Journal of Jilin University(Earth Science Edition) ›› 2019, Vol. 49 ›› Issue (2): 380-393.doi: 10.13278/j.cnki.jjuese.20180055
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Yuan Hongqi1, Wang Lei1, Yu Yinghua1, Zhang Dongjie1, Xu Fengming2, Liu Haitao3
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[1] 成都地质学院陕北队.沉积岩(物)粒度分析及其应用[M].北京:地质出版社,1978:1-147. Shanbei Team of Chengdu College of Geology. Sedimentary Rocks (Object) Particle Size Analysis and Its Application[M]. Beijing:Geological Publishing House,1978:1-147. [2] 刘岫峰.粒度分析讲座:一[J].矿物岩石,1981,13(6):104-116. Liu Xiufeng. Lecture of Mineral Particle Size Analysis:1[J].Journal of Mineralogy and Petrology,1981,13(6):104-116. [3] Folk R L. Petrology of Sedimentary Rocks[M].Austin:Hemphill Publishing Company,1974:1-190. [4] Visher G S.Grain Size Distributions and Depositional Processes[J].Journal of Sedimentary Research,1969,39(3):1074-1106. [5] 王慧中,项立嵩,张国栋.运用粒度分析方法探讨古代砂体的沉积环境[J].同济大学学报(自然科学版),1979,7(2):38-53. Wang Huizhong,Xiang Lisong,Zhang Guodong.Discussion on Sedimentary Environment of Ancient Sand-Body by Grain Size Analysis Method[J]. Journal of Tongji University (Natural Science Edition),1979,7(2):38-53. [6] 李勇,李海燕,赵应权.沉积物粒度特征及其对环境的指示意义:以濠河为例[J].吉林大学学报(地球科学版),2015,45(3):918-925. Li Yong,Li Haiyan,Zhao Yingquan.Grain Size Characteristics of Haohe River Sediments and Its Environmental Implications[J].Journal of Jilin University (Earth Science Edition),2015,45(3):918-925. [7] Heilbronner R,Keulen N.Grain Size and Grain Shape Analysis of Fault Rocks[J].Tectonophysics,2006,427(1):199-216. [8] Devasto M A,Czeck D M,Bhattacharyya P.Using Image Analysis and ArcGIS to Improve Automatic Grain Doundary Detection and Quantify Geological Images[J].Computers & Geosciences,2012,49(3):38-45. [9] 李世麟.火山碎屑岩的碎屑粒度分析及其应用[J].矿物岩石,1985,2(1):12-25. Li Shilin.Detrital Grain Size Analysis Volcano Clastic Rock and Its Application[J]. Journal of Mineralogy and Petrology,1985,2(1):12-25. [10] Bonadonna C,Houghton B F.Total Grain-Size Distribution and Volume of Tephra-Fall Deposits[J].Bulletin of Volcanology,2005,67(5):441-456. [11] 宋洁,春喜,白雪梅,等.中国沙漠粒度分析研究综述[J].中国沙漠,2016,36(3):597-603. Song Jie,Chun Xi,Bai Xuemei,et al.A Review of Desert Particle Size Analysis in China Desert[J].Journal of Desert Research,2016,36(3):597-603. [12] Nugteren G,Vandenberghe J,Huissteden J K V,et al.A Quaternary Climate Record Based on Grain Size Analysis from the Luochuan Loess Section on the Central Loess Plateau,China[J].Global & Planetary Change,2004,41(3/4):167-183. [13] Sun D,Bloemendal J,Rea D K,et al.Bimodal Grain-Size Distribution of Chinese Loess,and Its Palaeoclimatic Implications[J].Catena,2004,55(3):325-340. [14] Nickling W G.Grain-Size Characteristics of Sediment Transported During Dust Storms[J].Journal of Sedimentary Petrology,1983,53(3):1011-1024. [15] Cheng P,Gao S,Bokuniewicz H.Net Sediment Transport Patterns over the Bohai Strait Based on Grain Size Trend Analysis[J].Estuarine Coastal & Shelf Science,2004,60(2):203-212. [16] Holz C,Stuut J W,Henrich R. Terrigenous Sedimen-tation Processes Along the Continental Margin off NW Africa:Implications from Grain-Size Analysis of Seabed Sediments[J]. Sedimentology,2004,51(5):1145-1154. [17] Stokes G G.On the Effect of the Internal Friction of Fluids on the Motion of Pendulums[J].Transactions of the Cambridge Philosophical Society,1851,9(8):1-86. [18] Sternberg H.Untersuchungen Uber Langenand Querprofil Geschiebefuhrender Flusse[J].Zeitschrift fur Bauwesen,1875,25:483-506. [19] Udden J A.The Merchanical Composition of Wind Deposits[M].Illinois:Augustana Library Publications,1898,3(1):1-69. [20] Rosiwal A.On Geometric Rock Analysis:A Simple Surface Measurement to Determine the Quantitative Content of the Mineral Constituents of a Stony Aggregate[J].Verhandl KK Geol Reich,1898:143-156. [21] Udden J A.Mechanical Composition of Clastic Sediments[J].American Association of Petroleum Geologists Bulletin,1914,25(1):655-744. [22] Krumbein W C.Size Frequency Distributions of Sediments[J]. Journal of Sedimentary Research,1934,4(2):65-77. [23] Hjulstrom F.The Load of the River Fyris in Central Sweden[J]. Bulletin Geology Institution University of Upsala,1936,25:221-527. [24] Emery K O. Rapid Method of Mechanical Analysis of Sands[J].Journal of Sedimentary Research,1938(3):105-111. [25] Krumbein W C.Size Frequency Distribution of Sediments and the Normal Phi Curve[J].Journal of Sedimentary Petrology,1938,8:84-90. [26] Trask P D.Recent Marine Sediments:A Symposium[M].Tulsa:Society of Economic Paleontologists and Mineralogists,Dover Publications,1939:1-453. [27] Doeglas D J.Interpretation of the Result of Mechanical Analysis[J]. Journal of Sedimentary Petrology,1946,16:19-40. [28] Folk R L,Ward W C.Brazos River Bar:A Study in the Significance of Grain-Size Parameters[J].Journal of Sedimentary Petrology,1957,27:3-26. [29] Passega R.Textures as Characteristic of Clastic Deposition[J].American Association of Petroleum Geologists Bulletin,1957,41:1952-1984. [30] Harris S A.The Mechanical Composition of Some Intertidal Sands[J].Journal of Sedimentary Petrology,1959,29:412-424. [31] Friedman G M. Distribution Between Dune,Beach,and River Sands from the Textural Characteristics[J].Journal of Sedimentary Petrolohy,1961,31:514-519. [32] Sahu B K.Depositional Mechanisms from Size Analysis of Clastic Sediments[J].Journal Sediment Petrology,1964,34:73-83. [33] Klovan J E.The Use of Factor Analysis in Determining Depositional Environments from Grain-Size Distributions[J].Journal of Sedimentary Petrology,1966,36:115-125. [34] Rumelhart D E,Clelland J L.Parallell Distributed Processing:Exploration in the Microstructure of Cognitions[M]. Cambridge:MIT Press,1986:1-362. [35] Mclachlan G J,Basford K E.Mixture Models:Inference and Applications to Clustering[M].New York:Marcel Dekker,1988:1-253. [36] Nielson R H. Theory of the Back Propagation Neutral Networks[A]. Proc of IJCNN,1989:593-693. [37] 曲政.粒度总体分解图及其沉积学意义[J].中国海上油气:地质,1990,4(3):37-48. Qu Zheng.Grain Size Collectivity Decomposition Diagram and Its Sedimentary Significance[J].Chinese Offshore Oil and Gas:Geology,1990,4(3):37-50. [38] 陈秀法,冯秀丽,刘冬雁,等.激光粒度分析与传统粒度分析方法相关对比[J].青岛海洋大学学报(自然科学版),2002,32(4):608-614. Chen Xiufa,Feng Xiuli,Liu Dongyan,et al.Comparison Between Laser Particle Size Analysis and Traditional Particle Size Analysis Method[J].Journal of Ocean University of Qingdao (Natural Sciences Edition),2002,32(4):608-614. [39] Tarquini S,Favalli M.A Microscopic Information System (MIS) for Petrographic Analysis[J].Computers & Geosciences,2010,36(5):665-674. [40] 季长军,伊海生,夏国清.图像分析技术在碎屑岩粒度分析中的应用[J].地质科技情报,2012,31(3):122-127. Ji Changjun,Yi Haisheng,Xia Guoqing.Application of Image Analysis Technique in Granulometric Analysis of Clastic Rock[J].Geological Science and Technology Information,2012,31(3):122-127. [41] 冯丹,苏桂芬,马丽红.砂岩粒度分析计算机方法研究与对比[J].华北科技学院学报,2015,12(1):78-83. Feng Dan,Su Guifen,Ma Lihong.Study and Comparison of Computer Methods of Sandstone Grain Size Analysis[J].Journal of North China Institute of Science and Technology,2015,12(1):78-83. [42] Wentworth C K.A Scale of Grade and Class Terms for Clastic Sediments[J]. Journal of Geology,1922,30(5):377-392. [43] 肖晨曦,李志忠.粒度分析及其在沉积学中应用研究[J].新疆师范大学学报(自然科学版),2006,25(3):118-123. Xiao Chenxi,Li Zhizhong.Study on Particle Size Analysis and Its Application in Sedimentology[J].Journal of Xinjiang Normal University (Natural Sciences Edition),2006,25(3):118-123. [44] Krumbein W C,Pettijohn F J.Manual of Sedimentary Petrography:I:Sampling,Preparation for Analysis,Mechanical Analysis and Statistical Analysis[M]. New York:Appleton-Century-Crofts,1938:1-549. [45] Rosin P,Rammler E.Regularities in the Distribution of Cement Particles[J]. J Inst Fuel,1933,7:29-33. [46] Shields A.Application of Similarity Principles and Turbulence Research to Bed-Load Movement[M].Pasadena:California Institute of Technology and U.S.Soil Conservation Service,1936:1-47. [47] 王慎文,谢春安,唐渊明,等.激光法粒度筛析校正研究[J].沉积学报,2012,30(4):716-723. Wang Shenwen,Xie Chun'an,Tang Yuanmimg,et al.Correction of Particle Size Screening by Laser Method[J].Acta Sedimentologica Sinica,2012,30(4):117-124. [48] 王爱霞.激光法与移液管法所测泥沙粒度及特征值的对比分析[C]//中国水力发电工程学会水文泥沙专业委员会学术讨论会论文集.杭州:黄委会三门峡库区水文水资源局,2007:82-84. Wang Aixia.Comparative Analysis of Laser Method and Pipette Method and Characteristics of Sediment Value[C]//Proceedings of Chinese Hydroelectric Engineering Institute of Hydrology and Sediment Specialized Committee Symposium.Hangzhou:Yellow River Commission Sanmenxia Reservoir Hydrology and Water Resources Bureau,2007:82-84. [49] Beuselinck L,Govers G,Poesen J,et al.Grain-Size Analysis by Laser Diffractometry:Comparison with the Sieve-Pipette Method[J].Catena,1998,32(3/4):193-208. [50] Konert M,Vandenberghe J.Comparison of Laser Grain Size Analysis with Pipette and Sieve Analysis:A Solution for the Underestimation of the Clay Fraction[J]. Sedimentology,1997,44(3):523-535. [51] Molinaroli E,Falco G D,Rabitti S,et al.Stream-Scanning Laser System,Electric Sensing Counter and Settling Grain Size Analysis:A Comparison Using Reference Materials and Marine Sediments[J].Sedimentary Geology,2000,130(3/4):269-281. [52] 曹玉鹏,邓永锋,洪振舜,等.激光法与比重计法粒径分布相关性试验研究[J].东南大学学报(自然科学版),2012,42(4):755-760. Cao Yupeng,Deng Yongfeng,Hong Zhenshun,et al.Experimental Study on Correlation of Particle Size Distribution by Laser and Hydrometer Method[J].Journal of Southeast University (Natural Science Edition),2012,42(4):755-760. [53] 马艳霞,冯秀丽,叶银灿,等.比重计法和吸液管法粒度分析比较[J].海洋科学,2002,26(6):63-67. Ma Yanxia,Feng Xiuli,Ye Yincan,et al.Tube Comparative Analysis of Particle Method and Liquid Densimeter[J]. Marine Sciences,2002,26(6):63-67. [54] 左可胜,刘建朝,孟鹏飞.膨润土与石英的粒度分析方法优选[J].地球科学与环境学报,2009,31(3):277-280. Zuo Kesheng,Liu Jianchao,Meng Pengfei.Optimum Selection of Particle Size Analysis of Bentonite and Quartz[J].Journal of Earth Sciences and Environment,2009,31(3):277-280. [55] 牛占,和瑞勇,李静,等.激光粒度分析仪应用于黄河泥沙颗粒分析的实验研究[J].泥沙研究,2002,2(5):6-14. Niu Zhan,He Ruiyong,Li Jing,et al.Application of Laser Particle Size Analyzer to Analysis of Sediment Particles in the Yellow River[J]. Journal of Sediment Research,2002,2(5):6-14. [56] 刘秀明,李文宝,邢春颖.MS2000激光粒度分析仪在沉积物分析中的应用[J].实验技术与管理,2007,24(9):49-52. Liu Xiuming,Li Wenbao,Xing Chunying. Application of Laser Grain Analyser MS2000 to Deposit Analysis[J].Experimental Technology and Management,2007,24(9):49-52. [57] 孔丹,何清,张瑞军.应用Malvern MS2000激光粒度仪分析沙尘粒度[C]//第24届中国气象学会年会论文集.广州:中国气象局乌鲁木齐沙漠气象研究,2007:798-807. Kong Dan,He Qing,Zhang Ruijun.Analysis of Dust Particle Size by Malvern MS2000 Laser Particle Size Analyzer[C]//Proceedings of the 24th China Meteorological Society Annual Meeting.Guangzhou:Urumqi Desert Meteorological Research Institute,China Meteorological Administration,2007:798-807. [58] 刘岫峰.粒度分析讲座:二[J].矿物岩石,1981,2(6):109-127. Liu Xiufeng. Lecture ofMineral Particle Size Analysis:2[J]. Journal of Mineralogy and Petrology,1981,2(6):109-127. [59] 丁喜桂,叶思源,高宗军.粒度分析理论技术进展及其应用[J].世界地质,2005,24(2):203-207. Ding Xigui,Ye Siyuan,Gao Zongjun.Progress and Application of Particle Size Analysis Theory[J].Global Geology,2005,24(2):203-207. [60] 夏红峰,张永刚,张永涛,等.旋流分级技术在矿物加工中的应用[J].现代矿业,2010,26(10):43-45. Xia Hongfeng,Zhang Yonggang,Zhang Yongtao,et al. Application of Cyclonic Technology in the Mineral Processing[J].Modern Mining Industry,2010,26(10):43-45. [61] 董连平,高建川,杨宏丽,等.分级旋流器分选作用与分选旋流器分级作用的试验研究[J].煤炭学报,2014,39(5):954-960. Dong Lianping,Gao Jianchuan,Yang Hongli,et al.Experimental Study on the Separation Effect Based on Density in Hydrocyclone and the Classification Effect Based on Size in Water-Only Cyclone[J].Journal of China Coal Society,2014,39(5):954-960. [62] 刘岫峰.粒度分析讲座:三[J].矿物岩石,1982,2(2):123-132. Liu Xiufeng.Lecture of Mineral Particle Size Analysis:3[J].Journal of Mineralogy and Petrology,1982,2(2):123-132. [63] 薛元忠,何青,王元叶.OBS浊度计测量泥沙浓度的方法与实践研究[J].泥沙研究,2004,10(4):56-60. Xue Yuanzhong,He Qing,Wang Yuanye.The Research and Practice of OBS Method for the Measurement of Sediment Concentration[J].Journal of Sediment Research,2004,10(4):56-60. [64] Johnson M R.Thin Section Grain Size Analysis Revisited[J]. Sedimentology,1994,41(5):985-999. [65] 韩忠,张枭,刘晓煌,等.新疆哈拉奇地区柯坪塔格组砂岩粒度特征[J].西北地质,2013,46(4):106-114. Han Zhong,Zhang Xiao,Liu Xiaohuang,et al.Kepingtage Formation Sandstone Grain Size Characteristics at Rudge,Xinjiang[J].Northwestern Geology,2013,46(4):106-114. [66] Rubin D M,Chezar H,Harney J N,et al.Underwater Microscope for Measuring Spatial and Temporal Changes in Bed-Sediment Grain Size[J].Sedimentary Geology,2007,202(3):402-408. [67] Hooke R L,Iverson N R.Grain-Size Distribution in Deforming Subglacial Tills:Role of Grain Fracture[J]. Geology,1995,23(1):57-60. [68] 成都地质学院碳酸盐岩科研队.碳酸盐岩石研究的揭片法[J].成都地质学院学报,1975,3(增刊1):139-147. Carbonate Research Team of Chengdu College of Geology.The Method of Uncovering Slices in Carbonate Rock Research[J].Journal of Chengdu College of Technology,1975,3(Sup.1):139-147. [69] 张大恩,董良珠,李才良,等.土质学研究中揭片法之应用[C]//首届全国工程地质学术会议论文集.苏州:上海地质处,1979:289-292. Zhang Daen,Dong Liangzhu,Li Cailiang,et al.Application of Peel Method in Soil Science Research[C]//Proceedings of the First National Engineering Geology Society.Suzhou:Shanghai Geological Department,1979:289-292. [70] Smettem K R J,George N C.Statistical Characterization of Soil Biopores Using a Soil Peel Method[J]. Geoderma,1985,36(1):27-36. [71] 师育新,陈志祥,史基安.沉积岩微区形貌及成分定量研究的图像分析仪方法[J].沉积学报,1996,14(增刊1):164-170. Shi Yuxin,Chen Zhixiang,Shi Ji'an.The Sedimentary Rock Micro Morphology and Composition of Quantitative Image Analyzer Method[J].Acta Sedimentologica Sinica,1996,14(Sup.):164-170. [72] 刘岫峰,李之权,何本源,等.JGT型光笔式图像分析仪在沉积岩研究应用中若干问题的探讨[J].沉积学报,1983,1(2):153-165. Liu Xiufeng,Li Zhiquan,He Benyuan,et al.To Investigate the JTG Type Light Pen Image Analyzer,Some Problems in the Application of Sedimentary Rocks[J].Acta Sedimentologica Sinica,1983,1(2):153-165. [73] 陈瑞君.岩石颗粒度测量方法的研究及其应用[J].岩石学报,1989,5(4):76-82. Chen Ruijun.Research and Application of Rock Particle Size Measurement Method[J].Acta Petrologica Sinica,1989,5(4):78-84. [74] Izadi H,Sadri J,Mehran N A.A New Intelligent Method for Minerals Segmentation in Thin Sections Based on a Novel Incremental Color Clustering[J].Computers & Geosciences,2015,81(C):38-52. [75] Francus P.An Image-Analysis Technique to Measure Grain-Size Variation in Thin Sections of Soft Clastic Sediments[J]. Sedimentary Geology,1998,121(3/4):289-298. [76] Gorsevski P,Onasch C M. Detecting Grain Boundaries in Deformed Rocks Using a Cellular Automata Approach[J].Computers & Geosciences,2012,42:136-142. [77] Buscombe D.Estimation of Grain-Size Distributions and Associated Parameters from Digital Images of Sediment[J]. Sedimentary Geology,2008,210(1):1-10. [78] Rubin D M.A Simple Autocorrelation Algorithm for Determining Grain Size from Digital Images of Sediment[J].Journal of Sedimentary Research,2004,74(1):160-165. [79] Herwegh M.A New Technique to Automatically Quantify Microstructures of Fine Grained Carbonate Mylonites:Two-Step Etching Combined with SEM Imaging and Image Analysis[J]. Journal of Structural Geology,2000,22(4):391-400. |
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