His primary areas of investigation include Climatology, Climate change, Precipitation, Climate model and Atmospheric sciences. His research links Downscaling with Climatology. His study in Downscaling is interdisciplinary in nature, drawing from both El Niño Southern Oscillation, Forcing, Ensemble average and Global climate.
Many of his studies involve connections with topics such as Environmental resource management and Climate change. His research in Climate model intersects with topics in Probability distribution and Natural hazard. His Atmospheric sciences study combines topics in areas such as Global warming, Annual cycle, Monsoon and Indian Ocean Dipole.
His scientific interests lie mostly in Climatology, Climate change, Climate model, Precipitation and Global warming. In the field of Climatology, his study on Ensemble average overlaps with subjects such as Magnitude. His Climate change research includes elements of Agroforestry, Crop, Environmental protection, Environmental resource management and Natural resource economics.
The Climate model study combines topics in areas such as General Circulation Model, Atmospheric circulation, Atmospheric sciences and Water resources. The various areas that Alessandro Dosio examines in his Precipitation study include Snow and Monsoon. His work in Global warming addresses issues such as Representative Concentration Pathways, which are connected to fields such as Socioeconomics.
Alessandro Dosio mainly focuses on Climatology, Climate model, Precipitation, Downscaling and Evapotranspiration. Alessandro Dosio combines subjects such as Climate extremes and Climate change with his study of Climatology. His work on General Circulation Model and Global temperature as part of general Climate change research is often related to Horizon, Resolution and European union, thus linking different fields of science.
His Climate model research integrates issues from Planetary boundary layer, Convective mixing, Troposphere and Mesoscale meteorology. Alessandro Dosio interconnects Moisture and Water content in the investigation of issues within Precipitation. Alessandro Dosio has included themes like Observational study and Earth System Grid in his Downscaling study.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Will drought events become more frequent and severe in Europe
Jonathan Spinoni;Jürgen V. Vogt;Gustavo Naumann;Paulo Marinho Ferreira Barbosa.
International Journal of Climatology (2018)
Magnitude of extreme heat waves in present climate and their projection in a warming world
Simone Russo;Alessandro Dosio;Rune G. Graversen;Jana Sillmann.
Journal of Geophysical Research (2014)
Bias correction of the ENSEMBLES high-resolution climate change projections for use by impact models: Evaluation on the present climate
A. Dosio;P. Paruolo;P. Paruolo.
Journal of Geophysical Research (2011)
Assessment of the performance of CORDEX Regional Climate Models in Simulating East African Rainfall
Hussen Seid Endris;Philip Omondi;Suman Jain;Christopher Lennard.
Journal of Climate (2013)
Extreme heat waves under 1.5°C and 2°C global warming
Alessandro Dosio;Lorenzo Mentaschi;Erich M. Fischer;Klaus Wyser.
Environmental Research Letters (2018)
Climatology, annual cycle and interannual variability of precipitation and temperature in CORDEX simulations over West Africa
Emiola Gbobaniyi;Emiola Gbobaniyi;Abdoulaye Sarr;Mouhamadou Bamba Sylla;Ismaila Diallo.
International Journal of Climatology (2014)
Dynamical downscaling of CMIP5 global circulation models over CORDEX-Africa with COSMO-CLM: evaluation over the present climate and analysis of the added value
Alessandro Dosio;Hans-Jürgen Panitz;Martina Schubert-Frisius;Daniel Lüthi.
Climate Dynamics (2015)
Assessment of future flood hazard in Europe using a large ensemble of bias-corrected regional climate simulations
R. Rojas;L. Feyen;A. Bianchi;A. Dosio.
Journal of Geophysical Research (2012)
Improving pan-European hydrological simulation of extreme events through statistical bias correction of RCM-driven climate simulations
R. Rojas;L. Feyen;A. Dosio;D. Bavera.
Hydrology and Earth System Sciences (2011)
Modelling the atmospheric transport and deposition of sulphur and nitrogen over the United Kingdom and assessment of the influence of SO2 emissions from international shipping
A. J. Dore;M. Vieno;Y. S. Tang;U. Dragosits.
Atmospheric Environment (2007)
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