Abstract
Many drainage schemes and salinity control projects have been executed world wide. Pipe drainage has widely been used in Pakistan, Egypt and India to control waterlogging. The impact of pipe drainage on land and water was evaluated in this paper using data of three pipe drainage projects in Pakistan namely Khushab Salinity Control and Reclamation Project, Fourth Drainage Project in Faisalabad and Swabi Salinity Control and Reclamation Project. Data by regular monitoring of these projects were collected. The effect of pipe drainage on water table depth at these three locations has been compared. Water quality and soil salinity improvement due to the pipe drainage has also been investigated. Data, related to water table depths and discharges from drain pipes/wells, was collected. Observation wells, installed at various places by the Water and Power Development Authority, were used for collection of this data. To evaluate the impact of the projects on salinity, soil samples from all the three locations were tested. A questionnaire was prepared to get the view of the people about the projects. It was revealed that in these areas, due to subsurface pipe drainage, the percentage of the abandoned land has been considerably decreased. Over drainage was observed in a few places of the projects. The farmers at such places were asked to change their cropping patterns. Ultimately, there has been an increase in area under cultivation, crop yields and cropping intensity in the projects’ area.
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References
AQUASTAT (2008). Irrigation in the Middle East Region in figures. Water Report No 34, FAO. Rome: Italy.
Azhar, A. H., Alam, M. M., & Rafiq, M. (2004). Impact of subsurface drainage systems on land and water conditions. Lahore, Pakistan: IWASRI, Publication # 261, WAPDA.
Bhutta, M. N. (2007). Salient findings of drainage research and its benefits in Pakistan. Pakistan Journal of Water Resources, 11(1), 31–38.
Chahar, B. R., & Vadodaria, G. P. (2010). Optimal spacing in an array of fully penetrating ditches for subsurface drainage. Journal of Irrigation and Drainage Engineering ASCE, 136(1), 63–67.
Eldeiry, A. A., & Garcia L. A. (2010). Comparison of ordinary kriging, regression kriging, and cokriging techniques to estimate soil salinity using LANDSAT images. Journal of Irrigation and Drainage Engineering ASCE, 136(6), 355–364.
El-Hinnawi, E. (1993). Population, environment, and development in the Arab World. Paper presented to the Arab Population Conference, Amman. United Nations Economic and Social Commission for Western Asia (ESCWA). 4–6 April
FAO (1994). Land degradation in south Asia: Its severity, causes and effects upon the people, Food and Agriculture Organization of The United Nations. Rome: World Soil Resources Reports.
Gammal El H. A. A., & Ali, H. M. M. (2010). Commissioning of abandoned drainage water reuse systems in Egypt: A case study of upgrading the Umoum project, Nile Delta. Journal Irrigation and Drainage ICID. doi:10.1002/ird.561.
Ghumman, A. R., Ghazaw, Y. M., Niazi, M. F., & Hashmi, H. N. (2010). Impact assessment of subsurface drainage on waterlogged and saline lands. Journal Environmental Monitoring and Assessment, 172, 189–197. doi:10.1007/s10661-010-1326-6.
Hirekhan, M., Gupta, S. K., & Mishra, K. L. (2007). Application of Wasim to assess performance of a subsurface drainage system under semiarid monsoon climate. Journal of Agricultural Water Management, 88, 224–234.
Hornbuckle, J. W., Christen, E. W., & Faulkner, R. D. (2007). Evaluation of a multi-level subsurface drainage system in New South Wales, Australia. Journal of Agricultural Water Management, ELSEVIER, USA, 89(2007), 208–216.
IPTRID SECRETARIAT (2007). Egypt’s experience in irrigation and drainage research uptake, final report. Electronic Publishing Policy and Support Branch, Information Division, Food and Agriculture Organization, FAO, Viale delle Terme di Caracalla, 00153, Rome, Italy.
Kahlown, M. A., & Khan, A. D. (2004). Tile drainage manual, Pakistan Council of Engineering in Water Resources (PCRWR), Islamabad, Pakistan, ISSB 969-8469-13-3, PCRWR Press, Islamabad.
Kahlown, M. A., Marri, M. K., & Azam, M. (2007). Design, construction and performance evaluation of small tile drainage systems in the Indus Basin. Journal of Irrigation and Drainage ICID, 56(S1), 217–225.
Kahlown, M. A., Marri, M. K., & Azam, M. (2010). Design, construction and performance evaluation of small tile drainage systems in the Indus Basin. Journal of Irrigation and Drainage, 56(1), S217–S225.
Niazi, M. F. K. (2008). Evaluating the impact of subsurface drainage on land and water. PhD, Thesis, University of Engineering and technology, Taxila, Pakistan.
Ritzema, P. H. (2009) Drain for gain, making water management worth its salt, subsurface drainage practices in irrigated agriculture in semi-arid and arid regions. PhD Dissertation Wageningen University and UNESCO-IHE Institute for Water Education, Wageningen, The Netherlands.
Sarwar, A. (2000). A transient model approach to improve on-farm irrigation and drainage in semi-arid zones. PhD Dissertation, Wageningen University & Research Centre, The-Netherlands.
Smedema, L. K. (1990). Comparative study of the East Khairpur, Mardan and drainage-IV pipe drainage project. Project: PAK/83/022. Tech. Report No. 90/01, IWASRI Pub. No. 8, Lahore, Pakistan.
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Ghumman, A.R., Ghazaw, Y.M., Hashmi, H.N. et al. Environmental and socio-economic impacts of pipe drainage in Pakistan. Environ Monit Assess 184, 1671–1681 (2012). https://doi.org/10.1007/s10661-011-2069-8
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DOI: https://doi.org/10.1007/s10661-011-2069-8