Storage under the 2011 Chao Phraya River flood: An interpretation of watershed-scale storage changes at two neighboring mountainous watersheds in northern Thailand
Yoshiyuki Yokoo1,2, Chaiwut Wattanakarn3, Supinda Wattanakarn3, Vorapod Semcharoen3,
Kamol Promasakha na Sakolnakhon4 and Suttisak Soralump5
1Graduate School of Symbiotic Systems Science, Fukushima University, Japan
2Institute of Environmental Radioactivity, Fukushima University, Japan
3Water Management and Hydrology Bureau, Royal Irrigation Department, Thailand
4Weather Forecast Bureau, Thai Meteorological Department, Thailand
5Department of Civil Engineering, Faculty of Engineering, Kasetsart University, Thailand
Abstract:
The present study attempted estimations of watershedscale storage changes at two mountainous watersheds in northern Thailand to understand the behaviors of watershedscale storage under the 2011 Chao Phraya River flood. For this purpose, we applied a methodology that separates an hourly hydrograph into several discharge sub-components, and formulized watershed-scale storage-discharge relationships. The results showed that (1) this methodology was applicable to sub-tropic watersheds, (2) there were five different discharge sub components, that correspond to the number of dominant rainfall-runoff processes, in two mountainous watersheds in northern Thailand, (3) the peak total storage in 2011 was estimated to occur in October because of strongly seasonal slower discharge subcomponents, whereas the maximum total discharge was observed in June, (4) the sum of watershed-scale maximum storages of all the discharge sub-components in the upper Yom and Nan River watersheds were respectively estimated to be 135 mm and 405 mm, and the difference might be explained by the existence of the active fault running northsouth in the upper Nan River watershed, and (5) the estimated storage with the recession time constants of 111 h at the beginnings of rainy seasons could explain the risk of slope failure occurrences within a watershed.
KEYWORDS hydrograph separation; recession analysis; flood; Yom River; Nan River; slope failure
Hydrological Research Letters 8(1), 1–8 (2014)
Published online in J-STAGE (www.jstage.jst.go.jp/browse/hrl). doi: 10.3178/hrl.8.1
