G
Gabriele Chiogna
Researcher at Technische Universität München
Publications - 98
Citations - 2891
Gabriele Chiogna is an academic researcher from Technische Universität München. The author has contributed to research in topics: Porous medium & Environmental science. The author has an hindex of 26, co-authored 72 publications receiving 2117 citations. Previous affiliations of Gabriele Chiogna include University of Tübingen & University of Innsbruck.
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Evaluation of eight high spatial resolution gridded precipitation products in Adige Basin (Italy) at multiple temporal and spatial scales
TL;DR: Evaluation of high spatial resolution gridded precipitation products in Adige Basin located in Italy shows that in terms of overall statistical metrics the CHIRPS, TRMM and CMORPH_BLD comparably rank as the top three best performing products, while the PGF performs worst.
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Evaluation of precipitation input for SWAT modeling in Alpine catchment: A case study in the Adige river basin (Italy).
TL;DR: This study has shown that precipitation is the main source of uncertainty, and different precipitation datasets in SWAT models lead to different best estimate ranges for the calibrated parameters, which has important implications for the interpretation of the simulated hydrological processes.
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Enhancement of dilution and transverse reactive mixing in porous media: experiments and model-based interpretation.
TL;DR: Flow focusing in heterogeneous porous media significantly enhances transverse mixing and mixing-controlled reactions, whereas temporally changing flow fields appear to be of minor importance.
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Contamination sources and distribution patterns of pharmaceuticals and personal care products in Alpine rivers strongly affected by tourism.
Ladislav Mandaric,Elena Diamantini,Elisa Stella,Karina Cano-Paoli,Jennifer Valle-Sistac,Daniel Molins-Delgado,Alberto Bellin,Gabriele Chiogna,Gabriele Chiogna,Bruno Majone,M. Silvia Díaz-Cruz,Sergi Sabater,Sergi Sabater,Damià Barceló,Damià Barceló,Mira Petrovic,Mira Petrovic +16 more
TL;DR: The analysis of tourist data revealed that during both sampling campaigns the number of tourists was lower in the downstream sites in comparison with the upstream area of the basin (Val di Sole), which highlights the potential impact of tourism on the water quality of the Alpine aquatic ecosystems.
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Evidence of compound-dependent hydrodynamic and mechanical transverse dispersion by multitracer laboratory experiments.
TL;DR: It is shown that transverse mechanical dispersion depends on the diffusion coefficient of the compound, at least at the experimental bench-scale, which has to be considered in reactive-transport models.