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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Africa
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North Africa
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Egypt
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Cairo Egypt (1)
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Europe
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Southern Europe
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Iberian Peninsula
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Spain
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Castilla y Leon Spain
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Segovia Spain (1)
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Madrid Basin (1)
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Madrid Spain (2)
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Sierra de Guadarrama (2)
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commodities
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construction materials
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building stone (3)
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dolostone deposits (1)
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limestone deposits (1)
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marble deposits (1)
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ornamental materials (1)
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sandstone deposits (1)
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slate deposits (1)
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metamorphic rocks
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metamorphic rocks
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gneisses (1)
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Primary terms
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Africa
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North Africa
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Egypt
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Cairo Egypt (1)
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conservation (2)
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construction materials
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building stone (3)
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dolostone deposits (1)
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engineering geology (1)
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Europe
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Southern Europe
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Iberian Peninsula
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Spain
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Castilla y Leon Spain
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Segovia Spain (1)
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Madrid Basin (1)
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Madrid Spain (2)
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Sierra de Guadarrama (2)
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limestone deposits (1)
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marble deposits (1)
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metamorphic rocks
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gneisses (1)
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petrology (1)
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rock mechanics (1)
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sandstone deposits (1)
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sedimentary rocks
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carbonate rocks
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limestone (1)
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chemically precipitated rocks
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evaporites
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salt (1)
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slate deposits (1)
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weathering (2)
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sedimentary rocks
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sedimentary rocks
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carbonate rocks
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limestone (1)
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chemically precipitated rocks
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evaporites
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salt (1)
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Sierra de Guadarrama (Madrid, Spain): bridging the gap between geology and architecture
Abstract The knowledge that societies have of their geological environment and of the materials used in their heritage is of great importance for the sustainable use and conservation of traditional natural stone architecture. Similar weathering mechanisms occur in natural environments and the built environment and, in both cases, weathering may endanger both natural and built heritage. The Sierra de Guadarrama (Spanish Central System) is a privileged area in which natural and built heritage coexist. This paper describes an area of particular monumental and geological interest on the northern slopes of the Sierra de Guadarrama; its main aim is to propose an itinerary for members of the public, presented as a route through the area around Segovia, in which architecture/cultural heritage and an Earth sciences approach are brought together with an educational purpose. To this end, some connections are established between weathering forms in natural and built environments, as well as between the lithological characteristics of the rocks used in construction of ancient monuments in the area and the distribution of stresses and loads of walls.
New experimental method to study the combined effect of temperature and salt weathering
Abstract This study presents a new experimental chamber, which builds upon previous methods of testing salt weathering. This method is based on capillary rising in samples, as this corresponds to the actual imbibition process in building stone. This set-up allows control in setting both a specific thermal regime and cycling temperatures. Some of the significant additions of this experimental set-up are: continuous flow of the saline solution, as the samples will be fed with a constant concentration throughout the experiments; and continuous monitoring of environmental temperature, relative humidity and sample weights. Recorded results in this research belong to limestone samples from Mokattam, Cairo. Results are also considered as a proof to the practical advantages of the experimental chamber in salt-weathering studies and its environmental controls.
Evolution in the use of natural building stone in Madrid, Spain
Abstract Stone decay is the result of the interaction of stone with its environment. It is therefore important to understand why certain materials, sometimes not the most suitable, were used to shape the built heritage of specific areas. The historical evolution of these areas conditioned many of the combinations of materials we see today, which in some cases can interact to accelerate decay. These combinations were driven by availability during construction, architectural fashion or the simultaneous utilization of materials that are aesthetically similar but differ significantly in their physical and chemical properties. A microcosm of the complex decisions that determine stone selection and subsequent interactions is provided by the City of Oxford, which is an excellent example of how such historic evolution can work with material characteristics to accelerate decay.
Abstract An argument is presented that, despite popular assumptions, many limestones, especially the wide range of clastic and, in general, granular limestones, do not decay in a steady and predictable pattern in response to slow dissolution. Instead these stones, especially when used in construction in polluted environments, invariably decay episodically through physical breakdown. Most commonly this is accomplished through a variety of salt weathering mechanisms that, if unconstrained, can lead to the rapid, catastrophic decay of building blocks and their complete loss – a process that has driven the extensive programmes of stone replacement that are typical of buildings constructed of these stones. In polluted environments, especially those rich in sulphur and particulates, the most common constraint on accelerated decay has been the rapid development of gypsum crusts that, for example, could rapidly ‘heal’ the scars left by contour scaling. It is ironic, therefore, that any reduction in pollution could conceivably lead to increased erosion by retarding this healing process. Because of this temporal variability of decay and its translation into spatial complexity, it is important that further research is undertaken to understand controls on the decay of these important building stones so that future conservation strategies can be appropriately informed.