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The discipline of Integrated Environmental Modelling (IEM) has developed in order to solve complex environmental problems, for example understanding the impacts of climate change on the physical environment. IEM provides methods to fuse or link models together, this in turn requires facilities to make models discoverable and also to make the outputs of modelling easily visualized. The vision and challenges for IEM going forward are summarized by leading proponents. Several case studies describe the application of model fusion to a range of real-world problems including integrating groundwater and recharge models within the UK Environment Agency, and the development of ‘catastrophe’ models to predict better the impact of natural hazards. Communicating modelling results to end users who are often not specialist modellers is also an emerging area of research addressed within the volume. Also included are papers that highlight current developments of the technology platforms underpinning model fusion.
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1. Relativistic multireference Moller-Plesset perturbation theory / Yasuyuki Ishikawa and Marius Jonas Vilkas -- 2. 15 years of Car-Parrinello simulations in physics, chemistry and biology / Ursula Rothlisberger -- 3. Methods of combined quantum/classical (QM/MM) modeling for large organometallic and metallobiochemical systems / Isaac B. Bersuker -- 4. A review of ab initio calculations on proton transfer in zeolites / Marcel Allavena and David White -- 5. Ionic clusters with weakly interacting components-magic numbers rationalized by the shell structure / Szczepan Roszak and Jerzy Leszczynski -- 6. Turning point quantization and scalet-wavelet analysis / Carlos R. Handy