1) Wahiduzzaman M, Oliver E, Wotherspoon S, Holbrook N (2017) A climatological model for the North Indian Ocean tropical cyclone genesis, tracks and landfall. Climate Dynamics. 49(7-8), 2585-2603.
2) Wahiduzzaman M, Oliver E, Klotzbach P, Wotherspoon S, Holbrook N (2019) A statistical seasonal forecast model of North Indian Ocean Tropical Cyclones using Quasi Biennial-Oscillation. International Journal of Climatology, 39(2): 934-952.
3) Wahiduzzaman M, Yeasmin A (2019) Statistical forecasting of tropical cyclone landfall activities across the North Indian Ocean rim. Atmospheric Research. 227:89-100.
4) Wahiduzzaman M, Yeasmin A (2020) A kernel density estimation approach of North Indian Ocean tropical cyclone formation and association with convective available potential energy and equivalent potential temperature, Meteorology and Atmospheric Physics, 132, 603-612.
5) Akter N, Wahiduzzaman M, Yeasmin A, Islam S, Luo JJ (2020) Spatial modelling of bacterial diversity over the selected regions in Bangladesh by next-generation sequencing: role of water temperature. Applied Sciences, 10, 2539-46.
6) Wahiduzzaman M, Yeasmin A, Luo JJ, Ali MA, Bilal M, Qiu Z (2020) Statistical approach to observe the atmospheric density variations using swarm satellite data, Atmosphere, 11(9), 897.
7) Wahiduzzaman M, Oliver E, Wotherspoon S, Luo JJ (2020) Statistical forecasting of tropical cyclones over the North Indian Ocean and the role of El Niño-Southern Oscillation. Climate Dynamics, 54(2-3):1571-1589.
8) Wahiduzzaman M, Islam ARMT, Luo JJ, Shahid S, Uddin MJ, Shimul SM, Sattar A (2020) Trends and variabilities of thunderstorm days over Bangladesh on the ENSO and IOD Timescales, Atmosphere ,11(11), 1176.
9) Ali MA, Nicol JE, Bilal M, Qiu Z, Mazhar U, Wahiduzzaman M, Almazroui M, Islam MN (2020) Classification of Aerosols over Saudia Arabia from 2004-2016, Atmospheric Environment, 117785.
10) Wahiduzzaman M, Yeasmin A, Luo JJ (2020) Seasonal movement prediction of tropical cyclone over the North Indian Oceans by using atmospheric climate variables in statistical models, Atmospheric Research.245, 105089.
11) Wahiduzzaman M, Luo JJ (2021) A statistical analysis on the contribution of El Niño-Southern Oscillation to temperature and rainfall over Bangladesh. Meteorology and Atmospheric Physics.133, 55-68.
12) Wahiduzzaman M, Yeasmin A, Luo JJ, Quadir DA, Amstel AV, Cheung KW, Yuan C (2021) Markov Chain Monte Carlo simulation and regression approach guided by El Nino Southern Oscillation to model the tropical cyclone occurrence over the Bay of Bengal, Climate Dynamics. 56, 2693-2713.
13) Lu X, Yuan C, Yang M, Doi T, Wahiduzzaman M, Luo JJ (2021) Prediction of summer extreme hot days in China using the SINTEX-F2. International Journal of Climatology. 1-14.
14) Wahiduzzaman M (2021) Major floods and tropical cyclones over Bangladesh: clustering from ENSO timescales. Atmosphere. 12(6): 697.
15) Das S, Wahiduzzaman M (2021) Identifying meaningful covariates that can improve the interpolation of monsoon rainfall in a low-lying region. International Journal of Climatology. 1-12.
16) Wahiduzzaman M, Luo JJ, Yuan C, Bhaskaran PK (2021) Assessment of the impact of the Indian Ocean Dipole on the North Indian Ocean tropical cyclone prediction using statistical model. Climate Dynamics. 1-18.
17) Wahiduzzaman M, Cheung K, Shaolei T, Luo JJ (2021) Influence of El Niño-Southern Oscillation on the long-term records of floods over Bangladesh. Theoretical and Applied Climatology. 1-10.
18) Wahiduzzaman M, Uddin MJ, Luo JJ, Shahid S, Eibek KU, Emdad M, Siddiki UR, Zahan MS (2021) Thunderstorm frequency in Bangladesh and role of climate variables under EOF modes. Theoretical and Applied Climatology.1-14.
19) Wahiduzzaman M, Luo JJ (2021) Impact of the Boreal Summer Intra Seasonal Oscillation on the North Indian Ocean tropical cyclone prediction using statistical model and machine learning techniques. Natural Hazards.1-8.
