New perspectives on ice forcing in continental arc magma plumbing systems

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of Volcanology and Geothermal Research Pub Date : 2024-09-11 DOI:10.1016/j.jvolgeores.2024.108187
Brad S. Singer , Pablo Moreno-Yaeger , Meredith Townsend , Christian Huber , Joshua Cuzzone , Benjamin R. Edwards , Matias Romero , Yasmeen Orellana-Salazar , Shaun A. Marcott , Rachel E. Breunig , Ken L. Ferrier , Kathryn Scholz , Allie N. Coonin , Brent V. Alloway , Marissa M. Tremblay , Sally Stevens , Ivo Fustos-Toribio , Patricio I. Moreno , Franco Vera , Álvaro Amigo
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First, does decompression of the upper crust during rapid thinning of ice sheets propel increases in eruption rates? Second, does surface loading during ice sheet growth, followed by rapid unloading during deglaciation, promote changes in magma storage conditions and compositions within the underlying magma plumbing systems? To provide new perspectives on these questions, we address the mechanics and dynamics of ice sheet-arc magma plumbing system interactions at a regional-to-local scale within the Andean Southern Volcanic Zone. Here, piedmont glacier lobes, forming the northernmost extension of the Patagonian ice sheet, have enveloped dozens of large, active, composite volcanoes as these glaciers reached local thicknesses of nearly 2 km during the local Last Glacial Maximum (LGM) between ∼35 and 18 ka, before retreating rapidly between 18 and 15 ka. Our multi-faceted review features a synthesis of existing and new field observations, laboratory measurements, and numerical simulations. Advances in <sup>40</sup>Ar/<sup>39</sup>Ar radioisotopic and <sup>3</sup>He surface exposure geochronology, in conjunction with geologic mapping, facilitate reconstructions of volcanic eruptive histories spanning the last glacial-deglacial cycle and in places provide constraints on the thickness of ice at specific time slices. The magnitude and geometry of the glacial loading and unloading is captured in a climate model-driven numerical simulation that reveals spatial and temporal heterogeneities in the configuration of the northernmost Patagonian ice sheet retreat. Geological observations including dated moraine complexes, dated lava-ice contact features, and glacial erratic boulders at high altitude on volcano slopes, are consistent with this model. 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A numerical magma chamber model suggests that this behavior could be the result of a delicate balance between the timescales of magma cooling, the rate of magma recharge from depth, and viscous relaxation of surrounding crustal rocks. Depressurization of the crust increases eruptive mass flux to the surface only if: (1) the rate of recharge just outcompetes the rate of cooling, (2) the rate of recharge is barely large enough before loading to overcome viscous relaxation of overpressure by creep around the chamber, and (3) magmas are volatile undersaturated, and exsolve volatiles via second boiling during the long repose associated with the high ice loads that precede rapid deglaciation. Existing and newly developed thermobarometers that constrain magma crystallization and storage depths can be applied to eruptive products spanning a glacial-deglacial transition, such that not only secular changes in rates of volcanic eruption, but also changes in the depths of pre-eruptive magma storage and in magma composition can each be interpreted in the light of intra-crustal stress changes associated with glacial loading and unloading.</div></div>","PeriodicalId":54753,"journal":{"name":"Journal of Volcanology and Geothermal Research","volume":"455 ","pages":"Article 108187"},"PeriodicalIF":2.4000,"publicationDate":"2024-09-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Volcanology and Geothermal Research","FirstCategoryId":"89","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0377027324001793","RegionNum":3,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"GEOSCIENCES, MULTIDISCIPLINARY","Score":null,"Total":0}
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Abstract

Determining how and why eruptive outputs are modulated by the loading and unloading of ice is key to understanding whether ongoing and accelerating deglaciation across mid- to high-latitudes will impact future activity at many volcanoes. Here, we address two central questions. First, does decompression of the upper crust during rapid thinning of ice sheets propel increases in eruption rates? Second, does surface loading during ice sheet growth, followed by rapid unloading during deglaciation, promote changes in magma storage conditions and compositions within the underlying magma plumbing systems? To provide new perspectives on these questions, we address the mechanics and dynamics of ice sheet-arc magma plumbing system interactions at a regional-to-local scale within the Andean Southern Volcanic Zone. Here, piedmont glacier lobes, forming the northernmost extension of the Patagonian ice sheet, have enveloped dozens of large, active, composite volcanoes as these glaciers reached local thicknesses of nearly 2 km during the local Last Glacial Maximum (LGM) between ∼35 and 18 ka, before retreating rapidly between 18 and 15 ka. Our multi-faceted review features a synthesis of existing and new field observations, laboratory measurements, and numerical simulations. Advances in 40Ar/39Ar radioisotopic and 3He surface exposure geochronology, in conjunction with geologic mapping, facilitate reconstructions of volcanic eruptive histories spanning the last glacial-deglacial cycle and in places provide constraints on the thickness of ice at specific time slices. The magnitude and geometry of the glacial loading and unloading is captured in a climate model-driven numerical simulation that reveals spatial and temporal heterogeneities in the configuration of the northernmost Patagonian ice sheet retreat. Geological observations including dated moraine complexes, dated lava-ice contact features, and glacial erratic boulders at high altitude on volcano slopes, are consistent with this model. Deep valleys imply intense localized erosion on volcano flanks, and deposited sediment in nearby floodplains implies narrow regions of rapid sediment deposition. These observations, in conjunction with dated lava flows, provide constraints on rates and patterns of crustal loading and unloading by sediment redistribution.
The ice loading model, cone growth, and a sediment redistribution history inform numerical simulations of intra-crustal stress changes below the volcanic arc in response to the ice-driven and sediment-driven changes. In turn, the modeled surface loading is central to designing numerical simulations of magma reservoir responses to intra-crustal stress changes beneath the volcanoes. Following periods of subdued volcanic output, upticks in eruptive rates are found at three volcanoes during, or shortly after, the LGM. A numerical magma chamber model suggests that this behavior could be the result of a delicate balance between the timescales of magma cooling, the rate of magma recharge from depth, and viscous relaxation of surrounding crustal rocks. Depressurization of the crust increases eruptive mass flux to the surface only if: (1) the rate of recharge just outcompetes the rate of cooling, (2) the rate of recharge is barely large enough before loading to overcome viscous relaxation of overpressure by creep around the chamber, and (3) magmas are volatile undersaturated, and exsolve volatiles via second boiling during the long repose associated with the high ice loads that precede rapid deglaciation. Existing and newly developed thermobarometers that constrain magma crystallization and storage depths can be applied to eruptive products spanning a glacial-deglacial transition, such that not only secular changes in rates of volcanic eruption, but also changes in the depths of pre-eruptive magma storage and in magma composition can each be interpreted in the light of intra-crustal stress changes associated with glacial loading and unloading.
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大陆弧岩浆管道系统中冰作用力的新视角
要了解中高纬度地区持续和加速的冰川退化是否会影响许多火山未来的活动,关键是要确定火山喷发量如何以及为什么会受到冰的装载和卸载的影响。在这里,我们要解决两个核心问题。首先,在冰盖迅速变薄的过程中,上地壳的减压是否会推动火山喷发率的上升?其次,冰盖生长过程中的地表负载,以及随后的冰川消融过程中的快速卸载,是否会促进岩浆储存条件和底层岩浆管道系统内的成分发生变化?为了给这些问题提供新的视角,我们在安第斯南部火山带从区域到地方的范围内研究了冰盖-弧岩浆管道系统相互作用的机理和动力学。在这里,构成巴塔哥尼亚冰盖最北端延伸部分的山麓冰川裂片包裹着数十座大型活火山,这些冰川在当地末次冰川极盛时期(LGM)(35~18 ka)的局部厚度达到近2 km,之后在18~15 ka之间迅速后退。我们的多方面综述综合了现有的和新的实地观测、实验室测量和数值模拟结果。40Ar/39Ar 放射性同位素和 3He 地表暴露地质年代学的进展,与地质测绘相结合,有助于重建跨越上一个冰川-冰川周期的火山爆发历史,并在某些地方为特定时间片的冰层厚度提供了约束条件。气候模型驱动的数值模拟捕捉了冰川加载和卸载的幅度和几何形状,揭示了巴塔哥尼亚冰原最北端退缩配置的时空异质性。地质观测结果,包括火山斜坡上高海拔地区年代久远的冰碛复合体、年代久远的熔岩-冰接触特征以及冰川嶙峋巨石,都与该模型相吻合。深谷意味着火山侧面的局部侵蚀作用强烈,而附近冲积平原的沉积物则意味着沉积物快速沉积的狭窄区域。冰载荷模型、圆锥体生长和沉积物再分布历史为火山弧下方地壳内应力变化的数值模拟提供了信息,以应对冰驱动和沉积物驱动的变化。反过来,建模的地表负荷对于设计岩浆储层对火山下方地壳内应力变化的响应数值模拟至关重要。在经历了火山喷发的低迷期之后,我们发现有三座火山的喷发率在远古时期或其后不久出现了上升。岩浆室数值模型表明,这种行为可能是岩浆冷却的时间尺度、岩浆从深部补给的速度以及周围地壳岩石的粘性松弛之间微妙平衡的结果。只有在以下情况下,地壳减压才会增加喷发到地表的质量通量:(1)补给速度刚刚超过冷却速度;(2)补给速度在加载前勉强足够大,以克服腔室周围蠕变对超压的粘性松弛;(3)岩浆挥发未饱和,并在快速脱冰期之前与高冰负荷相关的长时间休眠期间通过二次沸腾释放挥发物。现有的和新开发的测温仪可以限制岩浆结晶和储存深度,可用于跨越冰川-冰川过渡时期的喷发产物,这样不仅可以根据与冰川加载和卸载有关的地壳内应力变化来解释火山喷发率的世俗变化,还可以解释喷发前岩浆储存深度和岩浆成分的变化。
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来源期刊
CiteScore
5.90
自引率
13.80%
发文量
183
审稿时长
19.7 weeks
期刊介绍: An international research journal with focus on volcanic and geothermal processes and their impact on the environment and society. Submission of papers covering the following aspects of volcanology and geothermal research are encouraged: (1) Geological aspects of volcanic systems: volcano stratigraphy, structure and tectonic influence; eruptive history; evolution of volcanic landforms; eruption style and progress; dispersal patterns of lava and ash; analysis of real-time eruption observations. (2) Geochemical and petrological aspects of volcanic rocks: magma genesis and evolution; crystallization; volatile compositions, solubility, and degassing; volcanic petrography and textural analysis. (3) Hydrology, geochemistry and measurement of volcanic and hydrothermal fluids: volcanic gas emissions; fumaroles and springs; crater lakes; hydrothermal mineralization. (4) Geophysical aspects of volcanic systems: physical properties of volcanic rocks and magmas; heat flow studies; volcano seismology, geodesy and remote sensing. (5) Computational modeling and experimental simulation of magmatic and hydrothermal processes: eruption dynamics; magma transport and storage; plume dynamics and ash dispersal; lava flow dynamics; hydrothermal fluid flow; thermodynamics of aqueous fluids and melts. (6) Volcano hazard and risk research: hazard zonation methodology, development of forecasting tools; assessment techniques for vulnerability and impact.
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