大型火成岩破火山口的沉降诱发早期穹隆

Geology Pub Date : 2024-04-05 DOI:10.1130/g52130.1
Peter W. Lipman
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引用次数: 0

摘要

许多有据可查的复燃火山口都是在相关的辉绿岩喷发结束后才开始抬升的,但美国科罗拉多州南落基山火山区的大贝克尔火山口在喷发期间就开始拱起。随着破火山口的下沉,在厚厚堆积的闪长岩中开始形成一个明确的拱形或圆拱形结构,破火山口的填充、早期侵蚀凝灰岩的流变形态和局部塌陷移动、上部焊接区的倾角减小以及晚期侵蚀的白云岩阶段与不断扩大的圆顶侧面的楔形,都证明了这一结构的形成。早期沉降引起的穹隆可能是由以下因素引发的:岩浆沿环状断层喷口优先向下汲取、相对不透水的裂隙和破火山口中央的岩浆浮力差异、破火山口边缘的山体滑坡和破火山口壁的滑石造成的外围荷载,或者是这些因素的某些组合。破火山口穹隆的早期出现对岩浆抽出模型和未喷发岩浆的残余成分梯度有影响。
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Subsidence-induced early doming at a large ignimbrite caldera
Uplift at many well-documented resurgent calderas started only after completion of the associated ignimbrite eruption, but arching of the large Bachelor caldera in the Southern Rocky Mountain volcanic field, Colorado (USA), began during the eruption. A well-defined arched or domical structure, initiated within thickly accumulating ignimbrite as the caldera subsided, is documented by growth of keystone faults as the caldera filled, rheomorphism and local diapiric mobilization of early-erupted tuff, decreased dips in upper welding zones, and wedging of a late-erupted dacitic phase against flanks of the growing dome. Early subsidence-induced doming may have been triggered by preferential magma draw-down along ring-fault vents, relatively impermeable vesiculation and differential magma buoyancy centrally within the caldera, peripheral loading at caldera margins by landslides and talus from caldera walls, or some combination of factors. Early inception of caldera doming has implications for models of magma withdrawal and residual compositional gradients in non-erupted magma.
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