Silurian-Devonian tectonic evolution of mid-coastal Maine, U.S.A.: Details of polyphase orogenic processes

IF 1.9 3区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

American Journal of Science Pub Date : 2021-04-01 DOI:10.2475/04.2021.03

D. P. West, E. Peterman, Jessica Chen

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引用次数: 4

Abstract

Detailed bedrock mapping, structural geology, meta-igneous whole rock geochemistry, and U-Pb geochronology from rocks sampled along a portion of a complexly deformed tectonic boundary between the Ordovician peri-Gondwanan Liberty-Orrington belt and Silurian syn-orogenic strata of the Fredericton trough (a.k.a. the Dog Bay Line) in mid-coastal Maine aid in deciphering the Silurian-Devonian tectonic evolution of the region. The new results provide constraints on several key events. First, initial terrane juxtapositioning occurred along the east-verging Boothbay thrust fault (D1). This tectonism occurred prior to 423 Ma and is associated with the accretion of the Ganderian microcontinent to the Laurentian margin (that is, the Salinic orogeny). Subsequently, intrusion of an ultra-potassic magma, the protolith of the Edgecomb Gneiss, occurred at ca. 413 Ma. Its distinctive whole rock geochemical signature allows for correlation with rocks of similar composition and age along a relatively narrow 140 kilometer long distance on the northwestern margin of the Fredericton trough. This restricted area of ultra-potassic magma generation is attributed to the breakoff of the descending Salinic oceanic slab that triggered decompression melting of a previously metasomatized mantle wedge region beneath the accreted Ganderian microcontinent. Early thrust faults (D1) and the ca. 413 Edgecomb Gneiss igneous protolith were overprinted by an episode of upright folding (D2) and low-pressure amphibolite facies metamorphism associated with the Early to Middle Devonian Acadian orogeny. Zircon overgrowths in the Edgecomb Gneiss dated at ca. 399 Ma grew during this tectonic episode. Comparisons with previous geochronological studies across the region suggest this dominant phase of Acadian deformation and metamorphism was long-lived (ca. 40 m.y.) and associated with the outboard accretion of the Avalonian microcontinent. Dextral shear structures represent the final phase of deformation (D3) superimposed on this terrane boundary and are associated with the Norumbega fault and shear zone system that was active in Middle Devonian-Carboniferous time.

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美国缅因州中部沿海的志留纪-演化构造：多相造山过程的细节

详细的基岩测绘、构造地质学、变质火成岩全岩地球化学，在缅因州中部沿海的弗雷德里克顿槽（又称狗湾线）的奥陶纪-冈瓦纳-自由-奥灵顿带和志留纪同造山地层之间，沿一部分复杂变形的构造边界取样的岩石的U-Pb地质年代有助于破译该地区的志留纪-泥盆纪构造演化。新的结果为几个关键事件提供了约束。首先，最初的地体并置发生在Boothbay逆冲断层（D1）的东边缘。这种构造作用发生在423 Ma之前，与甘德微大陆向劳伦阶边缘的增生有关（即盐造山运动）。随后，一种超钾质岩浆，即埃奇科姆片麻岩的原岩，在约413 Ma发生侵入。其独特的全岩地球化学特征允许与弗雷德里克顿槽西北边缘140公里长的相对较窄距离上的类似成分和年龄的岩石进行对比。超钾岩浆生成的这一限制区域归因于下降的含盐洋板块的断裂，该断裂触发了增生的甘德微大陆下方先前交代的地幔楔区域的减压熔融。早期逆冲断层（D1）和约413 Edgecomb片麻岩火成原岩被与早泥盆世至中泥盆世阿卡迪亚造山运动相关的直立褶皱（D2）和低压角闪岩相变质作用叠加。埃奇科姆片麻岩中的锆石过度生长可追溯到约399 Ma，在这一构造事件中生长。与该地区以前的地质年代研究相比较表明，阿卡迪亚变形和变质作用的这一主导阶段是长期的（约40 m.y.），并与阿瓦隆微大陆的外侧吸积有关。右旋剪切结构代表了叠加在该地体边界上的变形的最后阶段（D3），并与活跃于中泥盆纪-石炭纪时期的Norumbega断层和剪切带系统有关。

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来源期刊

American Journal of Science 地学-地球科学综合

CiteScore

5.80

自引率

3.40%

发文量

审稿时长

>12 weeks

期刊介绍： The American Journal of Science (AJS), founded in 1818 by Benjamin Silliman, is the oldest scientific journal in the United States that has been published continuously. The Journal is devoted to geology and related sciences and publishes articles from around the world presenting results of major research from all earth sciences. Readers are primarily earth scientists in academia and government institutions.