{"title":"墨西哥伊兹塔奇瓦特火山热带冰体的特征","authors":"R. Álvarez, H. Delgado","doi":"10.1117/12.462267","DOIUrl":null,"url":null,"abstract":"In the last century ice bodies have changed significantly worldwide in response to climatic changes, apparently enhanced during the last decades, presumably owing to anthropogenic influence. Shrinkage of glaciers in the northern latitudes has been extensively documented; however, the behavior of glaciers in tropical or inter-tropical latitudes has been difficult to document. In Mexico, small glaciers are present in the highest mountains: Citlaltdpetl (5675 m), Popocatepetl (5452 m) and Iztaccthuatl (5286 m), all of them volcanoes. The glaciers of Mexico offer important clues about climate change at this latitude. Current inventory and monitoring of Mexican glaciers includes determination of glaciated areas and volumes. A survey has been carried out using ground-penetrating radar in order to get a figure of thickness and a preliminary volumetric estimate of an ice body of IztaccIhuatl volcano named Ayoloco glacier. A radar profile 415 m in length was obtained at a mean altitude of 5000 m with an azimuth of 190°, in a relatively flat area known as La Panza on top of the mountain. 100 Mhz antennas were used in the reflection mode with a separation of 2.5 m and a step-size of 2.5 m. A common mid-point survey was performed comprising 12 stations, at 0.5 m steps, to determine the wave velocity propagation in the ice-rock mixture that constitutes the glacier. Results yield a value of 0. 17 m/ns, which is close to the reported value for ice of 0. 1 6 m/ns. We find a layered structure perturbed by faulting at various inclinations, and an interface between the glacier and the underlying rock along a concave surface, shallow at the profile's extremes. There appears to be a transition at 50 m depth, from brittle to ductile ice. Since Iztaccihuatl volcano has many craters near the summit, we infer that this profile reveals the shape of one of the craters, which has been filled by the glacier's ice and a mixture of rock fragments and volcanic debris. The estimated upper volume of the Ayoloco glacier is 10.04 x 106 m3; this figure will have to be revised when more, perpendicular GPR transects are performed.","PeriodicalId":256772,"journal":{"name":"International Conference on Ground Penetrating Radar","volume":"18 11","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2002-04-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":"{\"title\":\"Characterization of a tropical ice body on Iztaccihuatl volcano, Mexico\",\"authors\":\"R. Álvarez, H. 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A survey has been carried out using ground-penetrating radar in order to get a figure of thickness and a preliminary volumetric estimate of an ice body of IztaccIhuatl volcano named Ayoloco glacier. A radar profile 415 m in length was obtained at a mean altitude of 5000 m with an azimuth of 190°, in a relatively flat area known as La Panza on top of the mountain. 100 Mhz antennas were used in the reflection mode with a separation of 2.5 m and a step-size of 2.5 m. A common mid-point survey was performed comprising 12 stations, at 0.5 m steps, to determine the wave velocity propagation in the ice-rock mixture that constitutes the glacier. Results yield a value of 0. 17 m/ns, which is close to the reported value for ice of 0. 1 6 m/ns. We find a layered structure perturbed by faulting at various inclinations, and an interface between the glacier and the underlying rock along a concave surface, shallow at the profile's extremes. There appears to be a transition at 50 m depth, from brittle to ductile ice. Since Iztaccihuatl volcano has many craters near the summit, we infer that this profile reveals the shape of one of the craters, which has been filled by the glacier's ice and a mixture of rock fragments and volcanic debris. 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引用次数: 3
摘要
在上个世纪,全世界的冰体因气候变化而发生了显著变化,在过去几十年中明显增强,可能是由于人为影响。北纬地区冰川的萎缩已被广泛记录;然而,冰川在热带或热带间纬度的行为一直难以记录。在墨西哥,在最高的山上有小冰川:Citlaltdpetl(5675米),Popocatepetl(5452米)和Iztaccthuatl(5286米),它们都是火山。墨西哥的冰川为这个纬度的气候变化提供了重要线索。目前对墨西哥冰川的清查和监测包括确定冰川面积和体积。利用探地雷达对伊兹塔奇瓦尔特火山的阿约洛科冰川冰体进行了厚度测量和初步体积估算。在平均海拔5000米,方位角190°的地方,在山顶一个被称为La Panza的相对平坦的地区,获得了长415米的雷达剖面图。反射模式采用100 Mhz天线,间隔2.5 m,步长2.5 m。进行了一个普通的中点调查,包括12个站点,以0.5米的台阶,以确定波速在构成冰川的冰-岩混合物中传播。结果产生一个值0。17 m/ns,这与报道的冰的0。1 6m /ns。我们发现了一个被不同倾斜度的断层扰动的层状结构,以及冰川和下伏岩石之间沿凹表面的界面,在剖面的极端处很浅。在50米深处似乎有一个从脆性冰到韧性冰的转变。由于Iztaccihuatl火山在山顶附近有许多陨石坑,我们推断这张剖面揭示了其中一个陨石坑的形状,这个陨石坑被冰川的冰、岩石碎片和火山碎片的混合物填满。估计阿约洛科冰川的上部体积为10.04 x 106立方米;当进行更多的垂直探地雷达横断面时,必须修改此图。
Characterization of a tropical ice body on Iztaccihuatl volcano, Mexico
In the last century ice bodies have changed significantly worldwide in response to climatic changes, apparently enhanced during the last decades, presumably owing to anthropogenic influence. Shrinkage of glaciers in the northern latitudes has been extensively documented; however, the behavior of glaciers in tropical or inter-tropical latitudes has been difficult to document. In Mexico, small glaciers are present in the highest mountains: Citlaltdpetl (5675 m), Popocatepetl (5452 m) and Iztaccthuatl (5286 m), all of them volcanoes. The glaciers of Mexico offer important clues about climate change at this latitude. Current inventory and monitoring of Mexican glaciers includes determination of glaciated areas and volumes. A survey has been carried out using ground-penetrating radar in order to get a figure of thickness and a preliminary volumetric estimate of an ice body of IztaccIhuatl volcano named Ayoloco glacier. A radar profile 415 m in length was obtained at a mean altitude of 5000 m with an azimuth of 190°, in a relatively flat area known as La Panza on top of the mountain. 100 Mhz antennas were used in the reflection mode with a separation of 2.5 m and a step-size of 2.5 m. A common mid-point survey was performed comprising 12 stations, at 0.5 m steps, to determine the wave velocity propagation in the ice-rock mixture that constitutes the glacier. Results yield a value of 0. 17 m/ns, which is close to the reported value for ice of 0. 1 6 m/ns. We find a layered structure perturbed by faulting at various inclinations, and an interface between the glacier and the underlying rock along a concave surface, shallow at the profile's extremes. There appears to be a transition at 50 m depth, from brittle to ductile ice. Since Iztaccihuatl volcano has many craters near the summit, we infer that this profile reveals the shape of one of the craters, which has been filled by the glacier's ice and a mixture of rock fragments and volcanic debris. The estimated upper volume of the Ayoloco glacier is 10.04 x 106 m3; this figure will have to be revised when more, perpendicular GPR transects are performed.
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