[1] WANG Liang-chen, ZHANG Jin-liang. Sedimentary environment and sedimentary facies[M]. Petroleum Industry Press, 1996.
[2] MENG Fan-yang, CHEN Ke, BAO Shu-jing, et al. Determination of marine-continental transitional facies shale gas: a case study of Baye No. 1 well in Badong area, western Hubei province[J]. Geology in China, 2017, 44(2): 403-404.
[3] SHANG Hui-yun, JIANG Nai-huang. Finger phase biomarkers and molecular parameters in continental sedimentary basins[J]. Journal of Sedimentology, 1983, 01(1): 107-117.
[4] WU Chong-yun. Biomarker for judging sedimentary facies [M]. Petroleum Industry Press, 1980.
[5] ZHENG Yi-ding, LEI Yu-hong, ZHANG Li-qiang, et al. Characteristics of element geochemistry and paleo sedimentary environment evolution of Zhangjiatan Shale in the southeast of Ordos Basin and its geological significance for oil and gas[J]. Natual Gas Geoscience, 2015, 26(7): 1395-1404.
[6] LI Yan-fan, SHAO De-yon, LV Hai-gang, et al. A relationship between elemental in marine shale of Wufeng geochemical characteristics and organic matter enrichment Formation-Longmaxi Formation.Sichuan Basin[J]. Acta PetroleiI Sinca, 2015, 36(12): 1470-1483.
[7] WANG Shu-fang, DONG Da-zhong, WANG Yu-man, et al. Geochemistry evaluation index of redox-sensitive elements for depositional environments of Silurian Longmaxi organic-rich shale in the south of Sichuan basin[J]. Marine Oil and Gas Geology, 2014, 19(3): 27-34.
[8] XIE Guo-liang, SHEN Yu-lin, ZHAO Zhi-gang, et al. Distribution characteristic and geological significance of rare earth and trace elements of mudstone of Pingbei area in Xihu depression[J]. Geochimica, 2013, 42 (6): 599-610.
[9] JIN Yan, FU Qiang. Study on sedimentary system of P formation in well a in oil and gas field of East China Sea[J]. Offshore Oil, 2013, 33(4): 19-23.
[10] XIONG Xiao-hui.XIAO Jia-fei. Geochemical indicators of sedimentary environments-a summary[J]. Earth and Environment, 2011, 39(3): 405-414.
[13] WU Wei-nan, LIU Xi-jun, SHI Yu, et al. Using XRF to compare the pressing method and melting method for geological samples,[J]. Acta Mineralogica Sinica, 2015, (s1): 1115-1116.
[14] ZHENG Pei-chao, LIU Hong-di, WANG Jin-mei, et al. Influences of laser pulse energy on physical characteristics of laser-induced aluminum alloy plasma[J]. Acta Photonica Sinica, 2014, 43(9): 0914003.
[15] CHEN Xing-long, DONG Feng-zhong, WANG Jing-ge, et al. Slag quantitative analysis based on PLS model by laser-induced breakdown spectroscpy[J]. Acta Photonica Sinica, 2014, 43(9): 0930002.
[16] HARMON R S, SHUGHRUE K M, REMUS J J, et al. Can the provenance of the conflict minerals columbite and tantalite be ascertained by laser-induced breakdown spectroscopy [J]. Analytical and Bioandalytical Chemistry, 2011, 400(10): 3377-3382.
[17] HARK R R, REMUS J J, EAST L J, et al. Geographical analysis of "conflict minerals" utilizing laser-induced breakdown spectroscopy[J]. Spectrochim Acta B, 2012, 74-75: 131-136.
[19] ZHU Xiao-qin, XU Tao, TIN Qing-yu, et al. Advanced statistical analysis of laser-induced breakdown spectroscopy data to discriminate sedimentary rocks based on Czerny-Turner and Echelle spectrometers[J]. Spectrochim Acta B, 2014, 93: 8-13.
[20] YU Rong-hua, JIA Jun-wei, FU Hong-bo, et al. Laser induced breakdown spectroscopy applied to lithology identification[J]. Journal of Anhui University Natural Science Edition, (2018-03-30)[2018-06-11].
[21] YANG Hong-xing, FU Hong-bo, WANG Hua-dong, et al. Laser-induced breakdown spectroscopy applied to the characterization of rock by support vector machine combined with principal component analysis[J]. Chinese Physics B, 2016, 25 (6): 290-295.
[23] HARDER H. Boron content of sediments as a tool in facies analysis[J]. Sedimentary Geology, 1970, 4(1): 153-175.
[24] FAN Yu-hai, QU Hong-jun, WANG Hui, et al. The application of trace elements analysis to identifying sedimentary media environment: a case study of Late Triassic strata in the middle part of western Ordos basin[J]. Geology in China, 2012, 39(2): 382-389.