M. Mohr, M. Schmitz, N. Swanson‐Hysell, K.E. Karlstrom, F.A. Macdonald, M. E. Holland, Y. Zhang, N.S. Anderson
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引用次数: 0
摘要
西南劳伦西亚大型火成岩带(SWLLIP)包括美国西南部和墨西哥北部大量、广泛的约1.1 Ga岩浆活动。由于难以对岩浆岩进行高精度的年代测定,SWLLIP岩浆活动的时间和节奏及其与其他中新生代晚期火成岩带的关系一直不明确。新的锆石U-Pb精确年代测定显示,黑云母岩中的杂岩性长英岩分块在大约1098Ma(以块状长英岩为代表)时发生了不同的岩浆活动。1098 Ma(以加利福尼亚州死亡谷、大峡谷和亚利桑那州中部的块状岩屑为代表)和约 1083 Ma(以大峡谷的卡德纳斯玄武岩和加利福尼亚州死亡山脉的岩屑为代表)。约大约 1098 Ma 的岩浆脉冲持续时间短,仅为 0.25 -0.24 +0.67 m.y.,岩浆量大,范围广,死亡谷、大峡谷和亚利桑那州中部≥100 m 的岩屑就是证明,这与上涌地幔羽流的减压熔融一致。约约 1083 Ma 的岩浆活动可能是由次级羽流脉冲或羽流后岩石圈延伸产生的。约 1098 Ma 的岩浆活动脉冲劳伦提亚西南部约 1098 Ma 的岩浆活动发生在劳伦提亚中部中洲裂谷大量熔融活动异常更新之前 2 m.y.,该活动由约 1096 Ma 的 Duluth Complex 记录。1096 Ma Duluth Complex层状岩浆侵入体所记录的。地幔羽流润滑理论预测的横向羽流扩散速率支持这样一个模型,即来自深地幔的羽流在劳伦提亚西南部附近撞击,然后扩散到中洲裂谷减薄的岩石圈,经过∼2 m.y.,使地幔温度升高并产生熔体。这一地球动力学假说调和了劳伦提亚各地大量岩浆活动之间的密切时间关系,并为中洲裂谷漫长岩浆史中的高岩浆通量异常更新提供了解释。
High-precision U-Pb geochronology links magmatism in the Southwestern Laurentia large igneous province and Midcontinent Rift
The Southwestern Laurentia large igneous province (SWLLIP) comprises voluminous, widespread ca 1.1 Ga magmatism in the southwestern United States and northern Mexico. The timing and tempo of SWLLIP magmatism and its relationship to other late Mesoproterozoic igneous provinces have been unclear due to difficulties in dating mafic rocks at high precision. New precise U-Pb zircon dates for comagmatic felsic segregations within mafic rocks reveal distinct magmatic episodes at ca. 1098 Ma (represented by massive sills in Death Valley, California, the Grand Canyon, and central Arizona) and ca. 1083 Ma (represented by the Cardenas Basalts in the Grand Canyon and a sill in the Dead Mountains, California). The ca. 1098 Ma magmatic pulse was short-lived, lasting 0.25 –0.24 +0.67 m.y., and voluminous and widespread, evidenced by the ≥100 m sills in Death Valley, the Grand Canyon, and central Arizona, consistent with decompression melting of an upwelling mantle plume. The ca. 1083 Ma magmatism may have been generated by a secondary plume pulse or post-plume lithosphere extension.
The ca. 1098 Ma pulse of magmatism in southwestern Laurentia occurred ∼2 m.y. prior to an anomalous renewal of voluminous melt generation in the Midcontinent Rift of central Laurentia that is recorded by the ca. 1096 Ma Duluth Complex layered mafic intrusions. Rates of lateral plume spread predicted by mantle plume lubrication theory support a model where a plume derived from the deep mantle impinged near southwestern Laurentia, then spread to thinned Midcontinent Rift lithosphere over ∼2 m.y. to elevate mantle temperatures and generate melt. This geodynamic hypothesis reconciles the close temporal relationships between voluminous magmatism across Laurentia and provides an explanation for that anomalous renewal of high magmatic flux within the protracted magmatic history of the Midcontinent Rift.
期刊介绍:
Published since 1973, Geology features rapid publication of about 23 refereed short (four-page) papers each month. Articles cover all earth-science disciplines and include new investigations and provocative topics. Professional geologists and university-level students in the earth sciences use this widely read journal to keep up with scientific research trends. The online forum section facilitates author-reader dialog. Includes color and occasional large-format illustrations on oversized loose inserts.