Pyroclastic deposits of Ubehebe Crater, Death Valley, California, USA: Ballistics, pyroclastic surges, and dry granular flows

IF 1.7 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Geosphere Pub Date : 2022-11-04 DOI:10.1130/ges02526.1
G. Valentine, J. Fierstein, J. White
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引用次数: 5

Abstract

We describe and interpret deposits associated with the final Ubehebe Crater-forming, phreatomagmatic explosive phase of the multivent, monogenetic Ubehebe volcanic center. Ubehebe volcano is located in Death Valley, California, USA. Pyroclastic deposits occur in four main facies: (1) lapilli- and block-dominated beds, (2) thinly bedded lapilli tuff, (3) laminated and cross-laminated ash, and (4) massive lapilli ash/tuff. Lapilli- and block-dominated beds are found mostly within several hundred meters of the crater and transition outward into discontinuous lenses of lapilli and blocks; they are interpreted to have been deposited by ballistic processes associated with crater-forming explosions. Thinly bedded lapilli tuff is found mainly within several hundred meters, and laminated and cross-laminated ash extends at least 9 km from the crater center. Dune forms are common within ~2 km of the crater center, while finer-grained, distal deposits tend to exhibit planar lamination. These two facies (thinly bedded lapilli tuff and laminated and cross-laminated ash) are interpreted to record multiple pyroclastic surges (dilute pyroclastic currents). Repeated couplets of coarse layers overlain by finer-grained, laminated horizons suggest that many or most of the surges were transient, likely recording individual explosions, and they traveled over complex topography in some areas. These two factors complicate the application of classical sediment-transport theory to quantify surge properties. However, dune- form data provide possible constraints on the relationships between suspended load sedimentation and bed-load transport that are consistent using two independent approaches. Massive lapilli ash/tuff beds occur in drainages below steep slopes and can extend up to ~1 km onto adjacent valley floors beneath large catchments. Although they are massive in texture, their grain-size characteristics are shared with laminated and cross-laminated ash facies, with which they are locally interbedded. These are interpreted to record concentrated granular flows sourced by remobilized pyroclastic surge deposits, either during surge transport or shortly after, while the surge deposits retained their elevated initial pore-gas pressures. Although similar surge-derived concentrated flows have been described elsewhere (e.g., Mount St. Helens, Washington, USA, and Soufriére Hills, Montserrat, West Indies), to our knowledge Ubehebe is the first case where such processes have been identified at a maar volcano. These concentrated flows followed paths that were independent of the pyroclastic surges and represent a potential hazard at similar maar volcanoes in areas with complex terrain.
美国加利福尼亚州死亡谷Ubehebe陨石坑的火山碎屑沉积物:弹道学、火山碎屑涌流和干粒状流
我们描述和解释了与Ubehebe火山中心多喷发、单成因的最终Ubehebe陨石坑形成、呼吸岩浆爆炸阶段相关的矿床。乌贝赫贝火山位于美国加利福尼亚州的死亡谷。火山碎屑沉积主要分布在4种相中:(1)以石头岩和块状岩为主的沉积层,(2)薄层状石头岩凝灰岩,(3)层状和交叉层状灰岩,(4)块状石头岩灰岩/凝灰岩。以石钻和块体为主的地层大多在火山口几百米范围内发现,并向外过渡为石钻和块体的不连续透镜;据解释,它们是由与形成陨石坑的爆炸有关的弹道过程沉积的。薄层状的石蜡凝灰岩主要在几百米范围内发现,层状和交叉层状的火山灰从火山口中心延伸至少9公里。沙丘形式在陨石坑中心约2公里范围内很常见,而细粒的远端沉积物则倾向于呈现平面层压。这两种相(薄层状柱状凝灰岩和层状和交叉层状灰岩)被解释为记录了多次火山碎屑涌动(稀释火山碎屑流)。粗层被细层叠层覆盖的重复对联表明,许多或大多数的涌浪是短暂的,可能记录了个别的爆炸,它们在一些地区穿过复杂的地形。这两个因素使经典泥沙输运理论在量化浪涌特性方面的应用复杂化。然而,沙丘形式的数据提供了悬移荷载沉积和床载输运之间关系的可能约束,这两种独立的方法是一致的。巨大的凤头石灰/凝灰岩床出现在陡坡下的排水系统中,可以延伸到大型集水区下的相邻山谷地板上,长达1公里。虽然结构块状,但粒度特征与层状和交叉层状灰岩相一致,局部互层。这些数据被解释为记录了由重新活化的火山碎屑浪涌沉积产生的集中颗粒流,无论是在浪涌运移过程中还是在浪涌运移之后不久,而浪涌沉积保留了它们最初升高的孔隙气体压力。虽然在其他地方(如美国华盛顿的圣海伦斯山和西印度群岛蒙特塞拉特岛的苏弗里萨雷山)也有类似的涌浪引起的集中流动,但据我们所知,乌贝赫贝火山是第一个在maar火山上发现这种过程的例子。这些集中流动的路径与火山碎屑涌浪无关,对地形复杂地区类似的马尔火山构成潜在危险。
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来源期刊
Geosphere
Geosphere 地学-地球科学综合
CiteScore
4.40
自引率
12.00%
发文量
71
审稿时长
6-12 weeks
期刊介绍: Geosphere is GSA''s ambitious, online-only publication that addresses the growing need for timely publication of research results, data, software, and educational developments in ways that cannot be addressed by traditional formats. The journal''s rigorously peer-reviewed, high-quality research papers target an international audience in all geoscience fields. Its innovative format encourages extensive use of color, animations, interactivity, and oversize figures (maps, cross sections, etc.), and provides easy access to resources such as GIS databases, data archives, and modeling results. Geosphere''s broad scope and variety of contributions is a refreshing addition to traditional journals.
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