New U-Pb Zircon and 40AR/39AR Age Constraints on the Late Mesozoic to Cenozoic Plutonic Record in the Western San Juan Mountains

Mountain Geologist Pub Date : 2015-04-01 DOI:10.31582/rmag.mg.52.2.5

D. Gonzales

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引用次数: 7

Abstract

New U-Pb zircon and 40Ar/39Ar crystallization ages for latest Mesozoic to Cenozoic plutonic rocks in the western San Juan Mountains provide insight into the timing and interplay of mantle and crustal magmatism over the past 80 Ma. Subduction-driven magmatism in the Laramide (75-60 Ma) generated alkalic intermediate to mafic magmas. These were emplaced as laccoliths and stocks along northeast trends that were likely controlled by crustal-scale zones of weakness with Proterozoic ancestry. The transition from Laramide subduction to slab rollback and delamination was marked by incipient regional extension and widespread emplacement of plutons. Oligocene plutons of gabbro to granite were mostly peripheral to 29-27 Ma caldera complexes that formed over a regional subvolcanic batholith. Alkaline mantle magmas that accompanied the semi-continuous intrusion of shallow felsic to intermediate plutons from 25 to 4 Ma produced diatreme-dike complexes and dike swarms across the northern San Juan Basin. Emplacement of plutons from 75-4 Ma caused localized uplift that had a major influence on landscape evolution, and often were linked to zones of mineralization. Late Mesozoic to Cenozoic plutonic events in the western San Juan Mountains record a long-term shift to more bimodal magmatism. Injection of mantle melts from 25 to 4 Ma during incipient crustal extension accompanied elevated thermal gradients over the region, as evidenced by resetting of cooling ages in some Laramide intrusive rocks. The preservation of xenocrystic zircons in 75-4 Ma plutonic rocks provides evidence for variable magmatic conditions with an overall increase in the thermal state of Oligocene melts proximal to caldera systems and all plutons emplaced after 18 Ma. High geothermal gradients caused by the long duration of magmatism and increased mantle contributions may have permitted more prolonged assembly and slower cooling in some plutons.

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圣胡安山脉西部晚中生代-新生代岩体记录的新U-Pb锆石和40AR/39AR年龄约束

圣胡安山脉西部最新中生代至新生代深部岩体的U-Pb锆石和40Ar/39Ar结晶年龄为揭示过去80 Ma地幔和地壳岩浆活动的时间和相互作用提供了新的线索。拉腊酰胺(75-60 Ma)俯冲驱动的岩浆活动产生碱性中基性岩浆。沿东北走向放置的漆膜岩和岩群可能受元古代祖先的地壳软弱带控制。从拉拉玛俯冲到板块回滚和剥离的转变标志是区域伸展的开始和岩体的广泛侵位。渐新世辉长岩-花岗岩体多位于29-27 Ma破火山口杂岩外围，形成于区域性次火山基上。在25 ~ 4 Ma期间，碱性地幔岩浆伴随浅层长英质至中间岩体的半连续侵入，在圣胡安盆地北部形成了岩脉杂岩体和岩脉群。75-4 Ma时期的岩体侵位造成了局部隆升，对景观演化具有重要影响，并常常与成矿带有关。圣胡安山脉西部晚中生代至新生代的深成事件记录了长期向双峰岩浆活动的转变。在地壳伸展初期，地幔熔体在25 ~ 4 Ma的时间内注入，导致该地区的热梯度升高，这可以从Laramide侵入岩的冷却年龄重置中得到证明。75-4 Ma深部岩体中保存的异晶锆石为岩浆条件的变化提供了证据，表明渐新世熔体在火山口体系附近的热状态总体增加，所有的岩体都是在18 Ma之后就位的。岩浆活动持续时间长和地幔贡献增加造成的高地温梯度可能使某些岩体的组合时间更长，冷却速度更慢。

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Mountain Geologist

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