Multifractal analysis of the perimeters of glaciers in the Svalbard Archipelago

The investigation of the evolution of glaciers largely relies on the characterisation of extensive quantities like their mass, area, and perimeter. In this work we use fractal and multifractal analysis to investigate the non-extensive structural properties of the perimeters of glaciers in the Svalba...

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Bibliographic Details
Published in:Journal of Physics: Complexity
Main Authors: Marina Carpineti, Valerio Lupo Sepe, Antonella Senese, Giacomo Traversa, Guglielmina A Diolaiuti, Alberto Vailati
Format: Article in Journal/Newspaper
Language:English
Published: IOP Publishing 2024
Subjects:
Svalbard Archipelago
glaciers
multifractals
non-extensive properties
Science
Q
Physics
QC1-999
glacier
Svalbard
Online Access:https://doi.org/10.1088/2632-072X/ad5263
https://doaj.org/article/1289c2d0e90c4e6c941447483ba59aea
Description
Summary:The investigation of the evolution of glaciers largely relies on the characterisation of extensive quantities like their mass, area, and perimeter. In this work we use fractal and multifractal analysis to investigate the non-extensive structural properties of the perimeters of glaciers in the Svalbard Archipelago. We show that the perimeters of the glaciers exhibit a fractal structure with a fractal dimension $D_\textrm{f} \simeq 1.25$ , independently from the area of the glaciers. The investigation of the multifractal properties of the perimeters shows that small glaciers exhibit a more pronounced multifractal structure, as witnessed by the larger range of generalized dimensions D _q needed to characterise them. The range Δ D _q of generalised dimensions required to characterise the multifractal perimeter of a glacier exhibits a power-law dependence with exponent −1.2 from the area, and represents a non-extensive parameter able to grab effectively the dependence of the multifractal structure of the perimeters on the size of glaciers. The comparison with similar results obtained in a previous study performed on glaciers in the Lombardy region of the Italian Alps confirms the robustness of the analysis performed, which does not appear to be affected by the morphology of the substrate or by climate conditions.

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