DATING METHODS FOR CHRONOLOGICAL STUDY OF YARDANG LANDFORMS: A REVIEW AND PERSPECTIVE IN APPLICATION
-
摘要: 雅丹地貌形成年代是确定其侵蚀速率和侵蚀量的重要依据,也是深入认识其形成发育过程及其与环境关系的前提。然而作为侵蚀性地貌类型,雅丹地貌的形成年代问题一直困扰着研究人员,成为雅丹地貌研究中的一大瓶颈问题。介绍和分析了已有的雅丹地貌形成年代研究方法,并简要评述其优缺点,然后,将部分方法应用到敦煌雅丹国家地质公园区的雅丹地貌形成年代的研究中,得出该区域雅丹地貌开始形成的年代不晚于10.87 kaBP,不早于(39.15±3.88) kaBP,最后对雅丹地貌形成年代学研究需努力的方向做出展望。
-
关键词:
- 雅丹地貌 /
- 形成年代 /
- 风蚀 /
- 敦煌雅丹国家地质公园
Abstract: The age of the Yardang landform is the important parameter for determination of erosion rate and erosion quantity. It is also the premise for deeper understanding of the formation and evolution of the Yardang landform, and the relationship between the Yardang and environment. As a type of erosional landforms, the age of the Yardang landform always remains as a puzzle to researchers, and become a bottleneck in the study. In this article, the authors made a review of the methods for dating Yardang landform. Then, we made a testing of the methods by applying some of them to date the Yardang landform in the Dunhuang Yardang National Geo-park. Our results suggested that the Yardang landform was formed in a period not later than 10kaBP and not earlier than 39 kaBP.At last,we prospect the direction of the yardang formation chronology research. -
-
[1] Laity J E. Landforms, Landscapes, and Processes of Aeolian Erosion[M]//In:Parsons A J and Abrahams A D.Geomorphology of desert environments(2nd).Springer, 2009:597-627.
[2] 牛清河, 屈建军, 李孝泽, 等. 雅丹地貌研究评述与展望[J]. 地球科学进展, 2011, 26(5):516-527.
[NIU Qinghe, QU Jianjun, LI Xiaoze, et al. Review and prospect of yardang landforms research[J]. Advance in Earth Science, 2011, 26(5):516-527]
[3] Wang Z T, Wang H T, Niu Q H, et al. Abrasion of yardangs[J]. Physical Review E, 2011, 84(3):031304.
[4] Dong Z B, Lv P, Lu J F, et al. Geomorphology and origin of yardangs in the Kumtagh Desert, Northwest China[J]. Geomorphology, 2012, 139-140:145-154.
[5] de Silva S L, Bailey J E, Mandt K E, et al. Yardangs in terrestrial ignimbrites:Synergistic remote and field observations on Earth with applications to Mars[J]. Planetary and Space Science, 2010, 58(4):459-471.
[6] Vincent P, Kattan F. Yardangs on the Cambro-Ordovician saq sandstones, North-West Saudi Arabia[J]. Zeitschrift Fur Geomorphologie, 2006, 50(3):305-320.
[7] Gutierrez-Elorza M, Desir G, Gutierrez-Santolalla F. Yardangs in the semiarid central sector of the Ebro Depression (NE Spain)[J]. Geomorphology, 2002, 44(1-2):155-170.
[8] Al-Dousari A M, Al-Elaj M, Al-Enezi E, et al. Origin and characteristics of yardangs in the Um Al-Rimam depressions (N Kuwait)[J]. Geomorphology, 2009, 104(3-4):93-104.
[9] 郑本兴, 张林源, 胡孝宏. 玉门关西雅丹地貌的分布和特征及形成时代问题[J]. 中国沙漠, 2002, 22(1):40-46.
[ZHENG Benxing, ZHANG Linyuan, HU Xiaohong. Distribution and characteristics of yardang landform and its formation period, west to Yumenguan, Gansu[J]. Journal of Desert Research, 2002, 22(1):40-46]
[10] 夏训诚. 中国罗布泊[M]. 北京:科学出版社, 2007.[XIA Xuncheng. China Lop Nor[M]. Beijing:Science Press, 2007.]
[11] Inbar M, Risso C. Holocene yardangs in volcanic terrains in the southern Andes, Argentina[J]. Earth Surface Processes and Landforms, 2001, 26(6):657-666
[12] Goudie A S. Mega-yardangs:a global analysis[J]. Geography Compass, 2007, 1(1):65-81.
[13] 牛清河. 雅丹地貌形成发育过程研究-以敦煌雅丹国家地质公园区为例[D]. 中国科学院研究生院, 2011.[NIU Qinghe. Formation and evolution process of yardang landforms-A case study in Dunhuang Yardang National Geo-park[D]. Graduated School, Chinese Academy of Sciences, 2011.]
[14] 李继彦, 董治宝. 柴达木盆地东南部雅丹地貌形态参数研究[J]. 水土保持通报, 2011, 31(4):122-125.
[LI Jiyan, DONG Zhibao. Morphological parameters of yardangs in southeastern Qaidam Basin[J]. Bulletin of Soil and Water Conservation, 2011, 31(4):122-125]
[15] 郭峰, 吴晋峰, 王鑫, 等. 中国雅丹地貌申报世界自然遗产的可行性研究[J]. 中国沙漠, 2012, 32(3):655-660.
[GUO Feng, WU Jinfeng, WANG Xin, et al. Feasibility study on declartion for world natural heritage of yardang landform in China[J]. Journal of Desert Research, 2012, 32(3):655-660]
[16] 李继彦, 董治宝, 李恩菊,等. 察尔汗盐湖雅丹地貌沉积物粒度特征研究[J]. 中国沙漠, 2012, 32(5):1187-1192.
[LI Jiyan, DONG Zhibao, LI Enju, et al. Grain-size characheristics of the deposits from yardang landforms in the Charhan Salt lake area[J]. Journal of Desert Research, 2012, 32(5):1187-1192.]
[17] Hagedorn H. Untersuchungen uber Relieftypen arider Raume an Beispielen aus dem Tibesti-Gebirge und seiner Umgebung[J]. Zeitschrift Fur Geomorphologie, 1971, 11(Suppl):1-271.
[18] Beadnell H J L. Lake basins created by wind erosion[J]. Journal of Geology, 1909, 3:47-49.
[19] Hagedorn H. Uber aolische abtragung und formung in der sudest-Sahara[J]. Erdkunde, 1968, 22:257-269.
[20] El-Baz F, Breed C S, Grolier M J, et al. Eolian features in the Western Desert of Egypt and some applications to Mars[J]. Journal of Geophysical Research, 1979, 84(B14):8205-8221.
[21] 夏训诚. 罗布泊地区雅丹地貌的成因[M]. 见:中国科学院新疆分院罗布泊综合科学考察队.罗布泊科学考察与研究. 北京:科学出版社, 1987:52-59.[XIA Xuncheng. Formation of the yardangs in Lop Nor region[M]//In:The Lop Nor Comprehensive Scientific Expedition Team, Xinjiang Branch of CAS. Scientific Expedition in Lop Nor. Beijing:Science Press, 1987:52
-59.]
[22] Bohlin B. Notes on the hydrography of Western Kansu, Reports from the Scientific Expedition to the North-Western Provinces of China under the leadership of Dr. Sven Hedin. Ⅲ. Geology[M] Stockholm:Tryckeri Aktiebolaget Thule, 1940.
[23] Hoerner H G. The mesa sediments[M]//In:Wennerholm E and Horin E.Central Asia Atlas. Ⅲ/3:The Kansu-Hoshi Corridor and the Suloho-Ochinaho drainage regions. Stockholm:Tryckeri Aktiebolaget Thule, 1980:114.
[24] Clarke M L, Wintle A G, Lancaster N. Infra-red stimulated luminescence dating of sands from the Cronese basins, Mojave desert[J]. Geomorphology, 1996, 17(1-3):199-205.
[25] Goudie A S. Great Warm Deserts of the World-Landscapes and Evolution[M]. Oxford:Oxford University Press, 2002.
[26] Haynes C V. Geochronology and climate change of the Pleistocene-Holocene transition in the Darb el Arba'in Desert, Eastern Sahara[J]. Geoarchaeology, 2001, 16(1):119-141.
[27] Washington R, Todd M C, Lizcano G, et al. Links between topography, wind, deflation, lakes and dust:The case of the Bodele Depression, Chad[J]. Geophysical Research Letters, 2006, 33(9):L09401
[28] Niu Q H, Qu J J, Zhang K C, et al. Thermodynamic effects on particle movement:wind tunnel simulation results[J]. Chinese Geographical Science, 2012, 22(2):178-187.
[29] 屈建军, 郑本兴, 俞祁浩, 等. 罗布泊东阿奇克谷地雅丹地貌与库姆塔格沙漠形成的关系[J]. 中国沙漠, 2004, 24(3):40-46.
[QU Jianjun, ZHENG Benxing, YU Qihao, et al. The yardang landform of Aqik Valley in the east of Lop-Nor and its relationship with the evolution of the Kumtagh Desert[J]. Journal of Desert Research, 2004, 24(3):40-46.]
[30] Qu J J, Niu Q H. Relationship between the evolution of the Kumtag Desert and the neotectonic movement, northwest China[J]. International Journal of Land Processes and Arid Environment, 2012, 1(1):2-8.
[31] Liao K T, Qu J J, Tang J N, et al. Activity of wind-blown sand and the formation of feathered sand ridges in the Kumtagh Desert, China[J]. Boundary-layer Meteorology, 2010, 135(2):333-350.
[32] Xu Z W, Lu H Y, Zhao C F, et al. Composition, origin and weathering process of surface sediment in Kumtagh Desert, Northwest China[J]. Journal Geographical Science, 2011, 21(6):1062-1076.
[33] 廖空太. 库姆塔格沙漠羽毛状沙丘形成过程研究[D]. 中国科学院研究生院, 2009.[LIAO Kongtai. Formation process of feathered sand dunes in the Kumtagh Desert[D]. Graduated School, Chinese Academy of Sciences, 2011.]
[34] 鹿化煜. 地质背景与晚新生代干旱环境形成演化[M]//见:库姆塔格沙漠综合科学考察队. 库姆塔格沙漠研究. 北京:科学出版社, 2012:19-75.[LU Huayu. Geological background and formation and evolution of arid environment in the Late Cenozoic Era[M]//In:Kumtag Desert Comprehensive Scientific Expedition.A Study of the Kumtag Desert. Beijing:Science Press, 2012:19
-75.]
[35] 苏志珠.沙漠形成与演化[M]. 见:库姆塔格沙漠综合科学考察队. 库姆塔格沙漠研究. 北京:科学出版社, 2012:76-106.[SU Zhizhu. Formation and evolution of the Kumtag Desert[M]//In:Kumtag Desert Comprehensive Scientific Expedition.A Study of the Kumtag Desert[M]. Beijing:Science Press, 2012:76
-106.]
[36] 唐进年,苏志珠,丁峰, 等. 库姆塔格沙漠的形成时代与演化[J]. 干旱区地理, 2010, 33(3):325-333.
[TANG Jinnian, SU Zhizhu, DING Feng, et al. Formative age and evolution of Kumtagh Desert. Arid Land Geography, 2010, 33(3):325-333.]
-
计量
- 文章访问数: 1516
- PDF下载数: 5
- 施引文献: 0
下载: