This article reports fractal dimension analysis applied to soil CO(2)fluxes measured in an Italian seismic area. The work was carried out with the use of a calibrated flux chamber unit. The fractal dimension (FD) from isotropic variograms was used as a method to understand related scale-dependent phenomena. The aim was to investigate the spatial variability of CO(2)flux measurements in four directions (horizontal, vertical, 45 degrees and 135 degrees directions) related to different distances between the measuring points and from a fault. High fractal dimension values were found (2.5 <= FD <= 3.0). These imply strong anti-persistent behavior near to and far from the fault. Lower fractal dimensions were addressed at longer distances from the fault.
Fractal dimension analysis applied to soil Co2 fluxes in campotosto’s seismic area, central Italy
D'incecco S.;Di Carlo P.Secondo
;Aruffo E.;
2020-01-01
Abstract
This article reports fractal dimension analysis applied to soil CO(2)fluxes measured in an Italian seismic area. The work was carried out with the use of a calibrated flux chamber unit. The fractal dimension (FD) from isotropic variograms was used as a method to understand related scale-dependent phenomena. The aim was to investigate the spatial variability of CO(2)flux measurements in four directions (horizontal, vertical, 45 degrees and 135 degrees directions) related to different distances between the measuring points and from a fault. High fractal dimension values were found (2.5 <= FD <= 3.0). These imply strong anti-persistent behavior near to and far from the fault. Lower fractal dimensions were addressed at longer distances from the fault.| File | Dimensione | Formato | |
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