تحلیل فضایی مخاطرات محیطی

تحلیل فضایی مخاطرات محیطی

طراحی الگوی برون رفت از چالش‌های پایدارسازی معیشت کشاورزان کوچک مقیاس در شرایط خشکسالی در استان کردستان

نویسندگان
گروه ترویج
چکیده
این پژوهش با هدف کلی طراحی الگوی برون رفت از چالش‏های پایدارسازی معیشت کشاورزان کوچک مقیاس در شرایط خشکسالی انجام شد. جامعه آماری پژوهش شامل کشاورزان کوچک مقیاس استان کردستان که در شرایط خشکسالی بودند. پارادایم تحقیق از نوع کیفی به دو روش نظریه بنیانی و پدیدارشناسی بود. با روش نمونه‏گیری نظری 29 نفر از آن‏ها برای مطالعه انتخاب شدند. داده‏های پژوهش با استفاده از مصاحبه عمیق و بحث گروهی جمع‏آوری و با سه روش کدگذاری باز، محوری و انتخابی مورد تحلیل قرار گرفتند. نتایج تحقیق در بخش پدیدار شناسی رفتارهای حفظ معیشت شامل 16 کد اولیه بودند و در قالب رفتارهای سازگار، تاب‏آور و عدم واکنش طبقه‏بندی شدند. همچنین نتایج بررسی چالش‏های پایدارسازی معیشت کشاورزان کوچک مقیاس در قالب روش داده بنیاد شامل 61 کد اولیه بودند که در نهایت به منظور طراحی مدل برون رفت از چالش‏های پایدارسازی 9 مکانیزم (اقتصادی، بهره‏وری عوامل تولید، خدمات و تسهیلات، آموزش و اطلاع‏یابی، مدیریتی و ظرفیت‏سازی، فرهنگی، تکنولوژی، تشکل‏ها و تعادل) براساس چالش‏های پایدارسازی طراحی گردید و در قالب مدل اشتراوس جای‏گذاری شدند.
کلیدواژه‌ها

عنوان مقاله English

Sustainability, Sustainable Livelihoods, Climate Risks, Small Scale -Farming

نویسنده English

moslem savari
چکیده English

Farmers frequently cope with risks due to the uncertainty of climatic conditions. Population growth, changes in agricultural policies, environmental regulations and the degradation of natural resources such as soil and water also present farmers with numerous challenges. Although farmers have experience in coping with a certain degree of uncertainty, increased climate variability and changes may cause severe problems. Drought in particular is a climatic disaster that creates substantial costs for farmers and affects their agricultural systems extensively. Drought is the most complex of all natural hazards, making the arid and semi-arid regions of the world vulnerable. Although drought has not been well documented, the resource-dependent sectors such as agriculture are the most vulnerable to the impact of this phenomenon. A review of the long-term annual precipitation trends indicated that drought had a worldwide return frequency of every 20e30 years. However, in the last 50 years, some countries such as Iran and Bangladesh have experienced approximately 27 and 19 drought events, respectively. Therefore, for arid and semiarid regions, drought is a recurrent feature that could lead to the loss of crop production, food shortages and starvation) if not managed appropriately. According drought impacts could be managed at macro (national), meso (local) and micro (village and household) levels. However, the micro-level management (i.e., what the farmers do in response to drought) is of great importance. A review of the studies of farmers’ decision-making in response to climate variability revealed that most research has focused on the decision event and not on the entire process argued that the wrong assumption of farmers’ homogeneity neglected different aspects of decision-making in response to drought. Also indicated that farmers made different decisions when utilizing the same data. Additionally, many studies have focused on single strategies that were used to mitigate drought. However, there is a lack of knowledge about the combination and sequence of coping strategies that are used to mitigate drought. Concentrating on the decision-making process could help policy makers assess the needs and prioritize interventions, as well as enable farmers to efficiently manage drought. Farmers utilize various strategies to reduce the impacts of drought. Some strategies have a limited impact on drought mitigation. Some practices also increase farmers’ woes during drought. In addition, when resources (natural, physical and financial) are scarce, the need for an accurate appraisal of coping strategies becomes acute. Therefore, outcome prediction (i.e., the efficacy of mixed coping strategies) is a critical issue in drought management. Consequently, this study is concerned with the description of the farmers’ decision-making process and decision outcomes. First, the impacts of drought on the agricultural production in arid or semi-arid countries, specifically Iran, are described. Then, the farmers’ decision-making process during drought is explained then, the farmers’ decision-making process during drought is explained. The focus then shifts to the design and explanation of the proposed research methodology, followed by an analysis of the results and concluding remarks. Approximately $84 million. Under such conditions, Iran imported significant amounts of wheat and rice, and it seemed likely that continuous drought would lead to import expansion. Furthermore, dairy production also experienced a decrease of 8.2 percent during this same period. The drought of 2008e2012 was one of the worst on record. This drought drastically reduced the cultivation area, even in irrigated lands. During this time, the river waters fell to critical levels. Most of the traditional ground water irrigation systems (qanats) either completely dried up or experienced a reduced water release. In the central and southern regions of Iran, the cultivation areas were reduced by half during the spring-summer seasons due to these low water levels. During this period, farmers experienced rising costs due to the use of management strategies such as deepening wells and constructing water storage in order to cope with the drought. Other economic impacts that were experienced by the farmers were increased livestock feeding expenses, increased interest rates, and increased debts. These depleted resources and diminished incomes forced those in rural areas to migrate to the cities in pursuit of jobs. Important factors, as previously mentioned, are livelihood risks that so far have not been given much attention so this research was to Patterns Design Out of the Challenges of Livelihood Sustainability of Small-Scale Farmers in Drought Conditions in Kurdistan Province.

The statistical population consisted of small farmers in Kurdistan province who were in drought conditions. The research paradigm is qualitative in two ways: Grounded theory and phenomenology. Using theoretical sampling, 29 of them were selected for study. The research data were collected using a deep interview and group discussion and analyzed with three open, axial and selective coding methods.

The results of the research in the phenomenology of Livelihood Behavior Behaviors included 16 primary codes and classified into adaptive behaviors, resiliency and non-response. Also, the results of studying the livelihood sustainability challenges of small scale farmers in the form of foundation data methodology included 61 initial codes. Finally, in order to design a model out of the challenges of the stabilization of 9 mechanisms (economic, productivity, production factors, services and facilities, Education and information, management and capacity building, culture, technology, formations, and equilibrium) were designed based on the challenges of sustainability and incorporated into the Strauss model.



Keyword: Sustainability, Sustainable Livelihoods, Climate Risks, Small Scale -Farming




کلیدواژه‌ها English

Sustainability
Sustainable livelihoods
Climate risks
Small Scale -Farming
- Alpizar, A. C. (2007). Risk coping strategies and rural household production efficiency: Quasi experimental evidence from EL Salvador. Ph.D. Dissertation, Ohio State university. Retrieved from www.etd.ohiolink.edu/view.cagi?acc_num=osul 180206697.
- Campbeell, D., Barker, D., McGergo, D. (2010). Dealing With drought: Small farmers and environmental hazards in southern St. Elizabeth, Jamaica. Applied Geography, 31(1), Pp: 146-158.
- Davis, I.Y. (2009). Izadkhah, "Building resilient urban communities", Article from OHI, 31, 1, Pp. 11-21, 2006.
- Dixon, J. Gulliver, A. & Gibbon, D. (2001). Farming Systems and Poverty: Improvement Farmers’ Livelihood in a changing World, Rome and Washington D.C:
- Elemo, K. A. (2012). Farming Systems, Department of Plant Physiology and Crop Production, Lecture Notes.
- Ellis, F. (2000a). Rural Livelihoods and Diversity in Developing Countries. Oxford University Press, Oxford
- Endfield, G. Tejedo, F. I. and O'Hara, L. S. (2004). Drought and disputes, deluge and dearth: Climatic variability and human response in colonial Oaxaca, Mexico. Historical Geogarphy, 30:249-276.
- Hendrickson, J. R., Liebig, M. A., & Sassenrath, G. F. (2008). Environment and integrated agricultural systems. Renewable Agriculture and Food Systems, 23(04), 304-313.
- Herrero, M. & Silvestri, S. (2011). Agricultural land management: Capturing synergies among climate change adaptation, greenhouse gas mitigation and agricultural productivity.
- Karpishe, L. (2011). Brlfyq promote indigenous knowledge and innovative design pattern based drought management (case study in Fars province). Ph.D. dissertation, - King,- B. (2011). Spatialising livelihoods: resource access and livelihood spaces in South Africa. Transactions of the Institute of British Geographers, 36(2), 297e313. http://dx.doi.org/10.1111/j.1475-5661.2010.00423.x.
- Kavoosi, N. (2004). A report on drought in Iran measures adopted to cope with it. The Agricultural Aridity and Drought Journal, No.11, P. 1-7, Ministry of Jehad-e-Agriculture, Tehran Iran.
- Kenny, A. (2008). "Assessment of the Social Impacts of Drought". Journal of American Water Resources Association, 37(3): 678- 686.
- Keshavarz, M., Karami, E (2013). Institutional adaptation to drought: the case of Fars agricultural organization. Journal of Environmental Management, 127:61-68.
- Kim, D. Yoo, C. Kim, T. (2011). Application of Spatial EOF and Multivariate Time Series Model for Evaluating Agricultural Drought Vulnerability in Korea, Advances in Water Resources, Vol 34, Issue 3, PP. 340- 350.
- Lantinga, E. A., Oomen, G. J., & Schiere, J. B. (2004). Nitrogen efficiency in mixed farming systems. Journal of Crop Improvement, 12(1-2), 437-455.
- Marshall, N. A. (2010). Understanding social resilience to climate variability in primary enterprises and industries. Global Environmental Change 20: 36–43.
- Mirzaie-Nodoushon, H. (2005). An assessment of the impact of drought on natural resources and the environment in Iran.
- Petersen, S. O., Sommer, S. G., Béline, F., Burton, C., Dach, J., Dourmad, J. Y. & Mihelic, R. (2007). Recycling of livestock manure in a whole-farm perspective. Livestock science, 112(3), 180-191.
- Pittman, J. Wittrock. V. Kulshreshtha, S. Wheaton, E. (2011). Vulnerability to Climate Change in Rural Saskatchewan: Case study of the Rural Municipality of Rudy, No. 284, Journal of Rural Studies, vol 27, issue 1, PP. 83- 94.
- Pandit, N. R. (1996), The Creation of Theory: A Recent Application of the, Grounded Theory Method, The Qualitative Report.
- Russelle, M. P., Entz, M. H., & Franzluebbers, A. J. (2007). Reconsidering integrated crop–livestock systems in North America. Agronomy Journal, 99(2), 325-334.
- Schiere, J. B., Ibrahim, M. N. M., & Van Keulen, H. (2002). The role of livestock for sustainability in mixed farming: criteria and scenario studies under varying resource allocation. Agriculture, ecosystems & environment, 90(2), 139-153.
- Shen, F. Hughey, K. Simmons, D. (2008a). Connecting livelihood Approach and Tourism: A review of the literature Toward Integrative Thinking Lincoln university Research archive. Linkolen. AC. NZ/Www. Atypon-link. Com.
- Siegel, P. and Alwang, J. (1999). An asset-based approach to social risk management: A conceptual framework. Social protection discussion paper No. 9926. World Bank, Washington, DC.
- Speranze, Chinwe Ifejika, Kiteme Boniface, Wiesmann, Urs (2008). Drought and Famines: the Underlying Factors and the Causal Links Among Agro-pastoral Households in Semi-arid Makueni District, Kenya, Global Environmental change, Vol 18, issue 1, PP. 220-233.
- Swift, J. and Hamilton, K. (2001). Household food and livelihood security. In Devereux, S. and Maxwell, S. (eds.), Food Security in Sub-Saharan Africa. ITDG Publishing, London.
- VSF Europa (Vétérinaires sans Frontières Europa). (2012). Small Scale Livestock Farming and Food Sovereignty.
- Watson, R.T. Zinyowera, M.C. and Moss, R.H. (1996). Climate Change 1995: Impacts, Adaptations and Mitigation of Climate Change: Scientific-Technical Analyses. Contribution of Working Group II to the Second Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press.
- Wilhite, D. A. (1993). Drought assessment, management and planning: Theory and case studies. Kluwer Academic Publishers.
-FAOSTAT (2013). Food and Agricultural Commodities Production: Iran. Retrieved from: http://faostat.fao.org/site/339/default.aspx (last accessed 28.05.13.