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Blog Post number 1
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people
Enrico Zorzetto
Assiatant professor of hydrology
Christospher Cox
PhD student, 2024-current
Aayushman Subedi
MSc student in hydrology, 2024-current
portfolio
A Global Land Snow Scheme (GLASS) v1.0
A numerical snow model developed for implementation in Earth System Models
Resolving high-resolution topography in Earth System Models
By using spatial hierarchical clustering techniques 
Resolving 3D topography-radiation interactions
publications
On the emergence of rainfall extremes from ordinary events
Published in Geophysical Research Letters , 2016
Recommended citation: Zorzetto, E., G. Botter, and M. Marani. "On the emergence of rainfall extremes from ordinary events." Geophysical Research Letters 43.15 (2016): 8076-8082. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2016GL069445
Analisi delle variazioni dei valori estremi osservati in lunghe serie storiche di precipitazione
Published in Bollettino della Societa Naturalistica Silvia Zenari, 2016
Recommended citation: Enrico Zorzetto, "Analisi delle variazioni dei valori estremi osservati in lunghe serie storiche di precipitazione", Bollettino della Societa Naturalistica Silvia Zenari, 39 (2016) https://bagav.uniud.it/fileadmin/user_upload/Vavilov_e_Harlan_-__Miceli_2017.pdf
Extremes, intermittency, and time directionality of atmospheric turbulence at the crossover from production to inertial scales
Published in Physical Review Fluids, 2018
Recommended citation: Zorzetto, E., A. D. Bragg, and G. Katul. "Extremes, intermittency, and time directionality of atmospheric turbulence at the crossover from production to inertial scales." Physical Review Fluids 3.9 (2018): 094604. https://journals.aps.org/prfluids/abstract/10.1103/PhysRevFluids.3.094604
Downscaling of rainfall extremes from satellite observations.
Published in Water Resources Research, 2019
Recommended citation: Zorzetto, Enrico, and Marco Marani. "Downscaling of rainfall extremes from satellite observations." Water Resources Research 55.1 (2019): 156-174. https://agupubs.onlinelibrary.wiley.com/doi/pdfdirect/10.1029/2018WR022950
Extreme value metastatistical analysis of remotely sensed rainfall in ungauged areas: Spatial downscaling and error modelling
Published in Advances in Water Resources, 2020
Recommended citation: Zorzetto, Enrico, and Marco Marani. "Extreme value metastatistical analysis of remotely sensed rainfall in ungauged areas: Spatial downscaling and error modelling." Advances in Water Resources 135 (2020): 103483. https://www.sciencedirect.com/science/article/pii/S0309170819309479
Impacts of the North Atlantic subtropical high on daily summer precipitation over the conterminous United States
Published in Journal of Hydrometeorology, 2021
Recommended citation: Zorzetto, Enrico, and Laifang Li. "Impacts of the North Atlantic subtropical high on daily summer precipitation over the conterminous United States." Journal of Hydrometeorology 22.7 (2021): 1697-1712. https://journals.ametsoc.org/view/journals/hydr/22/7/JHM-D-20-0242.1.xml
Intermittent surface renewals and methane hotspots in natural peatlands
Published in Boundary-Layer Meteorology, 2021
Recommended citation: Zorzetto, Enrico, et al. "Intermittent surface renewals and methane hotspots in natural peatlands." Boundary-Layer Meteorology 180.3 (2021): 407-433. https://link.springer.com/article/10.1007/s10546-021-00637-x
Effects of complex terrain on the shortwave radiative balance: a sub-grid-scale parameterization for the GFDL Earth System Model version 4.1
Published in Geoscientific Model Development, 2023
Recommended citation: Zorzetto, Enrico, et al. "Effects of complex terrain on the shortwave radiative balance: a sub-grid-scale parameterization for the GFDL Earth System Model version 4.1." Geoscientific Model Development 16.7 (2023): 1937-1960. https://gmd.copernicus.org/articles/16/1937/2023/
Extreme precipitation return levels for multiple durations on a global scale
Published in Journal of Hydrology, 2023
Recommended citation: Gründemann, Gaby J., et al. "Extreme precipitation return levels for multiple durations on a global scale." Journal of Hydrology 621 (2023): 129558. https://www.sciencedirect.com/science/article/pii/S0022169423005000
Historical shifts in seasonality and timing of extreme precipitation
Published in Geophysical Research Letters, 2023
Recommended citation: Gründemann, Gaby J., et al. "Historical shifts in seasonality and timing of extreme precipitation." Geophysical Research Letters 50.24 (2023): e2023GL105200. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2023GL105200
A Bayesian non-asymptotic extreme value model for daily rainfall data
Published in Journal of Hydrology, 2024
Recommended citation: Zorzetto, Enrico, Antonio Canale, and Marco Marani. "A Bayesian non-asymptotic extreme value model for daily rainfall data." Journal of Hydrology 628 (2024): 130378. https://www.sciencedirect.com/science/article/pii/S0022169423013203
A Global land snow scheme (GLASS) v1.0 for the GFDL Earth System Model: Formulation and evaluation at instrumented sites
Published in Geoscientific Model Development, 2024
Recommended citation: E. Zorzetto et al., "A Global land snow scheme (GLASS) v1.0 for the GFDL Earth System Model: Formulation and evaluation at instrumented sites", online preprint. https://egusphere.copernicus.org/preprints/2024/egusphere-2024-506/
Quantifying radiative effects of light–absorbing particles deposition on snow at the SnowMIP sites
Published in The Cryosphere, 2024
Recommended citation: Zorzetto, Enrico, et al. "Quantifying radiative effects of light–absorbing particles deposition on snow at the SnowMIP sites." EGUsphere 2024 (2024): 1-25. https://doi.org/10.5194/egusphere-2024-1258
talks
Quantifying the Global Effects of Light-Absorbing Particles Deposition on Magnitude and Timing of Snow Melt in an Earth System Model
Published:
The deposition of light–absorbing particles (LAPs) over snow covered surfaces leads to a decrease in surface albedo. This effect, by increasing the energy absorbed by the snowpack, also enhances melt and accelerates snow aging, which in turn is responsible for a further decrease in snow albedo. Quantifying both direct and indirect effects of LAPs deposition on snowmelt is important in Earth System Models (ESMs), as these effects can modulate the timing of runoff and can produce relevant feedbacks in a coupled climate model. Here we investigate the magnitude of LAPs deposition effects on snow melt over a set of instrumented sites spanning a wide range of LAP deposition rates, terrain and climate conditions. To this end we employ GLASS, a newly developed snow scheme implemented in the Geophysical Fluid Dynamics Laboratory (GFDL) ESM. GLASS provides a detailed multi-layer description of snow processes, with prognostic prediction of snow optical diameter as well as snow grain shape. The mass balance of each LAP species is explicitly resolved within the multi-layer snowpack, so that their concentration determines snow optical properties together with grain size and shape. The snow model is forced by dry and wet deposition of black carbon, mineral dust and organic carbon obtained offline from a general circulation model (GFDL AM4.0). We evaluate the new model configuration over a set of instrumented sites in Europe and North America, finding that at most sites the effect of LAPs is quite relevant, with an average reduction in number of snow cover days between 5 and 20 days/year depending on the site. For sites in the Western US this effect is primarily due to dust deposition, while we find the role of black and organic carbon more relevant at study sites in the Alps. Finally, we provide a global quantification of the effects of LAPs on the magnitude and timing of snow melt in current climate conditions (1985-2015).
teaching
Hydraulic Structures / Hydrology for Engineers
Graduate level class, University of Padova and National School of Public Works of Camerun, 2020
I co-tought a graduate level class to about 200 Civil and Architectural Engineering Students in Younde’, Cameroon. The class was held remotely due to the ongoing Covid19 pandemic. Topics of the class included design of water distribution systems, drainage systems, and other hydraulic structures.
Global Climate Change - GEOL 3040
Undergraduate course, University 1, Earth and Environmental Science, 2024
Physical processes governing the evolution of the Earth system, impacts of climate change, solutions, intro climate modelling.
Statistical Methods in Environmental Science - HYDR 5089
Graduate course, New Mexico Tech, Earth and Environmental Science, 2024
Graduate-level class [currently in preparation] focusing on applications on Bayesian statistical methods to problems in hydrology and environmental sciences, including statistics of extreme events, turbulence and statistical fluid mechanics, and time series frequency analysis.