A Global-Scale Investigation of Stochastic Similarities in Marginal Distribution and Dependence Structure of Key Hydrological-Cycle Processes

Dimitriadis, Panayiotis; Koutsoyiannis, Demetris; Iliopoulou, Theano; Papanicolaou, Panos

doi:10.3390/hydrology8020059

Cited by 92 publications

(79 citation statements)

References 167 publications

(171 reference statements)

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“…This is because analysis of these predictive uncertainty helps in capturing the overall range of expected uncertainty propagated through the modelling (Badou et al 2018). Furthermore, it is important to understand the long-term persistence behaviour of hydrometeorological series, otherwise known as the Hurst-Kolmogrov Dynamics (HKD) (Dimitriadis et al 2021). The importance of this behaviour in the hydrometeorological process is that it increases the statistical bias from all the estimation metrics from time series that are being affected by the autocorrelation structure such as marginal moments (mean, variance etc.)…”

Section: Discussionmentioning

confidence: 99%

Local climate change projections and impact on the surface hydrology in the Vea catchment, West Africa

Larbi

Hountondji

Dotse³

et al. 2021

Hydrology Research

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Water security has been a major challenge in the semi-arid area of West Africa including Northern Ghana, where climate change is projected to increase if appropriate measures are not taken. This study assessed rainfall and temperature projections and its impact on the water resources in the Vea catchment using an ensemble mean of four bias-corrected Regional Climate Models and Statistical Downscaling Model-Decision Centric (SDSM-DC) simulations. The ensemble mean of the bias-corrected climate simulations was used as input to an already calibrated and validated Soil and Water Assessment Tool (SWAT) model, to assess the impact of climate change on actual evapotranspiration (ET), surface runoff and water yield, relative to the baseline (1990–2017) period. The results showed that the mean annual temperature and actual ET would increase by 1.3 °C and 8.3%, respectively, for the period 2020–2049 under the medium CO2 emission (RCP4.5) scenario, indicating a trend towards a dryer climate. The surface runoff and water yield are projected to decrease by 42.7 and 38.7%, respectively. The projected decrease in water yield requires better planning and management of the water resources in the catchment.

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Section: Discussionmentioning

confidence: 99%

Local climate change projections and impact on the surface hydrology in the Vea catchment, West Africa

Larbi

Hountondji

Dotse³

et al. 2021

Hydrology Research

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“…Based on this, Koutsoyiannis [4] coined the term Hurst-Kolmogorov (HK) dynamics (Figure 2), so as to give credit to both contributing scientists and to expand it from the narrower Gaussian LTP processes (e.g., fractional Gaussian noise [5]). The HK dynamics also incorporate short-range dependence (e.g., fractal-type behavior [6]) and intermediate-scale behavior often observed in global-scale hydrological-cycle and turbulent processes [7].…”

Section: Hk Clusteringmentioning

confidence: 99%

Spatial Hurst–Kolmogorov Clustering

et al. 2021

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The stochastic analysis in the scale domain (instead of the traditional lag or frequency domains) is introduced as a robust means to identify, model and simulate the Hurst–Kolmogorov (HK) dynamics, ranging from small (fractal) to large scales exhibiting the clustering behavior (else known as the Hurst phenomenon or long-range dependence). The HK clustering is an attribute of a multidimensional (1D, 2D, etc.) spatio-temporal stationary stochastic process with an arbitrary marginal distribution function, and a fractal behavior on small spatio-temporal scales of the dependence structure and a power-type on large scales, yielding a high probability of low- or high-magnitude events to group together in space and time. This behavior is preferably analyzed through the second-order statistics, and in the scale domain, by the stochastic metric of the climacogram, i.e., the variance of the averaged spatio-temporal process vs. spatio-temporal scale.

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“…Despite their popularity, these models have several problems, such as their lack of parsimony (except for the simplest of them, e.g., the ARMA(1,1), summarized in the Appendix A), as well as the inability to model long-range dependence (LRD) and to simulate non-Gaussian processes. On the other hand, both of these features are profoundly present in most geophysical processes [9]. An extension of these models, applicable to processes with LRD, was proposed by Hosking [10] under the acronym ARFIMA (with the letter 'F' standing for fractional differencing and the letter 'I' for integrated).…”

Section: Introductionmentioning

confidence: 99%

“…Non-central moments of common distributions with upper-tail index ξ (moments and cumulants exist for p < 1/ξ). Here, the cumulants do not have simple explicit expressions but can be readily calculated from Equation(9).…”

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confidence: 99%

Towards Generic Simulation for Demanding Stochastic Processes

Koutsoyiannis

Dimitriadis

2021

Sci

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We outline and test a new methodology for genuine simulation of stochastic processes with any dependence structure and any marginal distribution. We reproduce time dependence with a generalized, time symmetric or asymmetric, moving-average scheme. This implements linear filtering of non-Gaussian white noise, with the weights of the filter determined by analytical equations, in terms of the autocovariance of the process. We approximate the marginal distribution of the process, irrespective of its type, using a number of its cumulants, which in turn determine the cumulants of white noise, in a manner that can readily support the generation of random numbers from that approximation, so that it be applicable for stochastic simulation. The simulation method is genuine as it uses the process of interest directly, without any transformation (e.g., normalization). We illustrate the method in a number of synthetic and real-world applications, with either persistence or antipersistence, and with non-Gaussian marginal distributions that are bounded, thus making the problem more demanding. These include distributions bounded from both sides, such as uniform, and bounded from below, such as exponential and Pareto, possibly having a discontinuity at the origin (intermittence). All examples studied show the satisfactory performance of the method.

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A Global-Scale Investigation of Stochastic Similarities in Marginal Distribution and Dependence Structure of Key Hydrological-Cycle Processes

Cited by 92 publications

References 167 publications

Local climate change projections and impact on the surface hydrology in the Vea catchment, West Africa

Local climate change projections and impact on the surface hydrology in the Vea catchment, West Africa

Spatial Hurst–Kolmogorov Clustering

Towards Generic Simulation for Demanding Stochastic Processes

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