Add to ORKGExtreme climate events may be defined as atmospheric or oceanic phenomena that occupy the tails of a dataset's probability density function (PDF), where the magnitude of the event is large, but the probability of occurrence is rare. Though these types of events are statistically sparse, it is necessary to understand the distribution of events in the tails, as quantifying the likelihood of climate extremes is an important step in predicting overall climate variability. It has been known for some time that the PDFs of atmospheric phenomena are decidedly non-Gaussian, though the shape of PDF has not been specified explicitly. More recently, it has been shown from observations that many atmospheric variables follow a power law distribution in t...
One of the most intriguing facets of the climate system is that it exhibits variability across all t...
This communication aims to identify and utilize persistent features of global atmospheric temperatur...
The controls on the variability of raindrop size distributions in extreme rainfall and the associate...
The size or energy of diverse structures or phenomena in geoscience appears to follow power law dist...
One of the main problems in statistical climatology is to construct a parsimonious model of natural ...
The statistics of high-frequency climate variability in observations and reanalyses are markedly non...
Statistical physics and dynamical systems theory are key tools to study high-impact geophysical even...
International audienceThe aim of this paper is to assess the scaling properties of heavy point rainf...
Extreme weather events have large consequences, dominating the impact of climate on society, but are...
We analyze the statistics of rain-event sizes, rain-event durations, and dry-spell durations in a ne...
The study of weather extremes and their impacts, such as weather-related disasters, plays an importa...
The study of weather extremes and their impacts, such as weather-related disasters, plays an importa...
AbstractClimate is often understood as the characteristics of the Earth system observed year after y...
International audienceThe scaling behavior of rainfall has been extensively studied both in terms of...
One of the most intriguing facets of the climate system is that it exhibits variability across all t...
This communication aims to identify and utilize persistent features of global atmospheric temperatur...
The controls on the variability of raindrop size distributions in extreme rainfall and the associate...
The size or energy of diverse structures or phenomena in geoscience appears to follow power law dist...
One of the main problems in statistical climatology is to construct a parsimonious model of natural ...
The statistics of high-frequency climate variability in observations and reanalyses are markedly non...
Statistical physics and dynamical systems theory are key tools to study high-impact geophysical even...
International audienceThe aim of this paper is to assess the scaling properties of heavy point rainf...
Extreme weather events have large consequences, dominating the impact of climate on society, but are...
We analyze the statistics of rain-event sizes, rain-event durations, and dry-spell durations in a ne...
The study of weather extremes and their impacts, such as weather-related disasters, plays an importa...
The study of weather extremes and their impacts, such as weather-related disasters, plays an importa...
AbstractClimate is often understood as the characteristics of the Earth system observed year after y...
International audienceThe scaling behavior of rainfall has been extensively studied both in terms of...
One of the most intriguing facets of the climate system is that it exhibits variability across all t...
This communication aims to identify and utilize persistent features of global atmospheric temperatur...
The controls on the variability of raindrop size distributions in extreme rainfall and the associate...