Snowmelt-driven macropore flow and soil saturation in a semiarid forest

## Abstract Hydraulic connectivity on hillslopes and the existence of preferred soil moisture states in a catchment have important controls on runoff generation. In this study we investigate the relationships between soil moisture patterns, lateral hillslope flow, and streamflow generation in a sem

## Abstract Macropores are important preferential pathways for the migration of water and contaminants through the vadose zone. The objective of this study was to examine small‐scale preferential flow processes during infiltration in macroporous, low permeability soils. A series of tension infiltra

## Abstract Research shows that water repellency is a key hydraulic property that results in reduced infiltration rates in burned soils. However, more work is required in order to link the hydrological behaviour of water repellent soils to observed runoff responses at the plot and hillslope scale.

## Abstract Water repellency (WR) is a property that has implications on the hydrologic balance in affected soils. In semi‐arid areas where water supply is limited, even slight WR may play an important role in the infiltration and spatial distribution of precipitation into the soil. Acidic and sand

The relationships between hillslope form and the development of zones of hillslope saturation are central to studies of process hydrology. These relationships are examined in two small, steep (30") first-order basins under forest and pasture vegetation. Hillslope saturation patterns are described us

Evidence for the functioning of macropores and the presence of preferential ¯ow in forest soils is equivocal. This is partly because many workers use only one diagnostic technique to indicate whether or not macropore ¯ow occurs. In this paper three lines of evidence are used to suggest that preferen