Peter Andráš scite author profile

Use policyThe full-text may be used and/or reproduced, and given to third parties in any format or medium, without prior permission or charge, for personal research or study, educational, or not-for-prot purposes provided that:• a full bibliographic reference is made to the original source • a link is made to the metadata record in DRO • the full-text is not changed in any way The full-text must not be sold in any format or medium without the formal permission of the copyright holders.Please consult the full DRO policy for further details.  The study used well data from Cretaceous formations at Haltenbanken. Overpressure is due to disequilibrium compaction and clay diagenesis. Mechanical compaction continues up to temperatures of at least 130 C. The hypothesis that mudstones only compact chemically above 100 C is falsified.

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Raman spectra of oriented and non-oriented Cu hydroxy-phosphate minerals: Libethenite, cornetite, pseudomalachite, reichenbachite and ludjibaite

Kharbish

Andráš

Luptáková

et al. 2014

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Investigations of the Fe sulfosalts berthierite, garavellite, arsenopyrite and gudmundite by Raman spectroscopy

Kharbish

Andráš

2014

Mineral. mag.

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Arsenopyrite (FeAsS), gudmundite (FeSbS) and the rarer Fe sulfosalts berthierite (FeSb2S4) and garavellite (FeSbBiS4), were investigated by Raman spectroscopy. Whereas (Sb,Bi)S3 pyramids are responsible for the Raman spectra of berthierite and garavellite, the spectra of gudmundite and arsenopyrite arise from the stretching and bending modes of (Sb,As)S units. Internal vibrations for berthierite and garavellite occur between 400 and 50 cm–1, and those of the gudmundite and arsenopyrite between 500 and 100 cm–1. The longer bond distances of the SbS3 groups readily explain the lower frequencies for berthierite in comparison with garavellite. Similarly, the greater mass and the longer bond distances of the Sb–S units also explain the lower frequencies observed for gudmundite relative to arsenopyrite.

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Structural analysis and basement topography of Gabal Shilman area, South Eastern Desert of Egypt, using aeromagnetic data

Eldosouky

Elkhateeb

Mahdy

et al. 2022

Journal of King Saud University - Science

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Antimony quartz and antimony–gold quartz veins from northern Portugal

Neiva

Andráš

Ramos³

2008

Ore Geology Reviews

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Ecosystems in Slovakia

et al. 2019

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The authors have prepared a detailed map of Slovakia's ecosystems, which identifies individual ecosystems and their spatial distribution, status, and selected properties. The impetus for the production of this map is the need of various stakeholders, especially nature protection bodies, forestry management, agricultural management and public administration, for better data on the distribution of ecosystems. The methodology mostly involves using GIS analytical tools to combine datasets on nature protection, forestry, and agriculture which list attributes related to habitat identification. The results can be used for ecosystem services assessment, spatial planning, nature protection analysis, and other related purposes. The spatial precision of the data is determined by that of the field data, which was mostly created at scales between 1:10000 and 1:5000. The data are stored in the form of a geodatabase containing more than 1,000,000 polygons.

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Arabidopsis arenosa (L.) Law. On Metalliferous and Non-metalliferous Sites in Central Slovakia

Turisová

Štrba

Aschenbrenner

et al. 2013

Bull Environ Contam Toxicol

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This study compared morphological characteristics and seed germinative capabilities of the metallophyte Arabidopsis arenosa grown at a copper mining heap with individuals of the same species grown at a reference site. We observed the height of the plant, the width of rosette leaves at ground level, the width and length of the lowest stem leaf, the number of seeds per silique, the below-ground biomass weight and the above-ground biomass weight. We found that the pH and the Eh of soil taken from the root sphere of A. arenosa were similar on both sites, and the pH ranged from 5.87 on the heap to 7.03 on the reference site. The measured morphological attributes and the number of seeds produced were significantly reduced (p < 0.01) in plants from the metalliferous site. The biggest difference was in leaf length, where plants from the heap were almost 2.5-times smaller. The mean germinative capacity of seeds ranged from 87% to 93%, and was not different between sites. The length of roots of germinated seeds from the heap (9.14 mm) was significantly longer than those from the reference site (8.27 mm). Results support the hypothesis of the influence of site conditions and heavy metals on the habitus of the plant and its development.

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Structural key features of bismuth and Sb-As sulfosalts from hydrothermal deposits—micro-Raman spectrometry

Buzatu

Damian

Buzgar

et al. 2017

Vibrational Spectroscopy

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Peter Andráš

Compaction of diagenetically altered mudstones – Part 1: Mechanical and chemical contributions

Raman spectra of oriented and non-oriented Cu hydroxy-phosphate minerals: Libethenite, cornetite, pseudomalachite, reichenbachite and ludjibaite

Investigations of the Fe sulfosalts berthierite, garavellite, arsenopyrite and gudmundite by Raman spectroscopy

Structural analysis and basement topography of Gabal Shilman area, South Eastern Desert of Egypt, using aeromagnetic data

Antimony quartz and antimony–gold quartz veins from northern Portugal

Ecosystems in Slovakia

Arabidopsis arenosa (L.) Law. On Metalliferous and Non-metalliferous Sites in Central Slovakia

Structural key features of bismuth and Sb-As sulfosalts from hydrothermal deposits—micro-Raman spectrometry

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