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Geostatistical analysis of spatiotemporal variability of groundwater level fluctuations in Amman–Zarqa basin, Jordan: a case study

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Environmental Geology

Abstract

The main objective of this study was to assess the spatial and temporal variability of groundwater level fluctuations in the Amman–Zarqa basin, during the period 2001–2005. In the year 2003, as a consequence of war, there was a sudden increase in the population in this basin. Knowing that the basin is already heavily populated and witnesses most of the human and industrial activities in Jordan, this study was prompted to help make wise water resources management decisions to cope with the new situation. Data from 31 fairly distributed wells in the upper aquifer of the basin were subjected to geostatistical treatment. Kriging interpolation techniques have indicated that the groundwater flow directions remained almost constant over the years. The two main directions are SW–NE and E–W. Kriging mapped fluctuations have also showed that drop and rise events are localized in the basin. Forecasting possibilities for management purposes were tackled using autocorrelation analysis. The constructed autocorrelograms indicated, in general, the temporal dependence of seasonal water level fluctuations, and that forecasting can be carried out within a period of 3–21 months. Several suggestions were made to mitigate the drop and rise hazards in the detected sites.

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References

  • Abu Sharar T, Saffarini G (1992) Spatial variability of four selected properties in one hectare-field from Central Jordan Valley. Dirasat (Science) 19B(1):135–149, University of Jordan

    Google Scholar 

  • Al-Mahamid J (2005) Integration of water resources of the upper aquifer in Amman Zarqa basin based on mathematical modelling and GIS, Jordan. Freiberg Online Geology, vol 12, p 223

  • Al-Abed N, Abdulla F, Abu Khyarah A (2005) GIS-hydrological models for managing water resources in the Zarqa River basin. Environ Geol 47:405–411

    Article  Google Scholar 

  • Al-Tarazi E, El-Naqa A, El-Waheidi M, Abu-Rajab J (2006) Electrical geophysical and hydrological investigations of groundwater aquifers in Ruseifa municipal landfill, Jordan. Environ Geol 50:1095–1103

    Article  Google Scholar 

  • Ahmadi S, Sedghamiz A (2007) Geostatistical analysis of spatial and temporal variations of groundwater level. Environ Monit Assess 129(1–3):277–294. doi:10.1007/s10661-9361-z

    Article  Google Scholar 

  • Byers E, Stephens D (1983) Statistical and stochastic analysis of hydraulic conductivity and particle size in a fluvial sand. Soil Sci Soc Am J 47:1072–1081

    Article  Google Scholar 

  • Cambardella C, Moorman T, Novak J, Parkin T, Karlen D, Turco R (1994) Field scale variability of soil properties in Central Iowa soils. Soil Sci Soc Am J 58:1501–1511

    Article  Google Scholar 

  • Cameron K, Hunter P (2002) Using spatial models and kriging techniques to optimize long-term groundwater monitoring networks: a case study. Environmetrics 13:629–656

    Article  Google Scholar 

  • Christakos G (2000) Modern spatiotemporal geostatistics. Oxford University Press, USA, p 312

  • Clark I (1979) Practical Geostatistics. Applied Science Publishers Ltd., London, p 129

  • Davis JC (1986) Statistics and data analysis in geology, 2nd edn. John Wiley, New York, p 646

  • El-Naqa A, Hammouri N, Kuisi M (2006) GIS-based evaluation of groundwater vulnerability in the Russeifa Area, Jordan. Rev Mex Cienc Geol 23(003):277–287

    Google Scholar 

  • Fitch JB (2001) Curtailment of groundwater use for irrigated agriculture in the Amman–Zarqa Basin. Uplands: an economic analysis. For ARD-USAID, 38p + appendixes, USAID, Amman

  • Gajem Y, Warrick A, Myers D (1981) Spatial dependence of physical properties of a typic Torrifluent Soil. Soil Sci Soc Am J 45:709–715

    Article  Google Scholar 

  • Gundogdu K, Guney I (2007) Spatial analysis of groundwater levels using universal kriging. J Earth Syst Sci 116(1):49–55

    Article  Google Scholar 

  • Howard, Humphreys (1983) Monitoring and evaluation of the Amman–Zarqa aquifer. Amman Water and Sewage Authority report, vol 1, p 156

  • Kitanidis P (1997) Introduction to geostatistics: Application to hydrology. Cambridge University Press, Cambridge, p 271

  • Kumar D, Ahmed S (2003) Seasonal behavior of spatial variability of groundwater level in a Granitic aquifer in monsoon climate. Curr Sci 84(2):188–196

    Google Scholar 

  • Kumar V, Remadevi V (2006) Kriging of groundwater levels—a case study. JOSH 6(1):81–94

    Google Scholar 

  • Li l, Revesz P (2004) Interpolation methods for spatiotemporal geographic data. Comput Environ Urban Syst 28:201–227

    Article  Google Scholar 

  • Lyon S, Seibert J, Lembo A, Watter M, Steenhuis T (2006) Geostatistical investigations into the temporal evolution of spatial structure in a shallow water table. Hydrol Earth Syst Sci 10:113–125

    Article  Google Scholar 

  • MWI (2007) Ministry of water and irrigation open files. Amman, Jordan

  • Nayak P, Satajirao Y, Sudheer K (2006) Groundwater level forecasting in a shallow aquifer using artificial neural network approach. Water Resour Manage 20:77–90

    Article  Google Scholar 

  • Qaádan M (2004) Performance effectiveness of As-Samra stabilization ponds and its impact on the surface and groundwater resources of lower reaches of Wadi Dhuleil. Unpubl. PhD Thesis, University of Jordan, p 230

  • Rimawi O (1985) Hydrochemistry and isotope hydrology of groundwater and surface water in the north–east of Mafraq, Dhuleil, Hallabat, Azraq Basin. PhD Thesis, Technische Universitaet Muenchen, 240 p

  • Robertson G (2000) Geostatistics for the environmental sciences. Gamma Design software, Version 5. Plainwell, Michigan

    Google Scholar 

  • Saffarini G, Jarrar G (1998) Quantifying the chemical variability of a Precambrian diabase from south Jordan using stochastic techniques: a proposal. J Volcanol geotherm res 86:199–217

    Article  Google Scholar 

  • Salameh E, Bannayan H (1993) Water resources of Jordan: future and future potentials. Friedrich Ebert Stiftung, Amman, p 183

  • Smedema L, Shiati K (2002) Irrigation and salinity: a perspective review of the salinity hazards of irrigation development in the arid zone. Irrig drain syst 16:161–174

    Article  Google Scholar 

  • Taylor C, Alley W (2001) Ground-water-level monitoring and the importance of long-term water-level data. US Geological Survey Circular 1217, p 68

  • Theodossiou N, Latinopoulos P (2006) Evaluation and optimization of groundwater observation network using the kriging methodology. Environ model softw 21:991–1000

    Article  Google Scholar 

  • Tonkin M, Larson S (2001) Kriging water levels with a regional-linear and point logarithmic drift. Ground Water 40:185–193

    Article  Google Scholar 

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Acknowledgments

The authors would like to express their sincere appreciation and gratitude to the ministry of water and irrigation and namely to Eng. Mohammad Momani for the kind permission to use the data bank files. The corresponding author would like also to thank Jordan University for offering him a sabbatical leave and Al-Balqa applied University for offering him the chance to spend the sabbatical leave year at the faculty of Technological Agriculture. Thanks are also due to the journal’s reviewers for improving the original manuscript.

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Authors and Affiliations

  1. Department of Water Resources and Environmental Management, Faculty of Agricultural Technology, Al-Balqa Applied University, Al Salt, Jordan

    Rakad A. Ta′any & Alaeddin B. Tahboub

  2. Geology Department, University of Jordan, Amman, Jordan

    Ghazi A. Saffarini

Authors
  1. Rakad A. Ta′any
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  2. Alaeddin B. Tahboub
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  3. Ghazi A. Saffarini
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Correspondence to Ghazi A. Saffarini.

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Ta′any, R.A., Tahboub, A.B. & Saffarini, G.A. Geostatistical analysis of spatiotemporal variability of groundwater level fluctuations in Amman–Zarqa basin, Jordan: a case study. Environ Geol 57, 525–535 (2009). https://doi.org/10.1007/s00254-008-1322-0

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