Publication of the Department - Agricultural Chemistry

Dr. Md. Akhter Hossain Chowdhury Dr. Md. Mokhlesur Rahman Dr. Md. Zakir Hossen Dr. Quazi Forhad Quadir Dr. Atiqur Rahman Dr. Razia Sultana Dr. K.M. Mohiuddin Dr. Biplob Kumar Saha Dr. Md. Shohidul Alam Mrs. Mousumi Akter Dr. Mohammad Amdad Ali Dr. Istiaq Ahmed Dr. Md. Shahinur Rahman Mrs. Kamrun Nahar Mrs. Supti Mallick Mr. Md. Arifur Rahman
  1. Sultana, R., Jashim, A.I.I., Islam, S.M.N. et al.(2024) Bacterial endophyte Pseudomonas mosselii PR5 improves growth, nutrient accumulation, and yield of rice (Oryza sativa L.) through various application methods. BMC Plant Biol 24, 1030 (IF 4.3). https://doi.org/10.1186/s12870-024-05649-6
  2. Sultana, R., Islam, S.M.N., Shuvo, S.B., Ehsan, G.M.A., Saha, P., Khan, M.M.R. and Rumman, N., 2024. Endophytic bacterium Sphingomonas panaciterrae NB5 influences soil properties and improves growth, nutrient contents, and yield of red amaranth (Amaranthus tricolor). Current Plant Biology, 39, p.100372. (IF 5.4) https://doi.org/10.1016/j.cpb.2024.100372
  1. Sultana, R., Islam, S.M.N., Sriti, N., Ahmed, M., Shuvo, S.B., Rahman, M.H. and Jashim, A.I.I., 2024. Sphingomonas panaciterrae PB20 increases growth, photosynthetic pigments, antioxidants, and mineral nutrient contents in spinach (Spinacia oleracea). Heliyon10 (3). (IF 4.0) https://doi.org/10.1016/j.heliyon.2024.e25596
  2. Chowdhury, M.Z.H., Mostofa, M.G., Mim, M.F., Haque, M.A., Karim, M.A., Sultana, R., Rohman, M.M., Rupok, M.R.B. and Islam, S.M.N., 2024. The fungal endophyte Metarhizium anisopliae (MetA1) coordinates salt tolerance mechanisms of rice to enhance growth and yield. Plant Physiology and Biochemistry, 207, p.108328. https://doi.org/10.1016/j.plaphy.2023.108328 (IF 6.5)
  3. Sultana R, Islam SMN and Sultana T.2023. Arsenic and other heavy metals resistant bacteria in rice ecosystem: Potential role in promoting plant growth and tolerance to heavy metal stress. Environ. Technol. Innov. 31,103160. (IF 7.1) https://doi.org/10.1016/j.eti.2023.103267
  4. Sultana R., Ahmed, T., Islam S.M.N. and Uddin M.N., 2022. Barnyard grass (Echinochloa crus-galli ) as a candidate plant for phytoremediation of arsenic from arsenic-amended and industrially polluted soils. Front. Soil Sci. 2:927589. https://doi: 10.3389/fsoil.2022.927589.
  5. Mohiuddin KM, Saha P, Hossain M, Nahar K, Ahmed I, Hoque A, Sultana R., Rahman M. Assessment of Health Risk Due to Consumption of Spinach (Spinacia oleracea) Cultivated with Heavy Metal Polluted Water of Bhabadah Water-Logged Area of Bangladesh. Earth Syst Environ. 6(2):557-70.
  6. Sultana T, Chowdhury AH, Saha BK, Rahman A, Chowdhury and Sultana R. 2021: Response of Aloe verato potassium fertilization in relation to leaf biomass yield, its uptake and requirement, critical concentration and use efficiency. J. plant Nuti. 44:2081-2095. (IF 2.27)
  7. Sultana R, Islam SMN, Zaman MW and Uddin N. 2020. Phytotoxicity of lead and chromium on germination, seedling establishment and metal uptake by kenaf and mesta. 6(2):429-440. (IF 1.5)
  8. Sultana R. Akhter L and Zaman. M.W. Tolerance of lead and chromium toxicity and their effect on kenaf and mesta at germination stage, Eco-friendly Agril. J. 12 (9): 67-73, 2019.
  9. Zaman M.W. Mitra N. and Sultana R. 2006. Growth and nutrient uptake of some naturally grown weeds as influenced by arsenic treatments, J. crop Sci.17 (1): 193-201.
  10. Islam S.M.N., Hossain M.A., Rabbani M.G., Nasiruddin K.M. and Sultana R. 2005. Agobacterium mediated genetic transformation in Potato (Solanum tuberosum L.) Bd. J. Agril. Sci. 32 (1): 135-139.
  11. Sultana R. M.W. and Islam S.M.N. 2006. Interaction of arsenic with other elements in arsenic hyperaccumulating weeds, J. Bd. Agril. Univ. 4(2): 211-217.
  12. Sultana R and Kobayashi K. 2016, Adsorption of Arsenic on soil under different soil moisture condition, Pollution, 2: 211-220. (IF 1.5).
  13. Sultana R, Kobayashi K and Kim K-H. 2015. Comparison of Arsenic uptake ability of barnyard grass and rice species for arsenic phytoremediation, Environ Monit Assess. 187:4101. (IF 3.0)
  14. Karim M.F., Zaman M.W., Sultana R and Nizam M.U. 2013. Chemical quality of surface water of Bhola Sadar Upazilla in Bangladesh for irrigation, aquaculture, drinking and livestock consumption. J. Environ Sci. Natur. Resour. 6(1) 131-140.
  15. Karim M.F., Zaman M.W., Nizam M.U., Sultana R, Rumana A. 2013. Ground water quality status of Bhola Sadar Upazilla in Bangladesh for drinking, irrigation, livestock consumption and aquaculture. J.  Agrofor.  Environ. 7(1) 131-136.
  16. Nizam M.U., Zaman M.W., Karim M.F., Sultana R. and Islam M.S. 2013. Lead and Chromium toxicity tolerance of jute, kenaf and Mesta at germination stage for phytoremediation. J. Patuakhali Sci. and Tech. Univ. 4(1): 61-74.
  17. Sultana R. and Kobayashi K. 2011. Potential of Barnyard grass to remediate As-contaminated soil, Weed Biol. Manage.11: 12-17. (IF 1.4)
  18. Sultana R. and Kobayashi K. 2011. Arsenic uptake by barnyard grass and rice in two types of soils. Bangladesh J. crop sci. 21(1): 159-166.
  19. Sultana R. and Zaman. M.W.  2008. Phytoremediation potential of some naturally grown weeds for arsenic contaminated soils of Bangladesh, Ann. Bd. Agric.12: 99-105.
  20. Zaman M.W. Mitra N. and Sultana R. 2006. Phytoremediation of arsenic contaminated soils with naturally grown weeds, Bd. J. Agril. Sci. 33 (1): 73-79.
  21. Islam S.M.N., Rabbani M.G., Molla M.R., and Sultana R. 2006. Standardization of in vitro regeneration protocol of potato (Solanum tuberosum L.). Bd. J. Agril. Sci. 33(2):141-146.
  22. Sultana R. and Zaman. M.W. Chowdhury M.A.K, Islam S.M.N.  2005. Effect of arsenic on   growth and biomass production of arsenic hyperaccumulating weeds, Bd. J. Crop Sci. 16 (2): 375-380.