Silvano Pecora scite author profile

[1] Droughts, like floods, are extreme expressions of the river flow dynamics. Here, droughts are intended as episodes during which the streamflow is below a given threshold, and are described as multivariate events characterized by two variables: average intensity and duration. In this work, we introduce the new concept of Dynamic Return Period, formulated using the theory of Copulas, and calculated via a Survival Kendall's approach. We show how it can be used (i) to monitor the temporal evolution of a drought event, and (ii) to perform real time assessment. In addition, a randomization strategy is introduced, in order to get rid of repeated measurements, which may adversely affect the statistical analysis of the available data, as well as the calculation of the return periods of interest: a practical example is shown, involving the fit of the drought duration distribution. The case study of the Po river basin (Northern Italy) is used as an illustration.

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Space and time variations of watershed N and P budgets and their relationships with reactive N and P loadings in a heavily impacted river basin (Po river, Northern Italy)

Viaroli

Soana

Pecora³

et al. 2018

Science of The Total Environment

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Hydrological simulation of Po River (North Italy) discharge under climate change scenarios using the RCM COSMO-CLM

Vezzoli

Mercogliano

Pecora

et al. 2015

Science of The Total Environment

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Analytical derivation of rain intensity–duration–area–frequency relationships from event maxima

Michele¹,

Zenoni²,

Pecora³

et al. 2011

Journal of Hydrology

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Data Analysis to Detect Inhomogeneity, Change Points, Trends in Observations: An Application to Po River Discharge Extremes

Vezzoli

Pecora²,

Zenoni³

et al. 2012

SSRN Journal

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Silvano Pecora

Multivariate assessment of droughts: Frequency analysis and dynamic return period

Space and time variations of watershed N and P budgets and their relationships with reactive N and P loadings in a heavily impacted river basin (Po river, Northern Italy)

Hydrological simulation of Po River (North Italy) discharge under climate change scenarios using the RCM COSMO-CLM

Analytical derivation of rain intensity–duration–area–frequency relationships from event maxima

Data Analysis to Detect Inhomogeneity, Change Points, Trends in Observations: An Application to Po River Discharge Extremes

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