Assessing crustal contamination in the 28 to 18 Ma Dulce dike swarm with Nd-Sr isotopic data, southwestern Colorado

W. M. McCormick, D. Gonzales
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Abstract

Alkaline to subalkaline mafic dikes in the 28 to 18 Ma Dulce swarm were emplaced in a zone of incipient extension from southern Colorado into northern New Mexico on the northeastern boundary of the San Juan Basin. The 87Sr/86Sr ratios for the dikes are 0.70503 to 0.70584, akin to most post-28 Ma mafic rocks across the northern San Juan Basin. These data are consistent with melting of metasomatized subcontinental lithospheric mantle with little to no crustal contribution as revealed by the geochemical and Sr-Nd isotopic signatures of most 28–0.6 Ma mafic rocks in the region. Time-corrected εNd(t) values of −4.1 to −7.4 for rocks in the Dulce swarm, however, indicate that magma production involved the crust. A previous hypothesis for Dulce magmas was contamination of lithospheric mantle melts with up to 45% mafic lower crust ± 0.5% upper crust. In this investigation, six new whole-rock Sr and Nd isotopic analyses were combined with published data to further investigate the contamination of lithospheric mantle melts with different crustal reservoirs. The Nd isotope signatures of the Dulce swarm offer evidence for the long-term involvement (∼10 Ma) of lower crust in the production of rift-related mantle magmas. Isotopic mixing curves support previous hypotheses for the contamination of lithospheric mantle melts with 10 to 40 percent lower mafic crust. This provides further insight into regional variations in mantle magmas produced after 28 Ma in the Four Corners region that likely triggered crustal melting related to caldera complexes in the western San Juan Mountains.
用Nd-Sr同位素数据评价科罗拉多西南部28 ~ 18 Ma杜尔塞岩脉群的地壳污染
28 - 18 Ma Dulce群的碱性至亚碱性基性岩脉位于圣胡安盆地东北边界从科罗拉多州南部到新墨西哥州北部的早期延伸区。岩脉87Sr/86Sr比值为0.70503 ~ 0.70584,与圣胡安盆地北部大部分28 Ma后的岩脉相似。该地区大部分28-0.6 Ma镁铁质岩石的地球化学和Sr-Nd同位素特征表明,这些数据与变质的次大陆岩石圈地幔的熔融作用相一致,地壳的贡献很少或没有。杜尔塞群岩石的时间校正εNd(t)值为−4.1 ~−7.4,表明岩浆的产生涉及地壳。先前关于杜尔塞岩浆的假设是岩石圈地幔熔体的污染,高达45%的基性下地壳±0.5%的上地壳。本研究将6个新的全岩Sr和Nd同位素分析与已发表的数据相结合,进一步研究岩石圈地幔熔体与不同地壳储层的污染。杜尔塞群的Nd同位素特征为下地壳长期参与(~ 10 Ma)与裂谷相关的地幔岩浆的产生提供了证据。同位素混合曲线支持先前的假设,即岩石圈地幔熔体受到10%至40%的下层基性地壳的污染。这为进一步了解“四角”地区28ma以后产生的地幔岩浆的区域差异提供了线索,这些地幔岩浆可能引发了圣胡安山脉西部与火山口复合体有关的地壳融化。
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