The design hydrograph estimation in small and ungauged basins represents one of the most
common practices and, yet, a challenging open research topic for hydrologists. When …

The present study uses hourly rainfall measurements from 36 raingauge stations in the
northeastern United States with more than 55 years of recordings, to assess the accuracy …

Many land surface processes, including splash dislodgment and downslope transport of soil
materials, are influenced strongly by short-lived peaks in rainfall intensity but are less well …

Runoff generation from rainfall events is a complex, spatial and temporally dependent
process strongly governed, among other factors, by catchment surface topography. Although …

Rainfall is a spatiotemporally varied process and key to accurately capturing catchment
runoff and determining flood response. Flash flood response of a catchment can be strongly …

In urban hydrology rainfall time series of high resolution in time are crucial. Such time series
with sufficient length can be generated through the disaggregation of daily data with a micro …

Analytical multiplicative random cascades (MRCs) are widely used for the temporal
disaggregation of coarse-resolution precipitation time series. This class of models applies …

A novel approach to stochastic rainfall generation that can reproduce various statistical
characteristics of observed rainfall at hourly to yearly timescales is presented. The model …

Flood peaks and volumes are essential design variables and can be simulated by
precipitation–runoff (P–R) modelling. The high-resolution precipitation time series that are …

Observational data scarcity often limits the potential of rainfall-runoff modelling around the
globe. In ungauged catchments, earth observations or reanalysis products could be used to …