Hydrologic effects of a changing forested landscape—challenges for the hydrological sciences

The relationship between stream discharge and the concentration of dierent solutes re¯ects the hydrological processes occurring in a catchment, but is also strongly aected by antecedent moisture conditions. In this study, the eects of antecedent conditions were examined for a small forested watershe

## Abstract Hydrological response to climate change may alter the biogeochemical role that peatlands play in the global climate system, so an understanding of the nature and magnitude of this response is important. In 2002, the water table in a fen peatland near Quebec City was lowered by ∼20 cm (E

## Abstract Long‐term simulations of temporal rainfall and temperature under transient global climate conditions are discussed to give an insight into potential modifications of atmospheric inputs at the basin scale in the Arno River in central Italy. The outputs from a global circulation model (GC

## Abstract Risk assessment of future land use changes with respect to their ecological impact is still an unsolved problem. The implementation of sustainable land use concepts for mesoscale catchments requires a methodology that is able to quantify the effects on the water balance of this ecosyste

## Abstract The relationship between concentration __c__ and discharge __Q__ in a stream is one of the aspects of hydrochemical catchment response that has been used widely as a diagnostic. In particular, loops in the __c__–__Q__ curve, commonly referred to as hysteresis loops, are used to infer pa

## Abstract It is a common technique to predict hydrologic effects of land use changes by simulation models. On the scale of watersheds, hydrologic models comprise different approaches for many hydrologic components. One important source of model uncertainty results from errors of measured input da