References

1. S. Kreft, D. Eckstein, I. Melchior, Global Climate Risk Index, Germanwatch e.V. Bonn office / Berlin office, 2017. Available at: https://www.thethirdpole.net/en/2018/03/20/pakistans-sindhstruggles-to-respond-to-climate-change-challenges/ accessed 02.01.2019.
2. M. Muzaffar, A. Inam, M. Hashmi, K. Mehmood, I. Zia, Impact of reduction in upstream freshwater and sediment discharge in Indus deltaic region, J. Biodivers. Environ. Sci., 10 (2017) 208–216.
3. M. Waqas, M. Nazeer, M.I. Shahzad, I. Zia, Spatial and temporal variability of open-ocean barrier Islands along the Indus Delta Region, Remote Sens., 11 (2019) 437.
4. S. Munir, A.A. Kidwai, Signature-based geospatial analysis to find out the suspended sediment concentration in Indus River Delta Pakistan, Int. J. Appl. Sci. Manage., 2 (2017) 233–245.
5. A.A. Shah, I. Kasawani, J. Kamaruzaman, Degradation of Indus Delta Mangroves in Pakistan, Int. J. Geol., 1 (2007) 27–34.
6. Z. Abro, A.L. Qureshi, S.M. Kori, A.A. Mahessar, Enhanced storage capacity and quality of Haleji and Hadero lakes connecting with Indus River for their sustainable revival, Pak. J. Sci. Ind. Res., 61A (2018) 35–42.
7. A.A. Mahessar, A.L. Qureshi, K.C. Mukwana, A.Q. Jakhrani, Study of environmental impacts and threats to the Ramsar Haleji Lake, Sindh, Pakistan, Int. J. Appl. Environ. Sci., 10 (2015) 1577–1590.
8. M.Z. Khan, T. Jabeen, S.A. Ghalib, S. Siddiqui, M.S. Alvi, I.S. Khan, G. Yasmeen, A. Zehra, F. Tabbassum, B. Hussain, R. Sharmeen, Effect of right bank outfall drain (RBOD) on biodiversity of the wetlands of Haleji wetland complex, Sindh, Can. J. Pure Appl. Sci., 8 (2014) 2871–2900.
9. M.Y. Khuhawar, R.Z. Brohi, T.M. Jahangir, M.F. Lanjwani, Water-quality assessment of Ramsar site, Indus Delta, Sindh, Pakistan, Environ. Monit. Assess., 190 (2018) 492.
10. A.C. Shahid, Pakistan: Indus Basin Water Strategy - Past, Present and Future, Lahore Journal of Economics, Papers and Proceedings of the Sixth Annual Conference of the Lahore School of Economics, 15 (2010) 187–211 Special Edition.
11. SIDA, Phase 1 Final Report, Preparation of Regional Plan for the Left Bank of Indus, Delta and Coastal Zone, Sindh Irrigation and Drainage Authority, SIDA, Hyderabad, Pakistan, The Louis Berger Group Inc., 2012. Available at: http://sida.org.pk/download/reports/1.Vol-I.MainReport-Final_June_2011.pdf.
12. N.A. Kalhoro, Z. He, D. Xu, M. Faiz, L.V. Yafei, N. Sohoo, A.H. Bhutto, Vulnerability of the Indus River Delta of the north Arabian Sea, Pak. Global Nest J., 18 (2016) 599–610.
13. M. Qamar, M. Quraishi, Mangroves of the Active Indus Delta Changes and their Causes, A Dissertation Submitted to the School of Business Administration for Ph.D., Lambert Academic Publishing, The European Union, Latvia, 2009.
14. G.A. Mahar, N.A. Zaigham, Spatio-temporal assessment of agriculture and mangroves and its impact on socioeconomy of people in Indus Delta, Pak. J. Bot., 51 (2019) 377–383.
15. S. Naseem, V. Hussain, S. Bano, Origin of salinity and other constituents in Indus Deltaic Plain groundwater, Thatta District, Pakistan, J. Coast. Res., 34 (2018) 883–891.
16. G.S. Solangi, A.A. Siyal, M.M. Babar, S. Pirah, Groundwater quality mapping using geographic information system: a case study of district Thatta Sindh, Mehran Univ. Res. J. Eng. Technol., 36 (2017) 1059.
17. R.P. de Silva, Effect of climate change on potential groundwater recharge in the dry zone of Sri Lanka, Br. J. Environ. Clim. Change, 5 (2015) 23–36.
18. K. Dorau, H. Gelhausen, D. Esplor, T. Mansfeldt, Wetland restoration management under the aspect of climate change at a mesotrophic fen in Northern Germany, Ecol. Eng., 84 (2015) 84–91.
19. R.H. Moreno, A.M. Mateu, S.I. Asensio, G.J.M. Blanquer, Wetland soils under rice management and seawater intrusion: characterization and classification, Spanish J. Soil Sci., 5 (2015) 111–129.
20. H.E. Golden, C.R. Lane, D.M. Amtya, K.W. Bandilla, H.R. Kiperwas, C.D. Knightes. H. Ssegane, Hydrologic connectivity between geographically isolated wetlands and surface water system: a review of select modeling methods, Environ. Modell. Software, 53 (2014) 190–206
21. A.P. Dimri, D. Kumar, S. Chopra, A. Choudhary, Indus river basin: future climate and water budget, Int. J. Climatol., 39 (2019) 395–406.
22. C.G. Ochoa, A. Fernald, S. Guldan, V. Tidwell, M. Shukla, Shallow aquifer recharge from irrigation in a semiarid agricultural valley in New Mexico, J. Hydrol. Eng., 10 (2012) 1061.
23. P.H. Talaee, Analysis of groundwater quality in the northwest of Iran, Desal. Wat. Treat., 56 (2015) 2323–2334.
24. H.V. Pham, S.-I. Lee, Assessment of seawater intrusion potential from sea-level rise and groundwater extraction in a coastal aquifer. Desal. Wat. Treat., 53 (2015) 2324–2338.
25. I. Abbas, H.M. Rafique, M.A. Sohl, A. Falak, S. Mahmood, M. Imran, Y. Al-Zaghayer, A. Al-Awadi, A. Mahmood, Spatiotemporal analysis of groundwater regime within Rawalpindi Municipal Jurisdiction, Pakistan, Desal. Wat. Treat., 52 (2014) 1472–1483.
26. N. Wolthek, K. Raat, J.A. de Ruijter, A. Kemperman, A. Oosterhof, Desalination of brackish groundwater and concentrate disposal by deep-well injection, Desal. Wat. Treat., 51 (2013) 1131–1136.
27. A.S. Qureshi, P.G. McCornick, A. Sarwar, B.R. Sharma, Challenges and prospects of sustainable groundwater management in the Indus Basin, Pakistan, Water Resour. Manage., 24 (2010) 1551–1569.
28. N.C. Mondal, V.S. Singh, V.K. Saxena, Improvement of groundwater quality due to freshwater ingress in Potharlanka Island, Krishna delta, India, Environ. Geol., 55 (2008) 595–603.
29. W.J. Mitsch, J.W. Day Jr., Restoration of wetlands in the Mississipi-Ohio-Missouri (MOM) river basin: experience and needed research, Ecol. Eng., 26 (2005) 55–69.
30. L. Giosan, S. Constantinescu, P.D. Clift, A.R. Tabrez, M. Danish, A. Inam, Recent morphodynamics of the Indus delta shore and shelf, Cont. Shelf Res., 26 (2006) 1668–1684.
31. S. Salma, S. Rehman, M.A. Shah, Rainfall trends in different climate zones of Pakistan, Pakistan J. Meteorolog., 9 (2012) 37–47.
32. M. Fossey, A.N. Rousseau, Assessing the long-term hydrological services provided by wetlands under changing climate conditions: a case study approach of a Canadian watershed, J. Hydrol., 541 (2016) 1287–1302.
33. S.M. Kori, A.L. Qureshi, B.K. Lashari, N.A. Memon, Optimum strategies of groundwater pumping regime under scavenger tubewells in lower Indus Basin Sindh, Pakistan, Int. Water Technol. J., 3 (2013) 138–145.
34. A.L. Qureshi, B.K. Lashari, S.M. Kori, G.A. Lashari, Hydro- Salinity Behaviour of Shallow Groundwater Aquifer Underlain by Salty Groundwater in Sindh Pakistan, Fifteenth International Water Technology Conference IWTC-15, Alexandria, Egypt, 2011.
35. S. Kar, J.P. Maity, J. Jean, C. Liu, B. Nath, H. Yang, J. Bundschuh, Arsenic-enriched aquifers: occurrences and mobilization of arsenic in groundwater of Ganges Delta Plain, Barasat, West Bengal, India, Appl. Chem., 25 (2010) 1805–1814.
36. P.G. Cook, A.J. Love, N.I. Robinson, C.T. Simmons, Groundwater ages in fractured rock aquifers, J. Hydrol., 308 (2005) 284–301.
37. Standard Methods for the Examination of Water and Wastewater, 23rd ed., American Public Health Association (APHA) Washington, D.C., 20005, 2017.
38. T. Wu, Y. Li, Spatial interpolation of temperature in the United States using residual kriging, Appl. Geogr., 44 (2013) 112–120.
39. R. Ghazavi, A.B. Vali, S. Eslamian, Impact of flood spreading on groundwater level variation and groundwater quality in an arid environment, Water Resour. Manage., 26 (2012) 1651–1663.
40. Weather Data and Graphs. Available at: https://www.worldweatheronline.com/thatta_weather_averages/sindh/pk.aspx.
41. A.A. Anwar, M.T. Bhatti, Pakistan’s water apportionment accord of 1991: 25 years and beyond, J. Water Resour. Plann. Manage., 144 (2018).