Can we model the hydrological impacts of environmental change?

The effects of climate change on hydrological regimes over the coming century have become a priority area, both for process research and for water and catchment management strategies. The development of general circulation models (GCMs) with dynamic modelling of ocean circulation, atmosphere-ocean i

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## Abstract The uncertainties associated with atmosphere‐ocean General Circulation Models (GCMs) and hydrologic models are assessed by means of multi‐modelling and using the statistically downscaled outputs from eight GCM simulations and two emission scenarios. The statistically downscaled atmosphe

## Abstract An evaluation is made of the suitability of programming languages for hydrological modellers to create distributed, process‐based hydrological models. Both system programming languages and high‐level environmental modelling languages are evaluated based on a list of requirements for the

## Abstract This study aimed at carrying out an assessment of the impact of climate change on water availability for the Itaipu hydrological basin, located on the frontier between Brazil and Paraguay, with particular reference to river runoff and hydropower. Climate data for the SRES future scenari