Low-Flow Indices in Sub Catchments of Caspian, Iran

Document Type : Research Paper

Authors

1 Assistant Prof. Soil Conservation and Watershed Management Research Institute, Agricultural Research, Education and Extension Organization, Tehran, Iran

2 Assist. Professor, Soil Conservation and Watershed management institute, Agricultural Research, Education and Extension Organization (AREEO), Tehran, Iran.

Abstract

Low flows are one of the most important hydrological parameters required for quantitative and qualitative analysis of watersheds and play an important role in water resources engineering and management. In this study, 9 low flow indices including mean annual 3,7,15,30, days average minimum flow, flow duration curve indices (FDC) and exceeded 95, 90, 75 and 25% of the time respectively, and base flow index (BFI) were used. Daily stream flow of 20 hydrometric stations with a period of 30 years were used. BFI was extracted using One-parameter recursive digital filter algorithm and FDC indices were determined by plotting FDC. Then, the relationships between selected indices were analyzed. The results showed that there was a good correlation between base flow and FDC indices with a coefficient of determination above 68%. MAM3, MAM7 and MAM30 indices had a good correlation with a coefficient of determination higher than 0.90 and a suitable standard error for FDC indices that can be used for regional analysis of low flow. The MAM30 low flow showed the minimum standard error and the maximum coefficient of determination with FDC indices. The MAM15 low flow index had no correlation with FDC indices and not recommended for regional analysis of low flow in the research area.

Keywords

References

Alizadeh, A. (2007). Principal of Applied Hydrology, 14nd edition, Mashhad. Emamreza University Press, 807p. (In Persian)
Chapman, T. G., & Maxwell, I. A. (1996, May). Baseflow separation-comparison of numerical methods with tracer experiments. In National Conference Publication-Institution of Engineers Australia NCP (Vol. 2, pp. 539-546). Institution of Engineers, Australia.
Eslamian, S. S., Zarei, A., & Abrishamchi, A. (2004). Regional estimation of low flows for Mazandaran River Basin. Journal of Science and Technology of Agriculture and Natural Resources.
Kazemi, R., & Eslami, A. R. (2013). Study role of geological formations and hydrological parameters on the based index, case study: Caspian area. Watershed Engineering and Management5(2), 85-93.
Mirza, M. M. Q. (2010). A review on current status of flood and drought forecasting in South Asia. In A. Mitra & C. Sharma (Eds.), chapter 7 Global environmental changes in South Asia (pp. 233–243). Dordrecht: Springer. https://doi.org/10.1007/978-1-4020-9913-7_7.
Nathan, R. J., & McMahon, T. A. (1992). Estimating low flow characteristics in ungauged catchments. Water Resources Management6(2), 85-100.
Noori Gheidari, M. H., & Hosseinitodashki, V. (2014). New Attitude in the Frequency Analysis of 7-day, s Minimum Flows (Case study: Lake Urmia Basin). Water and Soil Science23(4), 105-116.
Nosrati, K., Eslamiyan, S., & Shahbazi, A. (2004). Study of climate change on hydrological drought. Journal of Agriculture, 5(1):49-56.
Sapač, K., Rusjan, S., & Šraj, M. (2020). Assessment of consistency of low-flow indices of a hydrogeologically non-homogeneous catchment: A case study of the Ljubljanica river catchment, Slovenia. Journal of Hydrology583, 124621.
Tallaksen, L.M. & Lanen, H.A.J. van (2004) Introduction. In: Hydrological Drought – Processes and Estimation Methods for Streamflow and Groundwater (ed. by L.M. Tallaksen & H.A.J. van Lanen), Developments in Water Sciences 48, Elsevier Science B.V., Amsterdam, the Netherlands, 3-17.
Vogel, R. M., & Fennessey, N. M. (1994). Flow duration curves I: new interpretation and confidence intervals. Journal of Water Resources Planning and Management120(4).
Whitaker, A. C., Chapasa, S. N., Sagras, C., Theogene, U., Veremu, R., & Sugiyama, H. (2022). Estimation of baseflow recession constant and regression of low flow indices in eastern Japan. Hydrological Sciences Journal67(2), 191-204.
Worland, S. C., Farmer, W. H., & Kiang, J. E. (2018). Improving predictions of hydrological low-flow indices in ungaged basins using machine learning. Environmental modelling & software101, 169-182.

Files

Share

How to cite

Statistics