Talk:Alveolar Weathering: Difference between revisions

From Saltwiki
Jump to navigation Jump to search
No edit summary
m (Protected "Talk:Alveolar Weathering" ([edit=sysop] (indefinite) [move=sysop] (indefinite)))
 
(13 intermediate revisions by 2 users not shown)
Line 1: Line 1:
<bibimport/>
The translation is copied to the content page[[User:Hschwarz|Hschwarz]] 08:46, 24 January 2012 (CET)


Autor: [[user:HSiedel|Heiner Siedel]]
[[User:SLeithaeuser|SLeithaeuser]] 13:05, 19 January 2012 (CET)
<br><br>
zurück zu [[Naturstein|Schadensbilder Naturstein]]
<br><br>
 
 
== Salts and Alveolar Weathering ==
 
Alveolization is also known as honeycomb weathering and was first described by natural scientists of the 19th century,on natural outcrops of rocks . These bizarre, but often regularly composed shapes  consist of deeply eroded cavities (alveoli), ranging from centimeters to decimeters. The alveoli are separated by walls or ridges of stone, which have been unaffected or nearly unaffected by weathering. The phenomenon of aveolization has attracted the interest of Geo- Scientists very early on, wishing to investigate the question of its origin. In Germany the classical investigation areas have always been the Palatine Forest (Pfälzer Wald) <bib id=Haeberle:1915/> and the Elbe Sandstone Mountains (Kreidesandstein, <bib id=Beyer:1911/>). As early as 1915 Häberle <bib id=Haeberle:1915/> points to examples of honeycombe weathering on building stone.
 
[[Datei:Rauenstein7.JPG|thumb|300px|right|Figure 1: Alveolar weathering on cretaceaus sandstone ,  Rauenstein, Saxon Switzerland, Germany]]
[[Datei:Caen, St Pierre 063.jpg|thumb|300px|right|Figure 2: Alveolar weathering on the limestone of Caen, church St. Pierre in Caen, Normandie, France ]]
 
A possible cause for the development of the reliefs is chemical decomposition <bib id=Beyer:1911/>, <bib id=Haeberle:1915/>.  Otto Beyer, who names the salt minerals alum and gypsum as a cause for the weathering of sandstone in the title of his paper, attaches great importance to salt induced weathering in the results of his investigations. He sees the different effects of the more readily soluble [[alum]] and the poorly soluble, often crust forming salt [[gypsum]] as a cause for the development of cavity and honeycombe shaped structures on sandstone rocks. While Alum crystallizes in the pores of the sandstone, causes blasting pressure and destroys the fabric, gypsum blocks up the pores, “fills drip holes and fissures and covers seepage points with a crust, or bulges over them, and achieves with the hereby developed strong ribs, rinds and other cementations, the conservation of the sandstone”(<bib id=Beyer:1911/>, S. 466).
 
Soluble salts in alveoli have later been detected on many other outcrops in the world, and assumptions were made that they advance the weathering process. For instance in coastal, but also in arid areas chlorides often appear in such structures.  Alongside, other influencing factors like the the induration of the surface are still being discussed, e.g. due to local precipitation of reworked silicic acid on the surface of the rock. In nature such silica weathering processes on rock surfaces proceed over very long periods of time.
On constructions several kinds of building stones are prone to alveolar weathering. Amongst these are particularly porous sedimentary rocks (specific sandstones, limestones and tuff). In many cases visible by the naked eye, the inhomogeneity in the fabric of natural stone is effectively causing the weathering.
Hereby, the structure of the sedimentary layers, alien inclusions, bioturbations or the like, can- through weathering- cause relief development at differing speeds. The structurally influencing factors relating to the specific stone, which are responsible for the formation of alveoli, are generally displayed in the  developing weathering patterns. Causal differences in the micro structure can thereby also be determined quantitatively, in the contents of minerals with a low resistance to weathering, or in the pore size distribution. These differences generate the preconditions for a relief to develop on a previously level surface. An essential role for the progress of weathering in nearly all investigated cases, is played by salts, being usually introduced into the stone via a contaminated environment and by reactions with mortar.
 
 
Recent investigations on the appearance of alveolization, explored the kind of salts present and their exact spatial distribution in alveoli and the adjoining walls (<bib id=Siedel:2008/><bib id=Siedel:2010/>), had demonstrated the interaction of readily and poorly soluble salts in sandstones and tuffs. To begin with local erosion caused minor differences in relief due to fossil structures, or diagenetically  on sandstone in conjunction with ferrous mineral impregnated stone sections, or due to lapilli inclusions in tuff.
In the investigation salts with differing solubility[[magnesium sulfate]] and gypsum, were introduced into the depressions in the course of repeated moistening and drying events. The poorly soluble gypsum stayed mainly near the surface of the stone. While the magnesium sulfates, still in solution on slowly drying surfaces, concentrated underneath the surface of depressions, which remained humid for longer.
 
The high concentration of salts in the depressions causes crystallization on further drying and on dehumidifying it leads to the hydration of salts and to bursting of grains from the stone´s surface. This process enlarges the initially small depression. Inside larger cavities often loose accumulations of burst stone grains and salts can be found. They repeatedly reappear after removal. In this way alveoli deepen and connect with neighboring cavities, because walls or ridges are eroded.  The gypsum encrusted surface, meanwhile, remains stable due to a higher resistance to weathering. The decay pattern of advanced alveolization has been established through detailed investigation on facades. The findings are in accordance with the suggestions made by Beyer in 1911, based on his observations about the combined effect of readily and poorly soluble salts on natural outcrops.
 
Further detailed investigations on other case studies are necessary in order to fully understand the dynamic of weathering and the influencing factors of alveoli formation on building stone.
 
 
== Literature ==
 
<bibprint/>
 
 
[[Category:Alveolarverwitterung]] [[Category:HSiedel]] [[Category:R-CBlaeuer]] [[Category:Bearbeitung]]
 
[[User:SLeithaeuser|SLeithaeuser]] 15:25, 12 January 2012 (CET)

Latest revision as of 07:46, 24 January 2012

The translation is copied to the content pageHschwarz 08:46, 24 January 2012 (CET)

SLeithaeuser 13:05, 19 January 2012 (CET)

Retrieved from "https://saltwiki.net/index.php?title=Talk:Alveolar_Weathering&oldid=3113"