Using data-driven analysis of geochemical environmental information to infer the environmental impact of closed mines

Nakamura, Kengo; Kawabe, Yoshishige; Komai, Takeshi

doi:10.1016/j.heliyon.2021.e06927

Heliyon

2021

DOI: 10.1016/j.heliyon.2021.e06927

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Using data-driven analysis of geochemical environmental information to infer the environmental impact of closed mines

Kengo Nakamura

Yoshishige Kawabe

Takeshi Komai

Abstract: River sediments have the effect of aggregating geochemical environmental information, such as that related to geological and artificial pollution resulting from mine closure. This information comprises high-dimensional data and is related to the distribution and quantities of elements in river sediments. However, accessing and interpreting this geochemical information can be difficult. This study employed a data-driven analysis that can be mathematically and statistically reduced in dimension. Using high-dimen… Show more

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Cited by 2 publications

References 38 publications

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Investigating steeply inclined abandoned mines for unlocking the secrets of water level recovery

Li,

Lian,

Yang

et al. 2024

Sci Rep

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Investigating steeply inclined abandoned mines for unlocking the secrets of water level recovery

Li,

Lian,

Yang

et al. 2024

Sci Rep

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Estimating Layer Boundaries of Mixed-layer Tsunami Deposits with a XRF Core Scanner

NAKAMURA,

KUWATANI,

KOMAI

2023

Journal of Geography(Chigaku Zasshi)

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From the perspective of disaster prevention, it is necessary to clarify the distribution and his torical frequency of tsunami deposits. However, tsunami deposits are disturbed by earthquakes and tsunamis. Therefore, it is difficult to identify the layers of deposits. Layers deposited during disturbances are dated and grainsize distribution is measured. Using the results of geochemical data and principal component analyses with detailed elemental distributions, stratigraphic boundaries of past tsunami deposit layers and other layers left in the disturbed deposits are estimated. Samples collected with a geoslicer consist of a 5060 cm deep disturbed layer depos ited by the Great East Japan Earthquake and underlying sand, peat, and marine deposits. 24 elemental distributions in a core measured using Itrax indicate that the disturbed layer is dom inated by heavy metals. Changes in principal component analysis scores infer traces of a layer that could not be visually identified in the disturbed layer. Traces of this layer are consistent with traces that are deposits indicated from the isotopic analysis and the grain size distribution. Therefore, even if it is difficult to identify deposits due to disturbances caused by the tsunami, it may be possible to identify unidentified layers and estimate their thicknesses by compressing their dimensions and clarifying elemental relationships.

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Using data-driven analysis of geochemical environmental information to infer the environmental impact of closed mines

Cited by 2 publications

References 38 publications

Investigating steeply inclined abandoned mines for unlocking the secrets of water level recovery

Investigating steeply inclined abandoned mines for unlocking the secrets of water level recovery

Estimating Layer Boundaries of Mixed-layer Tsunami Deposits with a XRF Core Scanner

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