Geography

Geography

Location and vulnerability of rural settlements in Zirkouh county

Document Type : Articles extracted from Thesis

Authors
Mahmood Falsoleiman 1
Mohammad Hajipour 2
Hassan Nikandish 3
1 Associate Professor, Department of Geography, Faculty of Literature and Humanities, University of Birjand , Birjand, Iran
2 Assistant Professor, Department of Geography, Faculty of Literature and Humanities, University of Birjand, Birjand, Iran
3 M.Sc. in Geography and Rural Planning, Department of Geography, Faculty of Literature and Humanities, University of Birjand, Birjand, Iran
10.22034/jiga.2025.2042003.1333
Abstract
 
Extended Abstract
Introduction
The vulnerability of rural settlements is increasing due to inadequate infrastructure and existing social-economic inequalities, making them more susceptible to natural hazards. Every year, the frequency of natural disasters worldwide leaves countless people homeless. In 2013 alone, over 73,954 people lost their lives due to natural disasters, and more than 2.9 million lost their homes. In Iran's diverse geographical landscape, approximately 68,000 villages are exposed to various natural threats such as floods, earthquakes, and droughts. Rural areas, closely tied to their environment and having limited capacity to cope with these hazards, are more vulnerable and have lower resilience compared to urban areas. Southern Khorasan Province is among the most hazard-prone areas in the country, facing threats like floods, earthquakes, droughts, and frost. The Zirkouh County, located in northeastern Khorasan and characterized by numerous scattered villages, has repeatedly experienced significant damage from these environmental crises. Despite the importance of understanding the spatial location of rural settlements and their vulnerability to environmental hazards, there has been no comprehensive research on this topic in the studied area. This understanding is crucial for effective planning and management of environmental crises in vulnerable regions.Therefore, the main objective of this paper is to study and analyze the impact of spatial location on the vulnerability of spaces, aiming to aid the planning and crisis management system in identifying the factors involved in assessing the risk levels in rural settlements of Zirkouh County. This research seeks to answer the following questions: How do the vulnerability levels of rural settlements in Zirkouh County differ from one another? What is the relationship between the spatial location of these rural settlements and their vulnerability levels?
                                                                                                                          
Methodology
This study is applied in its purpose and descriptive-analytical in its nature and method. According to the 2016 census, there are a total of 97 populated villages in the Zirkouh County, with 84 settlements having more than 20 households and being recognized as administrative villages. This research was conducted using a comprehensive enumeration method. In each village, a researcher-designed questionnaire was completed with the involvement of available experts and informants, typically comprising the village mayor and members of the Islamic Council. Consequently, a total of 84 questionnaires were collected, usually recording the personal information of the mayor or the individual with the most responsibility or knowledge regarding the village as the respondent. To carry out the research, four variables were utilized based on previous studies: environmental-physical vulnerability, economic vulnerability, social vulnerability, and the spatial location of the villages, along with 81 indicators. To expedite and facilitate the analysis of the collected data, each of the components was coded and subsequently processed using statistical software, namely Excel and SPSS. For the purpose of presenting and analyzing the data, descriptive statistics of the studied indicators were first provided through frequency tables, followed by inferential analysis of the research findings using one-sample T-tests, the binomial test, Pearson correlation, Spearman rank correlation, and cluster analysis.
 
Results and Discussion
The main variables in this study are the "Spatial Location of the Village," "Environmental-Physical Vulnerability," "Economic Vulnerability," and "Social Vulnerability." The variable "Spatial Location of the Village" is constructed based on the following factors: "Village Typology," "Distance to the County Center," "Distance to Watercourses or Rivers," "Available Water Resources," "Distance to Major Roads," "Distance to Borders," and "Distance to Fault Lines." Among these factors, "Village Typology" and "Available Water Resources" are qualitative, while the remaining variables are quantitative and non-normally distributed.
For the three variables— "Environmental-Physical Vulnerability," "Economic Vulnerability," and "Social Vulnerability"— 26, 24, and 24 indicators have been defined in the questionnaire, respectively. The average responses to these indicators represent each variable. Since each of the indicators has an ordinal scale, the tests related to these indicators will be non-parametric, while the data for the four latent variables— "Spatial Location of the Village," "Environmental-Physical
 
Vulnerability," "Economic Vulnerability," and "Social Vulnerability"— possess a quantitative scale. Accordingly, the data concerning these variables follow a normal distribution, allowing for the use of parametric tests in their inferential analysis.
The assessment of the studied rural settlements indicates that the environmental-physical and economic vulnerabilities are at a moderate level, while social vulnerability is below average.
The ranking of villages in the Zirkouh County based on overall vulnerability (a combination of environmental-physical, economic, and social indicators) using cluster analysis demonstrates that most of the vulnerable rural settlements are concentrated in the southern part of Zirkouh County, specifically in the Zahan and Zirkouh sections.
Results showed that the variable of spatial location has no significant relationship with the dimensions of vulnerability. Additionally, the spatial location of the rural settlements, in terms of distance to fault lines, distance to rivers, distance to major roads, distance to borders, distance to the city center, and distance to the provincial center has no significant relationship with vulnerability across various dimensions. Furthermore, the average dimensions of vulnerability across different typologies (flat, mountainous, foothill) do not show significant differences.
However, the average environmental-physical vulnerability shows significant differences among the various levels of available water resources (such as wells, qanats, springs, and rivers). No significant differences were observed in terms of economic and social vulnerability.
Notably, the average environmental-physical vulnerability for wells is greater than the average for rivers, the average vulnerability for qanats is greater than for springs, and the average vulnerability for qanats is also greater than that for rivers.
 
Conclusion
In conclusion, the current crisis management and planning system concerning the rural settlements of Zirkouh County has largely neglected the spatial differences related to proximity to hazard zones. Consequently, during potential disaster events, the accumulation of damages and the production of crises in rural areas will be exacerbated due to the existing lack of planning. The components of human geographical capacity in Zirkouh County currently do not provide a satisfactory level of protection against risk reduction. These components include: limited access for residents to essential facilities, the absence of sociological studies on natural hazards, a lack of education for the rural community in terms of prevention and safety during potential disasters, and inadequate planning for sheltering residents of rural settlements in safer areas during crises. Therefore, it is imperative to take actions aimed at improving these aspects to enhance the resilience and safety of the rural population in Zirkouh County against potential hazards. Addressing these issues will not only help mitigate the impact of disasters but also promote sustainable development in the region.
 
Keywords
Vulnerability
Prevention
Location
Natural Hazards
Zirkouh County

Subjects

  1. Akhundi, M. (2024). Evacuation of some villages in Zirkouh County due to flooding. Tasnim News Agency, News No. 3074680. https://www.tasnimnews.com/fa/news/1403/02/06/3074680 [Persian]
  2. Azharpour, A. R. (2015). A study on rural residents’ perceptions of climate change and adaptation strategies in Zabol County (Master's thesis, Agricultural Extension, Faculty of Agricultural Management, University of Agricultural Sciences and Natural Resources, Gorgan). [Persian]
  3. Eftekhari, A., & Sadeghloo, T. (2017). Resilience of local communities against environmental hazards. Tehran: Tarbiat Modares University Press. [Persian]
  4. Akbari, A. (2021). Spatial analysis of the distribution of rural settlements based on natural factors (Case study: Zahan District, Zirkouh County) (Master's thesis, Geography and Rural Planning, Sustainable Rural Development Management, Faculty of Geography and Environmental Sciences, Hakim Sabzevari University). [Persian]
  5. Amini, A., Moradi, N., & Sadeghian, F. (2019). An analysis of the impact of natural factors on the evacuation of rural settlements using geographic information systems and statistical methods (Case study: Evacuated villages in Isfahan Province in the last quarter-century). Geographical Space Journal, 19(65), 269-298. http://geographical-space.iau-ahar.ac.ir/article-1-2441-fa.html [Persian]
  6. Imani, B. (2021). Developing a model for managing natural hazards and the sustainability of urban and rural areas: A case study of landslides in the Rudbar region. Geography and Environmental Planning, 32(3), 128-105. https://doi.org/10.22108/gep.2021.126669.1387 [Persian]
  7. Badraknejad, A., Sarli, S., Babaei, M., & Basiri, M. (2019). Evaluation and analysis of the spatial distribution of rural settlements with an emphasis on biological and activity vulnerability (Case study: Aq Su Basin). Human Settlement Planning Studies, 14(3), 753-756. https://journals.iau.ir/article_667734.html [Persian]
  8. Badri, S. A., & Kazemi, N. (2020). Analysis of environmental hazards (1st ed.). Tehran: Samt Publications. [Persian]
  9. Parishan, M. (2011). Risk management of environmental hazards: The risk of earthquakes in rural areas of Qazvin Province (Doctoral dissertation, Geography, Faculty of Humanities, Tarbiat Modares University). [Persian]
  10. Haghdari, F., Mirzaei, R., & Afzali, A. (2017). Assessment of environmental vulnerability in Lorestan Province using multi-criteria decision analysis. Geography and Environmental Sustainability, 7(4), 19-34. https://ges.razi.ac.ir/article_868.html [Persian]
  11. Doosti Sabzi, B., Saidi, A., & Rahmani, B. (2022). The role of internal factors influencing the vulnerability of rural settlements (Case study: Takab region, West Azerbaijan). Journal of Geography and Regional Development, 19(5), 191-159. https://doi.org/10.22067/jgrd.2021.71858.1058 [Persian]
  12. Shafiee-Sabet, N., Doosti, B., & Ghorbani, M. (2016). Assessment of the vulnerability of rural settlements to drought using the COPRAS multi-criteria decision model: A case study of Delfan County. Natural Geography Journal, 9(31), 134-119. https://journals.iau.ir/article_527373.html [Persian]
  13. Shokour, A., Karimi Qotb Abadi, F., & Maleki, M. (2017). Risk analysis of the vulnerability of rural settlements to earthquakes (Case study: Villages in Lamerd County). Regional Planning Quarterly, 7(26), 119-134. https://journals.iau.ir/article_527373.html [Persian]
  14. Shahroki, M. R. (2020). Examining livelihood vulnerability to climate change and adaptation methods (Case study: Villages in the Oghan Watershed, Golestan Province) (Master's thesis, Rural Development, Faculty of Agricultural Management, University of Agricultural Sciences and Natural Resources, Gorgan). [Persian]
  15. Abbasi Zadeh, A. (2024). Preliminary estimation of 20 trillion IRR damages from flooding in Zirkouh County. Mehr News Agency, News No. 6091381. https://www.mehrnews.com/news/6091381 [Persian]
  16. Abdi, J., & Gilak Hakimabad, M. T. (2017). A comparative study of economic vulnerability in Iran with selected other middle-income countries. Economic Research Quarterly, 17(66), 179-200. https://doi.org/10.22054/joer.2017.8206 [Persian]
  17. Ataei, H., Bastani, A., Soltani Moghadam, R. S., & Salehi Isfahani, G. (2022). Assessment of the vulnerability of rural settlements to drought using the COPRAS model (Case study: Darab County). Spatial Development Planning, 9(2), 73-86. https://doi.org/10.30473/psp.2022.53248.2307 [Persian]
  18. Alavi, S. A., Ramazannejad, Y., Fattahi, A., & Khalifeh, B. (2015). Spatial zoning of rural settlements exposed to environmental hazards using the VIKOR multi-criteria decision technique (Case study: Talesh County). Regional Planning Quarterly, 5(20), 136-125. https://dorl.net/dor/20.1001.1.22516735.1394.5.20.10.9 [Persian].
  19. Faleh Soleiman, M., Hajipour, M., & Jamshidi, K. (2012). Vulnerability of physical elements in rural settlements in earthquake-prone areas (Case study: Qaenat and Zirkouh Counties). Geographic Space Journal, 2(6), 97-75. https://gps.gu.ac.ir/article_5378.html [Persian]
  20. Faraji, A., Shamsipour, A. A., & Bazarman, S. (2020). Measuring and assessing the sociological resilience of Varamin city against climate change hazards. Natural Geography Research, 52(4), 619-605. https://doi.org/10.22059/jphgr.2021.281426.1007382 [Persian].
  21. Fazouni Vajaragha, B., Shah Forough, M., & Ardavan, B. (2022). The effect of environmental factors on the distribution of rural settlements with an emphasis on natural hazards (Case study: Siyahroud Basin, Rudbar County, Gilan Province). Environmental Hazards Management, 9(4), 365-355. https://doi.org/10.22059/jhsci.2023.355487.765 [Persian]
  22. Mohammadi, A., Rokonaldin Eftekhari, A., & Pour Taheri, M. (2020). Analysis of the management of conversion and complementary industries in rural areas of Zirkouh County. Space Economy and Rural Development Quarterly, 9(31), 112-95. http://dorl.net/dor/20.1001.1.23222131.1399.9.31.5.8 [Persian].
  23. Mekaniki, J., Esmaeilzadeh, M., & Akbarpour, M. (2019). Assessment of the vulnerability of rural settlements to environmental hazards (Case study: Birjand and Khusf Counties). Rural Research Quarterly, 10(2). https://doi.org/10.22059/jrur.2019.264124.1277 [Persian]
  24. Niyast, M., & Gorkani, A. H. (2018). Examining the vulnerability of settlements in rural areas (Comparative study of Faraghi city and flood-affected villages in eastern Golestan Province). Journal of Spatial Analysis of Environmental Hazards, 5(1), 67-82. http://dx.doi.org/10.29252/jsaeh.5.1.67 [Persian]
  25. Alam G.M. M., K. Alam, Sh. Mushtaq, and M.L. Clarke. (2017). Vulnerability to climatic change in riparian char andriver-bankhouseholds in Bangladesh: Implication for policy, livelihoods andsocial development. EcologicalIndicators,72: 23-32. http://dx.doi.org/10.1016/j.ecolind.2016.06.045
  26. Armatas, C.A., Venn, T.J., McBride, B.B., Watson, A.E., & Carver, S.J. (2016). Opportunities to utilize traditional phenological knowledge to support adaptive management of social-ecological systems vulnerable to changes in climate and fire regimes. Ecology and Society, 21(1): 16-37. http://dx.doi.org/10.5751/ES-07905-210116
  27. Arpita, N., Arpita, M., Matthew W. and Davids. S. (2016). flood hazard mapping Jamaica using principal component analysis and Logestic regression,. Journal of Environmental Earth sciences, pp 75:465. https://link.springer.com/article/10.1007/s12665-016-5323-0
  28. Van Kamp, I., Leidelmeijer, K., Marsman, G., & De Hollander, A. (2003). Urban environmental quality and human well-being: Towards a conceptual framework and demarcation of concepts; a literature study. Landscape and urban planning, 65(1-2), 5-18. https://doi.org/10.1016/S0169-2046(02)00232-3
  29. Baxter, H. (2019). Creating the Conditions for Community Resilience: Aberdeen, Scotland—An Example of the Role of Community Planning Groups, Int J Disaster Risk Sci (2019) 10:244–260. https://doi.org/10.1007/s13753-019-0216-y
  30. Blaikie, P., Cannon, T., Davis, I., Wisner, B. (2005). At Risk: Natural Hazards, People’s Vulnerability and Disasters, Taylor & Francis e-Library, USA. https://www.preventionweb.net/files/670_72351.pdf
  31. Bryant, E.A. (2007) Natural hazards, Cambeidge University press, England.
  32. Cutter, S.L., Mitchell, J.T. and Scott, M.S. (2000) Revealing the Vulnerability of People and Places: A Case Study of Georgetown County, South Carolina. Annals of the Association of American Geographers, 90, 713-737. http://dx.doi.org/10.1111/0004-5608.00219
  33. Echeverria, V.R.W., & Thornton, T.F. (2019). Using traditional ecological knowledge to understand and adapt to climate and biodiversity change on the Pacific coast of North America. Ambio, 48(12): 1447-1469. https://doi.org/10.1007/s13280-019-01218-6
  34. Ford, K. (2002). Vulnerability: Concepts and Issues; A literature review of the concept of vulnerability, its definition and application in studies dealing with human-environment interactions, part of PhD Scholarly Field Paper For course Geog*6100, University of Guelph.
  35. Gondwe, G. (2019). Reducing vulnerability of the rural poor through adaptation and mitigation written for the expert group meeting on eradicating rural poverty to implement the 2030 Agenda for sustainable development, Addis Ababa. 1–12. Retrieved from: https://www.un.org/development/desa/dspd/wp-content/uploads/sites/22/2019/02/Grace-Gondwe.pdf
  36. (2002), Deutsche Gesellschaft fur tecnische Zusammenarbei, Disaster Risk Management Working Concept, http://www.gtz.de.
  37. Guodaar, L., & Asante, F. (2018). Using a factor analysis to understand climate adaptation barriers impeding smallholder tomato farmers in the Offinso North District, Ghana. Cogent Food & Agriculture, 4(1): 1504507. https://doi.org/10.1080/23311932.2018.1504507
  38. Huang, X., X. Huang, Y. He and X. Yang. (2017). Assessment of livelihood vulnerability of land-lost farmer's inurban fringes: A case study of Xi'an, China. Habitat International, 59: 1-9. https://doi.org/10.1016/j.habitatint.2016.11.001
  39. Hunter, L.M., Sheena, M., Fernando, R. (2011). “Climatic Variability and U.S. Migration from Rural Mexico, Population Program POP, ISB”, Institute of Behavioral Since.
  40. Jigyasu, Rohit.(2002), Reducing Disaster vulnerability trough local knowledge and capacity the case of Earthquake prone rural communihies in india and Nepal, Hans c. Bjoness, Faculity of architecture and Fine art, Department of Town and regional planning.
  41. Ogebe, O. F., Adejo, M. A., & Burbuwa, P. A. (2020). Factors affecting the rural poverty and its vulnerability. International Journal of Agricultural Science, 10(2), 71–79. https://www.semanticscholar.org/paper/Factors-Affecting-the-Rural-Poverty-and-its-Ogebe-Adejo/0931b5bf8cfb03746033fd8c3a2959483614e9ff
  42. Seara, T., Pollnac, R., & Jakubowski, K. (2020). Impacts of natural disasters on subjective vulnerability to climate change: a study of Puerto Rican fishers’ perceptions after Hurricanes Irma & Maria. Coastal Management, 48(5), 418– https://doi.org/10.1080/08920753.2020.1795969
  43. Stonich, S. (2000). The Human Dimensions of Climate Change, The Political Ecology of Vulnerability, http://www.isodarco.it/courses/candriao1/paper candria01stonich.html
  44. Matewos, T. (2020). The state of local adaptive capacity to climate change in droughtprone districts of rural Sidama, southern Ethiopia, journal Climate Risk Management, 27 (3), 1-120. http://dx.doi.org/10.1016/j.crm.2019.100209
  45. Tánago, I.G, Urquijo, J., Blauhut, V., Villarroya, F, De Stefano, L. (2016). Learning from experience: a systematic review of assessments of vulnerability to drought. Nat. Hazards, 8(4) 951– 973. https://link.springer.com/article/10.1007/s11069-015-2006-1
  46. (1991),"Mitigation Natural Disaster: Phenomena, Effects and Options: a Manual for Policy Makers and Planners", New Yourk, (United Nation Disaster Relief Organnization) UNDRO.
  47. United Nations. (2013). Global Assessment Report on Disaster Risk Reduction; From Shared Risk to Shared Value: The Business Case for Disaster Risk Reduction; pp xiii – xiv. https://reliefweb.int/report/world/global-assessment-report-disaster-risk-reduction-2013-shared-risk-shared-value-business
  48. Yi-ping, F., Fu-biao, Zh., Xiao-ping Qiu, Sh-Z. (2018). Effects of natural disasters on livelihood resilience of rural residents in Sichuan, Juornal Habitat International ,19-28.
Geography
Volume 22, Issue 83
Winter 2025, pp.1-200.
Autumn 2024
Pages 179-204