摘要
对于各种环境演化过程和环境演化事件,只有将其置于时间标尺之上才有确切的意义,也才能从中找出规律性的东西。通过精确定年的高分辨率环境演化序列,对于揭示黄土地区千年尺度的环境演化规律具有关键意义,也是预测未来环境演化趋势的重要基础。目前仅有的一些年龄序列,存在测年数据少,且年龄数据集中在沉积物发生物性转变的层段等一系列问题,不适合用来建立高分辨率的环境演化序列。
北京西山是世界著名的野外地质、地貌博物馆,是世界著名的清白口系和马兰黄土的命名地,也是中国末次冰期旋回风成黄土与古气候研究的经典地区。本论文以东斋堂砖厂剖面为主剖面,研究建立马兰黄土的年龄序列。针对如何才能减少测年误差、提高测年精度问题,做了大量基础工作并进行了方法上的探索。实验建立的黄土释光年龄序列初步结果表明:L_1和S_1的分界年龄约为74ka,S_0和L_1的界限大概在10ka,与实际地层年龄吻合,其年龄值也可与深海氧同位素曲线年龄相比。
此外,对光断代实验室的辐照系统进行了系统标定,计算出了实验室辐照源的辐照剂量率;对于大剂量短期辐照与小剂量长期累积辐照对于地质样品的影响问题,辅助做了部分探索性工作。
Only on the time scale will various processes and affairs of environmental evolvement have their own exact meanings, which can bring us some laws at present. Making sure of the layers' age, and obtaining the high-resolution sequence (HRS) of the environmental evolvement, are the key to reveal the changes on kilo-scale in the loess areas. And it is also important for us to forecast the trend of these changes. However, there are a series of problems, the few aging datum, the limitation of the data source and so on, existed in the foundation of the HRS.
West Mountain of Peking is well known as a geology and physiognomy museum in the world. And it is named for the Malan Loess' typical region where scientists research the Chinese loess of last glacial gyration and ancient weather. This paper aims to establish the age sequence of Malan Loess in the eastern Zhaitang brickyard section. For the purpose of reducing the dating error, and improving the accuracy of the dating, we do some researchful work in the dating method. Then the age sequence we have established indicates that the dividing age between L1 and S1 approximately occurred in 74ka B.P. And the dividing age between S0 and L1 is about 10ka B.P., which coincides with the actual geologic age. The dating age, compared with the recordation of oxygen isotope curve of deep sea, is significateative.
Moreover, we calibrate the Irradiated system of Optical Luminescence Dating Laboratory systemically and calculate the rate of the irradiation dose. Aiming at the influence of the long-term accumulation of low dose rate source and the short-term accumulation of high dose rate source irradiation on the geologic sample, we also do some integrant work during all the researchful process.
引文
1、Heller F., Liu T. S., Magnetic stratigraphie Dating of Loess Deposits in China, Nature, 1982(300): 525-543
2、Kukla, G., Heller F., Liu X. M. et al., Pleistocene Climate in China Dated by Magnetic Susceptibility, Geology, 1988(16): 811-814
3、丁仲礼,余志伟,刘东生,中国黄土研究新进展(三)时间标尺,第四纪研究,1991(4):336-348
4、Porter S. C., An Z. S., Correlation between climate events in the North Atlantic and China during the last glaciation, Nature, 1995(375): 305-308
5、Shackleton N. J., Opdyke N. D., Oxygen-isotope and paleo-magnetic stratigraphy of equatorial Pacific core V28-238: Oxygen isotope temperature and ice volumes on a 105 year and 106 year scale, Quaternary Research, 1973(3): 39-55
6、Berger W. H., Yasuda M. K., Bickert T. et al., Quaternary time scale for the Ontong Java plateau: Milankovitch template for Ocean Drilling program site 806, Geology, 1994(22): 463-467
7、仇士华主编,中国~(14)C年代学研究[M],科学出版社,1990
8、仇士华,蔡莲珍,~(14)C测年技术新进展,第四纪研究,1997(3):222-229
9、陈铁梅,第四纪测年的进展与问题,第四纪研究,1995(2):182-191
10、刘嘉麒,陈铁梅,聂高众等,渭南黄土剖面的年龄测定及十五万年来高分辨率时间序列的建立,第四纪研究,1994(3):193-200
11、彭子成,第四纪年代测定的新技术——热电离质谱铀系法的发展近况,第四纪研究,1997(3):258-264
12、王维达主编,中国热释光与电子自旋共振测定年代研究[M],中国计量出版社,1997
13、丁林,裂变径迹定年方法的进展及应用,第四纪研究,1995(2):272-279
14、陈文寄、计凤桔,王非主编,年轻地质体系的年代测定(续)[M],地震出版社,1999
15、Brown E. T., Brook E. J., Raisbeck G. M. et al., Effective attenuation of cosmic rays producing ~(10)Be and ~(26)Al in quartz: Implications for exposure dating, Geophys.
Res. Lett., 1992(19): 369-372
16、Lal A., Comic ray labeling of erosion surfacee: in situ nuclide production and erosion models, Earth Planetary Science Letters, 1991(104):424-439
17、沈承德,易惟熙,刘东生,高分辨率~(10)Be记录与黄土地层定年,第四纪研究,1994(3):203-213
18、刘东生,安芷生,陈明扬等,最近0.6Ma南北半球古气候对比初探,中国科学(D辑),1996,26(2):97-102
19、吴锡浩,安芷生,黄土高原黄土-古土壤序列与青藏高原隆升,中国科学(D辑),1996,26(2):103-110
20、刘东生等,黄土与环境[M],北京,科学出版社,1985
21、丁仲礼,刘东生,中国黄土研究新进展(一)黄土地层[J],第四纪研究,1989(1):24-35
22、安芷生,Kukla G,刘东生,洛川黄土地层学[J],第四纪研究,1989(2):155-168
23、Goksa H. Y., Fremlin J. H. et al., Age determination of burned flint by a thermo luminescent method[J], Science, 1974(183): 651-654
24、Liu X. M., Liu T. S., Xu T. C., Liu C. and Chen M. Y., A Preliminary Study on Magnetic stratigraphy of a Loess Profile in Xifeng Area, Gansu Province, in: Liu Tungsheng (ed.), Aspects of Loess Research, China Ocean Press, 1987: 164—167
25、Wintle A. G., Anomalous fading of thermo luminescence in mineral samples[J], Nature, 1973 (245): 143-144
26、Durrani S. A., Temperature and duration of the shadow of a recently-arrived lunar boulder[J], Nature, 1971 (266):411-412.
27、李虎侯,黄土的热释光年代——光晒退的实验测定和结果修正[J],地球化学,1984(2):82-84
28、李虎侯,马兰黄土的热释光年龄,中国科学(D辑),1986(12):1309-1316
29、卢演俦,张景昭,谢军,陕西蓝田晚更新世黄土——古土壤序列的热释光测年,见刘东生,黄土·第四纪·全球变化(第2集):科学出版杜,1990:64-72
30、卢演俦,赵华,陕西渭南介子村黄土的热释光测年,地质论评,1991,37(4):356-362
31、李玉梅,最近2.5Ma黄土高原环境变化研究进展——来自洛川黄土地层的证据,地球科学进展,2002(2):118-125
32、李虎侯,黄土的热释光年代,地球化学,1982(3):82—84
33、李继亮等,黄土中石英粉砂的热释光及黄土地层年龄测定的初步研究,科学通报,1977(22),498—502
34、李虎侯,用石英的热释光测出的马兰黄土形成年龄,科学通报,1985(11):862-864
35、李虎侯,马兰黄土形成年龄(Ⅱ)——洛川剖面的热释光研究,科学通报,1986(5):372-375
36、乔玉楼,沈承德,黄金宝,周明富,王明亮,中国黄土沉积物~(14)C年龄测定,第三届全国第四纪学术会议论文集,贵州人民出版社,1979:29—30
37、乔玉楼,沈承德,~(14)C测定年代方法在黄土研究中的应用,中国~(14)C年代学研究,科学出版社,1990:172—183
38、周卫健,周明富,Head J.,距今三万年来北庄村沉积学列的~(14)C年代学,科学通报,1989(14):1096-1099
39、康建成,李吉均,甘肃临夏黄土剖面:15万年环境演变的良好记录,地质论评,1993,39(2):165-175
40、王文远,潘懋,刘嘉麒,刘东生,末次间冰期以来会宁黄土剖面的热释光测年,地球学报,2000(11):211-214
41、王文远,刘嘉麒,潘懋,刘东生,末次间冰期以来黄土—古土壤的热释光测年——渭南、会宁剖面的对比研究,海洋地质与第四纪地质,2000(8):67-72
42、赵华,蒋复初,卢演俦,郑州邙山马兰黄土的光释光(OSL)测年初步研究,地质力学学报,1998(12):19-29
43、Aitken M.J., Thermoluminescence Dating [M], London, Academic Press, 1985
44、蔡干钢,吴方,王所亭译,固体热释光[M],北京,原子能出版社,1993
45、Daniels F., Boyd C. A. and Saunders D. F., Thermoluminescence as a research tool [J], Science, 1953(117): 343-349
46、Aitken M. J., Title M. S. and Reid J., Thermoluminescence dating of ancient ceramics [J], Nature, 1964(202): 1032-1033
47、Mazess R. B. and Zimmerman D. W., Pottery dating from thermoluminescence [J], Science, 1966(152): 347-348
48、Rulph E. K. and Han M. L., Dating of Pottery by thermoluminescence [J], Nature, 1966(210): 245-247
49、Aitken M. J., Zimmerman D. W. and Fleming S. J., Thermoluminescence dating of ancient pottery [J], Nature, 1968(219): 442-444
50、Fleming S. J., Thermoluminescence techniques in archaeology [M], Clarendon Press, Oxford, 1979: 30-33
51、Zimerman P. W., Introduction to basic procedures for sample preparation and TL measunement of ceramics [J], PACT, 1978(2): 1-6
52、Wintle A.G. and Huntley D. J., Thermoluminescence dating of sediments [J], Quaternary Science Reviews, 1982(1): 31-53
53、Huntley D. J., Godfrey-Smith D. I. and Thewall M. L. W., Optical dating of Sediments [J], Nature, 1985(313): 105-107
54、Hutt G., Jack I. and Tchonka J., Optical dating: k-feldspars optical response Stimulation Spectra [J], Quaternary Science Reviews, 1988(7): 381-385
55、Btter-Jensen L., Luminescence technique: instrumentation and methods [J], Radiation Measurements, 1997(27): 749-768
56、Btter-Jensen L., Mejdahl V. and Alurray A. S., New light on OSL [J], Quaternary Geochronology, 1999(18): 303-309
57、Duller G. A. T., Equivalent dose determination using single aliquots [J], Nuclear Tracks and Radiation Measurements, 1991(18):371-378
58、Murray A. S. and Roberts R. G., Measurements of the equivalent dose in quartz using a negenerative-dose single-aliquots protocol [J], Radiation Measurements, 1998(29): 503-515
59、Murray A. S. and Wintle A. G., Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol [J], Radiation Measurement, 2000(32): 57-73
60、Danerjee D., Murray A. S., Botter-Jensen L. and Lang A. Equivalent dose
estimation using a single aliquot of polymineral fine gains [J], Radiation Measurements, 2001 (33): 73-94
61、Wallinga J., Murray A. S. and Wintle A. G., The single aliquot regenerative dose (SAR) protocol applied to coarse-grain feldspar [J], Radiation Measurement, 2000(32): 529-533
62、Bulur E., An alternative technique for optically stimulated luminescence (OSL) experiment [J], Radiation Measurement, 1996(26):701-709
63、Bulur E., Botter-Jensen L., Murray A. S., Optically stimulated luminescence from quartz measured using the linear modulation technique [J], Radiation Measurements, 2000(32):407-411
64、Bulur E., Duller G. A. T., Solongo S., BΦtter-Jensen L., Murray A. S., LM-OSL from single grains of quartz: a preliminary study [J], Radiation Measurements, 2002 (35): 79-85
65、李虎侯,BG1999选频光释光仪[J],核技术,2001,24(12):961-963
66、李虎侯,魏明建,选频光释光断代初探[J],核技术,2003,26(1):22-24
67、Zimmerman D. W. Thermoluminecence dating using fine grains from pottery. Archaeometry, 1971(13): 29-52
68、Wintle A. G. and Huntley D. J., Thermolumineseenee dating of a deep-sea ocean core [J], Nature, 1979(279):710-712
69、Prescott J. R. and Robertson G. B., Sediment dating by luminescence: A Review, Radiation Measurements, 1997(27): 893-922
70、李虎侯,热释光断代[M],香港,Scientist Press International.Inc.,1999
71、李虎侯,释光技术测定年龄的现况[J],第四纪研究,1997(3):248-255
72、Aitken M. J., Thermoluminescence Dating [M], London, Academic Press, 1985
73、Aitken M. J., An Introduction to Optical Dating [M], New York, Oxford University press, 1998
74、陈淑娥,渭河—泾河流域全新世黄土的光释光测年研究,陕西师范大学,2003
75、McKeever S. W. S. and Chen R., Luminescence Models, Radiation Measurements, 1997(27):625-661
76、Duller G. A. T., Behavioural studies of stimulated luminescence from feldspars, Radiation Measurements, 1997(27): 663-694
77、Krbetschek M. R., Gtze J., Dietrich A. and Trautman T., Spectral information from mineral relevant for Luminescence dating, Radiation Measurements, 1997(27): 695-748
78、Wintle A. G. Luminescence dating: Laboratory Procedures and Protocols, Radiation Measurements, 1997(27): 769-817
79、Roberts R. G., Luminescence dating in Archaeology: from Origins to Optical, Radiation Measurements, 1997(27): 819-892
80、Williams M.A.J.等,第四纪环境,刘东生等译,北京,科学出版社,1997:189-239
81、Mckeever S. W. S. and Sears D. W., Thermo luminescence and tesrestrial age of the Estacado Meteorite[J], Nature, 1978(275): 629.
82、刘东生,安芷生,洛川北韩寨黄土磁性地层学的初步研究[J],地球化学,1984(2):134-137
83、岳乐平,我国黄土古地磁学研究进展[J],地质论评,1985,31(5):453-460
84、陈文寄,彭贵主编,年轻地质体系的年代测定[M],北京,地震出版社,1991:200-218
85、葛同明,洛川黄土沉积层的磁性地层学[J],海洋地质与第四纪地质,1984,4(1):37-44
86、Liu T. S. et al., Loess and the environment [M], Beijing: China Ocean Press, 1985:12-51
87、鹿化煜,安芷生,Vandenberghe J.等,洛川黄土地层定年的一个模式及其初步应用[J],沉积学报,1997,15(3):150-152
88、Lu H., Liu X., Zhang F., et al., Astronomical calibration of loess paleo soldeposits at Luochuan, Central Chinese Loess Plateau [J], Palaeo geography, Palaeo ciimatoiogy, Palaeo ecology, 1999(154): 237-246
89、沈承德,易惟熙,刘东生等,~(10)Be—磁化率模型及黄土中成壤磁性物质通量估算[J],第四纪研究,1994(1):75-86
90、沈承德,刘东生,易惟熙等,黄土石英就地成因~(10)Be与黄土源区侵蚀速率[A],见:刘东生,安芷生主编,黄土·第四纪地质·全球变化(第三集)[C],北京,科学出版社.1992:84-91
91、李虎侯,热释光断代——细粒技术纪要,考古,1981(6):539-550
92、李虎侯,利用石英的热释光测定年代的技术,科学通报,1981:1068-1070
93、李虎侯,孙建中,利用细粒石英的热释光测定年代实验技术中的几个问题,科学通报,1983:367-369
94、李虎侯,石英110℃热释光峰的性质,科学通报,1983:1195-1197
95、Gksu H. Y., Schwenk P., Semiochkina N., Investigation of the thermal stability of 210℃ TL peak of quartz and dating the components of terrazzo from the monastery church of Tegernsee, Radiation Measurements, 2001(33):785-792
96、Shelkoplyas V. N., in problems of the Pleistocene Division, Leningrad, 1971:295
97、Wintle A. G., Nature, 1981 (289):479
98、Wintle A. G. et al., Proszyynska H., TL dating of loess in Germany and Poland, PACT9, 1983(9):547-554
99、Rendall H. M. et al., PACT, 1983, 9(11):555
100、郭正堂,刘东生,安芷生,渭南黄土沉积中十五万年来的古土壤及其形成时的古环境[J],第四纪研究,1994(3):256-269
101、陈发虎,吴海斌,张家武,汪海斌,末次冰消期以来兰州地区冬季风变化研究,第四纪研究,1999(4):306-312
102、赖忠平,周杰,卢演俦,Singhvi A.K.,风成沉积物红外及绿光释光测年比较研究,海洋地质与第四纪地质,2000(2):57-61
103、Huntley D. J., Godfrey-Smith D. I. and Thewall M. L. W., Optical dating of Sediments [J], Nature, 1985(313): 105-107
104、Singhvi A. K., Sharma Y. P., Agrawal D. P., Thermoluminescence dating of sand dunesin Rajasthan, India, Nature, 1982(295):313-315
105、Ollerhead J., Huntley D.J., Berger G.W., Luminescence dating of sediments from Buctouche Spit, New Brunswick, Can. J. Earth Sci., 1994(31): 523-531
106、Readhead M. L.,Extending thermoluminescence dating to geological sediments,
In: Ambrose Wetal, eds. Archaeometry, An Australian Perspective, Canberra: Austrslian National University, 1982:276-281
107、Prescott J. R., Huntley D. J. and Hutton J. T., Estimation of equivalent dose in luminescence dating-the Australian slide method, Ancient TL, 1993(11): 1-5
108、Huntley D. J., Hutton J. T., Prescott J. R., The stranded beach dune sequence of south east SouthAustralia: A test of thermoluminescence dating, 0-800ka, Quatern. Sci. Rev., 1993(12): 1-20
109 陈杰,卢演俦,魏兰英,赵华,尹功明,孙瑛杰,胡碧茹,第四纪沉积物光释光测年中等效剂量测定方法的对比研究,地球化学1999(9):443-452
110、梁兴中,α石英ESR年代测定,中国热释光与电子自旋共振测定年代研究[M],中国计量出版社,1997:397
111、彭子成,年剂量计算模式,中国热释光与电子自旋共振测定年代研究[M],中国计量出版社,1997:173
112、李虎侯,马兰黄土的热释光年代(Ⅳ)——斋堂剖面研究,热释光断代[M],香港,Scientist Press International.Inc.,1 999:332-336
113、卢演俦,中国黄土的热释光年代测定,中国热释光与电子自旋共振测定年代研究[M],中国计量出版社,1997:274-290
114、李虎侯,辐照系统的标定,热释光断代,Scientist Press International,1999:70-76
115、周智新,人工辐照源的刻度,中国热释光与ESR测定年代研究,中国计量出版社.1997:180-188
116、李虎侯,两种新型热释光剂量计,剂量学报,1996(10):271-274
117、李虎侯,离子注入与α辐射对氧化铝热释光的作用,原子能科学技术,原子能出版社,2000(9):427-431
118、熊尚发,刘东生,丁仲礼,两个冰期间冰期旋回的黄土记录及其古气候意义,地理科学,2002(2):17-23
119、李长安,陈莲芳,曹伯勋,田明中,北京西山末次冰期旋回次生黄土初步研究,中国区域地质,2000(2):144-148
120、Lu Y. C., Prescott J. R., Thermo luminescence dating of the Malan Loess at
Zhaitang China, Geology, 1987(15): 603-605
121、王克鲁,胡碧茹,严富华,北京斋堂盆地黄土结构构造与形成环境,北京地质,1998(1):2-10
122、Li Huhou,1981,Isolation of fine grains bu dilute aqua regia. Ancient TL, No14, 9
123、Zimmerman D. W. Thermoluminescence dating using fine grain from pottery, Archaeometry, 1971 (13):29-52
124、Prescott J. R., Stephan L. G., The contribution of cosmic radiation to the environmental dose for thermoluminesent dating, latitude, attitude and depth dependences, Council of Europe Journal, PACT, 1982 (6): 17—25
125、Lu Y. C., Zhang J. Z., Xie J., Thermoluminescence dating techniques from loess and sand dunes, In Loess, Environment and Global Change(ed Liu T S), Bejing, Science Press, 1989:132-141
126、Imbrie J., Haye J. D., Martinson D. B. et.al., The orbital theory of Pleistocene climate: support from a revised chronology of the marine delta ~(18)O record. In: Berger A et al. (eds), Milankovitch and Climate, Part 1, Reidel, Dordrecht, 1984:269-305
127、Forman Steven L., Late Pleistocene Chronology of Loess Deposition near Luochuan, China Quaternary Research, 1991 (36): 19-28
128、Liu J. Q., Nie G. Z., Song C. Y. et al., A high resolution time scale for the past 150000 years at Weinan loess section, central China. Scientia, Supplementary Issue, 1995(1): 9-22
129、Lu Y. C., Prescott J. R., Robertson G B. et al., Thermoluminescence dating of the Malan Loess at Zhaitang, China, Geology, 1987(15):603-605
130、孙建中,赵景波等,黄土高原第四纪,北京科学出版社,1991:73-77
131、曹继秀,徐济治,张守田等,兰州九州台黄土古土壤序列与环境演变,兰州大学学报(自然科学版),1988,24(1):118-122
132、赵景波,黄春长,陕西黄土高原晚更新世环境变化,地理科学19(6):566-569
133、康建成,温家洪,15万年以来极地冰芯、黄土、深海沉积的对比研究与全球变化.极地研究,1997(6):134-144
134、施雅风,李吉均,李炳元,青藏高原晚新生代隆升与环境变化.广东科技出
版社.1998:422-431.
135、庞奖励,黄春长,青藏高原冰芯记录与黄土堆积和深海沉积记录之对比,高原气象,2000(11):504-511
136、An Z. S. and Porter S. C. et al., Episode of strengthened summer monsoon climate of Younger Dryas Age on the loess plateau of central china, Quaternary Research, 39(1):45-54
137、Ding Z. L., Yu Z. W., Rutter N.W. et al., Towards an orbital times cale for Chinese loess deposits [J], Quaternary Science Reviews, 1994(13):39-70
138、孙湘君,宋长青,王奉瑜等,黄土高原南缘10万年以来的植被——陕西渭南黄土剖面的花粉记录[J],科学通报,1995(40):1222-1224
139、吕厚远,吴乃琴,刘东生等,最近15万年以来宝鸡黄土剖面植物硅酸体组合所反映的季节性气候变化[J],中国科学(D辑),1996(26):131-137
140、吴乃琴,Rousseau D.D.,刘东生,110万年来洛川黄土地层中蜗牛化石记录与环境因子分析[J],中国科学(D辑),1996(26):405-410
141、安芷生,Porter S.,Kukla G等,最近13万年黄土高原季风变迁的磁化率证据[J],科学通报,1990(35):529-532
142、顾兆炎,黄土-古土壤序列碳酸盐同位素组成与古气候变化[J],科学通报,1991(36):767-770
143、Shen C. D., Beer J., Liu T. S. et al., ~(10)Be in Chinese loess [J], Earth Planet, Sci. Lett., 1992(109):169-177
144、Gu Z., La L. D., Liu T. S. et al., Five million year ~(10)Be record in Chinese loess planeau and red-clay:Climate and weathering relationship [J], Earth Planet, Sci. Lett., 1996(144):273-287
145、黄春长,渭河流域3100多年前资源退化与人地关系演变[J],地理科学,2001,21(1):30-35
146、黄春长,庞奖励,陈宝群等,扶风黄土台塬全新世多周期土壤研究,西北大学学报,2001,31(6):509~513
147、黄春长,庞奖励,黄萍等,关中盆地西部黄土台塬全新世气候事件研究,干旱区地理,2001,25(1):9~15
148、Huang C. C., Zhao J. B., Pang J. L. et al., A regional aridity phase and ist possible cultural impact during the Holocene Megathermal in the Guanzhong Basin, Chian, The Holocene, 200,10(1): 135-143
149、庞奖励,黄春长,张战平,陕西五里铺黄土微量元素组成与全新世气候不稳定性研究,中国沙漠,2001,21(2):151-156
150、周昆叔,周原黄土及其与文化层的关系[J],第四纪研究,1995,(2):174—181
151、魏明建,李虎侯,全新世黑垆土中千年尺度的全球变化记录,Scientist Press International, Inc., 1998
152、Duller G. A. T. and Augustinus E, Luminescence studies of dunes from north-eastern Tasmania, Quaternary Science Reviews, 1997(16): 357-365
153、Murray A. S. and Wintle A. G., Factors controlling the shape of the OSL decay cueve in quartz, Radiation Measurements, 1998(29): 65-79
154、Berger A., Loutre M. F., Insolation value for the climate of the last 10 million years, Quaternary Science Reviews, 1991(10): 297-317
155、Imbrie J., Hays J. D., Martinson D. G. et al., In Milankovtch and climate, Part Ⅰ (eds. Berger A. et al.), Dordrecht, Netherland: Reidel Publishing, 1984:269-305
156、熊尚发,刘东生,丁仲礼,末次间冰期——末次冰期转换时期斋堂黄土记录中的气候回返事件,科学通报,1998(9):1873-1877
157、熊尚发,刘东生,丁仲礼,东亚冬夏季风变化的相位差及热带太平洋在季风变化中的驱动作用,第四纪研究,1996(3):202-210
158、丁仲礼,任剑璋,刘东生等,晚更新世季风沙漠系统千年尺度的不规则变化及其机制问题,中国科学(D辑),1996(5):385-391
159、Xiao J., Porter S. C., An Z. S., et al., Grain size of quartz as an indicator of winter monsoon strength on the Loess Plateau of central China during the last 130000 yr, Quaternary Research, 1995(43):22-29
160、Bond G., Broecker W., Johnsen S., et al., Correlations between climate records from North Atlantic sediments and Greenland ice, Nature, 1993 (365):143-147
161、Jouze J., Lorius C., Prtit J. R. et al., Vostokice core: a continuous isotope temperature record over the last climatic cycle (160000 years), Nature, 1987(329):
403-408
162、Dansgaard W.,Johnsen S.J., Clausen H.B., et al, Evidence for general instability of past climate from a 250 ka ice core record, Nature, 1993(364), 218-220
163、Proscott J. R., Thermo luminescence dating of sand dunes at Roonka[J], South Australia, PACT, 1983(9): 505-512
