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山东东部日青威盆地晚中生代沉积岩元素地球化学特征及沉积环境

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刘菲菲, 周瑶琪, 许汉华, 李曼洁. 山东东部日青威盆地晚中生代沉积岩元素地球化学特征及沉积环境[J]. 海洋地质前沿, 2023, 39(10): 22-33. doi: 10.16028/j.1009-2722.2022.157
引用本文: 刘菲菲, 周瑶琪, 许汉华, 李曼洁. 山东东部日青威盆地晚中生代沉积岩元素地球化学特征及沉积环境[J]. 海洋地质前沿, 2023, 39(10): 22-33. doi: 10.16028/j.1009-2722.2022.157
shu
LIU Feifei, ZHOU Yaoqi, XU Hanhua, LI Manjie. Geochemical constraints on depositional environment of Late Mesozoic sedimentary rocks from the Ri-Qing-Wei Basin in the East Shandong[J]. Marine Geology Frontiers, 2023, 39(10): 22-33. doi: 10.16028/j.1009-2722.2022.157
Citation: LIU Feifei, ZHOU Yaoqi, XU Hanhua, LI Manjie. Geochemical constraints on depositional environment of Late Mesozoic sedimentary rocks from the Ri-Qing-Wei Basin in the East Shandong[J]. Marine Geology Frontiers, 2023, 39(10): 22-33. doi: 10.16028/j.1009-2722.2022.157
shu

山东东部日青威盆地晚中生代沉积岩元素地球化学特征及沉积环境

  • 1.

    滨州学院建筑工程学院,滨州 256600

  • 2.

    中国石油大学(华东)地球科学与技术学院,青岛 266580

  • 3.

    中国有色金属工业昆明勘察设计研究院有限公司,昆明 650051

  • 4.

    中国石化胜利油田分公司胜利采油厂,东营 257000

  • 基金项目: 山东省重大科技创新工程项目(2017CXGC1608);校级科研项目(801002019089)
详细信息
    作者简介: 刘菲菲(1983—),女,博士,讲师,主要从事地球化学及大地构造学方面的研究工作. E-mail:172659967@qq.com
    通讯作者: 周瑶琪(1963—),男,博士,教授,博士生导师,主要从事地球化学及盆地动力学方面的研究工作. E-mail:zhouyq@upc.edu.cn

  • 中图分类号: P736

Geochemical constraints on depositional environment of Late Mesozoic sedimentary rocks from the Ri-Qing-Wei Basin in the East Shandong

  • 1.

    School of Architectural Engineering, Binzhou University, Binzhou 256600, China

  • 2.

    School of Geosciences, China University of Petroleum (East China), Qingdao 266580, China

  • 3.

    Kunming Prospecting Design Institute of China Nonferrous Metals Industry Co. Ltd., Kunming 650051, China

  • 4.

    Shengli Oil Production Plant of Shengli Oilfield Company, SINOPEC, Dongying 257000, China

More Information

    摘要

  • 发育在苏鲁造山带上的山东东部日青威盆地是晚中生代以来形成的规模较大的裂陷盆地,其独特的沉积特征有别于周缘其他同期陆相断陷盆地,备受沉积学界的广泛关注。为了解日青威盆地沉积期(包括莱阳期和青山期)古盐度、古气候和氧化还原条件等沉积环境特征,对盆地灵山岛、崂山、诸城桃林、海阳丁字湾和即墨周戈庄5个典型剖面沉积岩样品开展主量、微量和稀土元素地球化学分析。5个典型剖面的沉积岩SiO2和Al2O3含量较低,平均值分别为52.13%和13.06%,而Fe2O3含量较高,平均值为6.14%;ΣREE平均值为199.15×10−6,稍高于澳大利亚后太古宙页岩(PAAS),富集轻稀土元素,相对亏损重稀土元素,具有弱铕(Eu)正异常;相对于上地壳(UCC),样品富集大离子亲石元素,亏损过渡族元素。Sr/Ba和Mg/Ca值表明,自莱阳期至青山期,沉积水体趋向于由咸水/半咸水向微咸水环境的变化;Sr/Cu值、∑(Fe+Mn+Cr+V+Ni+Co) / ∑(Ca+Mg+K+Na+Sr+Ba)值和SiO2-(Al2O3+K2O+Na2O)双变量图解表明,莱阳期和青山期均为干燥气候;V/(V+Ni)和Ce异常表明,莱阳期和青山期沉积水体环境以分层不明显的还原环境为主。综合以上研究表明:日青威盆地莱阳期—青山期古盐度的转变以及干燥气候和还原环境对于揭示盆地的沉积演化过程有着重要的地质意义。

    Ri-Qing-Wei (Rizhao-Qingdao-Weihai) Basin in the eastern Shandong Peninsula, which was developed in the Sulu Orogen, is a large-scale rift basin formed since Late Mesozoic. The unique sedimentary features in the basin are different from adjacent terrestrial rift basins in the same period, which have received great attention from sedimentologists recently. To study the paleosalinity, paleoclimate, and redox conditions in the deposition period (the Laiyang and Qingshan Period) in the Ri-Qing-Wei Basin, the geochemical (major, trace and rare earth elements (REEs)) characteristics of sedimentary rocks samples from five field typical profiles situated in the Lingshan Island, Laoshan, Taolin, Dingzi Bay, and Zhougezhuang areas, respectively, were analyzed. The samples are characterized by relatively low content of SiO2 and Al2O3 (avg. 52.13% and 13.06%, respectively) and high contents of Fe2O3 (avg. 6.14%). ΣREE contents of the samples (avg. 199.15×10−6) are higher than those of UCC. The patterns of REE are characterized by LREE enrichment, HREE depletion, and weakly positive Eu abnormity. Compared with UCC, the samples are enriched in LILEs and depleted in transitional elements. The values of Sr/Ba and Mg/Ca indicate that the water body of deposition during the Laiyang-Qingshan period was from saline/semi-saline to weakly saline water. The value of Sr/Cu, ∑(Fe+Mn+Cr+V+Ni+Co)/∑(Ca+Mg+K+Na+Sr+Ba), and bivariate SiO2-(Al2O3+K2O+Na2O) diagram show that the deposition period was in a dry climate environment, and V/(V+Ni) and Ce abnormity indicate that the deposition period was dominated by a reducing condition. The above comprehensive studies show that the transformation of palesalinity, dry climate and eductive environment of the basin have important geological significance for revealing the process of sedimentary evolution in this area.

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  • 图 1  山东东部近海区域地质概况[2]

    Figure 1. 

    下载: 全尺寸图片 幻灯片

    图 2  野外典型剖面位置分布

    Figure 2. 

    下载: 全尺寸图片 幻灯片

    图 3  微量元素上地壳标准化蛛网图

    Figure 3. 

    下载: 全尺寸图片 幻灯片

    图 4  岩石REE分布模式

    Figure 4. 

    下载: 全尺寸图片 幻灯片

    图 5  SiO2与(Al2O3+K2O+Na2O) 古气候判别图

    Figure 5. 

    下载: 全尺寸图片 幻灯片

    表 1  日青威盆地沉积岩主量元素分析结果

    Table 1.  Contents of major elements of sedimentary rocks in Ri-Qing-Wei Basin

    %
    剖面样品号SiO2Al2O3Fe2O3MgOCaONa2OK2OMnOTiO2P2O5资料来源
    灵山岛CC-155.5513.64.552.636.133.12.520.080.680.24文献[12]
    CC-255.9813.344.562.696.363.292.520.060.370.12文献[12]
    CC-354.7214.775.454.135.562.223.410.050.390.1文献[12]
    QCY-146.4813.447.393.816.72.782.580.090.650.2文献[12]
    QCY-249.5413.297.483.86.513.052.580.060.370.1文献[12]
    QCY-350.5913.785.743.997.63.142.70.070.370.1文献[12]
    DT-153.8214.465.663.655.262.183.060.060.710.46文献[12]
    DT-252.7315.316.073.845.982.543.220.050.410.25文献[12]
    DT-559.9217.734.772.911.572.334.190.020.480.09文献[12]
    DYT-146.5612.115.694.210.72.622.280.170.630.22文献[12]
    DYT-248.5711.565.454.0410.322.772.190.130.320.1文献[12]
    DYT-346.8511.825.954.2510.712.832.280.130.340.11文献[12]
    崂山LS-C-159.615.662.673.735.74.471.350.030.690.15文献[16]
    LS-C-261.328.142.944.32.41.881.470.040.660.18文献[16]
    LS-C-361.8214.142.954.325.573.133.090.040.670.18文献[16]
    LS-C-461.0513.919.693.448.381.753.730.110.640.24文献[16]
    LS-C-565.2514.688.642.274.962.133.840.070.640.26文献[16]
    LS-C-659.8513.678.944.879.121.83.850.120.610.24文献[16]
    桃林16TL-254.6615.194.884.259.033.327.060.120.580.17本研究
    16TL-964.1516.022.692.722.945.663.130.030.420.11本研究
    TL-1557.8616.7211.444.784.482.483.190.070.710.2文献[16]
    TL-2258.0116.318.474.356.221.763.710.070.710.19文献[16]
    TL-3557.2916.8711.804.525.242.363.280.060.430.2文献[16]
    TL-3859.2914.419.624.37.882.154.110.090.360.19文献[16]
    丁字湾16DZW-164.5812.996.051.385.073.11.620.090.720.19本研究
    16DZW-363.7413.833.802.937.063.333.270.10.60.21本研究
    DZW-153.2418.712.665.282.923.213.660.050.830.21文献[16]
    DZW-465.5612.447.002.496.883.012.240.110.530.21文献[16]
    DZW-664.4713.18.462.856.432.9230.110.560.22文献[16]
    周戈庄17JM-125.55.763.974.2931.680.450.820.380.260.12文献[17]
    17JM-213.615.112.331.7141.510.311.330.360.220.09文献[17]
    17JM-310.773.922.451.4744.080.310.940.420.170.1文献[17]
    17JM-417.424.172.411.4640.10.460.930.40.180.1文献[17]
    UCC66.615.45.042.483.593.272.80.10.640.15文献[18]
    下载: 导出CSV

    表 2  日青威盆地沉积岩微量元素分析结果

    Table 2.  Contents of trace elements of sedimentary rocks in Ri-Qing-Wei Basin

    10−6
    剖面样品号VCrCoNiCuZnRbSrCsBaPbThUZr资料来源
    灵山岛CC-174.1452.2912.6619.5119.2480.4097.84438.147.85620.5916.4913.856.42231.08文献[12]
    CC-280.8856.4611.9521.4721.5775.6294.68429.528.27628.5217.3614.065.80219.41文献[12]
    CC-387.4267.3919.8329.8326.4175.70117.24285.5514.13625.9725.9916.133.51212.95文献[12]
    QCY-194.9199.5832.6487.0930.8394.20118.61528.907.34987.7025.8516.366.11213.05文献[12]
    QCY-294.47102.5131.6091.1133.0097.42114.76528.698.05984.0327.9716.315.69204.59文献[12]
    QCY-391.1081.0425.0532.3930.9589.1893.16503.008.03839.1331.8317.285.82220.96文献[12]
    DT-1128.2495.3311.7725.1226.1680.14132.86315.1011.17837.4612.8215.508.08202.09文献[12]
    DT-2130.07101.8311.5827.1628.2184.96128.33311.8511.77831.5714.6416.887.84221.79文献[12]
    DT-5124.5490.4612.1630.1336.07116.03156.04151.5511.821021.5623.8722.143.21200.12文献[12]
    DYT-160.9352.1318.3225.3225.43102.0088.83825.924.95730.5220.3813.725.18217.67文献[12]
    DYT-262.9356.4618.8227.2927.61107.5086.10830.074.90733.8722.0914.465.17210.04文献[12]
    DYT-365.8764.0522.5029.0832.33106.8473.95736.545.72679.2023.2015.515.14179.22文献[12]
    崂山LS-C-187.9060.508.1027.306.9023.9036.00852.00-568.003.6416.703.33174.00文献[16]
    LS-C-278.7056.607.5021.609.1024.7060.00603.00-1110.003.7211.502.29201.00文献[16]
    LS-C-375.6058.007.1021.806.1024.8058.00588.00-1115.003.7310.802.11194.00文献[16]
    LS-C-480.8052.8013.5026.7012.5089.00131.00409.006.11811.0016.8011.901.7886.00文献[16]
    LS-C-585.7053.2011.3022.7012.5076.40121.00475.006.56853.0023.3010.701.5272.40文献[16]
    LS-C-678.2051.7014.0026.509.8086.70132.00440.006.02857.0020.2012.001.6976.40文献[16]
    桃林16TL-291.6250.2110.2026.8024.08108.57269.52621.662.64913.9652.6014.974.53200.29本研究
    16TL-946.5022.686.699.8415.2529.5776.32456.110.801001.5512.5214.033.09199.36本研究
    TL-15112.0074.9016.2039.2022.6094.60170.00446.0011.70919.008.7717.803.75166.00文献[16]
    TL-22102.0068.0017.1038.9014.30112.00143.00668.003.99986.0033.0016.803.56132.00文献[16]
    TL-3589.3044.8033.2031.7028.3059.60139.00398.009.50929.0011.3018.503.77209.00文献[16]
    TL-3875.1039.1044.1022.3014.1097.10127.00459.007.40869.0068.3015.803.32236.00文献[16]
    丁字湾16DZW-172.2349.2813.6017.8273.1576.5366.08454.091.85426.129.999.441.77261.75本研究
    16DZW-371.6840.388.6216.4013.1957.5474.60473.211.591100.7515.1810.402.06221.23本研究
    DZW-1122.0081.2019.8043.7010.7080.60160.00448.006.56897.007.5920.803.49196.00文献[16]
    DZW-457.7041.6011.0019.1034.7066.8070.10536.001.27777.0010.108.651.6055.80文献[16]
    DZW-664.3043.5016.0019.1032.8061.0088.80450.003.04931.0012.309.521.6154.90文献[16]
    周戈庄17JM-154.1828.857.2813.3012.6052.0743.76236.778.642337.9833.455.173.9664.30文献[17]
    17JM-248.9929.836.5012.9512.4236.14103.03204.4420.91216.5017.005.804.7461.20文献[17]
    17JM-345.4723.995.1212.5310.1724.6062.86205.0316.311578.6712.114.183.5045.90文献[17]
    17JM-442.6422.224.8610.859.0027.5853.69184.0713.41249.5910.565.742.7351.00文献[17]
    UCC8262810.52.732019367284717.3929717.517文献[18]
    下载: 导出CSV

    表 3  日青威盆地沉积岩稀土元素分析结果

    Table 3.  Contents of REE elements of sedimentary rocks in Ri-Qing-Wei Basin

    10−6
    剖面样品号LaCePrNdSmEuGdTbDyHoErTmYbLuΣREE资料来源
    灵山岛CC-140.5570.878.3731.966.171.124.510.733.630.712.060.311.940.32173.25文献[12]
    CC-232.6065.258.5127.824.811.054.340.713.440.652.010.342.050.33153.91文献[12]
    CC-336.8775.929.1632.515.901.124.970.793.810.792.220.372.280.35177.06文献[12]
    QCY-149.4382.799.9538.486.701.405.690.924.660.902.590.392.430.39206.72文献[12]
    QCY-238.8879.989.8533.716.061.405.450.904.240.802.450.392.540.38187.03文献[12]
    QCY-335.7471.329.1030.505.991.295.070.823.950.822.300.362.360.35169.97文献[12]
    DT-146.9896.3112.1748.478.671.937.471.195.861.113.130.472.930.46237.15文献[12]
    DT-250.72106.0513.5948.768.912.038.131.306.161.153.350.533.180.53254.39文献[12]
    DT-554.28104.0212.3941.937.191.355.700.894.240.822.600.432.860.43239.13文献[12]
    DYT-146.0189.0510.6639.967.041.636.050.984.890.962.790.412.480.40213.31文献[12]
    DYT-246.0387.8811.4038.986.941.736.321.044.990.982.840.472.700.47212.77文献[12]
    DYT-341.5681.6410.0935.536.361.595.630.934.550.872.690.442.730.44195.05文献[12]
    崂山LS-C-138.9082.108.9931.205.801.225.480.764.480.862.420.382.460.35185.40文献[16]
    LS-C-231.8072.108.8533.206.541.325.840.895.070.992.730.452.690.38172.85文献[16]
    LS-C-330.8069.408.7132.806.541.295.700.875.010.942.620.422.690.36168.15文献[16]
    LS-C-449.0088.4010.5038.806.821.365.811.025.271.032.910.402.830.43214.58文献[16]
    LS-C-546.5085.809.9437.206.501.405.560.944.880.932.630.352.450.40205.48文献[16]
    LS-C-649.3089.8010.4038.706.711.345.960.985.010.972.770.412.770.45215.57文献[16]
    桃林16TL-253.8692.3110.4937.266.661.425.460.904.380.942.490.382.440.37219.36本研究
    16TL-946.5679.939.1532.075.561.134.560.723.530.772.030.322.000.30188.63本研究
    TL-1556.40104.0011.8044.307.721.516.701.135.691.123.070.423.060.49247.41文献[16]
    TL-2254.10101.0011.7042.207.351.696.241.035.331.052.920.402.690.43238.13文献[16]
    TL-3554.60109.0012.1043.506.921.496.390.985.030.952.680.412.820.43247.30文献[16]
    TL-3841.4089.709.5033.605.671.215.110.773.910.742.090.332.200.37196.60文献[16]
    丁字湾16DZW-164.72108.0812.3343.537.761.626.160.964.520.932.390.362.200.32255.88本研究
    16DZW-350.8892.9610.7439.807.351.675.710.884.220.912.410.372.270.34220.51本研究
    DZW-159.80110.0012.3045.307.521.316.611.105.941.213.400.503.540.59259.12文献[16]
    DZW-448.4086.3010.1036.906.391.425.310.884.230.842.330.312.110.32205.84文献[16]
    DZW-645.3081.209.6336.106.461.425.480.874.430.852.420.322.250.35197.08文献[16]
    周戈庄17JM-126.3044.905.3019.303.401.003.000.402.200.401.200.201.300.20109.10文献[17]
    17JM-234.5046.305.5018.803.300.702.800.402.000.401.100.201.100.20117.30文献[17]
    17JM-347.8054.807.2024.003.900.703.600.502.400.501.300.201.400.20148.50文献[17]
    17JM-437.8056.106.5023.404.201.003.700.502.500.501.400.201.400.20139.40文献[17]
    PAAS38.279.68.8333.95.551.084.660.774.680.992.850.412.820.43184.77文献[19]
    下载: 导出CSV

    表 4  日青威盆地沉积岩中部分主微量元素比值

    Table 4.  The major and trace element ratios of sedimentary rocks in Ri-Qing-Wei Basin

    剖面地层时代样品号Sr/BaMg/CaSr /CucV/(V+Ni)Ce/Ce*
    灵山岛莱阳群CC-10.710.3622.770.150.790.79
    莱阳群CC-20.680.3619.910.160.790.86
    莱阳群CC-30.460.6210.810.220.750.89
    莱阳群QCY-10.540.4817.160.210.520.76
    莱阳群QCY-20.540.4916.020.210.510.89
    莱阳群QCY-30.600.4416.250.170.740.86
    莱阳群DT-10.380.5812.050.230.840.88
    莱阳群DT-20.380.5411.050.240.830.89
    莱阳群DT-50.151.564.200.220.810.85
    莱阳群DYT-11.130.3332.480.100.710.85
    莱阳群DYT-21.130.3330.060.110.700.83
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收稿日期:  2022-05-16
刊出日期:  2023-10-28

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