南沙群岛及其邻近海区第四纪气候演化的非线性特征

李原; 孟仟祥; 罗斌杰; 李智明; 李原; 孟仟祥; 罗斌杰; 李智明

[1]

1.艾南山. 非线性科学和理论地理学. 大自然探索, 1992, 11 (1): 10-14.

2.任美锷. 全球气候变化与海平面上升问题. 科学, 1988, (4): 248-253.

3.汪品先. 气候与环境演变中的非线性关系— 以末次冰期为例. 第四纪研究, 1991, (2): 97-103.

4.刘韶, 秦佩玲, 张惠玲, 温孝胜. 南沙群岛及其邻近海区晚第四纪沉积年代学沉积层划分与比较. 《南沙群岛及其邻近海区的第四纪沉积地质学》, 中国科学院南沙综合科学考察队, 科学出版社, 1993, 256— 272.

5.苏广庆, 壬有强, 王晓彬, 王天行, 欧阳华等. 南沙群岛及其邻近海区的矿物沉积. 《南沙群岛及其邻近海区第四纪沉积地质学》, 中国科学院南沙综合科学考察队, 科学出版社, 1993, 256-272.

6.安芷生等. 最近 2万年中国古环境变迁的初步研究. 黄土· 第四纪· 全球变化, (2), 科学出版社, 1990, 1-26.

7.李后强, 艾南山. 分形地貌学及地貌发育的分形模型. 自然杂志, 1992, 15 (7): 516-519.

8.林少宫等人著. 多元统计方法在地学上的应用. 冶金工业出版社, 1987, 233-251.

9.涂霞, 蔡慧梅等. 南沙群岛及其邻近海区沉积柱样微体生物化石与古环境. 《南沙群岛及其邻近海区第四纪沉积地质学》, 中国科学院南沙综合科学考察队, 科学出版社, 1993, 239-255.

10.黄定华, 吴金平. 地质学中的非线性问题. 地球科学进展, 1992, 7 (5): 10— 14.

11.Berger W H, Burke S and Vincent E. Glacial-Holocene Transition: Climate Pulsations and Sporadic Shutdown ofNADW Production. in: Berger, W. H. and Labex rie, L. D. (eds. ), Abrupt Climate Chang e-Evidence and impli-cations, D. Reidel, Dordrecht, 1987, 279-297.

12.Bonifay M F. Relations entre les donnees isotopiques et histoire des grandess faunes europeennes plio-pleis-tocenes. Quaternary Research, 1980, (14): 251-263.

13.Broecker W S, Andree, M., Wolfli, W., Oeschg er, H., Bonani, G., Kennett, J. and Peteet, D., TheChronology of the Last Deglaciation: Implications to the Cause of the Younger Dryas Event. Paleoceanog raphy,1988, 3 (1): 1-19.

14.Broecker, W. S., Peteet, D. M. and Rind, D., Does the Ocean-Atmosphere System Hav e Mo re than One StableMode of Operation ? N ature, 1985, (315): 21-26.

15.Broecker, W. S., Salinity H istory of the Northern Atlantic during the Last Deglaciation. Paleoceanography,1990, 5 (4): 459-467.

16.Clark, J. A., Farrell, W. E. and Peltier, W. R., Global Changes in Postglacial Sea level: A Numerical Calcula-tion. Quaternary Research, 1978, 9, 265-287.

17.Ergenzinger, P., Chaos: and O rder: The Channel Geometry of Grav el Bed Braided Rivers. CATN A, Supll.,1987, (10): 85-98.

18.Melting Rate on Younger Dryas " Event and Deep Ocean Circulation. ibid., 1989, (342): 637-642.

19.Fairbridg e, R. W., Eustatic Changes in Sea Level. Phys. Chem. of the Earth, 1961, 4, 99-185.

20.Feigenbaum, M. J., Quatitative Universality for a Class of Non linear Transfo rmations. J. Statist. Phys.,1978, (19): 25-52.

21.Harvey, L. D. D., M odelling the Younger Dryas. Quaternary Science Review, 1989, (8): 137-149.

22.Kong Z haochen, et al, The changes of natural environment around the time of Homo erectus Pekinensis. KexueTongbao, 1983, 28: 181-185.

23.Kukla, G., Pleistocene land - sea correlation 1 · Europe. Earth - Seience Reviews. 1977,(13): 307-374.

24.Morner, N. -A., Eustasy, Geoid Chang es and Dynamic Sea Surface Changes due to the Interchang e of Momen-tum, in: Qin Yunshan Song ling (eds. ), Late Quaternary Sea - level Changes, China Ocean Press, 1984, 26-39.

25.Paterson, W. S. B. and Hammer, C. U., Ice Co re and Other Glaciological Data. in: Ruddiman, W. F. andWright, H. E., Jr.(eds. ), No rth America and Adjacent Oceans during the Last Deglaciation, Geol. Soc.Amer., Colorado, 1987, 91-109.

26.Sagdeev, R. Z., Usikov, D. A., Zaslav sky, G. M., Nonlinear Physics: From the Pendulum to Turbulence andChaos. Harwood Acad. Pub., 1988, 304-313.

27.Shi Yafen, Li Bingyuan, Li Jijun, et al, Quaternary Glacial Distribution Map - of the Qinghai · Xizang (Tibet ) Plateau. Science Press, Beijing, China, 1991.

28.Thom, B. G. and Roy, P. S., Sea - level Rise and Climate: Lessons from the Holocene. in: Pearmen, G. I.(ed. ), Greenhouse, Planning for Climate Change, 1988, 177-188.

29.Xu Qinqi, Climatic changes during Peking Man ' s time. Acta Anthropologica Sinica, 1982, (1):80-90.