Environment and Interdisciplinary Development

Phenomenology of the Definitions and Adaptation Behaviors of Farmers of Bavi County in Drought Coping

Document Type : Original Article

Authors

Abbas Shehitavi
Moslem Savari
Masoyd Baradaran

Department of Agricultural Extension and Education, Faculty of Agriculture Engineering and Rural Development, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran

https://doi.org/10.22034/envj.2025.449585.1356
Abstract
Introduction: Drought is one of the most pressing environmental and economic challenges facing agricultural regions in Iran. It poses a serious threat to food security, rural livelihoods, and sustainable development. In areas such as Bavi County, where agriculture is a primary source of income, drought can have devastating consequences for farmers and their communities. Understanding how farmers perceive drought and the strategies they adopt to cope with and adapt to its impacts is essential for designing effective and context-sensitive policies. While meteorological definitions of drought focus on precipitation deficits and hydrological imbalances, farmers often interpret drought through the lens of their lived experiences, which may include social, economic, and cultural dimensions. This study aims to explore the subjective definitions of drought among farmers in Bavi County and to identify the coping and adaptive behaviors they employ in response to this phenomenon.
Materials and Methods: This research employed a qualitative phenomenological approach to capture the lived experiences of farmers dealing with drought. The study population consisted of farmers residing in Bavi County, selected through snowball sampling to ensure the inclusion of diverse perspectives. Data collection methods included 25 semi-structured in-depth interviews, direct field observations, photography, and document analysis. Interviews were conducted in the local language and transcribed verbatim. Colaizzi’s method was used for data analysis, allowing for the extraction of significant statements, formulation of meanings, and identification of key themes. This approach facilitated a deep understanding of how farmers define drought and the behavioral responses they adopt.
Results: The findings revealed that farmers primarily define drought in terms of reduced water availability, decreased rainfall, and irregular precipitation patterns. Their definitions often reflect immediate and tangible impacts on crop production, irrigation practices, and livestock management. Beyond physical indicators, some farmers also associated drought with economic hardship, social stress, and psychological burden. A total of 18 distinct behavioral responses to drought were identified and categorized into two main types: Coping (Reactive) Behaviors and Adaptive (Proactive) Behaviors. Coping behaviors included short-term actions such as reducing irrigation frequency, selling livestock, borrowing money, and shifting to drought-resistant crops. Adaptive behaviors, on the other hand, involved long-term strategies such as investing in water-saving technologies, diversifying income sources, participating in cooperative farming, and engaging in community-based water management initiatives.
Discussion: The study highlights that farmers in Bavi County possess a multidimensional understanding of drought that goes beyond technical definitions. Their perceptions are shaped by environmental realities, socio-economic conditions, cultural norms, and personal experiences. The diversity of coping and adaptive behaviors reflects the complexity of drought as a lived phenomenon and underscores the importance of localized responses. While coping strategies may provide immediate relief, they often lack sustainability and can exacerbate vulnerability in the long run. Adaptive strategies, though more resource-intensive, offer pathways toward resilience and long-term sustainability. The findings suggest that policy interventions should prioritize capacity-building, access to financial and technical resources, and participatory planning to support farmers in transitioning from reactive to proactive drought management.

Keywords

Phenomenology
Drought
Adaptation Behaviors
Community Stabilization
Bavi County

Subjects

  1. Ahmad, M.I., Ma, H., Shen, Q., Rehman, A. and Oxley, L., 2024. Climate change variability adaptation and farmers decisions of farm exit and survival in Pakistan. Climate Services, 33, 100437.
  2. Akhtar, R., Afroz, R., Masud, M.M., Rahman, M., Khalid, H. and Duasa, J.B., 2020. Farmers’ perceptions, awareness, attitudes and adaption behaviour towards climate change. In Climate Change Mitigation and Sustainable Development (pp. 60-76). Routledge.
  3. Alahdini, A. and Yazdian, H., 2023. Investigating and Analyzing the Adaptation of Farmers in Zayandehrud River Basin in Facing Drought and Identifying its Solutions. Iran-Water Resources Research, 19(1), 69-83.
  4. Alim, A.S. and Anggraini, R.S., 2021. Assessing Indonesian sugarcane farmers’ perceptions of climate change. In IOP Conference Series: Earth and Environmental Science (Vol. 733, No. 1, p. 012145). IOP Publishing.
  5. Aref, H., Bodlaie, H. and Beigi, V., 2015. Phenomenology of the experience of being fired from work. Public Administration Quarterly. 7 (3): 594-573.
  6. Badjeck, C., Allison, E.H., Halls, A.S. and Dulvy, N.K., 2010. Impacts of climate variability and change on fishery-based livelihoods. Mar. Policy 34, 375–383,http://dx.doi.org/10.1016/j.marpol.2009.08.007.
  7. Bandyopadhyay, N., Bhuiyan, C. and Saha, A.K., 2020. Drought mitigation: Critical analysis and proposal for a new drought policy with special reference to Gujarat (India). Progress in Disaster Science, 5, 100049.
  8. Bandyopadhyay, N., Bhuiyan, C. and Saha, A.K., 2020. Drought mitigation: Critical analysis and proposal for a new drought policy with special reference to Gujarat (India). Progress in Disaster Science, 5, 100049.
  9. Burnham, M. and Ma, Z., 2016. Linking smallholder farmer climate change adaptation decisions to development. Climate and Development, 8(4), 289-311.
  10. Christian-Smith, J., Levy, M.C. and Gleick, P.H., 2014. Maladaptation to drought: a case report from California, USA. Sustainability Science, 10(3), 491–501. doi:10.1007/s11625-014-0269-1 
  11. Cianconi, P., Betrò, S. and Janiri, L., 2020. The impact of climate change on mental health: a systematic descriptive review. Frontiers in psychiatry, 11, 74.‏
  12. Dang, H.L., Li, E., Nuberg, I. and Bruwer, J., 2019. Factors influencing the adaptation of farmers in response to climate change: A review. Climate and Development, 11(9), 765-774.
  13. Ding, Y., Schoengold, K. and Tadesse, T., 2009. The impact of weather extremes on agricultural production methods: Does drought increase adoption of conservation tillage practices? Journal of Agricultural and Resource Economics, 395-411.
  14. Dorward, P., Osbahr, H., Sutcliffe, C. and Mbeche, R., 2020. Supporting climate change adaptation using historical climate analysis. Climate and Development, 12(5), 469-480.
  15. FAO, 2018. The state of agricultural commodity markets. Agricultural Trade, Climate Change and Food Security. FAO, Rome.
  16. Farzaneh, M. and Bani Mostafa Arab, F., 2023. Analysis of climate change adaptation laws in developed countries. Journal of Drought and Climate change Research, 1(1), 49-70.
  17. Farzaneh, M.R., Badre, M. and Ramezani, J., 2023. Assessment of Informal Education Approach (Environmental scratch) for Water Resources Conservation. Environment and Interdisciplinary Development.
  18. Gholami, M. and Alibigi, A., 2015. Identification of indigenous methods of drought management, case study: Sarpol Zahab city. Rural Research Quarterly, 5 (3): 611-638.
  19. Gholami, M., Alibigi, A. and Savari, M., 2015. Phenomenology of farmers' perception of drought (case study: Sarpol Zahab city). Agricultural Economics and Development Research, 46(3): 439-456.
  20. Gomez-Zavaglia, A., Mejuto, J.C. and Simal-Gandara, J., 2020. Mitigation of emerging implications of climate change on food production systems. Food Research International, 134, 109256.
  21. Guodaar, L., Asante, F., Eshun, G., Abass, K., Afriyie, K., Appiah, D.O., ... and Kpenekuu, F., 2020. How do climate change adaptation strategies result in unintended maladaptive outcomes? Perspectives of tomato farmers. International Journal of Vegetable Science, 26(1), 15-31.
  22. Hou, L., Min, S., Huang, Q. and Huang, J., 2023. Farmers' perceptions of drought-severity and the impacts on ex-ante and ex-post adaptations to droughts: Evidence from maize farmers in China. Agricultural Water Management, 279, 108180.
  23. Huang, K. and Sim, N., 2021. Adaptation may reduce climate damage in agriculture by two thirds. Journal of Agricultural Economics, 72(1), 47-71.
  24. Huang, K. and Sim, N., 2021. Adaptation may reduce climate damage in agriculture by two thirds. Journal of Agricultural Economics, 72(1), 47-71.
  25. Huard, F., 2008. Overview of management of natural and environmental resources for sustainable agricultural development in France Management of Natural and Environmental Resources for Sustainable Agricultural Development Conferance, Proceedings of a Workshop held from February 13-16, 2006, in Portland, Oregon, 115-125.
  26. Jiang, M., Shi, C.L., Liu, Y. and Jin, Z.Q., 2017. Response of rice production to climate change based on self-adaptation in Fujian Province. The Journal of Agricultural Science, 155(5), 751-765.
  27. Manouchehri, A., 2001. Drought and shallow water crisis, challenges, policies and plans to encounter, Water & Environment, 2001, 45:15-21.
  28. McKune, S., Poulsen, L., Russo, S., Devereux, T., Faas, S., McOmber, C. and Ryley, T., 2018. Reaching the end goal: Do interventions to improve climate information services lead to greater food security? Climate Risk Management, 22, 22-41.
  29. Meraner, M. and Finger, R., 2019. Risk perceptions, preferences and management strategies: evidence from a case study using German livestock farmers. Journal of Risk Research, 22(1), 110-135.
  30. Miller, H.J., Witlox, F. and Tribby, C.P., 2013. Developing context-sensitive livability indicators for transportation planning: a measurement framework. Journal of Transport Geography, 26, 51-64.
  31. Mubaya, C.P., Njuki, J., Mutsvangwa, E.P., Mugabe, F.T. and Nanja, D., 2012. Climate variability and change or multiple stressors? Farmer perceptions regarding threats to livelihoods in Zimbabwe and Zambia. J. Environ. Manag. 102, 9–17, http://dx.doi.org/10.1016/j.jenvman.2012.02.005.
  32. Myers, S.S., Smith, M.R., Guth, S., Golden, C.D., Vaitla, B., Mueller, N.D., ... and Huybers, P., 2017. Climate change and global food systems: potential impacts on food security and undernutrition. Annual review of public health, 38, 259-277.
  33. Naveed-ur-Rehman, A.M.C. and Rana, F.A., 2022. The World’s Biggest Calamity: Climate Change or Wars. Pakistan Journal of International Affairs, 5(4).‏
  34. Nguru, W. and Mwongera, C., 2023. Predicting the future climate-related prevalence and distribution of crop pests and diseases affecting major food crops in Zambia. PLOS Climate, 2(1), e0000064.‏
  35. Quandt, A., Neufeldt, H. and McCabe, J.T., 2019. Building livelihood resilience: what role does agroforestry play? Climate and Development, 11(6), 485-500.
  36. Rahimi, H. and Sadeghinia, A., 2024. Climate Change and Agriculture in Najafabad County: Evaluation Effects and Adaptation Strategies. Journal of Rural Research, 14(4), 592-609.
  37. Safari Aliakbari, M., Poodineh, M.R. and Azadpour, M., 2023. Drought and rural communities: strategies to deal with its consequences (Case study: Border Rural of Zahedan Township). jgs 2023; 23 (70): 21.
  38. Salimi, S., Almuktar, S.A. and Scholz, M., 2021. Impact of climate change on wetland ecosystems: A critical review of experimental wetlands. Journal of Environmental Management, 286, 112160.‏
  39. Savari, M. and Shokati Amghani, M., 2022. Effects of small-scale farmers' adaptation behaviors in drought conditions on household food security level in West Azerbaijan province. Geography and Planning, (Articles in Press).
  40. Savari, M. and Shokati Amghani, M., 2022. Effects of small-scale farmers' adaptation behaviors in drought conditions on household food security level in West Azerbaijan province. Geography and Planning, (Articles in Press).
  41. Savari, M. and Sookhtanlo, M., 2019. Studying the semantic understanding of the villagers about the concept of food security. biquarterly journal of local development (rural-urban). 11 (1): 266-239.
  42. Savari, M., Zhoolideh, M. and Limuie, M., 2024. Factors affecting the use of climate information services for agriculture: evidence from Iran. Climate Services, 33, 100438.
  43. Sengupta, S., 2023. Climate change, international justice and global order. International Affairs, 99(1), 121-140.
  44. Shaffril, H.A.M., Krauss, S.E. and Samsuddin, S.F., 2018. A systematic review on Asian's farmers' adaptation practices towards climate change. Science of the total Environment, 644, 683-695.
  45. Sharafi, L., Zarafshani, K., Keshavarz, M., Azadi, H. and Van Passel, S., 2020. Drought risk assessment: Towards drought early warning system and sustainable environment in western Iran. Ecological Indicators, 114, 106276.
  46. Singh, P.K. and Nair, A., 2014. Livelihood vulnerability assessment to climate variability and change using fuzzy cognitive mapping approach. Clim. Change 127, 475–491, http://dx.doi.org/10.1007/s10584-014-1275-0.
  47. Smit, B., Burton, I., Klein, R.J. and Wandel, J., 2000. An anatomy of adaptation to climate change and variability (pp. 223-251). Springer Netherlands.
  48. Taylor, J.G., Downton, M.W. and Stewart, T.R., 1988. Adapting to environnmental change: Perceptions and farming practices in the Ogallala Aquifer region. In Arid lands today and tomorrow; International research and development conference (pp. 665-684).
  49. Trinh, T.Q., Rañola Jr, R.F., Camacho, L.D. and Simelton, E., 2018. Determinants of farmers’ adaptation to climate change in agricultural production in the central region of Vietnam. Land Use Policy, 70, 224-231.
  50. Turner-Walker, S., Anantasari, E. and Retnowati, A., 2021. Integration into development: translating international frameworks into village-level adaptation. In Climate Change Research, Policy and Actions in Indonesia (pp. 53-77). Springer, Cham.
  51. Vermeulen, S.J., Campbell, B.M. and Ingram, J.S., 2012. Climate change and food systems. Annual review of environment and resources, 37(1), 195-222.
  52. Wang, P., Qiao, W., Wang, Y., Cao, S. and Zhang, Y., 2020. Urban drought vulnerability assessment–A framework to integrate socio-economic, physical, and policy index in a vulnerability contribution analysis. Sustainable Cities and Society, 54, 102004.
  53. Whitmarsh, L. and Capstick, S., 2018. Perceptions of climate change. In Psychology and climate change (pp. 13-33). Academic Press.
  54. Yazarloo, B., Shahidi, A. and Farzaneh, M., 2022. Investigating the Role of Knowledge of Local Communities in The Attitudes and Behaviors of Cooperative Use of Water Resources. Environment and Interdisciplinary Development, 7(78), 24-37.
Environment and Interdisciplinary Development
Volume 10, Issue 88
Summer 2025
Pages 1-18

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