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World Journal of Agricultural Research. 2016, 4(3), 70-76
DOI: 10.12691/WJAR-4-3-2
Original Research

Farming Community Perceptions about Climate Change in Khyber Pakhtunkhwa Pakistan

Muhammad Israr1, , Muhammad Faraz1, Dawood Jan2, Nafees Ahmad3 and Shakeel Ahmad4

1Department of Rural Development, Amir Muhammad Khan Campus, Mardan, The University of Agriculture, Peshawar, Pakistan

2Department of Agriculture and Applied Economics, The University of Agriculture, Peshawar, Pakistan

3Department of Economics, University of Malakand, Chakdara, Dir Lower

4Department of Environmental Sciences, COMSATS Abbottabad

Pub. Date: April 14, 2016

Cite this paper

Muhammad Israr, Muhammad Faraz, Dawood Jan, Nafees Ahmad and Shakeel Ahmad. Farming Community Perceptions about Climate Change in Khyber Pakhtunkhwa Pakistan. World Journal of Agricultural Research. 2016; 4(3):70-76. doi: 10.12691/WJAR-4-3-2

Abstract

This study was conducted in Swabi district of Khyber Pakhtunkhwa with the objectives to study the knowledge of small scale farmers about climate change and its impact on livelihood and to pinpoint about the climate changes and temperature during last five years in Swabi district. For this 08 Union Councils (UCs) were selected from 56 UCs of the district randomly, from which 200 respondents were drawn through sample random sampling methods. Primary data were collected at the field survey through interviews structure schedule and were analyzed by using descriptive statistics and Chi-square test. Findings revealed most of the respondents were owner cum tenant and having un-irrigated land. Maize, wheat and tobacco were the main growing crops of the area. Majority of the respondents did not grow any fruit trees due to lack of water and heavy frost. The finds also pointed that changes observed in increased or decreased in temperature and monsoon rain during last 5 years which having drastic affect on the production of crops in the area. Farmer’s adoptive and mitigative practices also change by bringing changes in the agronomic practices. The study as a whole concludes that climate change affecting the environment and agriculture sector. It was recommended that there is a need of awareness campaigns, farmer’s education, farmers training and skill development, developing high yielding heat, cold/drought tolerant and short duration verities of crop and the adoption of agro forestry for reducing the climate change in agriculture sector.

Keywords

farming, climate change, temperature and agriculture crop

Copyright

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References

[1]  Ahmad, M., Siftain, H., and Iqbal, M. (2014). Impact of climate change on wheat productivity in Pakistan. A district level analysis: Pakistan institute of development economics.
 
[2]  Baig, J.A., Kazi, T. G., Shah, A. Q., Afridi, H. I., Khan, S., Kolachi, N. F., Kandhro, G. A. Wadhwa S. K., and Shah, F. (2011). Impact of climate change on wheat productivity in mixe cropping system of Punjab. Soil Science Society of Pakistan, 30(2), 110-114.
 
[3]  Benz, A. (2008). Vom Stadt-Umland-Verband zu ‘Regional Governance’ in Stadtregionen. Deutsche Zeitschrift für Kommunalwissenschaften, 40(2), 5571.
 
[4]  Cruz, M. J.B., K.L. Ricke and G. Wagner. (2015). The Economics of climate engineering. Opinion article, Geo-engineering our climate working paper and opinion article series. Available at: http://wp.me/p2zsRk-ch.
 
[5]  Dessai, S. and Hulme, M. (2004). Does climate adaptation policy need probabilities. Climate policy: 4. 2-22.
 
[6]  Food and Agriculture Organization (FAO). (2009). Evaluation of the FAO response to the Pakistan earthquake. 1-90.
 
[7]  Fraiture, D., Smakhtin, C., V., Bossio, D., McCornick, P., Hoanh, C. T., Noble, A., Molden, D., Gichuki, F., Giordano, M., Finlayson, M., & Turral, H. (2007). Facing climate change by securing water for food, livelihoods and ecosystems. J. of semi-arid tropical agricultural research, 4(1), 12.
 
[8]  Huffman, M.A, Gotoh, S., Turner, L.A., Hamai, M., and Yoshida, K. (1997). Seasonal trends in intestinal nematode infection and medicinal plant use among chimpanzees in the Mahale Mountains, Tanzania. Primates 38:111-125.
 
[9]  Mansoor, S., I. Amin, S. Iram, M. Hussain, Y. Zafar, K.A. Malik and R.W. Briddon. (2007). The breakdown of resistance in cotton to cotton leaf curl disease in Pakistan. New Disease Report, 7: 9-18.
 
[10]  Malla, G., (2008). Climate change and its impact on Nepalese agriculture. The J. of Agri. and Env. Vol.9., pp. 62-71.
 
[11]  Mithofer, D., and Waibel, H. (2003). Income and labor productivity of collection and use of indigenous fruit tree products in Zimbabwe. Agro forestry systems. 59(3), 295-305.
 
[12]  Martin, K. (2012). Linking climate change with food security in high land of Khyber Pakhtunkhwa north-west Pakistan. Master thesis. Wurzburg University Germany. Retrieved from: http://www.nccrpakistan.org, dated: 02/01/2016.
 
[13]  Morton, J.F. (2007). Climate change and food security special feature: the impact of climate change on smallholder and subsistence agriculture. Proceedings of the national academy of sciences, 104 (59), 19680-19685.
 
[14]  NASA, National Aeronautics and Space Administration. (2015). What's the Difference between weather and climate? Retrieved from: https://www.nasa.gov, dated: 02/01/2016.
 
[15]  OXFAM. (2009). Climate change, poverty and adaptation in Nepal. Published by Oxfam International, Nepal. Retrieved from http://www.oxfam.org.
 
[16]  Rajeevan, M. Bhate, J. and A. K. Jaswal. (2008). Analysis of variability and trends of extreme rainfall events over India using 104 years of gridded daily rainfall data.
 
[17]  Scherr, S. J. (1995). Economic factors in farmer adoption of agro forestry: Patterns observed in Western Kenya.
 
[18]  Serreze, M.C. and Barry, R.G. (2011). Processes and impacts of Arctic amplification: A research synthesis. Global and planetary change. 77 (2011) 85-96.
 
[19]  Schewe, J. and Levermann, A. (2012). A statistically predictive model for future monsoon failure in India. Environ. Res. Lett. 7 (2012) 044023 (9pp).
 
[20]  UNDP. (2014). Human development report. Work for human development Briefing note for countries on the 2015 Human Development Report. Pp.1-7. World Bank (WB) (2011). World development report. Conflict security and development. 1-12.
 
[21]  Uprety, D.C. (1998). Rising atmospheric CO2 and crop productivity. Japan J. Crop Sci 67:394-395.