Weathering of Fruchtschiefer building stones: mineral dissolution or rock disaggregation?

Weathering of Fruchtschiefer building stones: mineral dissolution or rock disaggregation?

Building stones manufactured from contact metamorphic slates ( Fruchtschiefer slate) from Theuma (Sachsen, Germany) were investigated for mineralogical alterations as well as for changes in porosity and surface roughness due to weathering. After weathering periods of several years to decades, the or...

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Veröffentlicht in:Environmental earth sciences 2011-08, Vol.63 (7-8), p.1665-1676
Hauptverfasser: Fischer, Cornelius, Kaufhold, Stephan, Wedekind, Wanja, Dohrmann, Reiner, Karius, Volker, Siegesmund, Siegfried
Format: Artikel
Sprache:eng
Schlagworte:
Biogeosciences
Earth and Environmental Science
Earth Sciences
Environmental conditions
Environmental impact
Environmental Science and Engineering
Geochemistry
Geology
Hydrology/Water Resources
Metamorphic rocks
Mineralogy
Minerals
Organic carbon
Organic matter
Pore size
Porosity
Rocks
Special Issue
Stone
Surface roughness
Terrestrial Pollution
Weathering
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container_end_page 1676
container_issue 7-8
container_start_page 1665
container_title Environmental earth sciences
container_volume 63
creator Fischer, Cornelius
Kaufhold, Stephan
Wedekind, Wanja
Dohrmann, Reiner
Karius, Volker
Siegesmund, Siegfried
description Building stones manufactured from contact metamorphic slates ( Fruchtschiefer slate) from Theuma (Sachsen, Germany) were investigated for mineralogical alterations as well as for changes in porosity and surface roughness due to weathering. After weathering periods of several years to decades, the originally dark gray-colored slates show pale spots of several centimeters in size at the surface of building stones. The dark-colored and light-colored sections of the slate show no differences in mineralogy. Surface weathering did not result in newly precipitated minerals. It was also found that the observed differences in color are not caused by variations in sedimentary organic carbon concentration or in sulfide/sulfate concentrations. Obtained results instead indicate that dark surface sections may show a thin cover of recent organic matter (OM), e.g., living OM, soot, dirt, etc. Microscopic investigations suggested that this cover was exfoliated at light-colored surface sections. The observed disaggregation of the upper 2 mm of the building block material results in an increase in porosity. Porosity of black (unweathered) slate is 1 μm show a significant increase in frequency compared to the original pore size distribution. Porosity of weathered rock volumes increased to approx. 8 vol.%. Discolored surface sections show a higher surface roughness (root-mean-square roughness, Rq  ~ 1 μm) compared to dark-colored slate surfaces ( Rq  ~ 200 nm), both data are for cleavage planes. Preferentially, the discolored surface sections are located close to the edges of cut stones. This and the alteration in porosity, pore size, and surface roughness indicate that color changes of the slate are largely influenced by rock disaggregation proceeding from the edges into the center rather than by mineral dissolution/precipitation processes.
doi_str_mv 10.1007/s12665-011-0986-z
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subjects Biogeosciences
Earth and Environmental Science
Earth Sciences
Environmental conditions
Environmental impact
Environmental Science and Engineering
Geochemistry
Geology
Hydrology/Water Resources
Metamorphic rocks
Mineralogy
Minerals
Organic carbon
Organic matter
Pore size
Porosity
Rocks
Special Issue
Stone
Surface roughness
Terrestrial Pollution
Weathering
title Weathering of Fruchtschiefer building stones: mineral dissolution or rock disaggregation?
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