Protolith age and exhumation history of metagranites from the Dabie UHP metamorphic belt in east-central China: A multi-chronological study

Wang, Rucheng; Xu, Shidang; Fang, Zhong; Shieh, Y. N.; Li, Huimin; Li, Daming; Wan, Jie; Wu, Wenbin

doi:10.2343/geochemj.38.345

Cited by 8 publications

(4 citation statements)

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“…For example, Rowley et al [3] reported an upper intercept age of 805 ± 15 Ma for gneissic metagranites at Shima, and Chavagnac et al [14] gave an upper intercept age of 720 ± 26 Ma for those at Bixiling, and considered them to be the protolith ages. Wang et al [15] reported several sets of upper and lower intercept ages for different metagranite plutons, such as 726 ± 15 Ma and 224.5 ± 6.3 Ma for Shuanghe, 714 ± 14 Ma and 209 ± 14 Ma for Bixiling, 720 ± 61 Ma and 197 ± 21 Ma for Xindian, and 755 ± 34 Ma and 299 ± 33 Ma for Huangzhen, and considered the upper and lower intercept ages to be the protolith ages and the subsequent UHP and/or retrograde metamorphic ages, respectively. The above dating results suggest that the protoliths of the gneissic metagranites in Dabie region were mainly formed in Neoproterozoic (700-800 Ma) [16].…”

Section: Geochronologymentioning

confidence: 98%

“…The quartz grains are anhedral and display apparent wavy extinction, and some of them occur as lenticular poly-crystal aggregations. Plagioclases in Huangzhen, Daba, Shima and Shuanghe gneissic metagranites are mainly albite (An = 1-10), whereas those in Sanzusi pluton are albite-oligoclase (An = [8][9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25]. They are all euhedral to subhedral, and lath in shape, with some grains showing inhomogeneous extinction due to metamorphism.…”

Section: General Geology and Petrologymentioning

confidence: 99%

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Geochronology and geochemistry of gneissic metagranites in eastern Dabie Mountains: Implications for the Neoproterozoic tectono-magmatism along the northeastern margin of the Yangtze Block

Qiu

et al. 2010

Sci. China Earth Sci.

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The gneissic metagranites with Neoproterozoic protolith ages are widely exposed along the eastern margin of the Dabie ultrahigh-pressure (UHP) metamorphic belt. In this paper, five representative plutons, including Huangzhen, Daba, Shima, Shuanghe, and Sanzusi, were selected for a detailed chronological and geochemical study aiming to identify the nature of the protoliths and to reveal their implications for the Neoproterozoic tectono-magmatic evolution along the northeastern margin of the Yangtze Block. These gneissic metagranites consist mainly of quartz, albite (oligoclase) and K-feldspar, and minor amphibole and biotite, as well as some metamorphic minerals due to the UHP metamorphism, such as phengite, epidote and minor kyanite and garnet. Mafic alkaline minerals (e.g., aegirine or aegirine-augite) have been observed in some of these plutons. Zircon LA-ICP-MS U-Pb dating results indicate that the protoliths of the gneissic metagranites have been generated in Mid-Neoproterozoic (770-780 Ma), and suffered both ultrahigh-pressure metamorphism in Early Mesozoic and subsequently high-pressure eclogite-facies recrystallization at about 215 Ma. Although the gneissic metagranites generally have high SiO 2 contents (70.23%-77.23%) and show metaluminous-weakly peraluminous signatures (ASI=0.90-1.05), there are still some geochemical variances between different plutons. Compared with the Sanzusi pluton, the metagranites from the Huangzhen, Daba, Shima, and Shuanghe have high K 2 O+Na 2 O contents (7.76%-9.45%), FeO total /(FeO total +MgO) ratios (0.82-0.96), HFSEs and Ga concentrations with an average 10 4 ×Ga/Al ratio up to 3.07. Combined with the features that the four plutons commonly contain aegirine-augite and have high zircon saturation temperatures (816-918°C), it is suggested that their protoliths belong to peralkaline A-type granites. The Sanzusi pluton generally contains biotite and epidote generated from metamorphic reaction of amphibole, and is chemically enriched in calcium and depleted in potassium with K 2 O/Na 2 O ratios ranging from 0.42 to 0.54, suggesting their protoliths should be ascribed to calc-alkaline granitoids (I-type). The gneissic metagranites in the eastern margin of Dabie Mountains show both arc-and rift-like geochemical signatures, and their protoliths likely have been generated by reworking of the preexisting arc-related crust under an extensional setting, suggesting that the northeastern margin of the Yangtze Block during the Middle Neoproterozoic likely have been under the initial stage of a passive rifting rather than in an active rifting setting typically induced by the upwelling of a mantle plume. gneissic metagranite, zircon U-Pb chronology, geochemistry, tectono-magmatism, eastern margin of Dabie Mountains Citation:Hu J, Qiu J S, Xu X S, et al. Geochronology and geochemistry of gneissic metagranites in eastern Dabie Mountains: Implications for the Neoproterozoic tectono-magmatism along the northeastern margin of the Yangtze Block.

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Section: Geochronologymentioning

confidence: 98%

Section: General Geology and Petrologymentioning

confidence: 99%

Geochronology and geochemistry of gneissic metagranites in eastern Dabie Mountains: Implications for the Neoproterozoic tectono-magmatism along the northeastern margin of the Yangtze Block

Qiu

et al. 2010

Sci. China Earth Sci.

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“…对区内片麻状变质花岗岩的年龄前人主要运用 ID-TIMS 方法测定, 如 Rowley 等 [3] 测得石马片麻状变质花岗岩的上交点年龄为(805±15) Ma, Chavagnac 等 [14] 测得碧溪岭片麻状变质花岗岩的上交点年龄为 (720±26) Ma, 并认为它们应代表原岩的形成年龄. Wang 等 [15] [16] , 但由于 ID-TIMS 方法无法进行原位微区分析, 对于具有复杂历史的锆石样品会得出混合年龄, 从而导致无意义的定年结果.…”

Section: 年代学unclassified

“…他认为 A 型花岗岩可进一步区分为构造环境及来源不同的 A 1 和 A 2 两组, A 1 组以其 Y/Nb 和 Y/Ta 比值与洋岛玄武岩相似为特征, 岩浆起源于地幔并产于大陆裂谷或地幔热柱、热点环境; A 2 组其比值则可由类似平均地壳变化至类似岛弧玄武岩, 岩浆起源于地壳或由岛弧岩浆作用派生, 产于后碰撞或后造山的张性构造环境. 在 Eby 提出的 A 型花岗岩亚类判别图解上, 原岩具有 A 型 [15] 花岗岩特性的第一组片麻状花岗岩均投影在 A 2 区(图 9, 10), 显示与岛弧玄武岩(IAB)的地球化学特征具亲缘性. 结合在相对原始地幔标准化的蛛网图上, Sr, P, Ti, Nb 和 Ta 等元素呈显著的亏损特征, 表明这些片麻状变质花岗岩的源区可能与俯冲作用有密切的联系, 其原岩应形成于后碰撞或后造山的伸展引张环境.…”

Section: 讨论unclassified