fotopoulos, Springer International Publishing, Singapore, ISBN-13: 978-981-13-8624-4, pp: 63-115.
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  75. Hossain, M.S., M. Hasanuzzaman, M.M.H. Sohag, M.H.M.B. Bhuyan and M. Fujita, 2019. Acetate-induced modulation of ascorbate: Glutathione cycle and restriction of sodium accumulation in shoot confer salt tolerance in Lens culinaris Medik. Physiol. Mol. Biol. Plants, 25: 443-455.
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  76. Hossain, M.S., M. Hasanuzzaman, A. Rahman, K. Nahar, J.A. Mahmud and M. Fujita, 2019. Heat shock-induced salt stress tolerance in lentil (Lens culinaris Medik.). Russ. J. Plant Physiol., 66: 450-460.
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  77. Hasanuzzaman, M., V. Fotopoulos, K. Nahar and M. Fujita, 2019. Reactive oxygen, nitrogen and sulfur species in plants: production, metabolism, signaling and defense mechanisms. Wiley Online Library, United States, ISBN-13 9781119468677 .
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  78. Hasanuzzaman, M., M.M. Alam, K. Nahar, S.M. Mohsin and M.H.M.B. Bhuyan et al., 2019. Silicon-induced antioxidant defense and methylglyoxal detoxification works coordinately in alleviating nickel toxicity in Oryza sativa L. Ecotoxicology, 28: 261-276.
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  79. Hasanuzzaman, M., M.H.M.B. Bhuyan, T.I. Anee, K. Parvin, K. Nahar, J.A. Mahmud and M. Fujita, 2019. Regulation of ascorbate-glutathione pathway in mitigating oxidative damage in plants under abiotic stress. Antioxidants, Vol. 8, Vol. 9. 10.3390/antiox8090384.
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  80. Hasanuzzaman, M., M.A. Matin, J. Fardus, M. Hasanuzzaman, M.S. Hossain and K. Parvin, 2019. Foliar application of salicylic acid improves growth and yield attributes by upregulating the antioxidant defense system in Brassica campestris plants grown in lead-amended soils. Acta Agrobot, Vol. 72, No. 2. 10.5586/aa.1765.
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  81. Hasanuzzaman, M., K.R. Hakeem, K. Nahar and H.F. Alharby, 2019. Plant Abiotic Stress Tolerance. 1st Edn., Springer International Publishing Germany, ISBN-13 978-3-030-06118-0, Pages: 490.
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  82. Hasanuzzaman, M., K. Nahar and M. Öztürk, 2019. Ecophysiology, Abiotic Stress Responses and Utilization of Halophytes. 1st Edn., Springer, Cham, Germany, ISBN-13 978-981-13-3762-8, Pages: 401.
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  83. Hasanuzzaman, M., H.A.S. Alhaithloul, K. Parvin, M.H.M.B. Bhuyan and M. Tanveer et al., 2019. Polyamine action under metal/metalloid stress: regulation of biosynthesis, metabolism, and molecular interactions. Int. J. Mol. Sci., Vol. 20, No. 13. 10.3390/ijms20133215.
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  84. Hasanuzzaman, M., A. Banerjee, M.H.M.B. Bhuyan, A. Roychoudhury, J.A. Mahmud and M. Fujita, 2019. Targeting glycinebetaine for abiotic stress tolerance in crop plants: Physiological mechanism, molecular interaction and signaling. Phyton-Int. J. Exp. Bot., 88: 185-221.
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  85. Hasanuzzaman, M., 2019. Agronomic Crops. 1st Edn., Springer Singapore Germany, ISBN-13 978-981-32-9785-2, Pages: 652.
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  86. Hasanuzzaman, M., 2019. Agronomic Crops. 1st Edn., Springer Singapore Germany, ISBN-13 978-981-32-9153-9, Pages: 710.
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  87. Bhuyan, M.H.M.B., M. Hasanuzzaman, J.A. Mahmud, M.S. Hossain, M.U. Alam and M. Fujita, 2019. Explicating physiological and biochemical responses of wheat cultivars under acidity stress: Insight into the antioxidant defense and glyoxalase systems. Physiol. Mol. Biol. Plants, 25: 865-879.
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  88. Bhuyan, M., M. Hasanuzzaman, J. Mahmud, M. Hossain, T. Bhuiyan and M. Fujita, 2019. Unraveling morphophysiological and biochemical responses of Triticum aestivum L. to extreme pH: Coordinated actions of antioxidant defense and glyoxalase systems. Plants, Vol. 8, No. 1. 10.3390/plants8010024.
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  89. Bhuiyan, T.F., K.U. Ahamed, K. Nahar, J.A. Mahmud and M.H.M.B. Bhuyan et al., 2019. Mitigation of PEG-induced drought stress in rapeseed (Brassica rapa L.) by exogenous application of osmolytes. Biocatal. Agric. Biotechnol., Vol. 20. 10.1016/j.bcab.2019.101197.
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  90. Barma, N.C.D., A. Hossain, M.A. Hakim, K.A. Mottaleb, M.A. Alam, M.M.A. Reza and M.M. Rohman, 2019. Progress and challenges of wheat production in the era of climate change: a Bangladesh perspective. In: Wheat Production in Changing Environments. Hasanuzzaman, M., K. Nahar and M. Hossain, Springer Singapore Singapore, ISBN-13 978-981-13-6883-7, pp: 615-679.
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  91. Anee, T.I., K. Nahar, A. Rahman, J.A. Mahmud and T.F. Bhuiyan et al., 2019. Oxidative damage and antioxidant defense in Sesamum indicum after different waterlogging durations. Plants, Vol. 8, No. 7. 10.3390/plants8070196.
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  92. Hawrylak-Nowak, B., S. Dresler, K. Rubinowska, R. Matraszek-Gawron, W. Woch and M. Hasanuzzaman, 2018. Selenium biofortification enhances the growth and alters the physiological response of lamb's lettuce grown under high temperature stress. Plant Physiol. Biochem., 127: 446-456.
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  93. Hasanuzzaman, M., T.I. Anee, T.F. Bhuiyan, K. Nahar and M. Fujita, 2018. Emerging Role of Osmolytes in Enhancing Abiotic Stress Tolerance in Rice. In: Advances in Rice Research for Abiotic Stress Tolerance, Hasanuzzaman, M., M. Fujita and J.K. Biswas (Eds.)., Elsevier, New York, ISBN: 978-0-12-814332-2, pp: 677-708.
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  94. Hasanuzzaman, M., M.S. Hossain, M.B. Bhuyan, J. Al Mahmud, K. Nahar and M. Fujita, 2018. The Role of Sulfur in Plant Abiotic Stress Tolerance: Molecular Interactions and Defense Mechanisms. In: Plant Nutrients and Abiotic Stress Tolerance, Hasanuzzaman, M., M. Fujita, H. Oku, K. Nahar and B. Hawrylak-Nowak (Eds.)., Springer, Singapore, ISBN: 978-981-10-9044-8, pp: 221-252.
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  95. Hasanuzzaman, M., M.H.M.B. Bhuyan, J.A. Mahmud, K. Nahar, S.M. Mohsin, K. Parvin and M. Fujita, 2018. Interaction of sulfur with phytohormones and signaling molecules in conferring abiotic stress tolerance to plants. Plant Signal. Behav., Vol. 13. 10.1080/15592324.2018.1477905.
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  96. Hasanuzzaman, M., M. Bhuyan, K. Nahar, M. Hossain and J. Mahmud et al., 2018. Potassium: A vital regulator of plant responses and tolerance to abiotic stresses. Agronomy, Vol. 8, No. 3, 10.3390/agronomy8030031.
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  97. Hasanuzzaman, M., K. Nahar, T.I. Anee, M.I.R. Khan and M. Fujita, 2018. Silicon-mediated regulation of antioxidant defense and glyoxalase systems confers drought stress tolerance in Brassica napus L. S. Afr. J. Bot., 115: 50-57.
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  98. Hasanuzzaman, M., K. Nahar, M.M. Rohman, T.I. Anee, Y. Huang and M. Fujita, 2018. Exogenous silicon protects Brassica napus plants from salinity-induced oxidative stress through the modulation of AsA-GSH pathway, thiol-dependent antioxidant enzymes and glyoxalase systems. Gesunde Pflanz., 70: 185-194.
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  99. Hasanuzzaman, M., K. Nahar, M.M. Alam, M.H.M.B. Bhuyan, H. Oku and M. Fujita, 2018. Exogenous nitric oxide pretreatment protects Brassica napus L. seedlings from paraquat toxicity through the modulation of antioxidant defense and glyoxalase systems. Plant Physiol. Biochem., 126: 173-186.
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  100. Hasanuzzaman, M., K. Nahar, A. Rahman, M. Inafuku, H. Oku and M. Fujita, 2018. Exogenous nitric oxide donor and arginine provide protection against short-term drought stress in wheat seedlings. Physiol. Mol. Biol. Plants, 24: 993-1004.
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  101. Hasanuzzaman, M., K. Nahar, A. Rahman, J.A. Mahmud, H.F. Alharby and M. Fujita, 2018. Exogenous glutathione attenuates lead-induced oxidative stress in wheat by improving antioxidant defense and physiological mechanisms. J. Plant Interact., 13: 203-212.
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  102. Hasanuzzaman, M., H. Oku, K. Nahar, M.H.M.B. Bhuyan, J. Al Mahmud, F. Baluska and M. Fujita, 2018. Nitric oxide-induced salt stress tolerance in plants: ROS metabolism, signaling, and molecular interactions. Plant Biotechnol. Rep., 12: 77-92.
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  103. Hasanuzzaman M., J.A. Mahmud, T.I. Anee, K. Nahar and M.T. Islam, 2018. Drought Stress Tolerance in Wheat: Omics Approaches in Understanding and Enhancing Antioxidant Defense. In: Abiotic Stress-Mediated Sensing and Signaling in Plants: An Omics Perspective, Zargar, S. and M. Zargar (Eds.)., Springer, Singapore, ISBN: 978-981-10-7479-0, pp: 267-307,.
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  104. Biswas, J.K., M.S. Kabir, M.S.Rahman, K. Nahar and M. Hasanuzzaman, 2018. Managing Abiotic Stresses With Rice Agriculture to Achieve Sustainable Food Security: Bangladesh Perspective. In: Advances in Rice Research for Abiotic Stress Tolerance, Hasanuzzaman, M., M. Fujita and J.K. Biswas (Eds.)., Elsevier, New York, ISBN: 978-0-12-814332-2, pp: 23-45.
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  105. Ahmad, S., M. Iqbal, T. Muhammad, A. Mehmood, S. Ahmad and M. Hasanuzzaman, 2018. Cotton productivity enhanced through transplanting and early sowing. Acta Sci. Biol. Sci., Vol. 40. 10.4025/actascibiolsci.v40i1.34610.
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  106. Shekari, L., M.M. Kamelmanesh, M. Mozafariyan, M. Hasanuzzaman and F. Sadeghi, 2017. Role of selenium in mitigation of cadmium toxicity in pepper grown in hydroponic condition. J. Plant Nutr., 40: 761-772.
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  107. Per, T.S., N.A. Khan, P.S. Reddy, A. Masood, M. Hasanuzzaman, M.I.R. Khan and N.A. Anjum, 2017. Approaches in modulating proline metabolism in plants for salt and drought stress tolerance: Phytohormones, mineral nutrients and transgenics. Plant Physiol. Biochem., 115: 126-140.
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  108. Nahar, K., M. Hasanuzzaman, T. Suzuki and M. Fujita, 2017. Polyamines-induced aluminum tolerance in mung bean: A study on antioxidant defense and methylglyoxal detoxification systems. Ecotoxicology, 26: 58-73.
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  109. Nahar, K., M. Hasanuzzaman, M.M. Alam, A. Rahman, J.A. Mahmud, T. Suzuki and M. Fujita, 2017. Insights into spermine-induced combined high temperature and drought tolerance in mung bean: Osmoregulation and roles of antioxidant and glyoxalase system. Protoplasma, 254: 445-460.
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  110. Mahmud, J.A., M. Hasanuzzaman, K. Nahar, M.H.M.B. Bhuyan and M. Fujita, 2017. Insights into citric acid-induced cadmium tolerance and phytoremediation in Brassica juncea L.: Coordinated functions of metal chelation, antioxidant defense and glyoxalase systems. Ecotoxicol. Environ. Saf., 147: 990-1001.
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  111. Mahmud, J.A., M. Hasanuzzaman, K. Nahar, A. Rahman, M.S. Hossain and M. Fujita, 2017. γ-aminobutyric acid (GABA) confers chromium stress tolerance in Brassica juncea L. by modulating the antioxidant defense and glyoxalase systems. Ecotoxicology, 26: 675-690.
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  112. Khan, A., Y. Anwar, M.M. Hasan, A. Iqbal and M. Ali et al., 2017. Attenuation of drought stress in brassica seedlings with exogenous application of Ca2+ and H2O2. Plants, Vol. 6. 10.3390/plants6020020.
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  113. Hossain, M.S., M.U. Alam, A. Rahman, M. Hasanuzzaman, K. Nahar, J.A. Mahmud and M. Fujita, 2017. Use of iso-osmotic solution to understand salt stress responses in lentil (Lens culinaris Medik.). S. Afr. J. Bot., 113: 346-354.
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  114. Hasanuzzaman, M., K. Nahar, T.I. Anee and M. Fujita, 2017. Glutathione in plants: Biosynthesis and physiological role in environmental stress tolerance. Physiol. Mol. Biol. Plants, 23: 249-268.
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  115. Hasanuzzaman, M., K. Nahar, T.I. Anee and M. Fujita, 2017. Exogenous silicon attenuates cadmium-induced oxidative stress in Brassica napus L. by modulating AsA-GSH pathway and glyoxalase system. Frontiers Plant Sci., Vol. 8. 10.3389/fpls.2017.01061.
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  116. Hasanuzzaman, M., K. Nahar, T.F. Bhuiyan, T.I. Anee, M. Inafuku, H. Oku and M. Fujita, 2017. Salicylic Acid: An All-Rounder in Regulating Abiotic Stress Responses in Plants. In: Phytohormones-signaling Mechanisms and Crosstalk in Plant Development and Stress Responses, El-Esawi, M.A. (Ed.)., InTech, London, ISBN: 978-953-51-3412-1, pp: 31-75.
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  117. Hasanuzzaman, M., K. Nahar, S.S. Gill, H.F. Alharby, B.H. Razafindrabe and M. Fujita, 2017. Hydrogen peroxide pretreatment mitigates cadmium-induced oxidative stress in Brassica napus L.: An intrinsic study on antioxidant defense and glyoxalase systems. Frontiers Plant Sci., Vol. 8. 10.3389/fpls.2017.00115.
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  118. Hasanuzzaman, M., K. Nahar, M.S. Hossain, T.I. Anee, K. Parvin and M. Fujita, 2017. Nitric oxide pretreatment enhances antioxidant defense and glyoxalase systems to confer PEG-induced oxidative stress in rapeseed. J. Plant Interact., 12: 323-331.
    CrossRef  |  Direct Link  |  
  119. Hasanuzzaman, M., K. Nahar, M.S. Hossain, J.A. Mahmud and A. Rahman et al., 2017. Coordinated actions of glyoxalase and antioxidant defense systems in conferring abiotic stress tolerance in plants. Int. J. Mol. Sci., Vol. 18. 10.3390/ijms18010200.
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  120. Hasanuzzaman, M., K. Nahar, A. Rahman, T.I. Anee and M.U. Alam et al., 2017. Approaches to Enhance Salt Stress Tolerance in Wheat. In: Wheat Improvement, Management and Utilization, Wanyera, R. and J. Owuoche (Eds.)., InTech., London, ISBN: 978-953-51-3152-6, pp: 151-187.
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  121. Hasanuzzaman, M., K. Nahar, A. Rahman, J.A. Mahmud and S. Hossain et al., 2017. Actions of Biological Trace Elements in Plant Abiotic Stress Tolerance. In: Essential Plant Nutrients, Naeem M., A. Ansari and S. Gill (Eds.)., Springer International Publishing, Cham, Switzerland, ISBN: 978-3-319-58841-4, pp: 213-274.
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  122. Hasanuzzaman, M., J.A. Mahmud, K. Nahar, T.I. Anee, M. Inafuku, H. Oku and M. Fujita, 2017. Responses, Adaptation, and ROS Metabolism in Plants Exposed to Waterlogging Stress. In: Reactive Oxygen Species and Antioxidant Systems in Plants: Role and Regulation under Abiotic Stress, Khan, M. and N. Khan (Eds.)., Springer, Singapore, ISBN: 978-981-10-5254-5, pp: 257-281.
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  123. Alam, M.K., N. Salahin, S. Islam, R.A. Begum, M. Hasanuzzaman, M.S. Islam and M.M. Rahman, 2017. Patterns of change in soil organic matter, physical properties and crop productivity under tillage practices and cropping systems in Bangladesh. J. Agric. Sci., 155: 216-238.
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  124. Al Mahmud, J., M. Hasanuzzaman, K. Nahar, A. Rahman, M.S. Hossain and M. Fujita, 2017. Maleic acid assisted improvement of metal chelation and antioxidant metabolism confers chromium tolerance in Brassica juncea L. Ecotoxicol. Environ. Safety, 144: 216-226.
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  125. Ahmad, S., Q. Abbas, G. Abbas, Z. Fatima and Atique-ur-Rehman et al., 2017. Quantification of climate warming and crop management impacts on cotton phenology. Plants, Vol. 6. 10.3390/plants6010007.
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  126. Abbas, G., S. Ahmad, A. Ahmad, W. Nasim and Z. Fatima et al., 2017. Quantification the impacts of climate change and crop management on phenology of maize-based cropping system in Punjab, Pakistan. Agric. For. Meteorol., 247: 42-55.
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  127. Rahman, A., K. Nahar, M. Hasanuzzaman and M. Fujita, 2016. Manganese-induced cadmium stress tolerance in rice seedlings: Coordinated action of antioxidant defense, glyoxalase system and nutrient homeostasis. Comptes Rendus Biologies, 339: 462-474.
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  128. Rahman, A., K. Nahar, M. Hasanuzzaman and M. Fujita, 2016. Calcium supplementation improves Na+/K+ ratio, antioxidant defense and glyoxalase systems in salt-stressed rice seedlings. Front. Plant Sci., Vol. 7. 10.3389/fpls.2016.00609.
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  129. Nahar, K., M. Rahman, M. Hasanuzzaman, M.M. Alam, A. Rahman, T. Suzuki and M. Fujita, 2016. Physiological and biochemical mechanisms of spermine-induced cadmium stress tolerance in mung bean (Vigna radiata L.) seedlings. Environ. Sci. Pollut. Res., 23: 21206-21218.
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  130. Nahar, K., M. Hasanuzzaman, A. Rahman, M.M. Alam, J.A. Mahmud, T. Suzuki and M. Fujita, 2016. Polyamines confer salt tolerance in mung bean (Vigna radiata L.) by reducing sodium uptake, improving nutrient homeostasis, antioxidant defense and methylglyoxal detoxification systems. Front. Plant Sci., Vol. 7. 10.3389/fpls.2016.01104.
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  131. Hasanuzzaman, M., K. Nahar, P. Ahmad and M. Fujita, 2016. Nitric Oxide: A Jack of All Trades for Drought Stress Tolerance in Plants. In: Water Stress and Crop Plants: A Sustainable Approach, Ahmad, P. (Ed.)., John Wiley & Sons, Ltd., Hoboken, New Jersey, ISBN: 9781119054450, pp: 628-648.
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  132. Hasanuzzaman, M., K. Nahar, A. Rahman, J.A. Mahmud, M.S. Hossain and M. Fujita, 2016. Soybean Production and Environmental Stresses. In: Environmental Stresses in Soybean Production, Miransari, M. (Ed.)., Elsevier, New York, ISBN: 978-0-12-801535-3, pp: 61-102.
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  133. Anjum, N.A., P. Sharma, S.S. Gill, M. Hasanuzzaman and E.A. Khan et al., 2016. Catalase and ascorbate peroxidase—representative H2O2-detoxifying heme enzymes in plants. Environ. Sci. Pollut. Res., 23: 19002-19029.
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  134. Rahman, A., M.G. Mostofa, M.M. Alam, K. Nahar, M. Hasanuzzaman and M. Fujita, 2015. Calcium mitigates arsenic toxicity in rice seedlings by reducing arsenic uptake and modulating the antioxidant defense and glyoxalase systems and stress markers. BioMed Res. Int. 10.1155/2015/340812.
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  135. Rahman, A., M.G. Mostofa, K. Nahar, M. Hasanuzzaman and M. Fujita, 2015. Exogenous calcium alleviates cadmium-induced oxidative stress in rice (Oryza sativa L.) seedlings by regulating the antioxidant defense and glyoxalase systems. Braz. J. Bot. 10.1007/s40415-015-0240-0.
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  136. Nahar, K., M. Hasanuzzaman, M.M. Alam, A. Rahman, T. Suzuki and M. Fujita, 2015. Polyamine and nitric oxide crosstalk: Antagonistic effects on cadmium toxicity in mung bean plants through upregulating the metal detoxification, antioxidant defense and methylglyoxal detoxification systems. Ecotoxicol. Environ. Saf., 126: 245-255.
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  137. Nahar, K., M. Hasanuzzaman, M.M. Alam and M. Fujita, 2015. Glutathione-induced drought stress tolerance in mung bean: Coordinated roles of the antioxidant defence and methylglyoxal detoxification systems. AoB Plants, Vol. 7. 10.1093/aobpla/plv069.
    CrossRef  |  PubMed  |  Direct Link  |  
  138. Nahar, K., M. Hasanuzzaman, M.M. Alam and M. Fujita, 2015. Exogenous spermidine alleviates low temperature injury in mung bean (Vigna radiata L.) seedlings by modulating ascorbate-glutathione and glyoxalase pathway. Int. J. Mol. Sci., 16: 30117-30132.
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  139. Nahar, K., M. Hasanuzzaman, M.M. Alam and M. Fujita, 2015. Exogenous glutathione confers high temperature stress tolerance in mung bean (Vigna radiata L.) by modulating antioxidant defense and methylglyoxal detoxification system. Environ. Exp. Bot., 112: 44-54.
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  140. Hasanuzzaman, M., K. Nahar, M.M. Alam, S. Ahmad and M. Fujita, 2015. Exogenous Application of Phytoprotectants in Legumes Against Environmental Stress. In: Legumes under Environmental Stress: Yield, Improvement and Adaptations, Azooz, M.M. and P. Ahmad (Eds.)., John Wiley & Sons, Ltd., Hoboken, New Jersey, ISBN: 9781118917091, pp: 161-197.
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  141. Gill, S.S., N.A. Anjum, R. Gill, S. Yadav and M. Hasanuzzaman et al., 2015. Superoxide dismutase-mentor of abiotic stress tolerance in crop plants. Environ. Sci. Pollut. Res., 22: 10375-10394.
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  142. Anjum, N.A., M. Hasanuzzaman, M.A. Hossain, T. Palaniswamy and A. Roychoudhury et al., 2015. Jacks of metal/metalloid chelation trade in plants-an overview. Front. Plant Sci., Vol. 6. 10.3389/fpls.2015.00192.
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  143. Nahar, K., M. Hasanuzzaman, M.M. Alam and M. Fujita, 2014. Roles of exogenous glutathione in antioxidant defense system and methylglyoxal detoxification during salt stress in mung bean. Biol. Plant., 59: 745-756.
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  144. Mirza, H., N. Kamrun and M. Fujita, 2014. Regulatory Role of Polyamines in Growth, Development and Abiotic Stress Tolerance in Plants. In: Plant Adaptation to Environmental Change: Significance of Amino Acids and Their Derivatives, Anjum, N.A., S.S. Gill and R. Gill, (Eds.)., CABI, Japan, ISBN: 9781780642734 pp: 157-193.
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  145. Hasanuzzaman, M., M.M. Alam, A. Rahman, M. Hasanuzzaman, K. Nahar and M. Fujita, 2014. Exogenous proline and glycine betaine mediated upregulation of antioxidant defense and glyoxalase systems provides better protection against salt-induced oxidative stress in two rice (Oryza sativa L.) varieties. BioMed Res. Int., Vol. 2014, 10.1155/2014/757219.
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  146. Hasanuzzaman, M., K. Nahar, M.M. Alam, P.C. Bhowmik and M.A. Hossain et al., 2014. Potential use of halophytes to remediate saline soils. BioMed Res. Int., Vol. 2014. 10.1155/2014/589341.
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  147. Hasanuzzaman, M., K. Nahar, M.M. Alam and M. Fujita, 2014. Modulation of antioxidant machinery and the methylglyoxal detoxification system in selenium-supplemented Brassica napus seedlings confers tolerance to high temperature stress. Biol. Trace Elem. Res., 161: 297-307.
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  148. Hasanuzzaman, M., K. Nahar and M. Fujita, 2014. Silicon and Selenium: Two Vital Trace Elements that Confer Abiotic Stress Tolerance to Plants. In: Emerging Technologies and Management of Crop Stress Tolerance, Ahmad, P. and S. Rasool, (Eds.)., Elsevier, ‎Amsterdam, Netherlands, pp: 377-442.
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  149. Hasanuzzaman, M., K. Nahar and M. Fujita, 2014. Role of tocopherol (vitamin E) in plants: Abiotic stress tolerance and beyond. Emerging Technol. Manage. Crop Stress Tolerance, 2: 267-289.
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  150. Hasanuzzaman, M., K. Nahar and M. Fujita, 2014. Arsenic Toxicity in Plants and Possible Remediation. In: Soil Remediation and Plants: Prospects and Challenges, Hakeem, K.R., M. Sabir and A.R. Mermut (Eds.)., Elsevier, New York, ISBN: 978-0-12-799937-1, pp: 433-501.
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  151. Anjum, N.A., S.S. Gill, R. Gill, M. Hasanuzzaman and A.C. Duarte et al., 2014. Metal/metalloid stress tolerance in plants: Role of ascorbate, its redox couple and associated enzymes. Protoplasma, 251: 1265-1283.
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  156. Hasanuzzaman, M. and M. Fujita, 2013. Exogenous sodium nitroprusside alleviates arsenic-induced oxidative stress in wheat (Triticum aestivum L.) seedlings by enhancing antioxidant defense and glyoxalase system. Ecotoxicology, 22: 584-596.
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  160. Hasanuzzaman, M., M. A. Hossain and M. Fujita, 2012. Exogenous selenium pretreatment protects rapeseed seedlings from cadmium induced oxidative stress by up-regulating the antioxidant defense and methylglyoxal detoxification systems. Biol. Trace Element Res., 149: 248-261.
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  165. Hossain, M.A., M. Hasanuzzaman and M. Fujita, 2010. Up-Regulation of Antioxidant and Glyoxalase Systems by Exogenous Glycinebetaine and Proline in Mung Bean Confer Tolerance to Cadmium Stress. Physiol. Mol. Biol. Plants, 16: 259-272.
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