Introducing the Water Accounting Plus (WA+) Framework

Document Type : review paper

Authors

1 sari

2 ferdowsi

Abstract

Water scarcity is one of the greatest human challenges in this century which can cause many limitations in the world. Demand for freshwater is also increasing due to economic and population growth. Therefore, suitable planning for the limited water resources for storage, allocation, return flow, and environmental services is critical in order to optimize resources. Nowadays, an efficient water accounting system based on measuring, reporting, planning, and monitoring water resources in the world is needed. This system provides the possibility of processing and interpreting information in order to establish a comprehensive and integrated management of water resources through the organization of various data from different hydrological, environmental, and economic sectors. The water accounting system is an approach to standardize the way that data and information is organized. The purpose of this study is to introduce the WA+ water accounting framework as a simple and standard method that describes the state of water and land management in complex watersheds. This method is based on the water balance approach. Its feature is the use of satellite data to access the hydrological base data and surface ground processes. In general, the input data required for this framework can be derived from satellite measurements, hydrological models, and ground data. At present, WA+ contains 8 sheets which summarize water management situation and results are also presented as tables and maps. WA+ has a set of performance indicators that are used in the assessment and analysis of water resources and water consumption situations. WA+ has limitations that need to be resolved in the future and be edited for wider use.

Keywords

References

ابوالحسنی، ل. و خلیلی، الف. 1395. بررسی روش‏ های اجرای حسابداری آب، معرفی و اجرای کارآمدترین روش. مجله آب و توسعه پایدار، (1): 9-23.
امیدوار، ج.، نوری، س.، داوری، ک. و فرید حسینی، ع. ر. 1392. برآورد تبخیرتعرق واقعی مبتنی بر تصاویر ماهواره ‏ای با استفاده از دو الگوریتم سبال و متریک. فصلنامه علمی و پژوهشی مهندسی آبیاری و آب، 11(3): 12 -22.
باباییان، ف.، باقری، ع. و رفیعیان، م. 1395. تحلیل آسیب ‏پذیری سیستم منابع آب نسبت به کم‏آبی با استفاده از چارچوب حسابداری آب (مطالعه موردی: محدوده مطالعاتی رفسنجان). تحقیقات منابع آب ایران، 12(1): 1-17.
سهیلی ‏فر، ز.، میر لطیفی، س.م.، ناصری، ع.ع. و عصاری، م. 1392. برآورد تبخیرتعرق واقعی نیشکر با استفاده از داده‏ های سنجش از دور در اراضی کشت و صنعت نیشکر میرزا کوچک خان. نشریه دانش آب و خاک، 23(1): 151-163.
مددی، غ.، حمزه، س. و نوروزی، ع.الف. 1394. ارزیابی بارش در مقیاس ‏های روزانه، ماهانه و سالانه با استفاده از تصاویر ماهواره ‏ای (مطالعه موردی: حوزه مرزی غرب ایران). سنجش از دور و سامانه اطلاعات جغرافیایی در منابع طبیعی، 6(2): 59-74.
یوسف‎زاده، م.، باقری، ع. و داوری، ک. 1393. ارزیابی سیستم منابع آب با رویکرد یکپارچه بر اساس چارچوب حسابداری آب در محدوده مطالعاتی مشهد. آب و فاضلاب، 3: 5-15.
Bastiaanssen W.G.M. 2009. Water accountants: De nieuwe generatie water beheer controleurs, intreerede (in Dutch); Delft University of Technology, Department of Civil Engineering and Geosciences: Delft, The Netherlands.
Bastiaanssen W., Than Ha L. and Fenn, M. 2015. Water Accounting Plus (+WA) for Reporting Water Resources Conditions and Management: A Case Study in the Ca River Basin, Vietnam, Winrock international.
Calmant S., Seyler F. and Cr´etaux J. F. 2008. Monitoring continental surface waters by satellite altimetry. Surv. Geophys., 29: 247–269.
Dost R., Obando E. B., Bastiaanssen W. and Hoogeveen J. 2012. Water Accounting Plus (+WA) in the Awash River Basin, Netherlands.
Droogers P., Simons G., Bastiaanssen and Hoogeveen J. 2010. Water Accounting Okavango Coping with Water Scarcity – Developing National Water Audits Africa. FAO, Land and Water Division.
Falkenmark M. and Rockstorm J. 2006. The new blue and green water paradigm: Breaking new ground for water resources planning and management .J.Water Resour.Plan.Manag, 129-132.
Godfrey J. M. and Chalmers K. 2012. Water accounting : International approaches to policy and decision – making, Edward Elgar Publishing.
Karimi P., Molden D., Bastiaanssen W.G.M. and Cai X. 2012.Water accounting to assess use and productivity of water – evolution of the concept and new frontiers. In Water accounting: International approaches to policy and decision-making, Chalmers, K.; Godfrey, J., Eds. Edgar Elger: Cheltenham, UK, 76-88.
Karimi P., Bastiaanssen W. G. M. and Molden D. 2013a. Water Accounting Plus (WAC) – a water accounting procedure for complex river basins based on satellite measurements. Hydrol. Earth Syst. Sci, 17: 2459–2472.
Karimi P., Bastiaanssen W.G.M. Molden D. and Cheema M. J.M. 2013b. Basin-wide water accounting based on remote sensing data :an application for the Indus Basin, Hydrol. Earth Syst. Sci., 17:2473–2486.
Karimi P. and Bastiaanssen W. G. M. 2015a. Spatial evapotranspiration, rainfall and land use data in water accounting – Part 1: Review of the accuracy of the remote sensing data, Hydrol. Earth Syst.Sci., 19: 507–532.
Karimi P., Bastiaanssen W. G. Sood A., Hoogeveen J. Peiser L., Bastidas-Obando E. and Dost R.J. 2015b. Spatial evapotranspiration, rainfall and land use data in water accounting – Part 2:Reliability of water accounting results for policy decisions in the Awash Basin, Hydrol. Earth Syst.Sci., 19: 533–550.
Peiser L. and Bastiaanssen W. G. M. 2015. Analysis on Water Availability and Uses in Afghanistan River Basins: Water Accounting through Remote Sensing (+WA) in Helmand River Basin. FAO project TCP /AFG/3402.
Slattery, M. 2008. Making every drop count. Water accounting: charter, 79(5):24-26.
Send comment about this article
CAPTCHA Image
Journal of Water and Sustainable Development
Volume 5, Issue 2 - Serial Number 11
Water and technology
March 2019
Pages 117-128

Files

History

  • Receive Date: 25 August 2017
  • Accept Date: 25 August 2017

Share

How to cite

Statistics