Catchment soil moisture and rainfall characteristics as determinant factors for discharge/suspended sediment hysteretic loops in a small headwater catchment in the Spanish pyrenees
Publication date
2004
Authors
Seeger, M.
Beguería, S.
Errea, M.P.
Arnáez, J.
Martí, C.
García-Ruiz, J.M.
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DOI
Document Type
Preprint
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Abstract
The concentration of suspended sediment and discharge generated during
flood events are not normally homogenous, and the curve representing sediment
concentration vs. discharge through time is often a hysteretic loop. Three types of
hysteretic loops were found at Arnás, a Mediterranean headwater catchment in the
Central Spanish Pyrenees: clockwise (the most frequent), counter-clockwise and eightshaped.
They are associated with different levels of humidity and rainfall and therefore
indicators of different processes of runoff and sediment transport. Clockwise loops are
generated under “normal” stormflow conditions, when the catchment is very moist and
runoff generation and sediment supply is limited to areas next to the channel (i.e.,
sediments are removed, transported and depleted rapidly). Counter-clockwise curves
occur under very high moisture and high antecedent rainfall conditions. In this case,
flood propagation occurs as a kinematic wave. Sediment sources are incorporated all
over the catchment. In both cases, saturation excess overland flow generates the
superficial runoff. The eight-shaped loop (partial clockwise followed by counterclockwise)
occurs with low water content. Here, the runoff generation process is
supposed to be infiltration excess overland flow, which causes a rapid extension of the
contributing areas both near the channel and over the whole catchment.
Keywords
runoff generating processes, sediment transport, hysteretic loops, headwater, catchment, Mediterranean mountain, Pyrenees, Spain