Your search found 11 records
1 Haider, M. S.; Khan, M. A. 1996. Research opportunities in canal irrigation management in Malik Sub Division, Sadiqia Canal Division, Bahawalnagar: Inception report. Lahore, Pakistan: International Irrigation Management Institute (IIMI). Pakistan National Program. 58p. (IWMI Pakistan Report P-003 / IIMI Pakistan Report P-003)
(Location: IWMI-HQ Call no: IIMI 631.7.1 G730 HAI Record No: H018302)
(28.02 MB)
2 Khan, S. A.; Khan, M. J.; de Klein, C. H. 1997. The influence of physical conditions on water management practices in tertiary units: Case study of Hakra 6-R Distributary of Fordwah Eastern Sadiqia Canal System in Southern Punjab. In Murray-Rust, D. H.; Vender Velde, E. J.; Habib-ur-Rehman (Eds.), Water management in NWFP. Peshawar, Pakistan: NWFP Agricultural University; Wageningen, Netherlands: Wageningen Agricultural University. Department of Irrigation and Soil and Water Conservation. pp.289-303.
Irrigation canals ; Distributary canals ; Water management ; Irrigation management ; Farmer participation ; Water allocation ; Water distribution ; Equity ; Watercourses ; Maintenance ; Discharges ; Drainage ; Waterlogging ; Salinity ; Case studies / Pakistan / Southern Punjab / Bahawalnagar / Fordwah Eastern Sadiqia Canal / Hakra 6-R Distributary
(Location: IWMI-HQ Call no: 631.7.8 G730 MUR Record No: H023147)
3 Gill, M. A. 1998. Water resources management in Pakistan: Strategies, impacts and future prospects. In Tariq, A. U. R.; Latif, M. (Comp.), Proceedings of the International Symposium - Water for the 21st century: Demand, supply, development and socio-environmental issues, June 17-19, 1997, Lahore, Pakistan. Volume I - Symposium deliberations. Lahore, Pakistan: University of Engineering and Technology. Centre of Excellence in Water Resources Engineering. pp.73-92.
Water resource management ; Irrigated farming ; History ; Irrigation management ; Participatory management ; Farmer participation ; Water user associations ; Drainage ; Groundwater ; Tube wells ; Dams / Pakistan / Bahawalnagar / Fordwah Eastern Sadiqia
(Location: IWMI-HQ Call no: 631.7 G730 TAR Record No: H023595)
4 ICID. 1999. 17th Congress on Irrigation and Drainage, Granada, Spain, 1999: Water for Agriculture in the Next Millennium - Transactions, Vol.1D, Q.48, Poster Session: Irrigation under conditions of water scarcity: Q.48.2: Techniques to promote water saving in irrigation; 48.3: Conjunctive use of surface and ground water; 48.5: Environmental implications of water scarcity conditions. New Delhi, India: ICID. xii, 285p.
Water conservation ; Surge irrigation ; Small scale systems ; Drip irrigation ; Design ; Computer techniques ; Water distribution ; Cotton ; River basins ; Arid lands ; Runoff ; Salinity control ; Water transport ; Conjunctive use ; Surface water ; Groundwater ; Case studies ; Simulation models ; Tank irrigation ; Water balance ; Wells ; Recharge ; Water scarcity ; Water resource management ; Mathematical models ; Optimization ; Water use ; Sustainability ; Irrigated farming ; Irrigation programs ; Environmental effects ; Assessment ; Decision support tools ; Crop production / India / Pakistan / China / Sri Lanka / Mexico / Italy / Tamil Nadu / Bahawalnagar / Loess Plateau / Jinan City / Licheng / Lagunera / Fucino Plain
(Location: IWMI-HQ Call no: ICID 631.7 G000 ICI Record No: H025084)
5 Kielen, N. C. 1999. WASB: Water and salt balance model to integrate irrigation and drainage measures for salinity control. In ICID, 17th Congress on Irrigation and Drainage, Granada, Spain, 1999: Water for Agriculture in the Next Millennium - Transactions, Vol.1D, Q.48, Poster Session: Irrigation under conditions of water scarcity: Q.48.2: Techniques to promote water saving in irrigation; 48.3: Conjunctive use of surface and ground water; 48.5: Environmental implications of water scarcity conditions. New Delhi, India: ICID. pp.137-150.
Irrigation management ; Drainage ; Salinity control ; Waterlogging ; Simulation models ; Soil salinity ; Water balance ; Groundwater ; Water table / Pakistan / Indus Basin / Bahawalnagar
(Location: IWMI-HQ Call no: ICID 631.7 G000 ICI Record No: H025176)
6 Javed, I.; Hafeez, A. 2000. Groundwater management and areas in need of drainage: Modeling approach. In Water and Power Development Authority (WAPDA); Mehran University of Engineering and Technology (MUET); International Waterlogging and Salinity Research Institute (IWASRI); International Irrigation Management Institute (IIMI). Proceedings, National Seminar on Drainage in Pakistan, Jamshoro, Pakistan, 16-18 August 2000. [Vol. 1] Lahore, Pakistan: Water and Power Development Authority (WAPDA); Sindh, Pakistan: Mehran University of Engineering and Technology (MUET); Lahore, Pakistan: International Waterlogging and Salinity Research Institute (IWASRI); Lahore, Pakistan: International Irrigation Management Institute (IIMI). pp.75-84.
Groundwater management ; Drainage ; Models ; Calibrations ; Seepage ; Water table ; Recharge ; Rain ; Water balance ; Irrigation canals ; Distributary canals ; Watercourses ; Groundwater development / Pakistan / Bahawalnagar / Fordwah Eastern Sadiqia
(Location: IWMI-HQ Call no: IIMI 631.62 G730 IIM Record No: H027117)
7 Chaudhry, M. R.; Sufi, A. B.; Hassan, A.; Khalid; Subhani, M. 2000. Bio-drainage: An option for control of waterlogging in Pakistan. In Water and Power Development Authority (WAPDA); Mehran University of Engineering and Technology (MUET); International Waterlogging and Salinity Research Institute (IWASRI); International Irrigation Management Institute (IIMI). Proceedings, National Seminar on Drainage in Pakistan, Jamshoro, Pakistan, 16-18 August 2000. [Vol. 1] Lahore, Pakistan: Water and Power Development Authority (WAPDA); Sindh, Pakistan: Mehran University of Engineering and Technology (MUET); Lahore, Pakistan: International Waterlogging and Salinity Research Institute (IWASRI); Lahore, Pakistan: International Irrigation Management Institute (IIMI). pp.91-100.
Drainage ; Biological control ; Waterlogging ; Soil salinity ; Irrigation canals ; Wells ; Water table ; Groundwater ; Water quality ; Eucalyptus / Pakistan / Indus Basin / Punjab / Bahawalnagar
(Location: IWMI-HQ Call no: IIMI 631.62 G730 IIM Record No: H027119)
8 Kahlown, M. A.; Azam, M. 2003. Effect of saline drainage effluent on soil health and crop yield. Agricultural Water Management, 62(2):127-138.
Arid zones ; Cotton ; Wheat ; Soil salinity ; Sodic soils ; Water quality ; Irrigation water ; Drainage ; Effluents ; Infiltration / Pakistan / Bahawalnagar
(Location: IWMI-HQ Call no: PER Record No: H033327)
9 Alam, M. M.; Bhutta, M. N. 2004. Comparative evaluation of canal seepage investigation techniques. Agricultural Water Management, 66(1):65-76.
(Location: IWMI-HQ Call no: PER Record No: H034379)
10 Yakubov, Murat. 2014. Enhancing capacity building of Khal Panchayats in select farmers's organizations of Bahawalnagar CC [Canal Circle]: Khal Panchayats Training Report [Revitalizing irrigation in Pakistan project] Colombo, Sri Lanka: International Water Management Institute (IWMI); Lahore, Pakistan: Punjab Irrigation and Drainage Authority (PIDA). 57p.
Capacity building ; Farmers organizations ; Irrigation systems ; Irrigation canals ; Irrigation management ; Training programmes ; Training courses ; Watercourses ; Water distribution ; Water availability ; Evaluation techniques / Pakistan / Punjab / Bahawalnagar
(Location: IWMI HQ Call no: e-copy only Record No: H047533)
(2.15 MB)
11 Mahmood, Z.; Maann, A. A.; Khan, I. A.; Shahbaz, B. 2020. Anthropogenic dimensions of climate change and its implications for agricultural adaptive strategies in Punjab, Pakistan. Journal of Agricultural Research, 58(1):41-48.
Climate change ; Anthropogenic factors ; Agriculture ; Strategies ; Drought ; Household income ; Food security ; Socioeconomic environment ; Farmers / Pakistan / Punjab / Bahawalnagar / Chakwal / Faisalabad
(Location: IWMI HQ Call no: e-copy only Record No: H049914)
https://apply.jar.punjab.gov.pk/upload/1592384444_139_7._1479.pdf
https://vlibrary.iwmi.org/pdf/H049914.pdf
https://vlibrary.iwmi.org/pdf/H049914.pdf
(0.34 MB) (344 KB)
The phenomenon of climate change is characterized by many underlying strata of nested, intractable and unforeseen predicaments. One cannot say that environmental change is purely a natural phenomenon, there are several human dimensions which are responsible for said concern. Current research was conducted by collaboration of Department of Rural Sociology, University of Agriculture, Faisalabad during 2019. This study analyzed the implications of climate change for rural livelihoods with focus on adaptive capacities in Punjab. Triangulation approach was utilized which consisted of qualitative and quantitative methodology. A sample of 672 representative was examined, which was drawn from three districts of the Punjab i.e. Bahawalnagar, Chakwal and Faisalabad by using multistage sampling technique. The research findings exhibited that most of respondents had education of up to matric level, lived in system of joint family with family of 7 or above members and had farming experience of more than 10 years. About half of the respondents possessed up to 5 acres of agricultural land. 91.2% of respondents believed that climate change effected the agriculture. While, 36.6% respondents responded that the phenomenon of climate change was anthropogenic. A set of agricultural adaptive strategies were used by majority of the respondents such as use of high yield varieties, drought resistant varieties, improved irrigation facilities, change in the planting schedule and diversifying of household income, etc. The findings obtained from the data showed that there were serious implications of climatic threat to food security and increased prices of agricultural input (fertilizer, pesticide, mechanization). Multiple linear regression showed that marital status, income, size of landholding, water shortage, strong winds and constraints were significantly associated with the agricultural adaptive strategies. Moreover, the role of Government and concerned departments was not found efficient in raising the awareness regarding climate change. There is need of comprehensive and practical interventions in the form of improved extension services, climate smart agriculture network, mainstreaming of climate change into national strategy and policy, effective weather forecast and institutional monitoring of adaptive measures.
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