Long-term trend and abrupt events of the Holocene Asian monsoon inferred from a stalagmite δ10O record from Shennongjia in Central China
Tóm tắt
Từ khóa
Tài liệu tham khảo
Wu, W. X., Liu, T. S., Possible role of the “Holocene Event 3” on the collapse of Neolithic Cultures around the Central Plain of China, Quaternary International, 2004, 117: 153–166.
DeMenocal, P. B., Cultural responses to climate change during the Late Holocene, Science, 2001, 292: 667–673.
Dalfes, H. N., Kukla, G., Weiss, H., Third millennium BC climate change and old world collapse, NATO ASI Series, 1997, 1(49): 723.
Fleitmann, D., Burns, S. J., Mudelsee, M. et al., Holocene Forcing of the Indian Monsoon recorded in a stalagmite from Southern Oman, Science, 2003, 300: 1737–1739.
Wang, Y. J., Cheng, H., Edwards, R. L. et al., The Holocene Asian Monsoon: links to solar changes and North Atlantic climate, Science, 2005, 308: 854–857.
Hong, Y. T., Hong, B., Lin, Q. H. et al., Correlation between Indian Ocean summer monsoon and North Atlantic climate during the Holocene, Earth and Planetary Science Letters, 2003, 211: 371–380.
Gasse, F., Hydrological changes in the African tropics since the last glacial maximum, Quaternary Science Review, 2000, 19: 189–211.
DeMenocal, P., Ortiz, J., Guilderson T. et al., Abrupt onset and termination of the African Humid Period: rapid climate responses to gradual insolation forcing, Quaternary Science Review, 2000, 19: 347–361.
An, Z. S., Wu, X. H., Wang, P. X. et al., Changes in the monsoon and associated environmental changes in China since the last interglacial, in Loess, Environment and Global Change (ed. Liu, T. S.) (in Chinese), Beijing: Science Press, 1991, 1–29.
Chen, F. H., Shi, Q., Wang, J. M., Environmental changes documented by sedimentation of Lake Yiema in arid China since the Late Glaciation, Journal of Paleolimnology, 1999, 22: 159–169.
Mayewski, P. A., Rohlingb, E. E., Stagerc, J. C. et al., Holocene climate variability, Quaternary Research, 2004, 62: 243–255.
Wang, Y. J., Cheng, H., Edwards, R. L. et al., A high resolution absolute-dated late Pleistocene monsoon record from Hulu cave, China, Science, 2001, 294: 2345–2348.
Neff, U., Burns, S. J., Mangini, A. et al., Strong coherence between solar variability and the monsoon in Oman between 9 and 6 kyr ago, Nature, 2001, 411: 290–293.
Wu, J. L., Shen, J., Wang, S. M. et al., Characteristics of an early Holocene climate and environment from lake sediments in Ebinur region, NW China, Science in China, Ser. D, 2005, 48(2): 258–265.
Chen, F. H., Zhu, Y., Li, J. J. et al., Abrupt Holocene changes of the Asian monsoon at millennial-and centennial-scales: evidence from Lake Sediment document in Minqin Basin, North China, Chinese Science Bulletin, 2001, 46(23): 1942–1947.
Liu, J. Q., Lü, H. Y., Negendank, J. et al., Periodicity of Holocene climatic variations in the Huguangyan Maar Lake, Chinese Science Bulletin, 2000, 45(18): 1712–1717.
Qin, J. M., Yuan, D. X., Cheng, H. et al., The Y.D. and climate abrupt events in the early and middle Holocene: a stalagmite oxygen isotope record from Maolan, Guizhou, Science in China, Ser. D, 2005, 48(4): 530–537.
Zhu, Z. Q., Song, C. S., Scientific survey of Shennongjia Natural Conservation (in Chinese), Beijing: China Forestry Publishing House, 1999, 19.
Jiang, X. Y., Wang, Y. J., Kong, X. G. et al., Abrupt climate change of East Asian Monsoon at 130kaBP inferred from a high resolution stalagmite δ18O record, Chinese Science Bulletin, 2005, 50(23): 2765–2779.
Shen, C. C., Edwards, R. L., Cheng, H. et al., Uranium and thorium isotopic and concentration measurements by magnetic sector inductively coupled plasma mass spectrometry, Chemical Geology, 2002, 185: 165–178.
Hendy, C. H., The isotopic geochemistry of speleothems: Part I. The calculation of the effects of different modes of formation on the isotopic composition of speleothems and their applicability as palaeoclimatic indicators, Geochimica et Cosmochimica Acta, 1971, 35: 801–824
Shen, J., Liu, X. Q., Matsumoto, R. et al., A high-resolution climatic change since the Late Glacial Age inferred from multi-proxy of sediments in Qinghai Lake, Science in China, Ser. D, 2005, 48(6): 742–751.
Ji, J. F., Shen, J., Balsam, W. et al., Asian monsoon oscillations in the northeastern Qinghai-Tibet Plateau since the late glacial as interpreted from visible reflectance of Qinghai Lake sediments, Earth and Planetary Science Letters, 2005, 233: 61–70.
Peng, Y. J., Xia, J. L., Nakamurab, T. et al., Holocene East Asian monsoonal precipitation pattern revealed by grain-size distribution of core sediments of Daihai Lake in Inner Mongolia of north-central China, Earth and Planetary Science Letters, 2005, 233: 467–479.
Chen, F. H., Wu, W., Holmes, J. et al., A mid-Holocene drought interval as evidenced by lake desiccation in the Alashan Plateau, Inner Mongolia, China, Chinese Science Bulletin, 2003, 48(13): 1–10.
Biscaye, P. E., Grousset, F. E., Revel, M. et al., Asian provenance of glacial dust (stage 2) in the Greenland Ice Core project 2 ice core, summit Greenland, Journal of Geophysical Research, 1998, 102(C12): 26765–26781.
O’Brien, S. R., Mayewski, P. A., Meeker, L. D. et al., Complexity of Holocene climate as reconstructed from a Greenland Ice Core, Science, 1995, 270: 1962–1964.
Porter, S. C., Chinese loess record of monsoon climate during the last glacial-interglacial cycle, Earth-Science Reviews, 2001, 54: 115–128.
Broström, A., Coe, M. T., Harrison, S. P. et al., Land surface feedbacks and palaeomonsoons in northern Africa, Geophysical Research Letters, 1998, 25: 3615–3618.
Kutzbach, J. E., Liu, Z., Response of the Africa monsoon to orbital forcing ocean feedbacks in the middle Holocene, Science, 1997, 278: 440–444.
Thompson, L. G., Thompson, E. M., Davis, M. E., et al., Kilimanjaro Ice Core records: Evidence of Holocene climate change in tropical Africa, Science, 2002, 298: 589–593.
Claussen, M., Kubatzki, C., Brovkin, V. et al., Simulation of an abrupt change in Saharan vegetation in the mid-Holocene, Geophysical Research Letters, 1999, 2037–2040.
Southon, J., A first step to reconciling the GRIP and GISP2 Ice-Core chronologies, 0–14500 yr BP, Quaternary Research, 2002, 57: 32–37.
Bond, G., Kromer, B., Beer, J. et al., Persistent solar influence on North Atlantic climate during the Holocene, Science, 2001, 294: 2130–2136
Bond, G., Showers, W., Cheseby, M. et al., A Pervasive Millennial-Scale Cycle in North Atlantic Holocene and Glacial Climates, Science, 1997, 278: 1257–1266.
Yao, T. D., Shi, Y. F., Climatic changes during the Holocene recorded in dunde ice core, Qilian Mts, in Climate and Environment in China During the Megathermal Period in the Holocene (ed. Shi, Y. F.) (in Chinese), Beijing: Ocean Press, 1992, 206–211.
Staubwasser, M., Sirocko, F., Grootes, P. M. et al., South Asian monsoon climate change and radiocarbon in the Arabian Sea during early and mid Holocene, Paleoceanography, 2002, 17(4): 1063.
Alley, R. B., Mayewski, P. A., Sowers, T. et al., Holocene climate instability: A prominent, widespread event 8200yr ago, Geology, 1997, 25(6): 483–486.
Eelco, J. R., Heiko, P., Centennial-scale climate cooling with a sudden cold event around 8,200 years ago, Nature, 2005, 434: 975–979.
McDermott, F., Mattey, D. P., Hawkesworth, C., Centennial-scale Holocene climate variability revealed by a high-resolution speleothem δ18O Record from SW Ireland, Science, 2001, 294: 1328–1331.
Baldini, J. U. L., McDermott, F., Fairchild, I. J., Structure of the 8200-year cold event relvealed by a speleothem trace element record, Science, 2002, 296: 2203–2206.
Alley, R. B., Meese, D. A., Shuman, A. J. et al., Abrupt accumulation increase at the Younger Dryas termination in the GISP2 ice core, Nature, 1993, 362: 527–529.
Stuiver, M., Grootes P. M., Braziunas, T. F., The GISP2 δ18O climate record of the past 16,500 years and the role of the sun, ocean and volcanoes, Quaternary Research, 1995, 44: 341–354.
Nesje, A., Dahl, S. O., The Greenland 8200 cal yr BP event detected in loss-on-ignition profiles in Norwegian lacustrine sediment sequences, Journal of Quaternary Science, 2001, 16: 155–166.