Heart Mountain and South Fork fault systems: Architecture and evolution of the collapse of an Eocene volcanic system, northwest Wyoming: COMMENT

Q3 Earth and Planetary Sciences

Rocky Mountain Geology Pub Date : 2011-03-01 DOI:10.2113/GSROCKY.46.1.71

M. H. Anders, J. Craddock, D. Malone, J. F. Magloughlin

{"title":"Heart Mountain and South Fork fault systems: Architecture and evolution of the collapse of an Eocene volcanic system, northwest Wyoming: COMMENT","authors":"M. H. Anders, J. Craddock, D. Malone, J. F. Magloughlin","doi":"10.2113/GSROCKY.46.1.71","DOIUrl":null,"url":null,"abstract":"We would like to begin by paying tribute to Ed Beutner who passed away in 2008. Ed made significant contributions to the continuing debate over one of the most enigmatic features on the surface of the Earth, the Heart Mountain slide block. Ed will be greatly missed and we wish that he were here to respond to our discussion of his most recent paper—we are certain his comments would have been insightful and of interest to all working on the Heart Mountain problem. In lieu of having Ed's response, we are confident that Tom Hauge will provide a vigorous defense picking up the mantle so aptly held by Ed. We have a number of concerns about the slow/fast model presented by Beutner and Hauge (2009). In our view, many of their arguments supporting slow or incremental movement of the Heart Mountain slide block are not supported by the evidence. In addition, we wish to correct certain erroneous statements and omissions about previous work.\n\nIn reference to the “phreatomagmatic-hydraulic” model of Straw and Schmidt (1981a, b), Beutner and Hauge (2009, p. 159) state that “… Aharonov and Anders (2006) provided a refined version of the last model.” The Aharonov and Anders model is not a “refined version” of the Straw and Schmidt model as presented in their 1981a and 1981b abstracts. Straw and Schmidt (1981a) wrote: “eruptive centers exerted explosive pressure on water in the regional fracture system” and that the groundwater “exceeded normal lithostatic stress and ‘lift’ the upper plate.” Aharonov and Anders (2006) proposed that the intrusion of dikes heated trapped ground water and reduced pore space via the Skempton effect (Skempton, 1954), thus causing elevated basal pore pressure, enabling sliding of the upper plate along the extremely low 2° gradient. These two models are only …","PeriodicalId":34958,"journal":{"name":"Rocky Mountain Geology","volume":"46 1","pages":"71-75"},"PeriodicalIF":0.0000,"publicationDate":"2011-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.2113/GSROCKY.46.1.71","citationCount":"5","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Rocky Mountain Geology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2113/GSROCKY.46.1.71","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"Earth and Planetary Sciences","Score":null,"Total":0}

引用次数: 5

Abstract

We would like to begin by paying tribute to Ed Beutner who passed away in 2008. Ed made significant contributions to the continuing debate over one of the most enigmatic features on the surface of the Earth, the Heart Mountain slide block. Ed will be greatly missed and we wish that he were here to respond to our discussion of his most recent paper—we are certain his comments would have been insightful and of interest to all working on the Heart Mountain problem. In lieu of having Ed's response, we are confident that Tom Hauge will provide a vigorous defense picking up the mantle so aptly held by Ed. We have a number of concerns about the slow/fast model presented by Beutner and Hauge (2009). In our view, many of their arguments supporting slow or incremental movement of the Heart Mountain slide block are not supported by the evidence. In addition, we wish to correct certain erroneous statements and omissions about previous work. In reference to the “phreatomagmatic-hydraulic” model of Straw and Schmidt (1981a, b), Beutner and Hauge (2009, p. 159) state that “… Aharonov and Anders (2006) provided a refined version of the last model.” The Aharonov and Anders model is not a “refined version” of the Straw and Schmidt model as presented in their 1981a and 1981b abstracts. Straw and Schmidt (1981a) wrote: “eruptive centers exerted explosive pressure on water in the regional fracture system” and that the groundwater “exceeded normal lithostatic stress and ‘lift’ the upper plate.” Aharonov and Anders (2006) proposed that the intrusion of dikes heated trapped ground water and reduced pore space via the Skempton effect (Skempton, 1954), thus causing elevated basal pore pressure, enabling sliding of the upper plate along the extremely low 2° gradient. These two models are only …

查看原文本刊更多论文

心脏山和南叉断层系统:怀俄明州西北部始新世火山系统崩塌的结构和演化:评论

首先，我们要向2008年去世的埃德·博特纳(Ed Beutner)致敬。埃德对地球表面最神秘的特征之一——心脏山滑坡块——的持续争论做出了重大贡献。我们将非常想念Ed，我们希望他能在这里回应我们对他最近论文的讨论。我们确信他的评论将是有见地的，并且会引起所有研究心脏山问题的人的兴趣。代替Ed的回应，我们有信心Tom Hauge将提供有力的辩护，拿起Ed所恰当地持有的地幔。我们对Beutner和Hauge(2009)提出的慢/快模型有很多担忧。在我们看来，他们许多支持心脏山滑块缓慢或增量运动的论点都没有证据支持。此外，我们希望纠正一些关于以前工作的错误陈述和遗漏。Beutner和Hauge (2009, p. 159)在提到Straw和Schmidt (1981a, b)的“呼吸-水力”模型时指出，“……Aharonov和Anders(2006)提供了最后一个模型的改进版本。”Aharonov和Anders模型并不是Straw和Schmidt模型在他们1981a和1981b摘要中提出的“精炼版”。Straw和Schmidt (1981a)写道:“喷发中心对区域断裂系统中的水施加了爆炸性压力”，地下水“超过了正常的静岩应力，‘抬升’了上部板块”。Aharonov和Anders(2006)提出，岩堤的侵入通过Skempton效应加热了被困地下水，缩小了孔隙空间(Skempton, 1954)，从而导致基底孔隙压力升高，使上部板块沿极低的2°梯度滑动。这两种型号只有……

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Rocky Mountain Geology Earth and Planetary Sciences-Geology

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Rocky Mountain Geology (formerly Contributions to Geology) is published twice yearly by the Department of Geology and Geophysics at the University of Wyoming. The focus of the journal is regional geology and paleontology of the Rocky Mountains and adjacent areas of western North America. This high-impact, scholarly journal, is an important resource for professional earth scientists. The high-quality, refereed articles report original research by top specialists in all aspects of geology and paleontology in the greater Rocky Mountain region.