Spatial scale effect on the upper soil effective parameters of a distributed hydrological model

Spatial variability is recognized to exert a remarkable in¯uence on the catchment hydrological response over a wide range of scales. Accordingly, one of the main advantages of distributed rainfall±runo models is their capability of accounting for its eects. The application of these models, however,

## Abstract Hydrological process modelling depends on the data characterizing the heterogeneity of the catchment. In particular, in a large‐scale catchment, could a higher resolution of input data contribute to a more accurate result? In this study, surveyed soil data with two different spatial res

Land surface parameterizations used in atmospheric general circulation models (AGCMs) are one dimensional representations of the transfer of energy and water vapour at the earth's surface over grid squares that are typically of the order of 10 4 km 2 . It is known, however, that climate variables an

## Abstract Wildfire is a major ecological process and management issue on western rangelands. The impacts of wildfire on hydrologic processes such as infiltration, runoff, and erosion are not well understood. Small‐plot rainfall simulation methods were applied in a rangeland wildfire setting to de

## Abstract This paper reviews the effects of deforestation on the hydrological cycle in Amazonia according to recent modeling and observational studies performed within different spatial scales and resolutions. The predictions that follow from future scenarios of a complete deforestation in the re

## Abstract Advective solute travel times and their distributions in hydrological catchments are useful descriptors of the dynamics and variation of the physical mass transport among and along the different source‐to‐recipient pathways of solute transport through the catchments. This article invest