Authors
1
Azad University, Sciences and Research Branch of Tehran, Iran
2
Dept. of Watershed Management, Faculty of Natural Resources, University of Mazandaran, Iran.
3
Dept. of Forestry, Faculty of Natural Resources, University of Guilan, P.O. Box 1144, Sowmehsara, Iran.
Abstract
Springs are the important water resources, which thier study is necessary in terms of their management and exploitation. In northern Iran, the karst springs locate in the central Alborz highlands and alluvial springs on the Caspian southern coasts.The Karst and alluvial springs discharge is variable because of different conditions in terms of aquifer, topography and precipitation .This study has been done to simulate the karst and alluvial springs discharge and to compare their hydrologic conditions. So, 80 karst springs and 82 alluvial springs were investigated in central Alborz and on the Caspian southern coasts. Two models were presented to simulate the karst and alluvial springs discharge using Multivariate Regression analysis (SPSS software).Then, their efficiency was considered. Finally, the models and the results of regression analyses were compared. The results showed that the most important factors of the karst springs discharge are aquifer formation (its porosity) and site elevation, but about the alluvial springs, the hydraulic conductivity of aquifer formation and aquifer depth are the most important factors.
REFERENCES
Alvis, A., Hargrave, R., Francisco, E., Fischer, D. (2005) Aquifer vulnerability of the Inyan Kava Group. Blakhawk QuaDRANGLE, SOUTH Dakota, Western South Dakota Hydrology Conference.
Auckenthaler, A., Reichert, P., Huggenberger, P. (2005) Modeling discharge and microorganism transport in a karst aquifer. Geophysical Research Abstracts, Vol. 7, 01603.
Brouye`re, S., Carabin, G., Dassargues, A., (2004) Climate change impacts on groundwater reserves: modelled deficits in a chalky aquifer. Geer Basin, Belgium. Hydrogeology Journal. 12 (2), 123– 134.
Dimitrov, D., Machkova, M., Damyanov, G. (1997) On the karst spring discharge forecasting by means of stochastic modeling. Karst Waters & Envronmental Impacts (Proceedings of Int. Symp. Antalya, Turkey, 1995, Günay, G. et. Johnson, A.I. (eds.), Balkema, Roterdam, pp. 353-359.
Han, X.R., Lu, R.A., Li, Q.S. (1993) Karst Water System: A Study on Big Karst Spring in Shanxi. Geological Publishing House, Beijing (in Chinese with English abstract).
IWRRO (2006) Data and studies of Mzandaran Springs. Water Resources Researches Organization of Iran (TAMAB), Tehran, Iran.
IWRRO (2006) Data and studies of karstic and costal aquifers in Meandering. Water Resources Researches Organization of Iran (TAMAB) Tehran, Iran.
Ma, T., Wang, Y., Guo, Q. (2004) Response of carbonate quifer to climate change in northern China: a case study at the Shentou springs. Journal of Hydrology. 297, 274–284.
Prohaska, S., Stevanovic, Z. (1993) The development of the autocross-regression model for karst spring flow simulation. Theor. Appl. Karst., 6, pp. 151-155.
Rimmer, A. (2006) Modeling recession curve of karstic springs- parallel or serial reservoirs? Geophysical Research Abstracts, Vol. 8, 01761.
William, B.W. (2003) Conceptual models for karstic aquifers. Re-published by permission from: Palmer, A.N., Palmer, M.V., and Sasowsky, I.D. (eds.), Karst Modeling: Special Publication 5, The Karst Waters Institute, Charles Town, West Virginia (USA), 11-16.
Worthington, S. R. (1991) Karst hydrogeology of the Canadian Rocky Mountains. Ph.D. thesis, McMaster University, Hamilton, Ontario, 227 p.
Yonghong, H., Chyi, T. (2006) A gray system model for studying the response to climatic change: The Liulin karst spring, China. Journal of Hydrology. 328, 668-676.
Zhang, Y.K., Bai, E.W., Libra, R., Rowden, R., Huaibai, L. (1996) Simulation of spring discharge from a limestone aquifer in Iowa. USA, Hydrogeology Journal, 4: 41-54.
Keywords