Baikal Drilling Project Memb.: Preliminary results of the first scientific
drilling on lake Baikal, Buguldeika site, southeastern Siberia, Quatern.
Int., 37, 3–17, 1997.
Baikal Drilling Project Memb.: Continuous paleoclimate record recovered for
last 5 million years, Eos Transactions American Geophysical Union, 78,
597–601, 1999.
Ballantyne, A. P., Greenwood, D. R., SinningheDamste, J. S., Csank, A. Z.,
Eberle, J. J., and Rybczynski, N.: Significantly warmer Arctic surface
temperatures during the Pliocene indicated by multiple independent
proxies, Geology, 38, 603–606, 2010.
Brierley, C. M. and Fedorov, A. V.: Relative importance of meridional and
zonal sea surface temperature gradients for the onset of the ice ages and
Pliocene-Pleistocene climate evolution, Paleoceanography, 25, 1–16, 2010.
Brierley, C. M., Fedorov, A. V., Liu, Z., Herbert, T. D., Lawrence, K. T.,
and Lariviere, J. P.: Greatly expanded tropical warm pool and weakened
Hadley circulation in the early Pliocene, Science, 323, 1714–1718, 2009.
Broecker, W. S. and Putnam, A. E.: Hydrologic impacts of past shifts of Earth's
thermal equator offer insight into those to be produced by fossil fuel
CO2, P. Natl. Acad. Sci. USA, 110, 16710–16715, 2013.
Buggle, B., Glaser, B., Hambach, U., Gerasimenko, N., and Markovi, S.: An
evaluation of geochemical weathering indices in loess–paleosol studies,
Quatern. Int., 240, 12–21, 2011.
Chang, H., An, Z. S., Wu, F. L., Jin, Z., Liu, W. G., and Song, Y. G.: A
Rb∕Sr record of the weathering response to environmental changes in
westerly winds across the Tarim basin in the late Miocene to the early
Pleistocene, Palaeogeogr. Palaeocl., 386,
364–373, 2013.
Clift, P. D.: Controls on the erosion of Cenozoic Asia and the flux of
clastic sediment to the ocean, Earth Planet. Sc. Lett.,
241, 571–580, 2006.
Clift, P. D., Hodges, K. V., Heslop, D., Hannigan, R., Long, H. V., and
Calves, G.: Correlation of Himalayan exhumation rates and Asian monsoon
intensity, Nat. Geosci., 1, 875–880, https://doi.org/10.1038/ngeo351, 2008.
Clift, P. D., Wan, S. M., and Blusztajn, J.: Reconstructing chemical
weathering, physical erosion and monsoon intensity since 25 Ma in the
northern South China Sea: a review of competing proxies, Earth-Sci.
Rev., 130, 86–102, 2014.
Ding, Z. L., Yang, S. L., Sun, J. M., and Liu, T. S.: Iron geochemistry of
loess and red clay deposits in the Chinese Loess plateau and implications for
long-term Asian monsoon evolution in the last 7.0 Ma, Earth Planet.
Sc. Lett., 185, 99–109, 2001.
Dowsett, H. J., Robinson, M., Haywood, A., Salzmann, U., Hill, D., Sohl, L.
E., Chandler, M., Williams, M., Foley, K., and Stoll, D. K.: The PRISM3D
paleoenvironmental reconstruction, Stratigraphy, 7, 123–139, 2010.
Fedorov, A. V., Brierley, C. M., Lawrence, K. T., Liu, Z., Dekens, P. S., and
Ravelo, A. C.: Patterns and mechanisms of early Pliocene warmth, Nature, 496,
43–49, 2013.
Fang, X. M, Li, J. J, Derbyshire, E., Fitzpatrick, E. A., and Kemp, R. A.:
Micromorphology of the Beiyuan loess-paleosol sequence in Gansu province,
China: geomorphological and paleoenvironmental significance, Palaeogeogr.
Palaeocl., 111, 289–303, 1994.
Fang, X. M., Ono, Y., Fukusawa, H., Pan, B. T., Li, J. J., Guan, D. H., Oi.
K., Tsukamotoc, S., Torii, M., and Mishima, T.: Asian summer monsoon
instability during the past 60,000 years: magnetic susceptibility and
pedogenic evidence from the western Chinese Loess plateau, Earth
Planet. Sc. Lett., 168, 219–232, 1999.
Fang, X. M., Yan, M. D., Voo, R. V. D., Rea, D. K., Song, C. H., Parés,
J. M., Gao J. P., Nie J. S., and Dai S: Late Cenozoic deformation and uplift
of the NE Tibetan plateau: evidence from high-resolution magnetostratigraphy
of the Guide basin, Qinghai province, China, Geol. Soc. Am.
Bull., 117, 1208–1225, 2005a.
Fang, X., Zhao, Z. J., Li J. J., Yan, M. D, Pan, B. T., Song, C. H., and
Dai, S.: Magnetostratigraphy of the late Cenozoic Laojunmiao anticline in
the northern Qilian mountains and its implications for the Northern Tibetan
plateau uplift, Sci. China, 48, 1040–1051, 2005b.
Fang, X. M, Wu, F. L., Hai, W. X., Wang, Y. D., Zhang, X. Z., and Zhang, W.
L.: Plio-Pleistocene drying process of Asian inland-sporopollen and salinity
records from Yahu section in the central Qaidam basin (in Chinese),
Quaternary Sci., 28, 874–882, 2008.
Fedo, C. M., Nesbitt, H. W., and Young, G. M.: Unraveling the effects of
potassium metasomatism in sedimentary rocks and paleosols, with implications
for paleoweathering conditions and provenance, Geology, 23, 921–924,
1995.
Guo, Z. T., Peng, S. Z., Hao, Q. Z., Biscaye, P. E., and Liu, T. S.: Origin
of the Miocene–Pliocene red-earth formation at Xifeng in northern China and
implications for paleoenvironments, Palaeogeogr. Palaeocl., 170, 11–26, 2001.
Han, W., Fang, X., Berger, A., and Yin, Q.: An astronomically tuned 8.1 Ma
eolian record from the Chinese Loess plateau and its implication on the
evolution of Asian monsoon, J. Geophys. Res.-Atmos., 116 D24114,
https://doi.org/10.1029/2011JD016237, 2011.
Haug, G. H. and Tiedemann, R.: Effect of the formation of the isthmus of
Panama on Atlantic ocean thermohaline circulation, Nature, 393, 673–676,
1998.
Haug, G. H., Tiedemann, R., Zahn, R., and Ravelo, A. C.: Role of Panama
uplift on oceanic freshwater balance, Geology, 29, 207–210, 2001.
Haug, G. H., Ganopolski, A., Sigman, D. M., Rosell-Mele, A., Swann, G. E.,
Tiedemann, R., Jaccard, S. L., Bollmann, B. J., Maslin, M. A., Leng, M. J.,
and Eglinton, G.: North pacific seasonality and the glaciation of north
America 2.7 million years ago, Nature, 433, 821–825, 2005.
He, T., Chen, Y., Balsam, W., Qiang, X. K., Liu, L. W., Chen, J., and Li, F. J.:
Carbonate leaching processes in the Red Clay Formation, Chinese Loess
plateau: Fingerprinting East Asian summer monsoon variability during the
late Miocene and Pliocene, Geophys. Res. Lett., 40, 194–198,
2013.
Herbert, T. D., Lawrence, K. T., Tzanova, A., Peterson, L. C., Caballerogill,
R., and Kelly, C. S.: Late Miocene global cooling and the rise of modern
ecosystems, Nat. Geosci., 9, 843–849, 2016.
Jansen, E. and Sjøholm, J.: Reconstruction of glaciation over the past 6
Myr from ice-borne deposits in the Norwegian sea, Nature, 349, 600–603,
1991.
Keigwin, L. D.: Pliocene closing of the isthmus of Panama, based on
biostratigraphic evidence from nearby Pacific ocean and Caribbean sea cores,
Geology, 6, 630–634, 1978.
King, T.: Quantifying non-linearity and geometry in time series of climate,
Quaternary Sci. Rev., 15, 247–266, 1996.
Laskar, J.: Long-term solution for the insolation quantities of the
earth, Proceedings of the International Astronomical Union, 2, 101–106,
2004.
Li, F. J., Rousseau, D. D., Wu, N., Hao, Q., and Pei, Y.: Late Neogene
evolution of the East Asian monsoon revealed by terrestrial mollusk record in
western Chinese Loess plateau: from winter to summer dominated sub-regime,
Earth Planet. Sc. Lett., 274, 439–447, 2008.
Li, J. J.: The environmental effects of the uplift of the Qinghai-Xizang
plateau, Quaternary Sci. Rev., 10, 479–483, 1991.
Li, J. J., Zhou, S. Z., Zhao, Z. J., and Zhang, J.: The Qingzang movement:
the major uplift of the Qinghai-Tibetan plateau, Sci. China Earth Sci., 58,
2113–2122, 2015.
Li, J. J., Ma, Z. H., Li, X. M., Peng, T. J., Guo, B. H., Zhang, J., Song, C.
H., Liu, J. Hui, Z. C., Yu, H., Ye, X. Y., Liu, S. P., and Wang, X. X.: Late
Miocene-Pliocene geomorphological evolution of the Xiaoshuizi peneplain in
the Maxian Mountains and its tectonic significance for the northeastern
Tibetan plateau, Geomorphology, 295, 393–405, 2017.
Li, X.: NE Tibetan Plateau Late Miocene-Pliocene Multiproxy Red Clay Data,
available at:
https://www.ncdc.noaa.gov/paleo/study/26290, last access:
8 March 2019.
Liang, L., Sun, Y., Beets, C. J., Prins, M. A., Wu, F., and Vandenberghe,
J.: Impacts of grain size sorting and chemical weathering
on the
geochemistry of Jingyuan loess in the northwestern Chinese Loess
plateau, J. Asian Earth Sci., 69, 177–184, 2013.
Liu, C. Q., Masuda, A., Okada, A., Yabuki, S., Zhang, J., and Fan, Z. L.: A
geochemical study of loess and desert sand in northern China: implications
for continental crust weathering and composition, Chem. Geol., 106, 359–374,
1993.
Liu, Q., Jackson, M. J., Yu, Y., Chen, F., Deng, C., and Zhu, R.: Grain size
distribution of pedogenic magnetic particles in Chinese loess/paleosols,
Geophys. Res. Lett., 312, 359–363, 2004.
Liu, Q., Torrent, J., Maher, B. A., Yu, Y., Deng, C. L., Zhu, R., and Zhao X.
X.: Quantifying grain size distribution of pedogenic magnetic particles in
Chinese loess and its significance for pedogenesis, J. Geophys. Res.-Atmos.,
110, 1–7, 2005.
Liu, W., Liu, Z., An, Z. S., Sun, J., Chang, H., Wang, N., and Dong, J. B.:
Late Miocene episodic lakes in the arid Tarim basin, western China, P. Natl.
Acad. Sci. USA, 111, 16292–16296, 2014.
Liu, X. M., Rolph, T., An, Z., and Hesse, P.: Paleoclimatic significance of
magnetic properties on the red clay underlying the loess and paleosols in
China, Palaeogeogr. Palaeocl., 199, 153–166,
2003.
Lu, H. Y., Zhang, F., Liu, X., and Duce, R. A: Periodicities of
palaeoclimatic variations recorded by loess-paleosol sequences in China,
Quaternary Sci. Rev., 23, 1891–1900, 2004.
Ma, Y. Z., Wu, F. L., Fang, X. M., Li, J. J., An, Z. S., and Wei, W.: Pollen
record from red clay sequence in the central Loess plateau between 8.10 and
2.60 Ma, Chinese Sci. Bull., 50, 2234–2243, 2005.
Mudie, P. J. and Helgason, J.: Palynological evidence for Miocene climatic
cooling in eastern iceland about 9.8 myr ago, Nature, 303, 689–692,
1983.
Nie, J. S., Stevens, T., Song, Y., King, J. W., Zhang, R., Ji, S. C, Gong L.
S., and Cares, D.: Pacific freshening drives Pliocene cooling and Asian
monsoon intensification, Sci. Rep., 4, 1–8, 2014.
Pagani, M., Liu, Z., Lariviere, J., and Ravelo, A. C.: High earth-system
climate sensitivity determined from Pliocene carbon dioxide
concentrations, Nat. Geosci., 3, 27–30, 2010.
Rossinsky V. J. and Swart, P. K.: Influence of climate on the formation
and isotopic composition of calcretes, in: Climate Change in Continental Isotopic
Records, edited by: Swart, P. K., Lohmann, K. C.,
McKenzie, J., and Savin, S., American Geophysical Union: Geophysical Monography, 78, 67–75,
1993.
Song, C. H., Fang, X. M., Li, J. J., Gao, J., Zhao, Z. J., and Fan, M. J.:
Tectonic uplift and sedimentary evolution of the Jiuxi basin in the northern
margin of the Tibetan plateau since 13 Ma BP, Sci. China Earth
Sci., 44, 192–202, 2001.
Song, Y. G., Fang, X. M., Torii, M., Ishikawa, N., Li, J. J., and An, Z. S.:
Late Neogene rock magnetic record of climatic variation from Chinese eolian
sediments related to uplift of the Tibetan plateau, J. Asian Earth
Sci., 30, 324–332, 2007.
Sun, D. H., Bloemendal, J., Rea, D. K., An, Z. S., Vandenberghe, J., Lu,
H., Su, R. X., and Liu, T.: Bimodal grain-size distribution of Chinese
loess, and its palaeoclimatic implications, Catena, 55, 325–340, 2004.
Sun, J. M. and Huang, X.: Half-precessional cycles recorded in Chinese loess:
response to low-latitude insolation forcing during the last interglaciation,
Quaternary Sci. Rev., 25, 1065–1072, 2006.
Sun, J. M., Liu, W. G., Liu, Z., Deng, T., Windley, B. F., and Fu, B.:
Extreme aridification since the beginning of the Pliocene in the Tarim basin,
western China, Palaeogeogr. Palaeocl., 485, 189–200, 2017.
Sun, Y. B., Lu, H. Y., and An, Z. S.: Grain size of loess, palaeosol and red
clay deposits on the Chinese Loess plateau: significance for understanding
pedogenic alteration and palaeomonsoon evolution, Palaeogeogr.
Palaeocl., 241, 129–138, 2006.
Sun, Y. B., An, Z. S., Clemens, S. C., Bloemendal, J., and Vandenberghe, J.:
Seven million years of wind and precipitation variability on the Chinese
Loess plateau, Earth Planet. Sc. Lett., 297, 525–535,
2010.
Sun, Y. B., Kutzbach, J., An, Z., Clemens, S., Liu, Z., Liu, W., Liu, X. D.,
Shi, Z. G., Zheng, W. P., Liang, L., Yan, Y., and Li, Y.: Astronomical and
glacial forcing of East Asian summer monsoon variability, Quaternary Sci.
Rev., 115, 132–142, 2015.
Tang, H., Micheels, A., Eronen, J., and Fortelius, M.: Regional climate model
experiments to investigate the Asian monsoon in the Late Miocene, Clim. Past,
7, 847–868, https://doi.org/10.5194/cp-7-847-2011, 2011.
Vandenberghe, J., Lu, H., Sun, D., Huissteden, J. K. V., and Konert, M.: The
late Miocene and Pliocene climate in East Asia as recorded by grain size and
magnetic susceptibility of the Red Clay deposits (Chinese Loess Plateau),
Palaeogeogr. Palaeocl., 204, 239–255, https://doi.org/10.1016/S0031-0182(03)00729-6,
2004.
Wan, S. M., Tian, J., Steinke, S., Li, A., and Li, T.: Evolution and
variability of the East Asian summer monsoon during the Pliocene: evidence
from clay mineral records of the South China Sea, Palaeogeogr.
Palaeocl., 293, 237–247, 2010.
Wang, L., Lu, H. Y., Wu, N. Q., Li, J., Pei, Y. P., Tong, G. B., and Peng, S.
Z.: Palynological evidence for Late Miocene-Pliocene vegetation evolution
recorded in the red clay sequence of the central Chinese Loess plateau and
implication for palaeo-environmental change, Palaeogeogr. Palaeocl., 241,
118–128, 2006.
Watanabe, T., Suzuki, A., Minobe, S., Kawashima, T., Kameo, K., Minoshima,
K., Aguilar, Y. M., Wan, R., Kawahata, H., Sowa, K., Nagai, T., and Kase, T.:
Permanent EI niño during the Pliocene warm period not supported by coral
evidence, Nature, 471, 209–211, 2011.
Wu, N., Pei, Y., Lu, H., Guo, Z., Li, F., and Liu, T.: Marked ecological
shifts during 6.2–2.4 Ma revealed by a terrestrial molluscan record from
the Chinese red clay formation and implication for palaeoclimatic evolution,
Palaeogeogr. Palaeocl., 233, 287–299, 2006.
Xia, D. S., Jia, J., Li, G., Zhao, S., Wei, H. T., and Chen, F. H.:
Out-of-phase evolution between summer and winter East Asian monsoons during
the Holocene as recorded by Chinese loess deposits, Quaternary Res., 81,
500–507, 2014.
Yang, S. L., Ding, F., and Ding, Z. L.: Pleistocene chemical weathering
history of Asian arid and semi-arid regions recorded in loess deposits of
China and Tajikistan, Geochim. Cosmochim. Ac., 70, 1695–1709, 2006.
Yang, S. L., Ding, Z. L., Li, Y. Y., Wang, X., Jiang, W. Y., and Huang, X.
F.: Warming-induced northwestward migration of the East Asian monsoon rain
belt from the Last Glacial Maximum to the mid-Holocene, P. Natl. Acad. Sci.
USA, 112, 13178–13183, 2015.
Zachos, J., Pagani, M., Sloan, L., Thomas, E., and Billups, K.: Trends,
rhythms, and aberrations in global climate 65 Ma to present, Science, 292,
686–693, 2001.
Zhang, R., Jiang, D. B., Liu, X. D., and Tian, Z. P.: Modeling the climate
effects of different subregional uplifts within the Himalaya-Tibetan plateau
on Asian summer monsoon evolution, Sci. Bull., 57, 4617–4626, 2012.
Zhao, J. B.: A study of the
CaCO3 illuvial horizons of paleosols
and permeated pattern far rain water, J. Geogr. Sci., 15,
344–350, 1995 (in Chinese).
Zhao, J. B.: Illuvial
CaCO3 layers of paleosol in loess and its
environmental significance, Journal of Xi'an Engineering
University, 20, 46–49, 1998 (in Chinese).
Zheng, H. B., Mcaulay Powell, C., An, Z. S., Zhou, J., and Dong, G. R.:
Pliocene uplift of the northern Tibetan plateau, Geology, 28, 715–718, 2000.
