国内外红层与丹霞地貌研究述评

doi:10.11821/dlxb201309002

摘要/Abstract

摘要： 在中国丹霞地貌走向世界,开始一个新的发展阶段的时候,回顾并评述国内外红层和丹霞地貌的研究进展十分必要。国内在该领域的研究长期集中在红层特性、工程地质、丹霞地貌特征及发育的基本问题等方面,但对红层的地质和地貌融合研究不足,对不同红层的岩性差异及其在外动力条件下的地貌表现和地貌发育过程缺乏深度研究;国外还没有红层地貌和丹霞地貌的专门研究,学者们主要关注红层形成的地质背景,有关红层地貌的研究多分散在砂岩地貌中,但其在微观、定量、实验研究方面值得借鉴。本文认为当前有关红层和丹霞地貌的研究大多为单因子研究,缺乏系统的思想方法,各学科研究存在多张皮的问题。提出应明确红层和丹霞地貌的学科归属,深化基础研究,加强各学科之间的融合,并推动国际交流和对比研究。

关键词: 红层地貌, 丹霞地貌, 国际对比研究, 砂岩地貌, 红层

Abstract: In the context that China Danxia landform went into the world and began the research of a new phase, it is necessary to make a review on the research progress of red beds and Danxia landform in and outside China. It is revealed that the domestic study was focused on the characteristics of red beds, engineering geology, features of Danxia landform and the basic problems of development. In general, in China there were no integrated studies of red beds concerning the field of geology and geomorphology, and the differences between lithologic characteristics of red beds and their related geomorphic development processes under the influence of exogenetic force were not well understood. However, research outside China were limited in the field of geology, and relevant studies of red beds and Danxia landform were conducted in the field of sandstone landform, with a microscopic, quantitative and experimental analysis. This paper suggests that most of the existing studies on red beds and Danxia landform were focused on single factor, and lack of subject system, and the integration of related subjects was also insufficient. Then, a new agenda for the future research was put forward, in which a clear discipline classification of red beds and Danxia landform and further basic research should be made, and the integration of related subjects, international communication and the global comparative research should also be strengthened.

Key words: red bed landform, sandstone landform, global comparative research, Danxia landform, red beds

彭华, 潘志新, 闫罗彬, Scott SIMONSON. 国内外红层与丹霞地貌研究述评[J]. 地理学报, 2013, 68(9): 1170-1181.

PENG Hua, PAN Zhixin, YAN Luobin, Scott SIMONSON. A review of the research on red beds and Danxia landform[J]. Acta Geographica Sinica, 2013, 68(9): 1170-1181.

参考文献

[1] Feng Jinlan, Zhu Huisheng. Geology and mineral resources of Qujiang, Renhua, Shixing and Nanxiong, Guangdong Province. Annals of Guangdong and Guangxi Geological Survey, 1928, (1): 38-42. [冯景兰, 朱翙声. 广东曲江仁化始兴南雄地质矿产. 两广地质调查所年报, 1928, (1): 38-42.]
[2] Chen Guoda, Liu Huisi. Geology of Gongshui valley, Jiangxi. Geological Transactions of Jiangxi, 1939, (2): 1-64. [陈国达, 刘辉泗. 江西贡水流域地质. 江西地质汇刊, 1939, (2): 1-64.]
[3] Peng Hua, Hou Rongfeng, Pan Zhixin et al. A grand meeting of Danxia Geomorphology go to the world stage: Minutes of the First Conference of Danxia Geomorphology Working Group of IAG & the Second International Symposium on Danxia Landform. Acta Geographica Sinica, 2012, 67(1): 134-139. [彭华, 侯荣丰, 潘志新等. 走向世界的丹霞地貌学术盛会: 国际地貌学家协会丹霞地貌工作组第一次会议暨第二届丹霞地貌国际学术讨论会在韶关成功召开. 地理学报, 2012, 67(1): 134-139.]
[4] Peng Hua. Perspectives on the red beds landforms in humid area of southern China and some related problems. Geographical Research, 2011, 30(10): 1739-1752. [彭华. 中国南方湿润区红层地貌及相关问题探讨. 地理研究, 2011, 30(10): 1739-1752.]
[5] Zeng Zhaoxuan, Huang Shaomin. Red bed landform in Southeast China. Journal of South China Normal College: Natural Science, 1978, (1): 56-73. [曾昭璇, 黄少敏. 中国东南部红层地貌. 华南师范学院学报: 自然科学版, 1978, (1): 56-73.]
[6] Ju Huiyang, Gu Renjie. Geological characteristics and engineering geological problem of red beds in South China. Shanghai Geology, 1983, (3): 1-16. [居恢扬, 顾仁杰. 我国南方红层的地质特征及其工程地质问题. 上海地质, 1983, (3): 1-16.]
[7] Guo Yongchun, Xie Qiang, Wen Jiangquan. Red beds distribution and engineering geological problem in China. Hydrogeology and Engineering Geology, 2007, (6): 67-71. [郭永春, 谢强, 文江泉. 我国红层分布特征及主要工程地质问题. 水文地质工程地质, 2007, (6): 67-71.]
[8] Peng Hua, Wu Zhicai. A priliminary study on the characteristics and the distribution of red beds. Acta Scientiarum Naturalium Universitatis Sun Yatseni, 2003, 42(5): 109-113. [彭华, 吴志才. 关于红层特点及分布规律的初步探讨. 中山大学学报: 自然科学版, 2003, 42(5): 109-113.]
[9] Chen Guoda. Red rock series in Guangdong. Quarterly Journal of Science of National Sun Yat-sen University, 1935, 6 (4): 783-784. [陈国达. 广东之红色岩系. 国立中山大学理学季刊, 1935, 6(4): 783-784.]
[10] Zeng Zhaoxuan. A preliminary discussion on the topography in the region of thick-layer red sandstone in south Renhua. Geographic Collected Papers of National Sun Yat-sen University, 1943, (12): 19-24. [曾昭璇. 仁化南部厚层红色砂岩区域地形之初步探讨. 国立中山大学地理集刊, 1943, (12): 19-24.]
[11] Wu Shangshi, Zeng Zhaoxuan. The red beds in north Kwang-tung. Special Issue of Lingnan Journal, 1946: 12-20. [吴尚时, 曾昭璇. 粤北之红层. 岭南学报专号, 1946: 12-20.]
[12] Wu Shangshi, Zeng Zhaoxuan. Geology and topography of red rock series in north Guangdong. Collected Papers of Geoseicece, 1948, (6): 13-45. [吴尚时, 曾昭璇. 粤北红色岩系之地质与地形. 地学集刊, 1948, (6): 13-45.]
[13] Wu Zhicai, Peng Hua. A study on the formation and development rules of the red beds in Guangdong Province. Tropical Geography, 2006, 26(3): 207-210. [吴志才, 彭华. 广东红层形成及其发育规律研究. 热带地理, 2006, 26(3): 207-210.]
[14] Tan Chao, Pan Guoyao, Liu Zongxiang et al. Engineering geological characteristic of weak seam in red bed hills, East Sichuan. Acta Geologica Sichuan, 2011, 31(2): 212-214. [谭超, 潘国耀, 刘宗祥等. 川东红层丘陵区软弱夹层工程特性. 四川地质学报, 2011, 31(2): 212-214.]
[15] Zhong Kai, Liu Aiping, Xie Qiang. Survey and Experimental study on the weathering and flaking process of red bed slope. Subgrade Engineering, 2000, (4): 53-56. [钟凯, 刘爱萍, 谢强. 红层边坡风化剥落过程的调查与试验研究. 路基工程, 2000, (4): 53-56.]
[16] Yang Zongcai, Zhang Junyun, Zhou Depei. Study on fast weathering characteristics of red bed mudstone slope. Chinese Journal of Rock Mechanics and Engineering, 2006, 25(2): 275-283. [杨宗才, 张俊云, 周德培. 红层泥岩边坡快速风化特性研究. 岩石力学与过程学报, 2006, 25(2): 275-283.]
[17] Peng Hua. A survey of the Danxia landform research in China. Scientia Geographica Sinica, 2000, 20(3): 203-211. [彭华. 中国丹霞地貌研究进展. 地理科学, 2000, 20(3): 203-211.]
[18] Li Jianxian (Huang Jin). Geomorphic types in Guangdong Province. Acta Scientiarum Naturalium Universitatis SunYatseni, 1961, (4): 70-81. [李见贤(黄进). 广东省的地貌类型. 中山大学学报, 1961, (4): 70-81.]
[19] Yang Yingyu. Study on the definition of Danxia landform and Danxia tourism landform. Tourism Tribune, 1993, (5): 48-51. [杨颖瑜. 关于丹霞地貌与丹霞旅游地貌定义的研究. 旅游学刊, 1993, (5): 48-51.]
[20] Chen Anze. Discussion of some problems of Danxia landform. Economic Geography, 2007, 27(Suppl.): 10-15. [陈安泽. 丹霞地貌若干问题讨论. 经济地理, 2007, 27(增刊): 10-15.]
[21] Huang Jin. A basic model of the slope development of Danxia landform. Tropical Geography, 1982, 3(2): 107-134. [黄进. 丹霞地貌坡面发育的一种基本方式. 热带地理, 1982, 3(2): 107-134.]
[22] Liu Shangren, Liu Ruihua. On the conception of Danxia landfrom. Journal of Mountain Science, 2003, 21(6): 669-674. [刘尚仁, 刘瑞华. 丹霞地貌概念探讨. 山地学报, 2003, 21(6): 669-674.]
[23] Gao Shankun, Zhu Guoqiang, Dong Chuanwan et al. The morphological development of Danxia hillslope: A case study of Xinchang Danxia landform. Tropical Geography, 2004, 24(2): 131-135. [高善坤, 竺国强, 董传万等. 丹霞地貌的坡地形态演化: 以浙江新昌丹霞地貌为例. 热带地理, 2004, 24(2): 131-135.]
[24] Peng Hua. The Red Stone Park of China Danxiashan. Beijing: Geological Publishing House, 2004: 51-54. [彭华. 中国红石公园丹霞山. 北京: 地质出版社, 2004: 51-54.]
[25] Huang Jin, Chen Zhijun, Huang Keguang. The definition and classification of Danxia landform. Tropical Geomorphology, 1992(Suppl.): 37-39. [黄进, 陈致均, 黄可光. 丹霞地貌的定义及分类. 热带地貌, 1992(增刊): 37-39.]
[26] Luo Chengde. The tourism resource of Danxia landform in the western part of Sichuang Basin. Econonic Geography, 1994, 14(Suppl.): 152-158. [罗成德. 四川盆地西部的丹霞地貌旅游资源. 经济地理, 1994, 14(增刊): 152-158.]
[27] Chen Zhijun, Huang Keguang, Dai Wenzhao. The distribution of Danxia landform in Gansu Province. Economic Geography, 1994, 14(Suppl.): 159-166. [陈致均, 黄可光, 戴文昭. 甘肃丹霞地貌的分布. 经济地理, 1994, 14(增刊): 159-166.]
[28] Peng Hua. The research on classification system of Danxia landform. Economic Geography, 2002, 22(Suppl.): 28-35. [彭华. 丹霞地貌分类系统研究. 经济地理, 2002, 22(增刊): 28-35.]
[29] Huang Jin. Geomorphology of Mountain Danxiashan. Beijing: Science Press, 2010: 17-76. [黄进. 丹霞山地貌. 北京: 科学出版社, 2010: 17-76.]
[30] Liu Shangren, Huang Ruihong. Red bed karst landform and the Danxia landform in Guangdong Province. Carsologica Sinica, 1991, 10(3): 183-189. [刘尚仁, 黄瑞红. 广东红层岩溶地貌与丹霞地貌. 中国岩溶, 1991, 10(3): 183-189.]
[31] Liu Shangren. Red beds karst of Guangdong and its mechanism. Carsologica Sinica, 1994, 13(4): 395-403. [刘尚仁. 广东的红层岩溶及其机制. 中国岩溶, 1994, 13(4): 395-403.]
[32] Yang Mingde. On characterstics of Danxia-karst landform and its dynamic process for geomorphological evolution. Economic Geography, 2003, 23(Suppl.): 39-45. [杨明德. 丹霞喀斯特地貌特性及其演化驱动力研究. 经济地理, 2003, 23(增刊): 39-45.]
[33] Luo Bingsheng. Temperature stress effect of the rock mass in the formation procedure of Danxia landform. Journal of Guangdong Institute of Technology, 1994, 11(4): 1-7. [罗炳生. 丹霞地貌形成过程的岩体温度应力效应. 广东工学院学报, 1994, 11(4): 1-7.]
[34] Luo Bingsheng. The development of Danxia landform in Jinjiling District and its relationship to unloading effect. Journal of Guangdong Institute of Technology, 1993, 10(1): 83-90. [罗炳生. 金鸡岭丹霞地貌发育与卸荷效应关系. 广东工学院学报, 1993, 10(1): 83-90.]
[35] Huang Jin. Quantitative survey of several important issues concerning the formation of the Danxia landforms. Tropical Geography, 2004, 24(2): 127-130. [黄进. 丹霞地貌发育几个重要问题的定量测算. 热带地理, 2004, 24(2): 127-130.]
[36] Huang Jin. Improvement on the formula used to calculate tectonic uplift rates in Danxia landforms areas and its significance. Economic Geography, 2006, 26(Suppl.):8-13. [黄进. 丹霞地貌区地壳上升速率公式改进及其意义. 经济地理, 2006, 26(增刊): 8-13.]
[37] Zhu Cheng, Peng Hua, Li Zhongxuan et al. Age and genesis of the Danxia landfom on Jianglang Mountain, Zhejiang Province. Acta Geographica Sinica, 2009, 64(1): 21-32. [朱诚, 彭华, 李中轩等. 浙江江郎山丹霞地貌发育的年代与成因. 地理学报, 2009, 64(1): 21-32.]
[38] Cheng Shu, Zhu Cheng, Peng Hua et al. Anti-pressure experimental study on rocks in level cave of Jinshiyan of Danxiashan in Guangdong Province. Journal of Anhui Normal University: Natural Science, 2010, 33(2): 170-174. [陈姝, 朱诚, 彭华等. 广东丹霞山洞穴景观岩体稳定性的抗压试验研究. 安徽师范大学学报: 自然科学版, 2010, 33(2): 170-174.]
[39] Lv Wen, Zhu Cheng, Peng Hua et al. The contribution lithological characteristics to Danxia landform genesis in Jianglang Mountain, Zhejing Province. Bulletin of Mineralogy, Petrology and Geochemistry, 2009, 28(4): 349-355. [吕文, 朱诚, 彭华等. 浙江江山市江郎山岩石岩性特征及其对丹霞地貌形成的影响. 矿物岩石地球化学通报, 2009, 28 (4): 349-355.]
[40] Ouyang Jie, Zhu Cheng, Peng Hua et al. Experimental research on vulnerability of Danxia rocks to resistance against acid erosion in Langshan, Hunan Province. Advances in Earth Science, 2011, 26(9): 965-970. [欧阳杰, 朱诚, 彭华等. 湖南崀山丹霞地貌岩体抗酸侵蚀脆弱性的实验研究. 地球科学进展, 2011, 26(9): 965-970.]
[41] Turner P, Archer R. The role of biotite in the diagenesis of red beds from the Devonian of northern Scotland. Sedimentary Geology, 1977, 19: 241-251.
[42] Walker T.R. Nature and origin of hematite in the Moenkopi Formation (Triassic), Colorado Plateau: A contribution to the origin of magnetism in red beds. Journal of Geophysical Research, 1981, 86 (B1): 317.
[43] Parcerisa D, Gras D G, Travé A et al. Fe and Mn in calcites cementing red beds: A record of oxidation-reduction conditions: Examples from the Catalan Coastal Ranges (NE Spain). Journal of Geochemical Exploration, 2006, 89 (1-3): 318-321.
[44] Kent D V, Opdyke N D. Paleomagnetism of the Devonian Catskill red beds: evidence for motion of the coastal New England-Canadian Maritime region relative to cratonic north America. Journal of Geophysical Research, 1978, 83(B9): 4441-4450.
[45] Yamashita I, Surinkum A, Wada Y et al. Paleomagnetism of the Middle-Late Jurassic to Cretaceous red beds from the Peninsular Thailand: Implications for collision tectonic. Journal of Asian Earth Sciences, 2011, 40(3): 784-796.
[46] Miki T. Sedimentologic and palaeoclimatic classification of Cretaceous red beds in East Asia: A general view. Journal of Southeast Asian Earth Sciences, 1992, 7(2/3): 179-184.
[47] Hofmann A, Tourani A, Gaupp R. Cyclicity of Triassic to Lower Jurassic continental red beds of the ArganaValley, Morocco: Implications for palaeoclimate and basin evolution. Palaeogeography, Palaeoclimatology, Palaeoecology, 2000, 161(1/2): 229-266.
[48] Van Houten F B. Iron oxides in red beds. Geological Society of America Bulletin, 1968, 79(4): 399-416.
[49] Turner P. Continental Red Beds. Elsevier Scientific Publishing Company, 1980: 323-343.
[50] Gijón R S, Martínez N L. Sharks and rays (chondrichthyes) from the Upper Cretaceous red beds of the south-central Pyrenees (Lleida, Spain): indices of an India-Eurasia connection. Palaeogeography, Palaeoclimatology, Palaeoecology, 1998, 141(1/2): 1-12.
[51] Marriott S B, Morrissey L B, Hillier R D. Trace fossil assemblasges in Upper Silurian tuff beds: Evidence of biodiversity in the Old Red Sandstone of southwest Wales, UK. Palaeogeography, Palaeoclimatology, Palaeoecology, 2009, 274(3/4): 160-172.
[52] Young R, Young A. Sandstone Landforms. Springer-Verlag. Berlin Heidelberg. Printed in Germany, 1992: 1-122.
[53] Young R, Young W, Young A. Sandstone Landforms. London: Cambridge University Press, 2009: 223-226.
[54] Migon P, Goudie A, Allison R et al. The origin and evolution of footslope ramps in the sandstone desert environment of south-west Jordan. Journal of Arid Environment, 2005, 60(2): 303-320.
[55] Netoff D I, Shroba R R. Conical sandstone landforms cored with clastic pipes in Glen Canyon National Recreation Area, southeastern Utah. Geomorphology, 2001, 39(3-4): 99-110.
[56] Smith B J, McAllister J J. Observation on the occurrence and origins of salt weathering phenomena near lake Magadi, southern Kenya. Zeitschrift für Geomorphologie, 1986, 30: 445-460.
[57] Huinink H P, Pel L, Kopinga K. Simulating the growth of tafoni. Earth Surface Processes and Landforms, 2004, 29(10): 1225-1233.
[58] Turkington A V, Paradise T R. Sandstone weathering: A century of research and innovation. Geomorphology, 2005, 67 (1/2): 229-253.
[59] Sunamura T. A physical model for the rate of coastal tafoni development. The Journal of Geology, 1996, 104(6): 741-748.
[60] Mcgreevy J P. Thermal properties as controls on rock surface temperature maxima and possible implication for rock weathering. Earth Surface Processes and Landforms, 1985, 10(2): 125-136.
[61] Sancho C, Benito G. Factors controlling tafoni weathering in the Ebro Basin (NE Spain). Zeitschrift für Geomorphologie, 1990, 34(2): 165-177.
[62] Paradise T R. Sandstone weathering and aspect in Petra, Jordan. Zeitschrift für Geomorphologie, 2002, 46(1): 1-17.
[63] Young R W. Sandstone lanforms of the tropical east Kimberley region, northwestern Australia. The Journal of Geology, 1987, 95(2): 205-218.
[64] Budel B, Weber B, Kuhl M et al. Reshaping of sandstone surfaces by cryptoendolithic cyanobacteria: Bioalkalization causes chemical weathering in arid landscapes. Geobiology, 2004, 2(4): 261-268.
[65] Wray R A L. A global review of solutional weathering forms on quartz sandstones. Earth-Science Reviews, 1997, 42 (3): 137-160.
[66] Wessels D C J, Schoeman P. Mechanism and rates of weathering of Clarens sandstone by an endolithiclichen. South African Journal of Science, 1988, 84(4): 274-277.
[67] Papida S, Murphy W, May E. Enhancement of physical weathering of building stones by microbial populations. International Biodeterioration & Biodegradation, 2000, 46(4): 305-317.
[68] Kurtz H D, Netoff D I. Stabilization of friable sandstone surfaces in a desiccating, wind-abraded environment of south-central Utah by rock surface microorganisms. Journal of Arid Environments, 2001, 48(1): 89-100.