Using ground penetrating radar, scanning electron microscopy and thermal infrared imagery to document near-surface hydrological changes in the old faithful Geyser area, Yellowstone National Park, USA

Lynne Bridget Y.; Heasler Henry; Jaworowski Cheryl; Foley Duncan; Smith Isaac J.; Smith Gary J.; Sandarani Dyah

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Using ground penetrating radar, scanning electron microscopy and thermal infrared imagery to document near-surface hydrological changes in the old faithful Geyser area, Yellowstone National Park, USA

机译：使用探地雷达，扫描电子显微镜和热红外图像记录美国黄石国家公园老忠实间歇泉地区近地表水文变化

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Ground penetrating radar (GPR), thermal infrared imagery (TIR), scanning electron microscopy (SEM), and X-ray diffraction (XRD) provide an understanding of shallow subsurface altered zones in the Old Faithful Geyser area. The GPR and TIR are temporal snapshots of the hydrothermal system; GPR reflections suggest extensive subsurface zones of hydrothermal alteration. SEM-XRD document changes in hydrologic conditions. SEM-XRD analyses of sinters demonstrate a multi-stage formation history, pH-temperature hydrodynamic changes, and dissolution by acidic steam condensate. TIR images show surface thermal trends that are consistent with mapped fractures and/or faults and with the GPR, SEM and XRD results. (C) 2017 Elsevier Ltd. All rights reserved.

机译：探地雷达（GPR），热红外图像（TIR），扫描电子显微镜（SEM）和X射线衍射（XRD）提供了对旧忠实间歇泉地区浅层地下蚀变带的了解。 GPR和TIR是热液系统的时间快照。 GPR反射表明存在广泛的地下热液蚀变带。 SEM-XRD记录了水文条件的变化。烧结矿的SEM-XRD分析显示了多阶段的形成历史，pH温度流体力学变化以及酸性蒸汽冷凝物的溶解。 TIR图像显示的表面热趋势与映射的裂缝和/或断层以及GPR，SEM和XRD结果一致。（C）2017 Elsevier Ltd.保留所有权利。

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来源
《Geothermics》 |2017年第7期|33-53|共21页
作者
Lynne Bridget Y.; Heasler Henry; Jaworowski Cheryl; Foley Duncan; Smith Isaac J.; Smith Gary J.; Sandarani Dyah;
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作者单位

Geothermal Sci Invest Ltd, 11 Kyle Rd, Auckland 0632, New Zealand|Univ Auckland, Dept Engn Sci, 70 Symonds St, Auckland 1142, New Zealand;

Yellowstone Natl Pk, WY 82190,Box 1238, Powell, WY 82435 USA;

Yellowstone Natl Pk, WY 82190,Box 1238, Powell, WY 82435 USA;

Pacific Lutheran Univ, Dept Geosci, Tacoma, WA 98466 USA;

Geothermal Sci Invest Ltd, 11 Kyle Rd, Auckland 0632, New Zealand;

Geothermal Sci Invest Ltd, 11 Kyle Rd, Auckland 0632, New Zealand;

Univ Auckland, Dept Engn Sci, 70 Symonds St, Auckland 1142, New Zealand;

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原文格式 PDF
正文语种 eng
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关键词
Old faithful geyser; Siliceous sinter; Ground penetrating radar; Scanning electron microscopy; Thermal infrared imagery; Shallow hydrology; Hydrothermal alteration;

机译：忠实的间歇泉;硅质烧结矿;探地雷达;扫描电镜;热红外图像;浅水文;水热蚀变;

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外文文献

1. Ground penetrating radar documents short-term near-surface hydrological changes around Old Faithful Geyser, Yellowstone National Park, USA [J] . Lynne Bridget Y., Heasler Henry, Jaworowski Cheryl, Journal of Volcanology and Geothermal Research . 2018,第APRa1期

机译：探地雷达记录了美国黄石国家公园老忠实间歇泉附近的短期近地表水文变化
2. Detecting natural fractures with ground penetrating radar and airborne night-thermal infrared imagery around Old Faithful Geyser, Yellowstone National Park, USA [J] . Geothermics . 2020,第May期

机译：使用探地雷达和机载夜热红外图像探测自然裂缝，美国黄石国家公园的老忠实间歇泉附近
3. Hydrothermal monitoring of Norris Geyser Basin, Yellowstone National Park, USA, using airborne thermal infrared imagery [J] . Heasler Henry, Jaworowski Cheryl Geothermics . 2018,第mara期

机译：美国黄石国家公园诺里斯间歇泉盆地的水热监测，使用机载红外图像
4. Tracking Shallow Hydrological Changes in Micro-Fractured Siliceous Sinter During Pre-eruptive Cycles Of Old Faithful Geyser Vent, Yellowstone National Park, USA [C] . Bridget Y. Lynne, Gary J. Smith, Henry Heasler, Geothermal Resources Council annual meeting . 2018

机译：美国黄石国家公园的老忠实间歇泉喷发前喷发周期中微裂硅质烧结矿的浅层水文变化跟踪
5. Shallow Seismic Modeling of the Hydrothermal Plumbing System Beneath Old Faithful Geyser in the Upper Geyser Basin of Yellowstone National Park [D] . Caylor, Jordan Rigdon. 2020

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Using ground penetrating radar, scanning electron microscopy and thermal infrared imagery to document near-surface hydrological changes in the old faithful Geyser area, Yellowstone National Park, USA

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