Francesco Marra scite author profile

10Extreme rainfall is quantified in engineering practice using Intensity- Frequency curves (IDF) that are traditionally derived from rain-gauges and more 12 recently also from remote sensing instruments, such as weather radars. These 13 instruments measure rainfall at different spatial scales: rain-gauge samples rainfall at 14 the point scale while weather radar averages precipitation on a relatively large area,

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A simplified MEV formulation to model extremes emerging from multiple nonstationary underlying processes

Marra

Zoccatelli

Armon

et al. 2019

Advances in Water Resources

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Anastomotic leakage as a risk factor for the long-term outcome after curative resection of colon cancer

Marra

Steffen

Kalak

et al. 2009

European Journal of Surgical Oncology (EJSO)

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Intensity–duration–frequency curves from remote sensing rainfall estimates: comparing satellite and weather radar over the eastern Mediterranean

Marra

Morin

Peleg

et al. 2017

Hydrol. Earth Syst. Sci.

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Abstract. Intensity-duration-frequency (IDF) curves are widely used to quantify the probability of occurrence of rainfall extremes. The usual rain gauge-based approach provides accurate curves for a specific location, but uncertainties arise when ungauged regions are examined or catchment-scale information is required. Remote sensing rainfall records, e.g. from weather radars and satellites, are recently becoming available, providing high-resolution estimates at regional or even global scales; their uncertainty and implications on water resources applications urge to be investigated. This study compares IDF curves from radar and satellite (CMORPH) estimates over the eastern Mediterranean (covering Mediterranean, semiarid, and arid climates) and quantifies the uncertainty related to their limited record on varying climates. We show that radar identifies thicker-tailed distributions than satellite, in particular for short durations, and that the tail of the distributions depends on the spatial and temporal aggregation scales. The spatial correlation between radar IDF and satellite IDF is as high as 0.7 for 2-5-year return period and decreases with longer return periods, especially for short durations. The uncertainty related to the use of short records is important when the record length is comparable to the return period ( ∼ 50, ∼ 100, and ∼ 150 % for Mediterranean, semiarid, and arid climates, respectively). The agreement between IDF curves derived from different sensors on Mediterranean and, to a good extent, semiarid climates, demonstrates the potential of remote sensing datasets and instils confidence on their quantitative use for ungauged areas of the Earth.

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Radar rainfall estimation for the identification of debris-flow occurrence thresholds

Marra

Creutin

Borga

2014

Journal of Hydrology

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Francesco Marra

Hydrogeomorphic response to extreme rainfall in headwater systems: Flash floods and debris flows

Use of radar QPE for the derivation of Intensity–Duration–Frequency curves in a range of climatic regimes

Subsidence induced by urbanisation in the city of Rome detected by advanced InSAR technique and geotechnical investigations

Spatial variability of extreme rainfall at radar subpixel scale

A simplified MEV formulation to model extremes emerging from multiple nonstationary underlying processes

Anastomotic leakage as a risk factor for the long-term outcome after curative resection of colon cancer

Intensity–duration–frequency curves from remote sensing rainfall estimates: comparing satellite and weather radar over the eastern Mediterranean

Radar rainfall estimation for the identification of debris-flow occurrence thresholds

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