Enhancing the Sustainability of Water Resources in the Arid Region of Jordan
DOI:
https://doi.org/10.6092/issn.2281-4485/6350Keywords:
arid region, Jordan precipitation, water resources, wet period estimationAbstract
This article uses tree-ring reconstructed precipitation, began in 1743, to characterize consistent dry and wet periods for further enhancements to the existed water resources in the arid region of Jordan. With the exemption of the 1958 – 1963 dry period, the analysis of the historical precipitation (1940 – 2010) showed the occurrence of short dry and wet events ranging between 1 – 4 years, mostly 1 – 2 years. On other hand, the analysis of the 239 years of reconstructed precipitation succeeded to capture the occurrence of several long dry and wet events, i.e. the 6-year dry event (1785 – 1763), of 391mm total precipitation deficit, and the 7-year wet event (1817 – 1823) of 551mm total precipitation surplus that is 120% greater than the magnitude of the historical greatest wet period (454mm). Furthermore, this article presents generic theoretical models to compute the return period and the expected number of any dry or wet event that may emerge during the operation life of the surface water resource. Using the models, the obtained theoretical results were compared with analytical results attained from the analysis of the historical and reconstructed precipitation. The proposed models successfully modeled the historical dry and wet events in Madaba region, therefore can be used in water resources studies.
References
ABU-SHARAR T., AL-KARABLIEH E., HADDADIN M. (2012) Role of virtual water in optimizing water resources management in Jordan. Water Resources Management, 26, 3977-3993.
BIONDI F, KOZUBOWSKI T, PANORSKA A. (2005) A new model for quantifying climate episodes. International Journal of Climatology, 25, 1253–1264.
BRITO-CASTILLO L., DIAZ-CASTRO S., SALINAS-ZAVALA C., DOUGLAS A. (2003) Reconstruction of long-term winter streamflow in the Gulf of California continental watershed. Journal of Hydrology, 278 (1-4), 39–50.
CALOIERO T., SIRANGELO B., COSCARELLI R., FERRARI E. (2016) An analysis of the occurrence probabilities of wet and dry periods through a stochastic monthly rainfall model. Water, 8 (2), 39.
DAVI N., JACOBY G., D'ARRIGO R., BAATARBILEG N., JINBAO L., CURTIS A. (2009) A tree-ring-based drought index reconstruction for far-western Mongolia: 1565-2004. International Journal of Climatology, 29, 1508–1514.
DE LAAT P., NONNER J. (2012) Artificial recharge with surface water; a pilot project in Wadi Madoneh - Jordan. Environmental Earth Science, 65, 1251–1263.
FANG K., DAVI N., GOU X., CHEN F., COOK E., LI J., D'ARRIGO R. (2010) Spatial drought reconstructions for central high Asia based on tree rings. Climate Dynamics, 35 (6), 941–951.
FISCHER T., GEMMER M., SU B., SCHOLTEN T. (2013) Hydrological long-term dry and wet periods in the Xijiang River basin, South China. Hydrology and Earth Systems Sciences, 17, 135–148.
GONZALES J., VALDES J. (2003) Bivariate drought analysis using tree ring reconstruction. Journal of Hydrologic Engineering, 8 (4), 247–257.
GOU X., CHEN F., COOK E., JACOBY G., YANG M., LI J. (2007) Streamflow variations of the Yellow River over the past 593 years in western China reconstructed from tree rings. Water Resources Research, 43 (6), 1–9.
HAGAN R. (2008) Strategic reform and management of Jordan's water sector. USAID, Amman, Jordan.
KLUGE T., MOSER-NORGAARD P. (2008). Innovative water supply and disposal technologies as integral part of integrated water resources management: an example from Namibia. International Journal of Water, 4 (1-2), 41–54.
LARA A., VILLALBA R., URRUTIA R. (2008) A 400-year tree ring record of the Puelo river summer-fall streamflow in the Valdivian rainforest eco-region, Chile. Climate Change, 86, 331–356.
MEKO D., STOCKTON C., BOGGESS W. (1995) The tree-ring record of severe sustained drought. Water Resources Bulletin, 31, 789–801.
M.W.I. (2015) Jordan water sector: facts and figures. Ministry of Water and Irrigation, Amman, Jordan.
RATAN R., VENUGOPAL V. (2013) Wet and dry spell characteristics of global tropical rainfall. Water Resources Research, 49 (6), 3830–384.
SALAS J., FU C., CANCELLIERE A., DUSTIN D., BODE D., PINEDA A., VINCENT E. (2005) Characterizing the severity and risk of drought in the Poudre River, Colorado. Journal of Water Resources Planning and Management, 131 (5), 383-393.
SCOTT C., EL-NASER H., HAGAN R., HIJAZI A. (2003) Facing Water Scarcity in Jordan. Water International, 28 (2), 209–216.
SHARADQAH S. (2014) Water level response for over extraction in Western parts of Al-Jafer basin (Jordan). International Journal of Applied Science and Technology, 4 (2), 195–201.
TARAWNEH Z., ELGAALI E., MOSHRIK H. (2008) Severity of droughts in arid regions. Jordan Journal of Civil Engineering, 2, 228-237.
TARAWNEH Z., HADADIN N. (2009) Reconstruction of the rainy season precipitation in central Jordan. Hydrological Sciences Journal, 54 (1), 189-198.
TOUCHAN R., MEKO D., HUGHES M. (1999) A 396-year reconstruction of precipitation in Southern Jordan. Journal of the American Water Resources Association, 35 (1), 49-59.
WOODHOUSE C. (2003) A 431-Yr Reconstruction of Western Colorado Snowpack from Tree Rings. Journal of Climate, 16, 1551–1561.
WOODHOUSE C., RUSSEL J., COOK E. (2009) Two modes of North American drought from historical and paleoclimatic data. Journal of Climate, 22, 4336–4347.
YANG B., QIN C., WANG J., HE M., MELVIN T., OSBORN T., BRIFFA K. (2014) A 3,500-year tree-ring record of annual precipitation on the Northeastern Tibetan Plateau. Proceedings of the National Academy of Science of the United States of America (PNAS), 111, 2903–2908.
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