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Impact of phased uplift of Tibetan Plateau on environmental changes since late Middle Pleistocene: Palynological records in the three terraces of Middle Shiquan River

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Abstract

Three fluvial terraces in Porougong River in the middle reach of Shiquan River were identified, and the palynological records were investigated to decipher the paleoenvironmental changes in the west inland of the Tibetan Plateau. Three phases of uplift in the west inland of the Tibetan Plateau are suggested to be associated with the third, second, and first fluvial terraces (T3, T2, and T1) being formed at ca.126-25.1 ka B.P., 25.1-4.5 ka B.P., and 4.5-1.3 ka B.P., respectively. The differentiated uplift rate infers that the inland Tibetan Plateau shows an earlier uplift than the surroundings. Coincident with the phased uplift, three episodes of the changes in paleovegetation and paleoclimate since late Middle Pleistocene could be identified by the spore-pollen records, including the forests under the warm-wet climate featured by the assemblage of Picea + Pinus-Betula-Ulmus-Chenopodiaceae-Epheara in the third terrace, the forest-grassy vegetation under the semi-arid and semi-wet climate as shown by the Picea + Pinus-Chenopodiaceae-Epheara assemblage in the second terrace, and the grassland under the cold-dry climate indicated by the Chenopodiaceae-Artemisia-Ephedra assemblage in the first terrace. The association of the paleovegetation and paleoclimate changes with the phased uplift of the fluvial terraces has revealed the important impact of the Plateau uplift.

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References

  • Johnson N M, Opdyke N J, Johnson G D, Lindsay E H, Tahirkheli R A K (1982). Magnetic polarity stratigraphy and ages of Siwalik Group rocks of the Potwar Plateau, Pakistan. Palaeogeography, Palaeoclimatology, Palaeoecology, 37: 17–42

    Article  Google Scholar 

  • Li C A, Luo M S, Yu Q W, Wang Y B (1997). Apreliminary study on sediment, geomorphology and invironmental evolution of Late Cenozicineastern Kun Lun. Earth Science-Journal of China University of Geosciences, 22(4): 347–351 (In Chinese with English abstract)

    Google Scholar 

  • Li J J (1999). Studies on the geomorphological evolution of the QingHai-XiZang(Tibetan) Plateau and Asian Monsoon. Marine geology et Quaternary geology, 19(1): 1–11

    Google Scholar 

  • Li J J, Fang X M, Ma H Z, Zhu J J, Pan B T, Che H L (1996). Geomorphologic and environmental evolution in the upper reaches of the Yellow River during the Late Cenozoic. Science in China (Series D), 26(4): 379–390

    Google Scholar 

  • Li J J, Fang X M, Pan B T, Zhao Z J, Song Y G (2001). Late Cenozoic intensive uplift of QingHai-XiZang Plateau and its impacts on environment in surrounding area. Quaternary Sciences, 21(5): 381–391 (In Chinese with English abstract)

    Google Scholar 

  • Li J J, Wen S X, Zhang Q S (1979). Discussion on age and extent and pattern of Tibetan uplift. Science in China (Series D), (6): 608–616 (In Chinese with English abstract)

  • Li S F, Wang F B, Zhang J, Sheng X H, Zeng Z Q (1999). Diatom-based reconstruction of Holocene environmental changes in Angren Lake, Southern Tibet. Chinese Science Bulletin, 44(12): 1123–1126

    Article  Google Scholar 

  • Li S G (1994). A preliminary study on vegetatian and desertification controlling in the ShiQuanhe Valley. Arid Zone Research, 11(2): 46–52 (In Chinese with English abstract)

    Google Scholar 

  • Pan B T, Go H S, Li B Y, Li J J (2004). Step-like landforms and uplift of the QingHai-XiZang Plateau. Quaternary Sciences, 24(1): 50–58 (In Chinese with English abstract)

    Google Scholar 

  • Pan B T, Li J J, Zhu J J (1991). Geomorphologic and enviremental evolution recorded in the Yellow River terraces of LanZhou region. In: Glacier and environmental evolution of the western China in Quaternary. Beijing: Science Press, 271–277 (In Chinese with English abstract)

    Google Scholar 

  • Powell C M (1986). Continental underplating model for the rise of the Tibetan Plateau. Earth and Planetary Letters, 81: 79–94

    Article  Google Scholar 

  • Searle M P, Windley B F, Coward M P, Cooper D J W, Rex A J, Rex D, Li T D, Xiao X C, Jan M Q, Thakur V C, Kumar S (1987). The closing of Tethys and the tectonics of the Himalaya. Geological Society of America Bulletin, 98(6): 678–701

    Article  Google Scholar 

  • Shen C M, Tang LY, Wang S M (1996). Vegetatlon and Climate during the last 250 000 years in Zoige region. Acta Micropalaeotologica Sinica, 13(4): 373–385 (In Chinese with English abstract)

    Google Scholar 

  • Shi Y F, Li J J, Li B Y (1998). Uplift and Environmental Changes on Qinghai-Xizang(Tibetan) Plateau in the Late Cenezoic. Guangzhou: Guangdong Science and Technology Press, 1–289

    Google Scholar 

  • Shi Y F, Li J J, Li B Y, Li B Y, Yao T D, Wang S M, Li S J, Wang F B, Pan B T, Fang X M, Zhang Q S (1999). Uplift of the QingHai-Xizang(Tibetan) plateau and East Asia environmental change duing Late Genozoic. Acta geographic Sinica, 54(1): 10–20 (In Chinese with English abstract)

    Google Scholar 

  • Song G Y, Luo X Z, Turner R E (2001). A study on peat deposition chronology of Holocene of Zorge plateau in the Northeast QingHai-Tibetan Plateau. Acta Sedimentologica Sinica, 19(2): 177–206 (In Chinese with English abstract)

    Google Scholar 

  • Tang L Y, Shen C M (1996). Holocene pollen records of the QingHai-XiZang plateau. Acta Micropalaeontologica Sinice December, 13(4): 407–422 (In Chinese with English abstract)

    Google Scholar 

  • Tang M C, Liu Y X (2001). On causes and environmental consequences of the uplift of QingHai-XiZang Plateau. Quaternary Sciences, 21(6): 500–507 (In Chinese with English abstract)

    Google Scholar 

  • Wang Y F, Wang S M, Xue B, Ji L, Wu J L, Xia W L, Pan H X (1995). Sedimentological evidence of the piracy of fossil Zoige lake by the Yellow River. Chinese Science Bulletin, 40(18): 1539–1544

    Google Scholar 

  • Wei L J, Zheng M P, Cai K Q, Ge W S (2002). Early middle Holocene paleoclimate recod from Saline lakes sediments TontSo, Tibet. Earth Science Frontiers, 9(1): 129–135 (In Chinese with English abstract)

    Google Scholar 

  • Wu J L, Wang S M, Pan H X, Xia W L (1997). Climatic variations in the past 140 ka recorded in core RM, east Qinghai.Xizang Plateau. Science in China (Series D), 40(4): 443–448

    Article  Google Scholar 

  • Wu Z H, Wu Z H, Zhang X T, Ma Z B, Ye P S, L Q S, Yin C M (2005). Geomorphofogic indicators and rates of late Quaternary normal faulting at the west side of the Wenquan graben, central Qinghai-Tibet Plateau. Geological Bulletin of China, 24(1): 48–57 (In Chinese with English abstract)

    Google Scholar 

  • Wu Z H, Zhao X T, Wu Z H, Zhou C J, Yan F H, Mai X H, Zhu D G (2004). Palaeovegetation,Palaeeclimate and Lake.level chang since 120 ka BP in Nam Co, Central XiZang. Acta Geologica Sinica, 78(2): 242–252 (In Chinese with English abstract)

    Google Scholar 

  • Xia D X, Zhang P, Zhou X (1993). The regional geology of Xizang automomous region. Beijing: Geological Press, 1–320 (In Chinese with English abstract)

    Google Scholar 

  • Xiao X C, Li T D (2000). Tectonic evolution and mchanism of the Tibetan uplift. Guangzhou: Guangdong Science and Technology Press, 1–313 (In Chinese with English abstract)

    Google Scholar 

  • Xue B, Wang S M, Wu J L, Qian J L (1999). Plaeoclimate of Northeastern QingHai.XiZang (Tibet) plateau. A case study since last Interglaciation. Oceanologlia et Limnologia, 30(2): 327–332 (In Chinese with English abstract)

    Google Scholar 

  • Yao T D (1998). The study on Ice Cap records of Xizang Tibet Plateau. Journal of Glaciology and Geocryology, 20(3): 233–237 (In Chinese with English abstract)

    Google Scholar 

  • Yao T D, Thompson L G, Qin D H, Tian L D, Jiao K Q, Yang Z H, Xie C (1996). Variations in temperature and precipitation in the past 2000 a on the Xizang Tibet Plateau-Guliya ice core record. Science in China (Series D), 39(4): 426–433

    Google Scholar 

  • Yuan D M, Shi Y C, Liu B C (1999). Study on the scale of Late Quaternary hydrogenic sediments along the northeastern margin of Qinghai-Xiang(Tibet) Plateau. Seismalogy and Geology, 21(1): 1–8 (In Chinese with English abstract)

    Google Scholar 

  • Yue L P, Lei X Y, Qu H J (1997). The age of terrace development in the middle reaches of the Yellow River. Geological Review, 43: 186–192 (In Chinese with English abstract)

    Google Scholar 

  • Zhang K X, Zhuang Y X, Li C L, Yu Q W (2001). Outdoor Notebook for Regional Geological Mapping of Tibetan Plateau. Wuhan: China University of Geosciences Press, 205–207 (In Chinese)

    Google Scholar 

  • Zhong D F, Ding L (1996). Rising process of the Qinghai.Xizang (Tibet) Plateau and its mechanism. Science in China (Series D), 39(4): 369–379

    Google Scholar 

  • Zhu C (1995). Neotectonism and Quanternary Glaciation of Gyirong basin, XiZang. Mountain Research, 13(4): 219–225 (In Chinese with English abstract)

    Google Scholar 

  • Zhu Z Y, Gu D L, Luo S D, Zhou H Y, Wen Q Z, Li S J, Li B Y, Li H C (2001). Age dating of lacustrine sediments in Lake Tianshuihai of the Tibetan Plateau by using U-series isochron method and its significance. Chinese Science Bulletin, 46(10): 862–866

    Article  Google Scholar 

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Authors and Affiliations

  1. Key Laboratory of Biogeology and Environmental Geology of Ministry of Education, China University of Geosciences, Wuhan, 430074, China

    Rongke Xu, Xiongfei Cai, Yulian Zhang & Liang Shan

  2. No.3 Institute of Geology and Resources of Gansu, Lanzhou, 730050, China

    Yaoyu Chen & Jianhong Qi

  3. Xizang Institute of Geology and Resources, Lhasa, 850000, China

    Gang Wang

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  1. Rongke Xu
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  2. Xiongfei Cai
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  3. Yulian Zhang
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  4. Liang Shan
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  5. Yaoyu Chen
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  7. Gang Wang
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Correspondence to Rongke Xu.

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Xu, R., Cai, X., Zhang, Y. et al. Impact of phased uplift of Tibetan Plateau on environmental changes since late Middle Pleistocene: Palynological records in the three terraces of Middle Shiquan River. Front. Earth Sci. China 3, 402–410 (2009). https://doi.org/10.1007/s11707-009-0051-3

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