Publications

Louvain-La-Neuve

 

 

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Research Interests:

My research focuses on understanding the glacial-interglacial climate changes on millennial to orbital time scales, with a particular interest in the following topics:

  • The astronomical theory of paleoclimates
  • Spatial and temporal diversity of Quaternary interglacials
  • Climate - ice sheet - carbon cycle interactions
  • Asian monsoon evolution and dynamics 
  • Modelling intergalcial soil-climate interactions on the Chinese loess Plateau.

 

Publications:

2024

  • Berger, A., Yin, Q.Z. and Wu, Z.P., 2024. Length of astronomical seasons, total and average insolation over seasons. Quaternary Science Reviews, accepted.

  • Zhong, Y., Liu, Y., Yang, H., Yin, Q.Z., Wilson, D. J., Lu, Z., Jaccard, S.L., Struve T., Clift, P.D., Kaboth‐Bahr, S., Larrasoaña, J.C., Bahr, A., Gong, X., Zhao, D., Zhang, Y., Xia, W., and Liu, Q.S., 2024. Orbital controls on North Pacific dust flux during the late quaternary. Geophysical Research Letters, 51, e2023GL106631. https://doi.org/10.1029/2023GL106631

  • Guo, J., Ziegler, M., Wanders, N., Vreeken, M., Yin,Q.Z., Lu, H., Fuchs, L., Dong, J., Sun, Y., and Peterse, F., 2024. Robust land surface temperature record for north China over the past 21,000 years. Science Advances, 10, DOI: 10.1126/sciadv.adj48

2023

  • Wu Z.P., Yin Q. Z., GanopolskiA., BergerA., and Guo Z.T., 2023. Effect of Hudson Bay closure on global and regional climate under different astronomical configurations. Global and Planetary Change, 222, 104040, https://doi.org/10.1016/j.gloplacha.2023.104040.

  • Wu Z.P., Yin Q. Z., Liang M.Q., Guo Z. T., Shi F., Lu H., Su Q.Q. and Lyu A.Q., 2023. The effect of astronomical forcing on water cycle: sea ice and precipitation. Chinese Science Bulletin, 68, https://doi.org/10.1360/TB-2022-0833.

  • Jiang H.C., Yin Q.Z., Berger A., Wei L.H., Wu Z.P., Wei X.T., Shi W., 2023. Orbitally and galactic cosmic forced abrupt climate events during the last glacial period. Quaternary Science Reviews, 301, 107921, https://doi.org/10.1016/j.quascirev.2022.107921.

  • Ranathunga K. N., Finke P.A., Yin Q.Z., Wu Z.P., Hao Q.Z., Lu H., 2023. Driving factors of interglacial paleosol formation on the Chinese loess plateau and the effect of precession and ice sheets. Quaternary Science Reviews, 300, 107911, https://doi.org/10.1016/j.quascirev.2022.107911.

  • Xiao G.Q., Dai G.W., Tian S.H., Peng S.Z., Li L.T., Meng X.Q., Yin Q.Z., 2023. Periodic variations of alpine glaciation and desertification of the NE Tibetan Plateau: Evidence from the loess-paleosol sequences in the Menyuan Basin. Global and Planetary Change, 226, 104160, ISSN 0921-8181, https://doi.org/10.1016/j.gloplacha.2023.104160.

  • Tian S.H., Xiao G.Q., Yin Q.Z., Zhu Z.M., 2023. ENSO-related East Asian climate transition at ~ 3600 B.P. and its implications for the rise of pastoralism in North China. Palaeogeography, Palaeoclimatology, Palaeoecology, 630,111810, ISSN 0031-0182, https://doi.org/10.1016/j.palaeo.2023.111810.

  • Yu Y.Y., He F., Vavrus S. J., Johnson A., Wu H.B., Zhang W.C., Yin Q.Z., Ge J.Y., Deng C.L., Petraglia M.D., Guo Z.T., 2023. Climatic factors and human population changes in Eurasia between the Last Glacial Maximum and the early Holocene. Global and Planetary Change, 221,104054, https://doi.org/10.1016/j.gloplacha.2023.104054.

  • Li T., Li G.J., Chen T.Y., Sun Y.B., Yin Q.Z., Wu Z.P., Robinson L.F., Li L., Zhang Z.K., Meng X.Q., Zhao L., Ji J.F., Chen J., 2023. Ice volume and insolation forcing of abrupt strengthening of East Asian winter monsoon during glacial inceptions. Geophysical Research Letters, https://doi.org/10.1029/2022GL102404.

  • Zhang R., Yin Q.Z., Nai W.H., Wang Z.X., Lu H., Huang C.J., Gu Y.S., Li L., Wang Y.S., Liu L.J., 2023. Orbital and Millennial-Scale Climate Variability over the Past 76 ka in the Western Tarim Basin, Northwest China. Journal of Earth Science, 34(1): 173–180. https://doi.org/10.1007/s12583-020-1115-2. 

2022

  • Lyu A.Q. and Yin Q.Z., 2022. The spatial-temporal patterns of East Asian climate in response to insolation, CO2 and ice sheets during MIS-5. Quaternary Science Reviews 293(50), DOI: 10.1016/j.quascirev.2022.107689

  • Lu H., Yin Q.Z., Wu Z.P., Shi F., Hao Q.Z., Xia D.S. and Guo Z.T., 2022. Insolation and CO2 impacts on the spatial differences of the MIS-9 and MIS-11 climate between monsoonal China and central Asia. Journal of Geophysical Research: Atmospheres, DOI: 10.1029/2022JD036505. https://doi.org/10.1029/2022JD036505.

  • Sun Y.B., Wang T., Yin Q.Z., Lyu A.Q., Crucifix M., Cai Y.J., Ai L., Clemens S. and An Z.S., 2022. A review of orbital-scale monsoon variability and dynamics in East Asia during the Quaternary. Quaternary Science Reviews, 288, 107593, https://doi.org/10.1016/j.quascirev.2022.107593.

  • Su Q.Q., Lyu A.Q., Wu Z.P., Yin Q.Z., 2022. Diverse response of global terrestrial vegetation to astronomical forcing and CO2 during the MIS‑11 and MIS‑13 interglacials. Climate Dynamics, https://doi.org/10.1007/s00382-022-06308-y.

  • Wu Z.P., Yin Q. Z., Guo Z. T., Berger A., 2022. Comparison of Arctic and Southern Ocean sea ice between the last nine interglacials and the future. Climate Dynamics, https://doi.org/10.1007/s00382-022-06140-4.

  • Tian S.H., Dai G.W., Yin Q.Z., Meng X.Q., Zhang Z.S., Zhu Z.M., Xiao G.Q., 2022. Spatial differences  in  East  Asian  climate transition at ~260 ka and  their  links to ENSO. Quaternary Science Reviews, 296, https://doi.org/10.1016/j.quascirev.2022.107805.

  • Liu W., Shi F., Xiao G., Xue H., Yin Q.Z., Liu F., Duan A., Xiao C., Guo Z.T., 2022. Bidecadal temperature anomalies over the Tibetan Plateau and Arctic in response to the 1450s volcanic eruptions. Journal of Geophysical Research: Atmospheres,127, 2021JD035769. https://doi.org/10.1029/2021JD035769.

  • Shi F., Sun C., Guion A., Yin Q.Z., Zhao S. Liu T., Guo, Z.T., 2022. Roman Warm Period and Late Antique Little Ice Age in an Earth System Model Large Ensemble. Journal of Geophysical Research: Atmospheres,127, e2021JD035832. https://doi.org/10.1029/2021JD035832.

  • Shi F., H. Goosse, J.P. Li, Q.Z. Yin, F. C. Ljungqvist, T. Lian, C. Sun, L. Wang, Z.W. Wu, J. Li, S. Zhao, C.X. Xu, W. Liu, T. Liu, T. Nakatsuka, Z.T. Guo, 2022. Interdecadal to multidecadal variability of East Asian summer monsoon over the past half millennium. Journal of Geophysical Research: Atmospheres, JGRD58260. DOI: 10.1029/2022JD037260.

  • Lo L., Shen C.C., Zeeden C., Tsai Y.H., Yin Q.Z., Yang C.C., Chang T.L., Su Y.C., Mii H.S., Chuang C.K. and Chem Y.,C., 2022. Orbital control on the thermocline structure during the past 568 kyr in the Solomon Sea, southwest equatorial Pacific. Quaternary Science Reviews, 295, 107756, https://doi.org/10.1016/j.quascirev.2022.107756.

  • Cheng H., H.Y. Li, L.J. Sha, A. Sinha, Z.G. Shi, Q.Z. Yin, Z.Y. Lu, D.B. Zhao, Y.J. Cai, Y.Y. Hu, Q.Z. Hao, J. Tian, G. Kathayat, X.Y. Dong, J.Y. Zhao, H.W. Zhang, 2022. Milankovitch theory and monsoon. The Innovation, 100338, ISSN 2666-6758, https://doi.org/10.1016/j.xinn.2022.100338.

  • Askjær T. G., Q. Zhang, F. Schenk, F. C. Ljungqvist, Z. Lu, C.M. Brierley, P.O. Hopcroft, J. Jungclaus, X. Shi, G. Lohmann, W. Sun, J. Liu, P. Braconnot, B.L. Otto-Bliesner, Z.P. Wu, Q.Z. Yin, Y. Kang, H. Yang, 2022. Multi-centennial Holocene climate variability in proxy records and transient model simulations. Quaternary Science Reviews, 296,107801, ISSN 0277-3791, https://doi.org/10.1016/j.quascirev.2022.107801.

2021

  • Yin Q.Z., Wu Z.P., Berger A., Goosse H., Hodell D., 2021. Insolation triggered abrupt weakening of Atlantic circulation at the end of interglacials. Science, 373, 1035-1040, DOI: 10.1126/science.abg1737. [Abstract] [Reprint] [Full text]

  • Berger A. and Yin Q.Z., 2021. Orbital Forcing (Astronomical Theory of Paleoclimates). In Elias S.A. and Alderton D. (eds.), Encyclopedia of Geology (2nd Edition), Elsevier Ltd, pages 435-443, ISBN 9780081029091, https://doi.org/10.1016/B978-0-12-409548-9.11990-6.

  • Berger A. and Yin Q.Z., 2021. Les théories astronomiques du climat : une longue histoire, Encyclopédie de l’Environnement, [en ligne ISSN 2555-0950] url : https://www.encyclopedie-environnement.org/climat/theories-astronomiques-climat/.

  • Lyu A. Q., Yin Q. Z., Crucifix M. and Sun Y. B., 2021. Diverse regional sensitivity of summer precipitation in East Asia to ice volume, CO2 and astronomical forcing. Geophysical Research Letters, 48, e2020GL092005. https://doi.org/10.1029/2020GL092005.

  • Shi F., Duan A., Yin Q.Z.,Bruun J., Xiao C., Guo Z.T., 2021. Modulation of the relationship between summer temperatures in the Qinghai–Tibetan Plateau and Arctic over the past millennium by external forcings. Quaternary Research, doi: 10.1017/qua.2021.3.

  • Shi F., Lu H.Y., Guo Z.T, Yin Q.Z., Wu H.B., Xu C.X., Zhang E.L., Shi J.F., Cheng J., Xiao X.X., and Zhao C., 2021. The position of the Current Warm Period in the context of the past 22,000 years of summer climate in China. Geophysical Research Letters, doi: 10.1029/2020GL091940.

  • Ranathunga K.N., Finke P., Yin Q.Z., Verdoodt A., Yu Y.Y., 2021. Soil modeling for soil loss tolerance estimations: Exploring natural baselines and long-term variations. Global and Planetary Change, 204, https://doi.org/10.1016/j.gloplacha.2021.103548.

  • Ranathunga K.N., Finke P., Yin Q.Z., Yu Y.Y., 2021. Calibrating SoilGen2 for interglacial soil evolution in the Chinese Loess Plateau considering soil parameters and the effect of dust addition rhythm. Quaternary International, https://doi.org/10.1016/j.quaint.2021.08.019.

  • Xiao G.Q., Pan Q., Zhao Q.Y., Yin Q.Z., Chen R.S.,Ao H., Lia X.X., Zhu Z.M., 2021. Early Pleistocene integration of the Yellow River II: Evidence from the Plio-Pleistocene sedimentary record of the Fenwei Basin. Palaeogeography, Palaeoclimatology, Palaeoecology, https://doi.org/10.1016/j.palaeo.2021.110550.

  • Finke, P.A., Ranathunga, N., Verdoodt, A., Yu, Y.Y. and Yin, Q.Z., 2021. Unraveling loess records of climate change from the Chinese loess plateau using process-based models. In: Hunt, A, Egli, M and Faybishenko B. (eds). Hydrogeology, Chemical Weathering, and Soil Formation. Geophysical Monograph 257, 1st edition. American Geophysical Union, pages 163-175. DOI: 10.1002/9781119563952.ch8.

2020

  • Oliveira D., Desprat S., Yin Q.Z., Rodrigues T., Naughton F., Trigo R.M., Su Q.Q., Grimalt J.O., Alonso-Garciah M., Voelker A.H.L., Abrantes F., Sánchez Goñi F.M., 2020. Combination of insolation and ice-sheet forcing drive enhanced humidity in northern subtropical regions during MIS 13. Quaternary Science Reviews, 247, 106573, https://doi.org/10.1016/j.quascirev.2020.106573.

  • Wu Z.P., Yin Q.Z., Guo Z.T., and Berger A., 2020. Hemisphere differences in response of sea surface temperature and sea ice to precession and obliquity. Global and Planetary Change, 192, 103223. https://doi.org/10.1016/j.gloplacha.2020.103223.

  • Shi F., Yin Q.Z., Nikolova I., Berger A., Ramstein G., and Guo Z.T., 2020. Impacts of extremely asymmetrical polar ice sheets on the East Asian summer monson during the MIS-13 interglacial. Quaternary Science Reviews, 230,106164, https://doi.org/10.1016/j.quascirev.2020.106164.
  • Lu H., Yin Q.Z., Jia J., Xia D.S., Gao F.Y., Lyu A.Q., Ma Y.P., and Yang F., 2020. Possible link of an exceptionally strong East Asian summer monsoon to a La Niña-like condition during the interglacial MIS-13. Quaternary Science Reviews, 227,106048, https://doi.org/10.1016/j.quascirev.2019.106048.
  • Lu H.,Jia J., Yin Q.Z., Xia D.S., Gao F.Y., Liu H., Fan Y.J., Li Z.J., Wang X., Berger A., Oimahmadov I., and Gadoev M., 2020. Atmospheric dynamics patterns in southern central Asia since 800 ka revealed by loess-paleosol sequences in Tajikistan. Geophysical Research Letters, GRL61061, doi: 10.1029/2020GL088320. 

  • Xiao G.Q., Sun Y.Q., Yang J.L., Yin Q.Z., Dupont-Nivete G., Alexis Licht, Kehew A.E., Hu Y.Z., Geng J.Z.,Dai G.W., Zhao Q.Y., Wu Z.P., 2020. Early Pleistocene integration of the Yellow River I: Detrital-zircon evidence from the North China Plain. Palaeogeography, Palaeoclimatology, Palaeoecology, 546, 109691. https://doi.org/10.1016/j.palaeo.2020.109691.
  • Shi F., Yang B., Linderholm H.W., Seftigen K., Yang F.M., Yin Q.Z., Shao X.M. & Guo Z.T., 2020. Ensemble standardization constraints on the influence of the tree growth trends in dendroclimatology. Climate Dynamics, https://doi.org/10.1007/s00382-020-05179-5.

2019

  • Sun Y.B., Yin Q.Z., Crucifix M., Clemens S.C., Araya-Melo P., Liu W.G., Qiang X.K., Liu Q.S., Zhao H., Liang L.J., Chen H.Y., Li Y., Zhang L., Dong G.H., Li M., Zhou W.J., Berger A., and An Z.S., 2019. Diverse manifestations of the mid-Pleistocene climate transition. Nature Communications, 10, https://doi.org/10.1038/s41467-018-08257-9.

2018

  • Lu H., Jia J., Wang Y.J. Yin Q.Z., Xia D.S., 2018. The cause of extremely high magnetic susceptibility of the S5S1 paleosol in the central Chinese Loess Plateau. Quaternary International, 493, 252-257, https://doi.org/10.1016/j.quaint.2018.05.046

2017

  • Shi F., Zhao S., Guo Z.T., Goosse H., Yin Q.Z.,2017. Multi-proxy reconstructions of May–September precipitation field in China over the past 500 years. Clim. Past, 13, 1919-1938. https://doi.org/10.5194/cp-13-1919-2017
  • Finke P., Yin Q.Z., Bernardini N.J. and Yu Y.Y., 2017. Climate-soil model reveals causes of differences between Marine Isotope Stage 5e and 13 paleosols. Geology, DOI:10.1130/G39301.1. 
  • Oliveira D., Desprat S., Yin Q.Z., Naughton F., Trigo R., Rodrigues T., Abrantes F. and Sánchez Goñi M.F., 2017. Unraveling the forcings controlling the vegetation and climate of the best orbital analogues for the present interglacial in SW Europe. Climate Dynamics, DOI 10.1007/s00382-017-3948-7. 
  • Berger A., Yin Q.Z., Nifenecker H. and Poitou J., 2017. Slowdown of Global Surface Air Temperature Increase and Acceleration of Ice Melting. Earth's Future, 5 (7), 811–822. doi:10.1002/2017EF000554

2016

  • Past Interglacials Working Group of PAGES, 2016. Interglacials of the last 800,000 years, Rev. Geophys., 54 (1), 162-219, doi:10.1002/2015RG000482. 

2015

  • Karami M.P., Herold N., Berger A., Yin Q.Z. and Muri H., 2015. State of the tropical Pacific Ocean and its enhanced impact on precipitation over East Asia during Marine Isotopic Stage 13. Climate Dynamics, 44 (3), 807–825, doi 10.1007/s00382-014-2227-0. 

2014

  • Yin Q.Z., Singh U.K., Berger A., Guo Z.T. and Crucifix M., 2014. Relative impact of insolation and Warm Pool surface temperature on the East Asia Summer Monsoon during the MIS-13 interglacial. Climate of the Past, 10, 1645-1657. 

2013

  • Yin Q.Z., 2013. Insolation-induced mid-Brunhes transition  in  Southern  Ocean ventilation and deep-ocean temperature. Nature, 494, 222-225. 
  • Nikolova I., Yin Q.Z., Berger, A., Singh U.K. and Karami M.P., 2013. The last interglacial (Eemian) climate simulated by LOVECLIM and CCSM3. Climate of the Past 9: 1789-1806. 
  • Berger A., Loutre M.F. and Yin Q.Z., 2013. Astronomical Theory of Paleoclimates. In: Elias S.A. (ed.) The Encyclopedia of Quaternary Science, vol. 2, pp. 136-141. Amsterdam: Elsevier. 
  • Muri H., Berger A., Yin Q.Z., Karami M. And Barriat P., 2013. The climate of the MIS-13  interglacial  according  to  HadCM3.  Journal of Climate 26, 9696–9712. 
  • Lunt D. J. , A. Abe-Ouchi, P. Bakker, A. Berger, P. Braconnot, S. Charbit, N. Fischer,N. Herold,       J. H. Jungclaus,          V. C. Khon,     U. Krebs-Kanzow,            P.M.Langebroek, G. Lohmann,   K.H.Nisancioglu,   B. Otto-Bliesner,   W. Park,   M. Pfeiffer,   S.J.   Phipps, M. Prange,  R. Rachmayani,  H. Renssen,  N. Rosenbloom,  B. Schneider,  E. J. Stone, K. Takahashi, W. Wei, Q.Z. Yin  and Z.S.Zhang,  2013. A multi-model assessment of last interglacial temperatures. Climate of the Past, 9, 699-717. 

2012

  • Yin Q.Z. and Berger A., 2012. Individual contribution of insolation and CO2 to the interglacial climates of the past 800,000 years. Climate Dynamics 38:709–724, DOI 10.1007/s00382-011-1013-5 
  • Herold N., Yin Q.Z., Karami M.P. and Berger A., 2012. Modelling the climatic diversity of the warm interglacials. Quaternary Science Review 56: 126-141. 
  • Sundaram S., Yin Q.Z., Berger A. and H. Muri, 2012. Ice sheet induced North Atlantic Oscillation mode during an interglacial 500,000 years ago and its impact on East Asian Summer Monsoon. Climate dynamics, 39:1093-1105. 
  • Muri H., A. Berger, Q.Z. Yin, A. Voldoire, D. Salas, and S. Sundaram, 2012. SST and ice sheet impacts on the MIS–13 climate. Climate dynamics, 39:1739–1761. 
  • Berger A. and Yin Q.Z., 2012. Astronomical theory and orbital forcing. In: The Sage Handbook of Environmental Change, J.A. Matthews, Managing editor. Vol 1, Section III Causes, Mechanisms and Dynamics of Environmental Change. Pp 403-423. ISBN 978- 0-85702-360-5. 
  • Berger A. and Yin Q.Z., 2012. Modeling the interglacials of the last one million years. In: “Climate change at the eve of the second decade of the century. Inferences from paleoclimates and regional aspects”. Milankovitch 130th Anniversary Symposium, A. Berger, F. Mesinger, D. Sijacki (eds), Springer, pp 57-64. ISBN 978-3-7091-0972-4. 

2011

  • Berger A., Claussen M., and Yin Q.Z., 2011. Factor Separation Method and Paleoclimates. In: “The Factor Separation Method in Atmosphere: Applications  and Future Prospects”, P. Alpert and T. Sholokham (eds), Chap. 4, Cambridge University Press, pp 28-52. ISBN 978-0-52119173-9 Hardback. 
  • Berger A. and Yin Q.Z., 2011. Modelling the Past and Future Interglacials in Response to Astronomical and Greenhouse Gas Forcing. In: "The Future of the World's Climate",Henderson-Sellers  and  K.  McGuffie,  Elsevier.  pp 1123-1161.  ISBN  978-0-12-386917-3. 
  • Han W.X., Fang X.M., Berger A. and Yin Q.Z., 2011. An astronomically tuned 8.1 Ma eolian record from the Chinese Loess Plateau and its implication on the evolution of Asian monsoon. Journal of Geophysical Research, 116, D24114, 13PP., doi:10.1029/2011JD016237. 

2010

  • Yin Q.Z and Berger A., 2010. Insolation and CO2 contribution to the interglacial climate before and after the Mid-Brunhes Event. Nature Geoscience 3 (4), 243-246. 
  • Berger A., Loutre M.F., and Yin Q.Z., 2010. Total irradiation during any time interval of the year using elliptic integrals. Quaternary Science Reviews, 29, 1968-1982. 
  • Liu L., Yin Q.Z., Wu H.B. and Guo Z.T., 2010. Carbon isotopic compositions of pore and matrix carbonates in carbonate nodules and origin of the carbonate formation. Chinese Science Bulletin, 55 (26), 2926-2929. 

2009

  • Yin, Q. Z., Berger, A., and Crucifix, M, 2009. Individual and combined effects of ice sheets and precession on MIS-13 climate, Climate of the Past, 5, 229-243. 
  • Guo Z.T., Berger A., Yin Q.Z. and Qin L., 2009. Strong asymmetry of hemispheric climates during MIS-13 inferred from correlating China loess and Antarctica ice records. Climate of the Past, 5, 21-31. 

2008

  • Yin Q.Z., Berger A., Driesschaert E., Goosse H., Loutre M.F., and Crucifix M., 2008. The Eurasian ice sheet reinforces the East Asian summer monsoon during the interglacial 500,000 years ago. Climate of the Past, 4, 79-90. 
  • Yin Q.Z., Guo Z.T., 2008. Strong summer monsoon during the cool MIS-13. Climate of the Past, 4, 29–34. 
  • Guo Z.T., B. Sun, Z.S. Zhang, S.Z. Peng, G.Q. Xiao, J.Y. Ge, Q.Z., Hao, Y.S. Qiao, M.Y.Liang, J.F. Liu, Q.Z. Yin and J.J. Wei, 2008. A major  reorganization  of  Asian climate by the early Miocene. Climate of the past, 4, 153-174. 

2007

  • Yin Q.Z., Xiao G.Q., Guo Z.T., Ge J.Y., Hao Q.Z., Yuan B.Y., 2007. Syn- and post- depositional modification of loess deposits and their paleoenvironmental significance. Quaternary Sciences (in Chinese with English abstract), 27(2): 295-302. 
  • Yuan B.Y., Guo Z.T., Hao Q.Z., Peng S.Z., Qiao Y.S., Wu H.B., Xiao G.Q., Ge J.Y., Sun B., Zhou X., Yin Q.Z., Liang M.Y., Qin L., Liu L., Yao Z.Q., Liu T.S., 2007. Cenozoic evolution of geomorphic and sedimentary environments in the Tianshui-Qinan regions. Quaternary Sciences (in Chinese with English abstract), 27(2): 161-171. 

2006

  • Yin Q. Z., Guo Z. T., 2006. Mid-Pleistocene vermiculated red soils in southern China as an indication of unusually strengthened East Asian monsoon. Chinese Science Bulletin, 51(2), 213-220. 
  • Yin Q. Z., Guo Z. T. and Fang X. M., 2006. Micromorphology of Latosols in Hainan and environmental significance differences between vemiculated red soils in south China and Latosols. Acta Pedologica Sinica (in Chinese with English abstract), 43(3):353-361. 
  • Qiao Y. S., Guo Z. T., Hao Q. Z., Yin Q. Z., Yuan B. Y., Liu T. S.. 2006. Grain-size features of a Miocene loess-soil sequence at Qinan: Implications on its origin. Science in China, 49(7), 731-738. 
  • Sun B., Guo Z.T., Yin Q. Z., Hao Q.Z., 2006. Soluble salts in a Quaternary loess-soil sequence near Xining and the environmental implications. Quaternary Sciences (in Chinese with English abstract), 26(4):643-650.

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