Please use this identifier to cite or link to this item:
|Scopus||Web of Science®||Altmetric|
|Title:||Rapid in situ conversion of late-stage volcanic materials to halloysite implicated in catastrophic dam failure, Hawaii|
|Citation:||Clay Minerals: journal of the European Clay Groups, 2016; 51(3):499-515|
|Publisher:||Cambridge University Press|
|Philip Shaller, David Sykora, Macan Doroudian and G. Jock Churchman|
|Abstract:||Ka Loko Dam, in Kauai, Hawaii, failed suddenly and catastrophically on March 14, 2006. The resulting breachwas marked by three topographic benches, the lowest of which exposed native volcanic deposits once resident in the dam foundation. These deposits were found to contain outcrops of a waxy, gel-like material that appeared to result from in situ weathering processes. This unusual material was found to be highly enriched in halloysite. Gravel-size pieces in the hydraulic fill of the embankment derived from these materials also exhibited significant in situ weathering and significant halloysite content. Engineers and geologists generally recognize that bedrock materials weather progressively into soil constituents over ‘geological time’, and that this process is accelerated in tropical environments. Still, the strength, stiffness and durability of bedrock, earth and embankment materials are not expected to vary significantly over the geologically short life of a dam. In the case of Ka Loko Dam, however, the volcaniclastic sediments that comprise the local bedrock experienced substantial in situ weathering over its geologically brief 115-year operational lifetime. Prolonged exposure to seepage of anoxic water weathered the sediments completely to saprolite, including weak, sensitive, fine, spherical halloysite.|
|Keywords:||Halloysite; iron; reduction; weathering; saprolite; anoxic; late-stage volcanic; hydraulic fill; dam; Hawaii|
|Rights:||© The Mineralogical Society of Great Britain and Ireland 2016|
|Appears in Collections:||Agriculture, Food and Wine publications|
Aurora harvest 3
Files in This Item:
There are no files associated with this item.
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.