Research Papers in International Journals/ Books

1. Goheer MA., Hassan SS, Sheikh AS, Malik Y, Uzair M, & Satti TN. (2024). Assessing smog trends and sources of air pollutants across northeastern districts of Punjab, Pakistan using geospatial techniques. International Journal of Environmental Science and Technology, 1-18.
2. Hassan SS, Goheer MA, Farah H, Nadeem M, Muazzam A, Munir JA, Fatima S, (2024). Monitoring the effects of climate change and topography on vegetation health in Tharparkar, Pakistan. Journal of Water and Climate Change, 15(8), 3472–3486.
3. Hasan SS, Goheer MA, Uzair M, Fatima, S. (2024). Modeling and monitoring cotton production using remote sensing techniques and machine learning: a case study of Punjab, Pakistan. Environment, Development and Sustainability, 1-22. 
4. Moors, E., Masih, I., Shaheen, N., Biemans, H., & Adnan, M. (2024). The coincidence of climate extremes with sensitive crop growth phases: Projected impact on sustainable crop water use and crop yield in the IGB river basins. Science of the Total Environment, 916, 169680.
5. Mushtaq, H., Akhtar, T., Hashmi, M. Z. U. R., Masood, A., & Saeed, F. (2024). Hydrologic interpretation of machine learning models for 10-daily streamflow simulation in climate sensitive upper Indus catchments. Theoretical and Applied Climatology, 1-18.
6. Mushtaq, H., Akhtar, T., Hashmi, M. Z. U. R., Masood, A., & Saeed, F. (2024). Hydrologic interpretation of machine learning models for 10-daily streamflow simulation in climate sensitive upper Indus catchments. Theoretical and Applied Climatology, 1-18. 
7. Ahmad, Q. U. A., Moors, E., Biemans, H., Shaheen, N., Masih, I., & ur Rahman Hashmi, M. Z. (2023). Climate-induced shifts in irrigation water demand and supply during sensitive crop growth phases in South Asia. Climatic Change, 176(11), 150.   
8. Goheer MA, Fatima L, Farah H, Hassan SS, Abbas N, (2023). Assessment of change in forests land, carbon stock and carbon emissions of KPK, Pakistan for past three decades using geospatial techniques. Journal of Water and Climate Change, 14(2), 442-453.
9. Goheer MA, Aftab B, Farah H, Hassan SS, (2023). Spatio‐temporal risk analysis of agriculture and meteorological droughts in rainfed Potohar, Pakistan, using remote sensing and geospatial techniques. Meteorological Applications, 30(6), e2138.
10. Ijaz, M., Zafar, Q., Khan, A. A., & Hassan, S. S. (2023). Assessing drought and its impacts on wheat yield using remotely sensed observations in rainfed Potohar region of Pakistan. Environment, Development and Sustainability, 25(4), 3699-3721.
11. Malik, S. U., Ashraf, M. I., & Goheer, M. A. (2023). Spatio-temporal dynamics of greenhouse gas emissions from soil in forest ecosystems of pakistan. Pak. J. Bot, 55(4), 1449-1458.
12. Goheer, M. A., Fatima, L., Farah, H., Hassan, S. S., & Abbas, N. (2023). Assessment of change in forests land, carbon stock and carbon emissions of KPK, Pakistan for past three decades using geospatial techniques. Journal of Water and Climate Change, 14(2), 442-453.
13. Akbar, G., Khan, A. A., Ahmad, M. M., Shrestha, M. L., De Silva, A., Punyawardena, B. V. R., … & Bhattarai, D. R. (2023). english Improving decision support system in identifying vulnerability rating and prioritizing the best interventions for sustainable watersheds in Pakistan, Nepal, and Sri Lanka. Water Resources and Irrigation Management-WRIM, 12(1-3), 101-114.  
14. Malik, S. U., Ashraf, M. I., & Goheer, M. A. (2023). Spatio-temporal dynamics of greenhouse gas emissions from soil in forest ecosystems of pakistan. Pak. J. Bot, 55(4), 1449-1458.
15. Hussain, A., Hussain, I., Ali, S., Ullah, W., Rezaei, A., Ali, S., … & Cao, J. (2023). Ocean–atmosphere circulation coherences associated with temperature increase in Pakistan. Environmental Research Letters, 18(9), 094028.
16. Ahmad, Q. U. A., Moors, E., Biemans, H., Shaheen, N., Masih, I., & ur Rahman Hashmi, M. Z. (2023). Climate-induced shifts in irrigation water demand and supply during sensitive crop growth phases in South Asia. Climatic Change, 176(11), 150.  
17. Ali, W., Hashmi, M. Z., Jamil, A., Rasheed, S., Akbar, S., & Iqbal, H. (2022). Mid-century change analysis of temperature and precipitation maxima in the Swat River Basin, Pakistan. Frontiers in Environmental Science, 10, 973759.  
18. Amin M, Khan MR, Hassan SS, Imran M, Hanif M, Baig IA, (2022). Determining satellite-based evapotranspiration product and identifying relationship with other observed data in Punjab, Pakistan. Environment, Development and Sustainability, 1-17
19. Shaukat, N., Hashmi, A., Abid, M., Aslam, M. N., Hassan, S., Sarwar, M. K., … & Tariq, M. A. U. R. (2022). Sediment load forecasting of Gobindsagar reservoir using machine learning techniques. Frontiers in Earth Science, 10, 1047290.
20. Goheer, M. A., Hassan, S. S., Gul, K., Waqar, M., & Parveen, N. (2022). GIS-based spatio-temporal assessment of forest cover change and carbon sequestrations of District Abbottabad, Pakistan. Journal of Water and Climate Change, 13(8), 2962-2971.
21. Khan, S., Ullah, Q., Khan, A. A., Hassan, S. S., Shakoor, A., & Ijaz, M. (2022). Geostatistical investigation of groundwater quality zones for its applications in irrigated agriculture areas of Punjab (Pakistan). Environmental Earth Sciences, 81(3), 91.
22. Khan, F., Ali, S., Mayer, C., Ullah, H., & Muhammad, S. (2022). Climate change and spatio-temporal trend analysis of climate extremes in the homogeneous climatic zones of Pakistan during 1962-2019. Plos one, 17(7), e0271626.
23. Mir, K. A., Purohit, P., Cail, S., & Kim, S. (2022). Co-benefits of air pollution control and climate change mitigation strategies in Pakistan. Environmental Science & Policy, 133, 31-43.  
24. Khan, F., Ali, S., Mayer, C., Ullah, H., & Muhammad, S. (2022). Climate change and spatio-temporal trend analysis of climate extremes in the homogeneous climatic zones of Pakistan during 1962-2019. Plos one, 17(7), e0271626.  
25. Khan S, Ullah Q, Khan AA, Hassan SS, Shakoor A, Ijaz M, (2022). Geostatistical investigation of groundwater quality zones for its applications in irrigated agriculture areas of Punjab (Pakistan). Environmental Earth Sciences, 81(3), 1-19.
26. Khan A, Khan AA, Khan MJ, Ijaz M, Hassan SS, (2022). Combined effect of organic amendments and seed placement techniques on sorghum yield under salt-stressed conditions. Journal of Soil Science and Plant Nutrition, 22(4), 4752-4767
27. Masood, A., Tariq, M. A. U. R., Hashmi, M. Z. U. R., Waseem, M., Sarwar, M. K., Ali, W., … & Ng, A. W. M. (2022). An Overview of Groundwater Monitoring through Point-to Satellite-Based Techniques. Water 2022, 14, 565.
28. Ali, S., Reboita, M. S., & Kiani, R. S. (2021). 21st century precipitation and monsoonal shift over Pakistan and Upper Indus Basin (UIB) using high-resolution projections. Science of The Total Environment, 797, 149139.
29. Reboita, M. S., Kiani, R. S., Ali, S., & Khan, T. (2021). Projections of wind power density in Pakistan and adjacent regions. Climate Research, 85, 177-192. 
30. Hassan, S. S., & Goheer, M. A. (2021). Modeling and monitoring wheat crop yield using geospatial techniques: a case study of Potohar region, Pakistan. Journal of the Indian Society of Remote Sensing, 49(6), 1331-1342. 
31. Adnan, M., Khan, F., Rehman, N., Ali, S., Hassan, S. S., Dogar, M. M., … & Hasson, S. (2021). Variability and predictability of summer monsoon rainfall over Pakistan. Asia-Pacific Journal of Atmospheric Sciences, 57(1), 89-97.
32. Salman A, Hassan SS, Khan GD, Goheer MA, Khan AA, Sheraz K, (2021). HEC-RAS and GIS-Based Flood Plain Mapping; A Case Study of Narai Drain Peshawar. Acta Geophysica. https://doi.org/10.1007/s11600-021-00615-4
33. Rizvi, S. A., Ahmad, A., Latif, M., Shakir, A. S., Khan, A. A., Naseem, W., & Gondal, M. R. (2021). Implication of Remote Sensing Data under GIS Environment for Appraisal of Irrigation System Performance. Water Resources Management, 35(14), 4909-4926.
34. Ahmad, Q. U. A., Biemans, H., Moors, E., Shaheen, N., & Masih, I. (2021). The impacts of climate variability on crop yields and irrigation water demand in South Asia. Water, 13(1), 50.
35. Shaheen, N., Jahandad, A., Goheer, M. A., & Ahmad, Q. U. A. (2020). Future changes in growing degree days of wheat crop in Pakistan as simulated in CORDEX South Asia experiments. APN Science Bulletin.
36. Hu, P., Feng, G., Dogar, M. M., Cheng, J., & Gong, Z. (2020). Joint effect of East Asia-Pacific and Eurasian teleconnections on the summer precipitation in North Asia. Journal of Meteorological Research, 34(3), 559-574. 
37. Gilani, H., Goheer, M. A., Ahmad, H., & Hussain, K. (2020). Under predicted climate change: Distribution and ecological niche modelling of six native tree species in Gilgit-Baltistan, Pakistan. Ecological Indicators, 111, 106049.
38. Hassan, S. S., Ajmal, M., Khan, A. A., Goheer, M. A., Khattak, M. S., Ali, S., … & Adnan, M. (2019). Multi‐criteria decision analysis for flood risk on the Chenab River. Weather (00431656), 74.
39. Amin, M., Khan, A. A., Perveen, A., Rauf, Z., Hassan, S. S., Goheer, M. A., & Ijaz, M. (2019). Drought risk assessment: a case study in Punjab, Pakistan.
40. Amin M, Khan AA, Perveen A, Rauf Z, Hassan SS, Goheer MA and Ijaz M, (2019). Drought risk assessment: A case study in Punjab, Pakistan. Sarhad Journal of Agriculture, 35(1): 234-243. http://dx.doi.org/10.17582/journal.sja/2019/35.1.234.243   
41. Masood, A., Hashmi, M. Z. U. R., & Mushtaq, H. (2018). Spatio-temporal analysis of early twenty-first century areal changes in the Kabul River Basin cryosphere. Earth Systems and Environment, 2, 563-571.
42. Hassan SS, Amin M, Khan MR, Khan AA, Imran M, Goheer MA, Hina SM, Pervee A. Monitoring Agricultural Drought Using Geospatial Techniques; A Case Study of Thal Region of Punjab. Journal of Water and Climate Change (2020). https://doi.org/10.2166/wcc.2020.232.
43. Amin M, Bano D, Hassan SS, Goheer MA and Khan AA. Mapping and Monitoring of Glacier Lake Outburst Flood (GLOF) Using Geospatial Modeling Approach of Darkut Valley, Pakistan. Meteorological Applications, 27(1). https://doi.org/10.1002/met.1877.
44. Ali A, Salman A, Khan GD, Khan AA, Hassan SS, Goheer MA, Khan MA and Ahmad S. Growth and yield response of turnip to different deficit irrigation levels and sowing dates under the agro-ecological conditions of Khyber Pakhtuankhwa. Pakistan Journal of AgriculturalResearch,33(3):480-489. http://dx.doi.org/10.17582/journal.pjar/2020/33.3.480.489.
45. Ijaz, M. and Goheer, M.A. 2020. Emission Profile of Pakistan’s Agriculture: past trends and future projections. Environ Dev Sustain. https://doi.org/10.1007/s10668-020-00645-w
46. Adnan, M., Khan, F., Rehman, N., Ali, S. Dogar, M. M., Mehmood, S. et al., (2020), “Variability and Predictability of Summer Monsoon Rainfall over Pakistan”. Asia-Pacific J Atmos Sci (2020). https://doi.org/10.1007/s13143-020-00178-2
47. Rehman, N., M. Adnan, S. Ali, (2019), “Future Extremes and Variability of Rainfall over Monsoon Region of Pakistan”. Pakistan Journal of Meteorology, Vol. 14, Issue 28.
48. Dogar, M. M., Sato, T., & Liu, F. (2020). ocean Sensitivity to periodic and constant Volcanism. Scientific Reports, 10(1), 1-15.
49. Hu, P., Feng, G., Dogar, M. M., Cheng, J., & Gong, Z. (2020). Joint Effect of East Asia-Pacific and Eurasian Teleconnections on the Summer Precipitation in North Asia. Journal of Meteorological Research, 34(3), 559-574.
50. Hu, P., Cheng, J., Feng, G., Dogar, M. M. A., & Gong, Z. (2020). The mechanism of EAP-EU combined impact on summer rainfall over North Asia. Theoretical and Applied Climatology, 1-12.
51. Shaukat Ali, Alia S, Rida SK, Sher M, Firdos K, Romaisa B, Asif K, Muhammad SI, Muhammad AG, Wajid N and Shah F (2020): Future climatic changes, extreme events, related uncertainties and policy recommendations over Hindu Kush sub-regions of Pakistan. Theoretical and Applied Climatology
52. Shaukat Ali., Kiani, R. S., Reboita, M. S., Dan, L., Eum, H. I., Cho, J., … & Shrestha, M. L. (2020) Identifying hotspots cities vulnerable to climate change in Pakistan under CMIP5 climate projections. International Journal of Climatology.
53. Khan, F., Saeed, A., & Shaukat Ali. (2020). Modelling and Forecasting of New Cases, Deaths and Recover Cases of COVID-19 by using Vector Autoregressive Model in Pakistan. Chaos, Solitons & Fractals, 110189.
54. Muhammad, S., Tian, L., Shaukat Ali., Latif, Y., Wazir, M. A., Goheer, M. A., … & Shiyin, L. (2020). Thin debris layers do not enhance glaciers melt in the Karakoram. Science of The Total Environment, 141119.
55. Yang, Y., Jin, C., & Shaukat Ali (2020). Projection of heat wave in China under global warming targets of 1.5° C and 2° C by the ISIMIP models. Atmospheric Research, 105057.
56. Yang, Y., Chen, M., Zhao, X., Chen, D., Fan, S., & Shaukat Ali. (2020). Impacts of aerosol-radiation interaction on meteorological forecast over northern China by offline coupling the WRF-Chem simulated AOD into WRF: a case study during a heavy pollution event. Atmospheric Chemistry and Physics Discussions, 1-56.
57. Muhammad Zia ur Rahman Hashmi, Amjad Masood, Haris Mushtaq, Syed Ahsan Ali Bukhari, Burhan Ahmad, Adnan Ahmad Tahir (2019). Exploring climate change impacts during the first half of the 21st century on flow regime of the transboundary Kabul River in the Hindukush region. Journal of Water and Climate Change jwc2019094. doi: https://doi.org/10.2166/wcc.2019.094.
58. Jewell Lund, Richard Robert Forster, Summer B Rupper, HP Marshall, Elias J Deeb, Muhammad Zia Ur Rahman Hashmi and Evan Burgess (2019). Mapping snowmelt progression in the Upper Indus Basin with synthetic aperture radar. Front. Earth Sci. doi: 10.3389/feart.2019.00318.
59. Hayat, H., Tahir, A. A., Wajid, S., Abbassi, A. M., Zubair, F., Hashmi, Z. U. R., … & Irshad, M. (2022). Simulation of the meltwater under different climate change scenarios in a poorly gauged snow and glacier-fed Chitral River catchment (Hindukush region). Geocarto International, 37(1), 103-119
60. Akhtar, T., Mushtaq, H., & Hashmi, M. Z. U. R. (2020). Drought monitoring and prediction in climate vulnerable Pakistan: Integrating hydrologic and meteorologic perspectives. Hydrology and Earth System Sciences Discussions, 2020, 1-29.
61. Exploring climate change impacts during first half of the 21st century on flow regime of the transboundary Kabul river in the Hindukush region, MZR Hashmi, A Masood, H Mushtaq, SAA Bukhari, B Ahmad, AA Tahir, Journal of Water and Climate Change 11 (4), 1521-1538 (2020).
62. Modeling annual rainfall time series in Saudi Arabia using first-order autoregressive AR(1) model, Masood, A., Jarbou Bahrawi & Amro Elfeki, (2019): Arabian Journal of Geosciences 12:191 https://doi.org/10.1007/s12517-019-4330-3.
63. Assessment of climate extremes in future projections downscaled by multiple statistical downscaling methods over Pakistan. Ali, S., Eum, H. I., Jaepil, C., Li, D., Khan, F., Dairaku, K., & Fahad, S. (2019). Atmospheric Research.
    https://www.researchgate.net/publication/331859435_Assessment_of_climate_extremes_in_future_projections_downscaled_by_multiple_statistical_downscaling_methods_over_Pakistan
64. Spatio-Temporal Variability of Summer Monsoon Onset over Pakistan, Ali, S., Bushra Khalid, Kiani, R. S., Romaisa Babar, Sana Nasir, Rehman, N., Adnan, M., Goheer, M. A., (2019), “Asia-Pacific J Atmos Sci (2019). https://doi.org/10.1007/s13143-019-00130-z.
65. The Sensitivity of DTR to the Increased CO2 over Mid-latitude Semi-dry Regions, Dogar, M. M. (2019). JOJ Horticulture and Aboriculture, 2(2), 001-007.
    https://juniperpublishers.com/jojha/pdf/JOJHA.MS.ID.555584.pdf
66. Towards understanding the global and regional climatic impacts of Modoki magnitude. Dogar, M. M., Kucharski, F., Sato, T., Mehmood, S., Ali, S., Gong, Z., & Arraut, J. (2019). Global and planetary change, 172, 223-241.
    https://www.researchgate.net/publication/335465874_Towards_understanding_the_global_and_regional_climatic_impacts_of_Modoki_magnitude
67. Regional Climate Response of Middle Eastern, African and South Asian Monsoon Regions to Explosive Volcanism and ENSO Forcing. Dogar, M. M., & Sato, T. (2019). Journal of Geophysical Research: Atmospheres.
    https://doi.org/10.1029/2019JD030358
68. Multi-Criteria Decision Analysis for Flood Risk on the Chenab River, Hassan, S. S.,  Ajmal, M., Khan, A. A., Goheer, M. A., Muhammad Shahzad Khattak, Ali, S., Ijaz, M. and Adnan, M., (2019), Weather Journal, https://doi.org/10.1002/wea.3490.
69. Groundwater Vulnerability Mapping in Faisalabad District Using GIS Based Drastic Model. A.Shakoor, Z.M.Khan, U.Umar Farid, M.Sultan, Khan, A.A., I.Ahmad and M.Azmat (2019). Matec Web of Conferences 246, 01001  ISWSO.
    https://www.researchgate.net/publication/329472373_Groundwater_Vulnerability_Mapping_in_Faisalabad_District_Using_GIS_Based_Drastic_Model
70. Wheat Production Under Changing Climate: Consequences of Environmental Vulnerabilities on Different Abiotic and Biotic Stresses. T Qadir,K. Akhtar, Ahmad, A., A.Shakoor,M. Saqib,S .Hussain and M.Rafiq. 2019.  J. Glob. Innov. Agric. Soc. Sci., (2019), 7(1):7-17.ISSN (Online): 2311-3839; ISSN (Print): 2312-5225http://www.jgiass.com.
71. Identification of Influencing Factors for Optimal Adoptability of High Efficiency Irrigation System (HEIS) in Punjab, Pakistan, H.Umar Farid, M. Zubair, Z. M. Khan, A. Shakoor, B. Mustafa, Khan, A.A., M.Mubeen, M.N. Anjum, I.Ahmad (2019), Sarhad Journal of Agriculture. Sarhad Journal of Agriculture. June 2019, Volume 32, Issue 2, Page 539-549.
    http://dx.doi.org/10.17582/journal.sja/2019/35.2.539.549
72. Effect of Cold and Heat Stress on Different Stages of Wheat: S.Hussain,*, Khan, A.A., A. Shakoor, Goheer, M. A., T. Qadir, M. Mujtaba and  Z Hussain. (2019). A Review. J. Glob. Innov. Agric. Soc. Sci., 2018,6(4): 123-128.
73. Spatio‑Temporal Analysis of Early Twenty‑First Century Areal Changes in the Kabul River Basin Cryosphere, Masood, A., M. Z. Hashmi, Mushtaq, H., (2018) Earth Systems and Environment (2018) 2:563–571 https://doi.org/10.1007/s41748-018-0066-6.
74. Detrimental Effects of Climate Change on Women, Abid, M.; Abid, Z., Zafar, Q., Mahmood, S. (2018), Earth Systems and Environment, Springer Journal. Volume 2, Issue 3, pp 537–551.
    https://www.ckrb.org/var/cache/59360-a0c4d0d8358036390dcf8636a3945438/Abid_et_al-2018-Earth_Systems_and_Environment.pdf
75. Assessment and Mitigation of Methane Emissions from Livestock Sector in Pakistan. G.Habib and A.Ahmad. 2018. Earth Systems and Environment: https://doi.org/10.1007/s41748-018-0076-4, Earth Syst Environ 2, 601–608.
76. Assessment of CMIP5 climate models over South Asia and climate change projections over Pakistan under representative concentration pathways: Nadia Rehman, Muhammad Adnan and Shaukat Ali (2018), “International Journal of Global Warming (IJGW), 16(4),DOI: 10.1504/IJGW.2018.095994;
77. Greenhouse gas emissions from the waste sector: a case study of Rawalpindi in Pakistan: Ilmas, B., Mir, K.A., & Khalid, S. (2018) Carbon Management, 1-10. DOI: https://doi.org/10.1080/17583004.2018.1530025;
78. Seasonal assessment and classification of aerosols transported to Lahore using AERONET and MODIS deep blue retrievals, Zafar Q, Zafar S, Holben B (2018):. Int. J. Climatology. 38: 1022–1040;
79. The application of a single‐model ensemble system to the seasonal prediction of winter temperatures for Islamabad and Lahore using coupled general circulation models, Khalid, B., Bueh, C., Javeed, Shaukat Ali, S., Sultana, Q., & Khalid, A. (2018). Weather, 73(5), 159-164;
80. Concentrations and source regions of light-absorbing particles in snow/ice in northern Pakistan and their impact on snow albedo. .Gul, C., Puppala, S. P., Kang, S., Adhikary, B., Zhang, Y., Shaukat Ali., Li, Y., and Li, X. (2018). Atmospheric Chemistry and Physics, 18(7), 4981-5000;
81. Evaluation of statistical downscaling models using pattern and dependence structure in the monsoon‐dominated region of Pakistan, Khan, F., Shaukat Ali., & Pilz, J. (2018). Weather, 73(6), 193-203;
82. Assessment and correction of BCC_CSM’s performance in capturing leading modes of summer precipitation over North Asia, Gong, Z., Dogar, M. M., Qiao, S., Hu, P., & Feng, G. (2018):  International Journal of Climatology, 38(5), 2201-2214;
83. Groundwater share quantification through flood hydrographs simulation using two temporal rainfall distributions, Khaled S. Balkhair, Amjad Masood, Mansour Almazroui, Khalil Ur Rahman, Omar A. Bamaga, Ahmed S. Kamis, Iqbal Ahmed, Mohammed I. Al-Zahrani, K. Hesham, Desalination and Water Treatment 114 (2018) 109-119, doi:10.5004/dwt.2018.22346;
84. Muhammad, J., M. Adnan, I. Din, A. A. Khan, W. Ali and S. Jehan, “Temperature Trend Analysis using Non-linear Regression of Kohat, Northwestern Pakistan”, Pakistan Journal of Meteorology, 2017, 14(27);
85. J. Muhammad, M. Adnan, A. A. Khan, W. Ali and S. Jehan. 2017.Temperature Trend Analysis using Non-linear Regression of Kohat, North Western Pakistan”. Pakistan Journal of Meteorology. Vol. 14, Issue 27: Jul, 2017;
86. M. Abdullah, S. Malik, M. D. Siddiqui and A. A. Khan. 2017. Satellite Derived Surface Temperature Fronts in Relation to Tuna Catch in EEZ of Pakistan. Pakistan. Pakistan Journal of Engineering Technology and Science (PJETS), Volume 7(1):19-31.
87. Aftab. A, M Ijaz, J. Muhammad, M.A. Goheer, G. Akbar and M. Adnan (2017). Climate Change Implications for Wheat Crop in Dera Ismail Khan District of Khyber Pakhtunkhwa Pakistan Journal of Meteorology Vol.13, Issue 25, page 17-27, ISSN 1810-3979.
88. Almazroui, Mansour, Nazrul Islam, M., Balkhair, Khaled S., Sen, Zekai, Masood, Amjad, (2017) Rainwater harvesting possibility under climate change: A basin-scale case study over western province of Saudi Arabia, Atmospheric Research,189(2019), 11-23 doi:10.1016/j.atmosres.
89. Khalil Ur Rahman, Khaled S. Balkhair, Mansour Almazroui, Amjad Masood, (2017) Sub-catchments flow losses computation using Muskingum-Cunge routing method and HEC-HMS GIS based techniques, case study of Wadi Al-Lith, Saudi Arabia, Modeling Earth Systems and Environment Journal3:4, DOI 10.1007/s40808-017-0268-1.
90. Bushra Khalid, Cholaw Bueh, Shumaila Javeed, Shaukat Ali, Qaiser Sultana and Ayesha Khalid, (2016): An Application of Single Model Ensemble System for Seasonal Prediction of Winter Temperature for Islamabad and Lahore using Coupled General Circulation Models. Journal of Weather. Vol. 99, No. 99, DOI: 10.1002/wea.2832.
91. Gul, C., Kang, S. C., Ghauri, B., Haq, M., Muhammad, S., & Shaukat Ali. (2017). Using Landsat images to monitor changes in the snow-covered area of selected glaciers in northern Pakistan. Journal of Mountain Science, 14(10), 2013-2027.
92. Muhammad Adnan, Nadia Rehman, Muhammad Munir Sheikh, Aftab Ahmad Khan, Kaleem Anwar Mir and Muhammad Ahson Khan. (2016). “Influence of Natural Forcing Phenomena on Precipitation of Pakistan”, Pakistan Journal of Meteorology. Vol. 12, Issue 24: 23-35.
93. Adnan M., Rehman N., Shahbir J., “Predicting the Frequency and Intensity of Climate Extremes by Regression Models” J. Climatol. Weather Forecasting, 2016, 4(3):185. Doi:10.4172/2332-2594.1000185.
94. Azharuddin, S., and Dogar, M. M. (2016). Decadal climate variability and predictability. CURRENT SCIENCE, 110(8), 1397-1398.
95. Osipov, S., Dogar, M., and Stenchikov, G. (2016, April). Study of Regional Volcanic Impact on the Middle East and North Africa using high-resolution global and regional models. Geophysical Research Abstracts, Vol. 18, EGU2016-8617, 2016.
96. Khan, A. A., J. Muhammad, G. D. Khan, M. Ijaz and M. Adnan, (2016). Quantitative Analysis of Watershed Hydrology for Kandar Dam (Kohat) using Remote Sensing and Geographic Information System (GIS) Techniques, Pakistan Journal of Meteorology, 12(24):15-22.
97. Kamran, A., M. A. Goheer, K. Saifullah and s. Amir (2016) Cooperation of Harnessing Benefits of Transboundary Water in Indus Basin. Compendium of Research Studies ‘Water Cooperation through Leadership and Institutional Development’ compiled by LEAD Pakistan.
98. Kashif Majeed Salik, M. Zia-ur-Rahman Hashmi, Waheed-ul-Zafar Zahdi, and Sadia Ishfaq (2016) Ecological Assessment of the Indus Delta in Pakistan: A Desktop Analysis of Environmental Flow Requirements, in Imrana Niazi, Sarah S. Aneel, and Uzma T. Haroon, eds. Pathways to Sustainable Development. pp. 133-150. Sang-e-Meel Publications.
99. Kashif Majeed Salik, M. Zia-ur-Rahman Hashmi, Sadia Ishfaq, and Waheed-ul-Zafar Zahdi (2016) Environmental flow requirements and impacts of climate change-induced river flow changes on ecology of the Indus Delta, Pakistan. Regional Studies in Marine Science, vol. 7 (September 2016): 185-195. ISSN 2352-4855, http://dx.doi.org/10.1016/j.rsma.2016.06.008.
100. Prediction of Pakistan Summer Rainfall from Global SST and SLP, M. Adnan, N. Rehman, S. Ali, S. Mehmood, K. A. Mir, A. A. Khan and B. Khalid, Weather, 2017, 72(3), https://doi.org/10.1002/wea.2784;
101. Improved hydrological projections and reservoir management in the Upper Indus Basin under the changing climate. Khan, F., Pilz, J., & Shaukat Ali. (2017). Water and environment journal, 31(2), 235-244;
102. Using Landsat images to monitor changes in the snow-covered area of selected glaciers in northern Pakistan. Gul, C., Kang, S. C., Ghauri, B., Haq, M., Muhammad, S., & Shaukat Ali. (2017). Journal of Mountain Science, 14(10), 2013-2027;
103. Study of the global and regional climatic impacts of ENSO magnitude using SPEEDY AGCM, Dogar, M. M., Kucharski, F., & Azharuddin, S. (2017). Journal of Earth System Science, 126(2), 30;
104. Sensitivity of the regional climate in the Middle East and North Africa to volcanic perturbations, Dogar, M. M., Stenchikov, G., Osipov, S., Wyman, B., & Zhao, M. (2017). Journal of Geophysical Research: Atmospheres, 122(15), 7922-7948;
105. Limitations of BCC_CSM’s ability to predict summer precipitation over East Asia and the Northwestern Pacific, Gong, Z., Dogar, M. M. A., Qiao, S., Hu, P., & Feng, G. (2017) Atmospheric research, 193, 184-191;
106. Sensitivity evaluation of convective parameterizations and spectral nudging schemes in historical dynamical downscaling for South Asia, Ramzan M., Ham S., Amjad M., Chang E., Yoshimura K., (2017), Advances in Meteorology.  (https://doi.org/10.1155/2017/7560818);
107. Response of Yield and Related Attributes of Upland Cotton to Weather Variables, K. Ullah, M. Idrees, Z. Mahmood, T. Iqbal, S. Muhamad. H.Haq, A.Ahmad, S.Hussain. (2017). American Journal of Plant Sciences, (2017), 8, 1711-1720. http://www.scirp.org/journal/ajps, ISSN Online: 2158-2750, ISSN Print: 2158-2742;
108. Prediction of summer rainfall in Pakistan from global sea-surface temperature and sea-level pressure, M. Adnan, Rehman, N., Ali, S., Mehmood, S., Mir, K. A., Khan, A. A. and Khalid, B. (2017). Weather,72:76–84. doi:10.1002/wea.2784;
109. Improved hydrological projections and reservoir management in the Upper Indus Basin under the changing climate: Khan, F., Pilz, J., & Shaukat Ali. (2017). Water and Environment Journal.
110. “Analysis of baseline and alternative air quality scenarios for Pakistan: an integrated approach.” Environmental Science and Pollution Research (2016): 1-14. Kaleem Anwar Mir, Pallav Purohit, Gary A. Goldstein, and Rajasekhar Balasubramanian. doi:10.1007/s11356-016-7358-x.
111. Twenty first century climatic and hydrological changes over Upper Indus Basin of Himalayan region of Pakistan, Shaukat Ali, Dan Li, Fu Congbin and Firdos Khan, Environmental Research Letters, 10(1), 014007. (2015).
112. Performance of convective parameterization schemes in Asia using RegCM: Simulations in three typical regions for the period 1998–2002, Shaukat Ali, Dan Li, Fu Congbin and Yang Yang, Advances in Atmospheric Sciences, 32(5), 715-730. (2015).
113. Coupling of Regional Climate Model (RCM) and Hydrological Model, Shaukat Ali, Dan Li, Fu Congbin, Firdos Khan and Yang Yang, of Amur-Okhotsk Consortium. (2014).
114. Food Security and Food Production Systems, Porter, J.R., L. Xie, A. Challinor, K. Cochrane, S.M. Howden, M.M. Iqbal, D.B. Lobell and M.I. Travasso, 2014. In: Climate Change 2014: Impacts, Adaptations and Vulnerability. Part A: Global and Sectoral Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, United Kingdom, pp 485-533 (2014).
115. Climate Variability and its Impacts on Water Resources in Upper Indus Basin under IPCC Climate Change Scenarios, Firdos Khan, Juergen Pilz, Muhammad Amjad and David Wiberg. Accepted for publication in International Journal of Global Warming (2014). http://www.inderscience.com/info/ingeneral/forthcoming.php?jcode=ijgw
116. Application of a stochastic weather generator to assess climate change impacts in a semi-arid climate: the Upper Indus Basin, N Forsythe, HJ Fowler, S Blenkinsop, A Burton, CG Kilsby, DR Archer, C Harpham, Hashmi, M. Z. Journal of Hydrology. DOI: 10.1016/j.jhydrol.2014.06.031 (2014).
117. Use of Gene Expression Programming in Regionalization of Flow Duration Curve, Hashmi, M. Z. and A. Y. Shamseldin. Advances in Water Resources, DOI: 10.1016/j.advwatres.2014.02.009 (2014).
118. Evaluation of weather research and forecasting model for the assessment of wind resource over Gharo, Pakistan, Muhammad Amjad, Qudsia Zafar, Firdos Khan and M. Munir Sheikh. International Journal of Climatology, DOI: 10.1002/joc.4089 (2014).
119. Trends in extreme daily rainfall and temperature indices over South Asia, Sheikh, M.M., N. Manzoor, J. Ashraf, M. Adnan, D. Collins, S. Hameed, M.J. Manton, A.U. Ahmad, S.K. Baidya, H.P. Borganokar, N. Islam, D. Jayasinghearachchi, D.R. Kothawale, K.H.M.S. Premlal, J.V. Revadikar and M.I. Shrestha, International Journal of Climatology, DOI: 10.1002/joc.4081 (2014).
120. A new magnitude category disaggregation approach for temporal high-resolution rainfall intensities, Muhammad Rehan Anis and Michael Rode, Hydrological Processes, DOI: 10.1002/hyp.10227 (2014).
121. Climate change impacts and adaptation options for water and food in Pakistan: scenario analysis using an integrated global water and food projections model, Zhu, T., C. Ringler, M.M. Iqbal, T.B. Sulser and M.A. Goheer, Water International, 38 (No.5), 651-669 (2013).
122. Statistically Downscaled Probabilistic Multi-model Ensemble Projections of Precipitation Change in a Watershed, Hashmi M. Z., A. Y. Shamseldin and B.W. Melville. Hydrological Processes, DOI: 10.1002/hyp.8413 (2013).
123. Remote-sensing assessment of glacier fluctuations in the Hindu Raj, Pakistan, Mehmet A. Sarikya , Michael P. Bishop , John F. Shroder and Ghazanfar Ali, International Journal of Remote Sensing, 34:11, 3968-3985 (2013).
124. Future climate of Sri Lanka: An approach through dynamic downscaling of ECHAM4 General Circulation Model (GCM). Punyawardena, B. V. R., S. Mehmood, A. K. Hettiarachchi, M. M. Iqbal, A. S. H. S. A. De Silva and M. A. Goheer. Tropical Agriculturist, 61:35-50 (2012).
125. Spatio-Temporal Analusis under Climate Change by Combined Use of Crop simulation Modeling and Remote Sensing Techniques, M. Ijaz and M.A. Goheer. 2012. Proc. ISNET (Inter Islamic Network on Space Science & Technologies)/CSE Workshop on ‘Application of Space Technology for Food Security’, Dakar, Senegal, 9-14 July 2012, pp 76-82 (ISBN: 978-969-9392-02-3, (2012)).
126. Impacts of Climate Change on Food Security in Pakistan, M. Mohsin Iqbal, M.A. Goheer and A.M. Khan. GCISC part of the Joint Paper with IFPRI, USA, 26 pages (2012).
127. “Climate Change and Hydrologic Systems: Some Recent Advances in Statistical Downscaling, Hashmi, M. Z., A. Y. Shamseldin and B. W. Melville, Lambert Academic Publishing. ISBN: 978-3-8484-8843-8 (2012).
128. “Impact of altitude and latitude on changes in temperature extremes over South Asia during 1971-2000”, J. V. Revadekar, S. Hameed, D. Collins, M. Manton, M.M. Sheikh, H. P. Borgaonkar, D. R. Kothawale, M. Adnan, A. U. Ahmed, J. Ashraf, S. Baidya, N. Islam, D. Jayasinghearachchi, N. Manzoor, K. H. M. S. Premalal and M. L. Shreshta. Int. J. Climatol. (DOI: 10.1002/joc.3418) (2012).
129. Impacts of Climate Change on Agriculture and Food Security in the HKH Region, M. Mohsin Iqbal, M.A. Goheer and A.M. Khan, Background Paper prepared for ICIMOD, Nepal, for their Synthesis Report on ‘HKH Regional Climate Change’, 21 pages (2011).
130. Chapter 8 in the book titled: Global Environmental Changes in South Asia: A Regional Perspective, S. Nandargi, O.N. Dhar, M. Munir Sheikh, Brenna Enright and M.M.Q. Mirza., Capital Publishing Company, New Delhi, India (2010) (ISBN: 81-85589-73-9).
131. Chapter 3 in the book titled: Global Environmental Changes in South Asia: A Regional Perspective, A.K. Singhvi, Rupa Kumar, M. Thamban, A.K.Gupta, V.S. Kale, R.R. Yadev, A. Bhattacharyya, N.R. Phadtare, P.D .Roy, M.S. Chauhan, O.S. Chauhan, S. Chakravorty, M.M. Sheikh, N. Manzoor, M. Adnan, J. Ashraf, Arshad M. Khan, D.A. Quadir, L.P. Devkota and A.B. Sharma., Capital Publishing Company, New Delhi, India (2010) (ISBN: 81-85589-73-9).
132. Vulnerability and Adaptability of Wheat Production in Different Climatic Zones of Pakistan under Climate Change Scenarios, Humaira Sultana, Nazim Ali, M. Mohsin Iqbal, Arshad M. Khan, Climatic Change, 94 (No. 1-2):123-142, (2009).
133. Planting window as an adaptation option to offset the likely impacts of climate change with emphasis on Rainfed areas. In ‘Climate Change: Global Risks, Challenges and Decisions’, Sultana, H., G. Hoogenboom and M.M. Iqbal. (P41.34), IOP Conference Series: Earth and Environmental Sciences, 6, 412044 (doi: 10.1088/1755-1307/6/1/412044), (2009).
134. Future Change in the Frequency of Warm and Cold Spells over Pakistan simulated by the PRECIS Regional Climate Model, Siraj-ul-Islam, Nadia Rehman, M. Munir Sheikh, Climatic Change, 94 (No. 1-2): 35-45, (2009), DOI: 10.1007/s10584-009-9557-7.
135. Trends in Daily Climatic Extremes of Temperature and Precipitation in Nepal, Saraju Baidya, Madan L. Shrestha, and M.M. Sheikh, Journal of Hydrology and Meteorology, 5, No.1, (2008).
136. Greenhouse Gas Emissions from Agro-Ecosystems and their contribution to environmental change in the Indus Basin of Pakistan, M. Mohsin Iqbal and M. Arif Goheer, Advances in Atmospheric Sciences, China, 25 (No. 6):1043-1052 (2008).
137. Chapter 7: Droughts in Pakistan: Causes, Impacts and Remedial Measures, in the book entitled: Climate and Water Resources in South Asia: Vulnerability and Adaptation, Pervaiz Amir, M. Munir Sheikh, published by APN, Japan, START and Fred J Hansen. Institute for World Peace (2007).
138. Chapter 3: Hydrometeorology of Floods and Droughts in South Asia – A Brief Appraisal, in the book titled: Climate and Water Resources in South Asia: Vulnerability and Adaptation, S. Nandargi, O.N. Dhar, M.M.Q. Mirza, Brenna Enright and M. Munir Sheikh, published by APN, Japan, START and Fred J Hansen. Institute for World Peace (2007). 
139. Regional Climate Modeling for the Developing World: The ICTP RegCM3 and RegCNET, Jeremy S. Pal, Filippo Giorgi, M. Ashfaq, Faisal S. Syed, Bulletin of the American Meteorological Society, pp 1396-1409, (2007).
140. Prospects for Wheat Production under Changing Climate in Mountain Areas of Pakistan – An Econometric Analysis, Syed Sajidn Hussain, Muhammad Mudasser, Science Direct, Agricultural Systems, Elsevier Applied Science, UK, Vol.94 pp. 494-501, (2007).
141. Droughts in Pakistan: Causes, Impacts and Remedial Measures, Pervaiz Amir and M. Munir Sheikh, Chapter 7 in the Book: Climate and water Resources in South Asia: Vulnerability and Adaptation, Edited by Amir Muhammad, M. Monirul Qader Mirza and Bonnie A. Stewart, Asianics Agro Dev. International, (2006).
142. Effect of Remote Forcings on the Winter Precipitation of Central Southwest Asia Part 1: Observations, Faisal S. Syed, Filippo Giorgi, Jeremy Pal, M. P. King, Theoretical and Applied Climatology, Springer, Germany, Vol. 86, pp 147-160, (2006).