nach oben

Mitigation and Adaptation Strategies for Global Change

Erschienen in:

01.06.2011 | Original Article

A strategy to deal with water crisis under climate change for mainstream in the middle reaches of Yellow River

verfasst von: Xiao-jun Wang, Jian-yun Zhang, Rui-min He, ElMahdi Amgad, ElSawah Sondoss, Man-ting Shang

Erschienen in: Mitigation and Adaptation Strategies for Global Change | Ausgabe 5/2011

Einloggen, um Zugang zu erhalten

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

Our planet is increasingly threatened by degradation in water quantity and quality due to climate change, population growth and development pressures. Water shortage is one of the most challenging environmental problems to humankind in the 21st century under the changing climate. Water shortages and scarcity escalate risks to food security and economic viability. For decades, water management has been dominated by supply oriented paradigm of expanding the capacity of accessible water (e.g. building dams). While large scale infrastructure projects provided effective solutions for chronic water crises in the past, they have come at expensive, irreversible and delayed ecological, economic and social costs. As more questions are raised concerning over reliance on infrastructure solutions, discussions about a sustainable future suggest a greater focus on the demand side of the equation is needed. In this paper, we use multi-recursive and runoff coefficient analysis methods to analyze the annual runoff of the mainstreams (Kuye River, Tuwei River, Wuding River and Jialu River) in the middle reaches of Yellow River. The main objective is to estimate the impacts of climate change and human activity on water resources in the study area and test the potential of water demand management to lessen the gap between supply and demand. Results show remarkable drop in the average annual runoff as a combined effect of climate change and human activity. Moreover, results show that human activities are the direct reason for the changes of river runoff, and the proportion of human activities account the biggest is Wuding river, next is Kuye river, Jialu river is smallest, these changes lead to the decrease of river runoff, and even drying up in recent years. This result highlights the importance of using WDM to diminish the increasing gap between demand and supply. Motivated by this, the paper presents a comprehensive framework for implementation WDM in the middle reaches of Yellow River. The framework includes a wide range of instruments: legislative, economic, technological and educational. The core step of the framework, collaboration among water planners, water service providers and end-users lies as an essential mechanism for achieving long term trade-offs between ecological and socio-economic water needs.

Vorheriger Artikel Assessing the process and options for implementing National Adaptation Programmes of Action (NAPA): a case study from Burkina Faso

Nächster Artikel Global Environment Facility investments in the phase-out of ozone-depleting substances

Akhtar M, Ahmad N, Booij MJ et al (2008) The impact of climate change on the water resources of Hindukush– Karakorum–Himalaya region under different glacier coverage scenarios. J Hydrol 355:148–163CrossRef

Bates BC, Kundzewicz ZW, Wu S, Palutikof JP (eds) Climate Change and Water. Technical Paper of the Intergovernmental Panel on Climate Change. IPCC Secretariat. Geneva. 2008

Brooks D, Peters R (1988) Water: The potential for demand management in Canada. Science Council of Canada, Ottawa

Butler D, Memon FA (2006) Water demand management [M]. IWA Publishing, London

Chen YN, Xu ZX (2005) Plausible impact of global climate change on water resources in the Tarim River Basin. Sci China Ser D, Earth Sciences 48(1):65–73CrossRef

Chen L, Liu C, Li Y (2007) Impacts of climatic factors on runoff coefficients in source regions of the Huanghe River. Chin Geogr Sci 17(1):47–55CrossRef

Elmahdi A (2008) Water Banking –Landuse Approach to Improve River Productivity and Environmental Performance. National Nile Basin Commission Journal Vol1, (Invited paper)

Elmahdi A, McFarlane D (2008) A decision support system for a groundwater system affected by climate change, landuse and extraction. World Water week, Stockholme, August 2008

Elmahdi A, McFarlane D (2010) Integrated multi-agency framework MAF: sustainable water resource management. Accepted at Journal of Water Resources Planning and Management

Elmahdi A, Malano H, Etchells T, Khan S (2005) System dynamics optimisation approach to irrigation demand management. In Zerger A, Argent RM (eds) MODSIM 2005 International Congress on Modeling and Simulation. Modeling and Simulation Society of Australia and New Zealand, December 2005, pp. 196-202. ISBN: 0-9758400-2-9. http://www.mssanz.org.au/modsim05/proceedings/papers/elmahdi.pdf

Elmahdi A, Kheireldin K, Hamdy A (2006) GIS and Multi-Criteria Evaluation: Robust Tools for Integrated Water Resources Management. 2006 International Water Resources Association IWRA, Vol 31. No. 4 Dec 2006

Elmahdi A, Shahkarami N, Morid S2, Massah Bavani AR (2009) Atmospheric- Ocean General Circulation Models (AOGCMs)- Uncertainty and Risk Assessment Of Future Water Demand. National Nile Basin Commission Journal Vol2, (invited paper)

Elmahdi A, ElGafy I, Kheireldin K (2009) Global warming-water Shortage and Food Security future planning interaction: System Analysis Approach (WBFSM). WRM-2009 Water Resource Management Malta Sep 2009

Fang C-L, Bao C, Huang J-C (2007) Management implications to water resources constraint force on socio-economic system in rapid urbanization: a case study of the Hexi Corridor, NW China. Water Resour Manage 21:1613–1633CrossRef

Gumbo B (2004) The status of water demand management in selected cities of southern Africa. Phys Chem Earth 29:1225–1331

Gumbo B, Forster L, Arntzen J (2005) Capacity building in water demand management as a key component for attaining millennium development goals. Phys Chem Earth 30:984–992

Kolokytha EG, Mylopoulos NA (2004) Evaluating demand management aspects of urban water policy. The city of Volos Case, Greece. Water Air Soil Pollut 4:263–277

Li J, Feng P (2007) Runoff variations in the Luanhe River Basin during 1956-2002. J Geog Sci 17(4):339–350CrossRef

Liu CM, Yang ST, Sun R (2006) Study on hydrological components in the Yellow River basin based on RS/GIS. Yellow River Press, Zhengzhou

Ma ZM, Kang SZ, Zhang L (2008) Analysis of impacts of climate variability and human activity on stream flow for a river basin in arid region of northwest China. J Hydrol 352:239–249

Medellín-Azuara J, Harou JJ, Olivares MA et al (2008) Adaptability and adaptations of California’s water supply system to dry climate warming [J]. Clim Change 87(Supply):75–90CrossRef

Middelkoop H, Daamen K, Gellens D et al (2001) Impact of climate change on hydrological regimes and water resources management in the Rhine basin. Clim Change 49:105–128CrossRef

Ren LL, Wang MR, Li CH (2002) Impacts of human activity on river runoff in the northern area of China. J Hydrol 261:204–217CrossRef

Rogers P, de Silva R, Bhatia R (2002) Water is an economic good: how to use prices to promote equity, efficiency, and sustainability. Water Policy 4:1–17CrossRef

Rosegrant W (1997) Water resources in the twenty-first century: challenges and implications for action. International Food Policy Research Institute (IFPRI), Washington, DC

Savenije H, van der Zaag P (2002) Water as an economic good and demand management paradigms with pitfalls. Water Int 27(1):98–104CrossRef

Stephenson D (1999) Demand management theory. Water SA 25(2):115–122

Wang G, Zhang J, He R (2006) Impacts of environmental change on runoff in Fenhe river basin of the middle Yellow River. Adv Water Sci 17(6):853–858

Wang X, Cai H, Zhang X et al (2008) Analysis on the seasonal drying up causes of Kuye River [J]. Resources Science 30(3):475–480, In Chinese

Wang X, Cai H, Zhang X (2009a) Analysis of changing characteristics and tendency of runoff and sediment transport in Huangfuchuan River watershed. Res Soil Water Conserv 16(1):222–226

Wang X, Zhang J, Liu J, et al (2009) Water demand management instead of water supply management: a case study of Yulin City in northwestern China, Proceedings of JS. 3 at the Joint IAHS & IAH Convention, Hyderabad, India, September 2009. IAHS Publ. 330,340-346

Wang X, Zhang J, Wang G, et al (2010a) Climate change and water management adaptation for China, Xth Kovacs Colloquium, Paris, France, July, 2010. IAHS Publ. 338, 258-260

Wang X, Zhang J, Liu J, et al (2010b) Water resources planning and management based on system dynamics: a case study of Yulin city. Environment, Development and Sustainability

Yu LS (2006) The Huanghe (Yellow) River: recent changes and its countermeasures. Cont Shelf Res 26:2281–2298CrossRef

Zhang H (2005) Strategic study for water management in China [M]. Southeast University Press, Nanjing

Zhang J, Zhang S, Wang J (2007) Study on runoff trends of the six larger basins in China over the past 50 years. Adv Water Sci 18(2):230–234

Titel: A strategy to deal with water crisis under climate change for mainstream in the middle reaches of Yellow River
verfasst von: Xiao-jun Wang
Jian-yun Zhang
Rui-min He
ElMahdi Amgad
ElSawah Sondoss
Man-ting Shang
Publikationsdatum: 01.06.2011
Verlag: Springer Netherlands
Erschienen in: Mitigation and Adaptation Strategies for Global Change / Ausgabe 5/2011
Print ISSN: 1381-2386
Elektronische ISSN: 1573-1596
DOI: https://doi.org/10.1007/s11027-010-9279-1

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Weitere Artikel der Ausgabe 5/2011

Global Environment Facility investments in the phase-out of ozone-depleting substances

Improving adaptive capacity and resilience in Bhutan

Greenhouse gas emissions from rice based cropping systems: Economic and technologic challenges and opportunities

Health officials’ perceptions of and preparedness for the impacts of climate variability on human health in the Somali region of Ethiopia

Assessing the process and options for implementing National Adaptation Programmes of Action (NAPA): a case study from Burkina Faso

Forests in climate policy: technical, institutional and economic issues in measurement and monitoring