Title: Hydraulic Properties of Variously Weathered Granitic Bedrock in Headwater Catchments
Abstract: Recent studies have emphasized the importance of bedrock in hydrologic processes occurring in headwater catchments. To understand water flow processes through variously weathered bedrock, we measured the saturated hydraulic conductivity, K s , and water retention characteristics of weakly to highly weathered Tanakami granite and Rokko granite core samples. On the basis of these core‐scale properties, along with the core shape and in situ K s measurements, we defined two groups of bedrock: C M class (weakly weathered) and C L to D L class (moderately to highly weathered). The C M class bedrock cores had almost no effective porosity (i.e., the amount of porosity that effectively contributes to water flow) and therefore extremely small core‐scale K s , indicating that the matrix could be regarded as essentially impermeable. The in situ K s was much larger than the core‐scale values, however, and the core shape showed apparent fractures, suggesting that water did flow preferentially through the fractures. The volumetric water content of the C L – to D L –class bedrock water retention curves changed little in the dry range but changed gradually in the wet range, resulting in a moderate core‐scale K s of 10 −5 to 10 −3 cm s −1 The core‐scale K s values were well explained by the parameters characterizing the water retention curve. The similarity of the in situ K s to the core‐scale values, and the lack of fractures in the core shape, suggested that water flow could be characterized as matrix flow. The hydraulic properties of weathered granite at other sites followed the trends observed at our sites, implying wide applicability of the findings in this study to various types of weathered granite.
Publication Year: 2009
Publication Date: 2009-08-01
Language: en
Type: article
Indexed In: ['crossref']
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Cited By Count: 55
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