مروری بر مطالعات هیدرولوژی اجتماعی در جهان

نوع مقاله : مقاله مروری

نویسندگان

1 استادیار بخش خاک و آب مرکز تحقیقات آموزش کشاورزی و منابع طبیعی استان آذربایجان غربی، سازمان تحقیقات، آموزش و ترویج کشاورزی، ، ارومیه،

2 استادیار بخش تحقیقات اقتصادی، اجتماعی و ترویجی مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی آذربایجان غربی، سازمان تحقیقات، آموزش

چکیده

 
رشد سرسام‌آور اطلاعات در شاخه‌های علمی و عدم امکان تعقیب اطلاعات توسط اندیشمندان و نیاز مبرم به مطالعات مروری از سویی و اهمیت استراتژیک مدیریت منابع آبی از سوی دیگر و ایضاً با عنایت به شکل‌گیری دیسیپلین علمی جدیدی با عنوان "هیدرولوژی اجتماعی" که تأکید بر باهم‎نگری عوامل اجتماعی و طبیعی برای برطرف نمودن ضعف روش‌های هیدرولوژیک جاری دارد و نهایتاً نیاز دانشجویان و شاید بخشی از جامعه علمی کشور به کسب آگاهی از توسعه رو به تزاید مفاهیم در این دیسیپلین جدید، انگیزه مطالعه مروری جامعی پیرامون فعالیت‌های علمی صورت گرفته از ابتدای طرح عنوان هیدرولوژی اجتماعی تاکنون، شکل گرفت. برای انجام مطالعه و تأمین اعتبار علمی اطلاعات، از پایگاه‌های داده‌ای معتبر استفاده و تقریباً اغلب منابع اعم از مقاله، کتاب، و یا اسناد علمی، مورد بررسی قرار گرفته‌اند و با استفاده از روش مرور روایتی، اطلاعات تولیدشده در چهار گروه؛ 1. مفهوم‌سازی، 2. کاربرد در کشاورزی، 3. مطالعات سیلاب و خشک‌سالی و 4. مطالعات مدل‌سازی و حوضه‌های آبریز، طبقه‌بندی شدند. طبق بررسی‌های صورت گرفته، علی‌رغم رشد سریع این دیسیپلین در محافل علمی، هنوز چالش‌های مهمی بر سر راه توسعه آن وجود دارد که نیاز به انجام مطالعات بیشتر مفاهیم پایه‌ای، روش‌شناختی و هستی­شناختی در هیدرولوژی اجتماعی را ضروری می‌نماید.

کلیدواژه‌ها

موضوعات


عنوان مقاله [English]

The Review on Socio – Hydrologic Studies Through The World

نویسندگان [English]

  • Anahita Jabbari 1
  • Bagher Hoseinpour 2
1 Assistant professor and Academic member of Soil and Water Research Department, West Azarbaijan Agricultural and Natural Resources Research and Education Center, AREEO, Urmia, Iran
2 Assistant professor of Economic, Social and Extension Research Department, West Azarbaijan Agricultural and Natural Resources Research Center, AREEO, Urmia, Iran.
چکیده [English]

Due to staggering growth of information in all scientific branches and the impossibility of pursuing them by researchers and thereof the urgent need to write review articles on one hand and strategic globally importance of water resources management on the other hand, and also with regard to emergence of a new scientific discipline called Socio-hydrology in most important scientific circles which addresses the inability of current hydrological methods and emphasizes on consideration of social and natural factors in water resources management, and even the relative ignorance of Iranian scholars to growing socio-hydrological concepts, it was motivated to write a comprehensive review on the issue from the time Socio-hydrology established up to the present time.
To ensure the validity of information, scientific databases were applied and in almost information and resources reviewed including articles, books, or scientific documents. Using the Narrative Review method, information classified in four categories; 1. Conceptualization 2. Applications in agriculture 3. In flood and drought studies and 4. Modeling. As it is shown, despite rapid growth of discipline in scientific circles, there are still significant challenges in development of this branch that requires further studies on basic concepts, methodology and ontology of Socio-hydrology.

کلیدواژه‌ها [English]

  • Socio-hydrology
  • Inter-disciplinary
  • Sociology
  • Hydrology
  • Modelling
Anderson EP, Jackson S, Tharme RE, Douglas M, Flotemersch JE, Zwarteveen M, Lokgariwar C, Montoya M, Wali A, Tipa GT, Jardine TD, Olden JD, Cheng L, Conallin J, Cosens B, Dickens C, Garrick D, Groenfeldt D, Kabogo J, Roux DJ, Ruhi A, and Arthington AH (2019) Understanding rivers and their social relations: A critical step to advance environmental water management. Wiley Interdisciplinary Reviews: Water e1381 6(6):1-21
Bakarji J, O’Malley D, and Vesselinov VV (2017) Agent-based socio-hydrological hybrid modeling for water resource management. Water Resources Management 31(12):3881-3898
Baker TJ, Cullen B, Debevec L, and Abebe Y (2015) A socio-hydrological approach for incorporating gender into biophysical models and implications for water resources research. Applied Geography 62:325-338
Barendrecht M, Viglione A, Kreibich H, Vorogushyn S, Merz B, and Bloeschl G (2018) A socio-hydrological model for the Elbe. In: EGU General Assembly Conference Abstracts, 8–13 April, Vienna, Austria
Blair P, Buytaert W (2015) Modelling socio-hydrological systems: A review of concepts, approaches and applications. Hydrology and Earth System Sciences Discussions 12:8761–8851
Blair P, Buytaert W (2016) Socio-hydrological modelling: a review asking" why, what and how?". Hydrology and Earth System Sciences 20(1):443-478
Boelens R (2014) Cultural politics and the hydrosocial cycle: Water, power and identity in the Andean highlands. Geoforum 57:234-247
Bohensky EL, Leitch AM (2014) Framing the flood: A media analysis of themes of resilience in the 2011 Brisbane flood. Regional Environmental Change 14(2):475-488
Bouziotas, D, Ertsen M (2017) Socio-hydrology from the bottom up: A template for agent-based modeling in irrigation systems. Hydrology and Earth System Sciences Discussions 2017-107:1-27
Chaffin BC, Cosnell H, and Cosens BA (2014) A decade of adaptive governance scholarship: Synthesis and future directions. Ecology and Society 19(3):56
Chen X, Wang D, Tian F, and Sivapalan M (2016) From channelization to restoration: Sociohydrologic modeling with changing community preferences in the Kissimmee River Basin, Florida. Water Resources Research 52(2):1227-1244
Crăciunescu V, Flueraru C, and Stăncălie G (2010) The usage of the historical cartographic datasets and the remote sensing data for the better understanding and mapping of the 2006 Danube floods in Romania. Acta Geodaetica et Geophysica Hungarica 45(1):112-119
Crutzen PJ (2002) Geology of mankind. Nature 415(6867):23
Dame J, Schmidt S, Baghel R, Kraus B, and Nüsser M (2018) Socio-hydrology of artificial glaciers in Ladakh, India: assessing adaptive strategies for water conservation in the Trans-Himalayan region. In: EGU General Assembly Conference Abstracts, 8–13 April, Vienna, Austria
Delli Priscoli J (1980) Water and people. Water International 5(4):28-32
Di Baldassarre G, Kooy M, Kemerink J, and Brandimarte L (2013 a) Towards understanding the dynamic behaviour of floodplains as human-water systems. Hydrology & Earth System Sciences Discussions 10:3869-3895
Di Baldassarre G, Martinez F, Kalantari Z, and Viglione A (2017) Drought and flood in the Anthropocene: feedback mechanisms in reservoir operation. Earth System Dynamics 8:225-233
Di Baldassarre G, Sivapalan M, Rusca M, Cudennec C, Garcia M, Kreibich H, Konar M, Mondino E, Mård J, Pande S, Sanderson MR, Tian F, Viglione A, Wei J, Wei Y, Yu DJ, Srinivasan V, and Blöschl G (2019) Sociohydrology: Scientific challenges in addressing the sustainable development goals. Water Resources Research 55(8):6327-6355
Di Baldassarre G, Viglione A, Carr G, Kuil L, Salinas J, and Blöschl G (2013 b) Socio-hydrology: Conceptualising human-flood interactions. Hydrology and Earth System Sciences 17(8):3295-3303
Elshafei Y, Sivapalan M, Tonts M, and Hipsey M (2014) A prototype framework for models of socio-hydrology: Identification of key feedback loops and parameterisation approach. Hydrology and Earth System Sciences 18(6):2141-2166
Essenfelder AH, Pérez-Blanco CD, and Mayer AS (2018) Rationalizing systems analysis for the evaluation of adaptation strategies in complex human-water systems. Earth's Future 6(9):1181-1206
Falkenmark M (1977) Water and mankind A complex system of mutual interaction. Ambio 6(1):3-9
Falkenmark M (1979) Main problems of water use and transfer of technology. GeoJournal 3(5):435-443
Ferdous MR, Wesselink A, Brandimarte L, Slager K, Zwarteveen M, and Di Baldassarre G (2018) Socio-hydrological spaces in the Jamuna River floodplain in Bangladesh. Hydrology and Earth System Sciences 22(10):5159-5173
Fuchs S, Karagiorgos K, Kitikidou K, Maris F, Paparrizos S, and Thaler T (2017) Flood risk perception and adaptation capacity: A contribution to the socio-hydrology debate. Hydrology and Earth System Sciences 21(6):3183-3198
Fuller BR (1981) Critical path. USA: St. Martin’s Press, 510p
Gamage IU, Jayasena HAH (2018) Socio-hydrological implications of water management in the dry zone of Sri Lanka. Proc. IAHS 95:1-5
Garcia ME, Portney K, and Islam S (2016) A question driven socio-hydrological modeling process. Hydrology and Earth System Sciences 20(1):73-92
Garcia ME (2017) Infrastructure, hydrology, and policy: Socio-hydrological modeling of urban water consumption dynamics. Ph.D. Thesis, Civil and Environmental Engineering, Tufts University  
Gholizadeh-Sarabi SH, Davary K, Ghahraman B, and Shafiei M (2019) Historical study of coupled human-water system from socio-hydrological perspective, Case study: Mashhad basin. Iran-Water Resources Research 15(4):148-170 (In Persian)
Global Water Partnership (2000) Integrated Water Resources Management, Stockholm, 71P
Gober P, Wheater HS (2014) Socio-hydrology and the science-policy interface: A case study of the Saskatchewan River basin. Hydrology and Earth System Sciences 18(4):1413-1422
Gober P, White DD, Quay R, Sampson DA, and Kirkwood CW (2017) Socio-hydrology modelling for an uncertain future, with examples from the USA and Canada. Geological Society, London, Special Publications 408(1):183-199
Grigg NS (2016) Integrated water resources management: An interdicciplinary approach. Palgrave Macmillan UK, 497P
Hou B, Yang R, Zhou Y, Xiao W, Wang J, Zhao Y, and Zhan X (2019) Evolution mechanisms and fundamental equations of social water cycle fluxes. Hydrology Research 50(5):1344-1358
Kandasamy J, Sounthararajah D, Sivabalan P, Chanan A, Vigneswaran S, and Sivapalan M (2014) Socio-hydrologic drivers of the pendulum swing between agricultural development and environmental health: A case study from Murrumbidgee River basin, Australia. Hydrology and Earth System Sciences 18(3):1027-1041
Koutsoyiannis D (2014) Reconciling hydrology with engineering. Hydrology research 45(1):2-22
Kuil L, Carr G, Viglione A, Prskawetz A, and Blöschl G (2016) Conceptualizing socio-hydrological drought processes: The case of the Maya collapse. Water Resources Research 52(8):6222-6242
Lee S, Kang D (2020) Analyzing the effectiveness of a multi-purpose dam using a system dynamics model. Water 12(4):1-23
Liu Y, Tian F, Hu H, and Sivapalan M (2014) Socio-hydrologic perspectives of the co-evolution of humans and water in the Tarim River basin, Western China: The Taiji–Tire model. Hydrology and Earth System Sciences 18(4):1289-1303
Lund JR (2015) Integrating social and physical sciences in water management. Water Resources Research 51(8):5905-5918
Madani K, Shafiee Jood M (2020) Socio-hydrology: A new understanding to unite or a new science to divide? Water 12(7):1-26
Maass A (1951) Muddy waters: The army engineers and the nation’s rivers. Harvard Univ. Press. Cambridge, 306P
Maass A, Hufschmidt MA, Dorfman R, Thomas Jr HA, Marglin SA, and Fair GM (1962) Design of water-resource systems: New techniques for relating economic objectives, engineering analysis, and governmental planning. Harvard Univ. Press, Cambridge, 620P
Matalas N, Landwehr J, and Wolman M (1982) Prediction in water management, scientific basis of water management. National Academy Press, Washington DC, 141p
McMillan H, Montanari A, Cudennec C, Savenije H, Kreibich H, Krueger T, . . .  and Xia J (2016) Panta Rhei 2013–2015: Global perspectives on hydrology, society and change. Hydrological Sciences Journal 61(7):1174-1191
Melsen LA, Vos J, and Boelens R (2018) What is the role of the model in socio-hydrology? Discussion of “Prediction in a socio-hydrological world”. Hydrological Sciences Journal 63(9):1435-1443
Milly PC, Betancourt J, Falkenmark M, Hirsch RM, Kundzewicz ZW, Lettenmaier DP, and Stouffer RJ (2008) Stationarity is dead: Whither water management? Science 319:573-574
Nüsser M, Schmidt S, and Dame J (2012) Irrigation and development in the upper Indus Basin: Characteristics and recent changes of a socio-hydrological system in central Ladakh, India. Mountain Research and Development 32(1):51-61
Ogilvie A, Riaux J, Massuel S, Mulligan M, Belaud G, Le Goulven P, and Calvez R (2019) Socio-hydrological drivers of agricultural water use in small reservoirs. Agricultural Water Management 218:17-29
Ponnambalam K, Mousavi SJ (2020) CHNS modeling for study and management of human–Water interactions at multiple scales. Water 12(6):1-21
Pouladi P, Afshar A, Molajou A, and Afshar MH (2020) Socio-hydrological framework for investigating farmers’ activities affecting the shrinkage of Urmia Lake; hybrid data mining and agent-based modelling. Hydrological Sciences Journal 65(8):1249-1261
Pouladi P, Afshar A, Afshar MH, Molajou A, and Farahmand H (2019) Agent-based socio-hydrological modeling for restoration of Urmia Lake: Application of theory of planned behavior. Journal of hydrology 567: 748-736
Roobavannan M, Kandasamy J, Pande S, Vigneswaran S, and Sivapalan M (2018) Sustainability of river basin development under uncertain future climate and economic conditions. In: EGU General Assembly Conference Abstracts, 8–13 April, Vienna, Austria
Rosenberg M (2017) The coming knowledge tsunami retrieved from https://learningsolutionsmag.com/articles/2468/marc-my-words-the-coming-knowledge-tsunami
Savenije HH, Hoekstra AY, and van der Zaag P (2014) Evolving water science in the Anthropocene. Hydrology and Earth System Sciences 18(1):319-332
Schlueter M, Mcallister RR, Arlinghaus R, Bunnefeld N, Eisenack K, Hoelker F, Milner-Gulland EJ, Müller B, Nicholson E, and Quaas M (2012) New horizons for managing the environment: A review of coupled social-ecological systems modeling. Natural Resource Modeling 25(1):219-272
Siddiqi A, Wescoat Jr JL, and Muhammad A (2018) Socio-hydrological assessment of water security in canal irrigation systems: A conjoint quantitative analysis of equity and reliability. Water Security 4:44-55
Singh V (2018) Local action, global impact: From domination to partnership by design. Interdisciplinary Journal of Partnership Studies 5(3):1-28
Sivakumar B (2012) Socio‐hydrology: Not a new science, but a recycled and re-worded Hydrosociology. Hydrological Processes 26(24):3788-3790
Sivapalan M, Konar M, Srinivasan V, Chhatre A, Wutich A, Scott C, Wescoat JL, and Rodríguez-Iturbe I (2014) Socio-hydrology: Use‐inspired water sustainability science for the Anthropocene. Earth's Future 2(4):225-230
Sivapalan M, Savenije HH, and Blöschl G (2012) Socio‐hydrology: A new science of people and water. Hydrological Processes 26(8):1270-1276
Sohrabi MR (2013) Principles of writing a review article. Pajoohandeh Journal 18(2):52-56 (In Persian)
Srinivasan V (2015) Reimagining the past–use of counterfactual trajectories in socio-hydrological modelling: The case of Chennai, India. Hydrology and Earth System Sciences 19(2):785-801
Swyngedouw E (2009) The political economy and political ecology of the hydro-social cycle. Journal of Contemporary Water Research and Education 142(1):56-60
Thompson SE, Sivapalan M, Harman CJ, Srinivasan V, Hipsey MR, Reed P, Montanari A, and Blöschl G (2013) Developing predictive insight into changing water systems: use-inspired hydrologic science for the Anthropocene. Hydrology and Earth System Sciences 17(12):5013-5039
Van Emmerik THM, Li Z, Sivapalan M, Pande S, Kandasamy J, Savenije HHG, Chanan A, and Vigneswaran S (2014) Socio-hydrologic modeling to understand and mediate the competition for water between agriculture development and environmental health: Murrumbidgee River basin, Australia. Hydrology and Earth System Sciences 18(10):4239-4259
Viglione A, Di Baldassarre G, Brandimarte L, Kuil L, Carr G, Salinas JL, Scolobig A, and Blöschl G (2014) Insights from socio-hydrology modelling on dealing with flood risk-roles of collective memory, risk-taking attitude and trust. Journal of Hydrology 518:71-82
Vogel RM, Lall U, Cai X, Rajagopalan B, Weiskel PK, Hooper RP, and Matalas NC (2015) Hydrology: The interdisciplinary science of water. Water Resources Research 51(6):4409-4430
Wescoat Jr JL, Siddiqi A, and Muhammad A (2018) Socio-hydrology of channel flows in complex river basins: Rivers, canals, and distributaries in Punjab, Pakistan. Water Resources Research 54(1):464-479
Wesselink A, Kooy M, and Warner J (2017) Socio-hydrology and hydrosocial analysis: Toward dialogues across disciplines. Wiley Interdisciplinary Reviews: Water e1196 4(2):1-14
White GF (1945) Human adjustment to floods: Department of geography research paper No. 29. Chicago, Ph.D. Thesis, IL: University of Chicago
Widlok T, Aufgebauer A, Bradtmöller M, Dikau R, Hoffmann T, Kretschmer I, Panagiotopoulos K, Pastoors A, Peters R, Schäbitz F, Schlummer M, Solich M, Wagner B, Weniger GC, and Zimmermann  A (2012) Towards a theoretical framework for analyzing integrated socio-environmental systems. Quaternary International 274:259-272
Widstrand C (1978) Social and economic aspects of water exploitation, in Water and Society: Conflicts in Development, Part 1. Pergamon press, Oxford
Wittfogel KA (1957) Oriental despotism; A comparative study of total power. Random House, N. Y. 556P
Zhou T, Haddeland I, Nijssen B, and Lettenmaier DP (2016) Human induced changes in the global water cycle. The book chapter: Terrestrial Water Cycle and Climate Change: Natural and Human-Induced Impacts. Geophysical Monograph Series, 31P