首页> 外文OA文献 >Evidence of Erosional Self-Channelization of Pyroclastic Density Currents Revealed by Ground-Penetrating Radar Imaging at Mount St. Helens, Washington (USA)

【2h】

Evidence of Erosional Self-Channelization of Pyroclastic Density Currents Revealed by Ground-Penetrating Radar Imaging at Mount St. Helens, Washington (USA)

机译：美国华盛顿州圣海伦斯山的探地雷达成像揭示了火山碎屑密度流侵蚀性自沟道化的证据。

代理获取

本网站仅为用户提供外文OA文献查询和代理获取服务，本网站没有原文。下单后我们将采用程序或人工为您竭诚获取高质量的原文，但由于OA文献来源多样且变更频繁，仍可能出现获取不到、文献不完整或与标题不符等情况，如果获取不到我们将提供退款服务。请知悉。

页面导航

摘要
著录项
相似文献
相关主题

摘要

The causes and effects of erosion are among the least understood aspects of pyroclastic density current (PDC) dynamics. Evidence is especially limited for erosional self-channelization, a process whereby PDCs erode a channel that confines the body of the eroding flow or subsequent flows. We use ground-penetrating radar imaging to trace a large PDC scour and fill from outcrop to its point of inception and discover a second, larger PDC scour and fill. The scours are among the largest PDC erosional features on record, at \u3e200 m wide and at least 500 m long; estimated eroded volumes are on the order of 106 m3. The scours are morphologically similar to incipient channels carved by turbidity currents. Erosion may be promoted by a moderate slope (5–15°), substrate pore pressure retention, and pulses of increased flow energy. These findings are the first direct evidence of erosional self-channelization by PDCs, a phenomenon that may increase flow velocity and runout distance through confinement and substrate erosion.

机译：侵蚀的原因和影响是火山碎屑密度电流（PDC）动力学最鲜为人知的方面。对于侵蚀性自沟道化的证据尤其有限，在该过程中，PDC侵蚀了一个通道，该通道限制了侵蚀流或后续流的主体。我们使用探地雷达成像来追踪大的PDC冲刷和充注，从露头到起始点，然后发现第二个更大的PDC冲刷和充注。冲刷是有史以来最大的PDC冲刷特征之一，冲刷宽度为200 m，长度至少为500 m。估计侵蚀量约为106立方米。这些冲刷在形态上与浊流雕刻的初期通道相似。适当的倾斜度（5–15°），基质孔隙压力保持率和流动能量增加的脉冲可能会促进侵蚀。这些发现是PDC腐蚀自我通道化的第一个直接证据，该现象可能通过限制和基底腐蚀而增加流速和跳动距离。

著录项

作者
Gase, Andrew C.; Brand, Brittany D.; Bradford, John H.;
展开▼
作者单位

展开▼
年度 2017
总页数
原文格式 PDF
正文语种
中图分类

相似文献

外文文献
中文文献

1. Dynamics of pyrodastic density currents: Conditions that promote substrate erosion and self-channelization - Mount St Helens,Washington (USA) [J] . Brittany D. Brand, Chelsea Mackaman-Lofland, Nicholas M. Pollock, Journal of Volcanology and Geothermal Research . 2014,第apra15期

机译：火山岩密度电流的动力学：促进基质腐蚀和自沟道化的条件-美国华盛顿州圣海伦斯山
2. Topographic controls on pyroclastic density current dynamics: Insight from 18 May 1980 deposits at Mount St. Helens, Washington (USA) [J] . Brand Brittany D., Bendana Sylvana, Self Stephen, Journal of Volcanology and Geothermal Research . 2016,第jula15期

机译：火山碎屑密度流动力学的地形控制：1980年5月18日美国华盛顿圣海伦斯山矿床的见解
3. Inferring the nature of pyroclastic density currents from tree damage: The 18 May 1980 blast surge of Mount St. Helens, USA [J] . Gardner James E., Nazworth Caroline, Helper Mark A., Geology . 2018,第9期

机译：推断从树损伤中推断出杀虫密度电流的性质：1980年5月18日美国圣海伦山的爆炸激增
4. Clay mineralogy and construction problems in volcanic soils near Mount St. Helens: Sediment Retention Structure, southwestern Washington, USA [C] . Michael L. Cummings International clay conference . 2003

机译：粘土矿物学与圣海伦山泥土土壤中的施工问题：沉积物保留结构，美国西南华盛顿州，美国
5. Field evidence for substrate entrainment by pyroclastic density currents and its effect on downstream dynamics at Mount St Helens, Washington (USA). [D] . Pollock, Nicholas M. 2013

机译：美国华盛顿州圣海伦斯山的火山碎屑密度流夹带基质的现场证据及其对下游动力学的影响。
6. First in-situ observation of a moving natural pyroclastic density current using Doppler radar [O] . Lea Scharff, Matthias Hort, Nick R. Varley -1

机译：利用多普勒雷达对原天然自然火山碎屑流的首次实地观测
7. Dynamics of Pyroclastic Density Currents: Conditions That Promote Substrate Erosion and Self-Channelization - Mount St Helens, Washington (USA) [O] . Brand Brittany D., Mackaman-Lofland Chelsea, Pollock Nicholas M., 2014

机译：火山碎屑密度流的动力学：促进基质侵蚀和自沟道化的条件-美国华盛顿州圣海伦斯山
8. Geologic, Geomorphic, and Hydrologic Context Underlying Options for Long-Term Management of the Spirit Lake Outlet Near Mount St. Helens, Washington. [R] . Grant, G. E., Major, J. J., Lewis, S. L. 2017

机译：地质，地貌和水文背景长期管理华盛顿圣海伦火山附近的精神湖出口的基础选择。

Evidence of Erosional Self-Channelization of Pyroclastic Density Currents Revealed by Ground-Penetrating Radar Imaging at Mount St. Helens, Washington (USA)

摘要

著录项

相似文献

相关主题

期刊订阅