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I.碳十四年代测定北半球重要考古遗址
i. 非洲旧, 新石器时代:
Loewy, S.L., Valdes, J., Wang, H., Ingram, B., Miller, N.R., de la Cruz Medina, K., A. Roberts, A., Yanny, S., Banner, J., Feseha, M., Todd, L., Kappelman, J., 2020. Improved accuracy of U-series and radiocarbon dating of ostrich eggshell using a sample preparation method based on microstructure and geochemistry: A study from the Middle Stone Age of Northwestern Ethiopia. Quaternary Science Reviews 247, 106525.
Brandt, S., Hildebrand, E., Vogelsang, R., Wolfhagen, J., Wang, H., 2017. A new MIS 3 radiocarbon chronology for Mochena Borago Rockshelter, SW Ethiopia: Implications for the interpretation of Late Pleistocene chronostratigraphy and human behavior. Journal of Archaeological Science: Reports 11, 352-369.
Brandt, S.A., Fisher, E.C., Hildebrand, E.A., Vogelsang, R., Ambrose, S.H., Lesur, J., Wang, H., 2012. Early MIS 3 occupation of Mochena Borago Rockshelter, Southwest Ethiopian Highlands: Implications for Late Pleistocene archaeology, paleoenvironments and modern human dispersals. Quaternary International 271, 38-54.
Beyin, A., Prendergast, M. E., Grillo, K. M., Wang, H., 2017. New radiocarbon dates for terminal Pleistocene and early Holocene settlements in West Turkana, northern Kenya. Quaternary Science Reviews. http://dx.doi.org/10.1016/j.quascirev.2017.04.012
Garcea, E.A.A., Wang, H., Chaix, L., 2016. High-precision radiocarbon dating application to multi-proxy organic materials from late foraging to early pastoral sites in upper Nubia, Sudan. Journal of African Archaeology 14(1), 83-98.
Prendergast, M.E. Grillo, K.M., Mabulla, A.Z.P., Wang, H., 2014. New Dates for Kansyore and Pastoral Neolithic Ceramics in the Eyasi Basin, Tanzania. Journal of African Archaeology, 12(1), pp. DOI 10.3213/2191-5784-10245
ii. 亚洲旧石器时代:
Qiu, Y.H., Shu, P.X., Ao, H., Zhang, Y.X., Li, X.W., Wang, H*., 2023. New radiocarbon dates and the prehistoric human occupation at the Lake Qinghai Basin, northeast Tibetan Plateau. Quaternary International.
Ao, H., Rohling, E.J., Stringer, C., Roberts, A.P., Dekkers, M.J., Dupont-Nivet, G., Yu, J.M., Liu, Q.S., Zhang, P., Liu, Z.H., Ma, X.L., Zhou, W.J., Jin, Z.D., Xiao, G.Q., Wang, H., Sun, Q., Yang, P.G. Peng, X.Z., Shi, Z.G., Qiang, X.K., An, Z.S. 2020. Two-stage mid-Brunhes climate transition and mid-Pleistocene human diversification. Earth -Science Reviews 210, 103354.
Demeter, F., Shackelford, L.L., Bacon, A.M., Duringer, P., Westaway, K., Sayavongkhamdy, T., Braga, J., Sichanthongtip, P., Khamdalavong, P., Ponche, J-L., Wang, H., Lundstrom, C., Patole-Edoumba, E., Karpoff, A-M., 2012. Anatomically modern human in Southeast Asia (Laos) by 46 ka. Proceedings of the National Academy of Sciences 109, 14375-14380.
iii. 欧洲近代
Keenan-Jones, Duncan Campbell, Anneleen Foubert, Davide Motta, Glenn Fried, Mayandi Sivaguru, Mauricio M. Perillo, Julia Waldsmith, Hong Wang, Marcelo H. Garcia, and Bruce W. Fouke. (Forthcoming, 2014). “Hierarchical Stratigraphy of Travertine Deposition in Ancient Roman Aqueducts.” In Atti del Convegno Lazio e Sabina X, 4-6 giugno 2013, edited by Zaccaria Mari, 13–15.
II 光释光测年应用
i.中亚地区
Macklin, M.G., Panyushkina, I.P., Toonen, W. H.J., Chang, C., Tourtellotte, P.A., Duller G.T., Wang, H., Prins Maarten A., 2015. The influence of Late Pleistocene geomorphological inferitance and Holocene hydromorphic regimes on floodwater farming in the Talgar catchment, southeast Kazakhstan, Central Asia. Quaternary Science Reviews 129, 85-95.
ii. 南美巴西
Ribeiro, L.M.A.L., Sawakuchi, A.O., Wang, H., Sallun Filho,W., Nogueira, L., 2015. OSL dating of Brazilian fluvial carbonates (tufas) using detrital quartz grains. Quaternary International 362, 146-156.
iii. 美国
Wang, H., 2019. First preliminary evidence of Holocene loessin the Illiniois River valley. QSR 216, 124-126.
Arbogast, A.F, Luehmann, M.D., Monaghan, G.W., Lovis, W. A., Wang H., 2017. Paleoenvironmental and Geomorphic Significance of Bluff-Top Dunes along the Au Sable River in Northeastern Lower Michigan, USA. Geomorphology. doi:10.1016/j.geomorph.2017.09.017.
Blewett, W.L., Drzyzga, S.A., Sherrod, L., Wang, H., 2014. Geomorphic relations among glacial Lake Algonquin and the Munising and Grand Marais moraines in eastern Upper Michigan, USA. Geomorphology 219, 270-284.
Vader, M.J., Zeman, B. K. Schaetzl, R. J., Anderson, K. L., Walquist, R. W.,Freiberger, K. M., Emmendorfer, J. A., Wang, H., 2012. Proxy evidence for easterly wind in glacial Lake Algonquin, from the Black River delta in northern lower Michigan. Physical Geography 33, 252-268.
III. 北半球大气演变规律
i. 用碳氧同位素重建东亚,印度洋夏季风及冬季风对黄土高原植被影响,古人类迁徙适应:
Wang, Z., Zhang, F., Cao, Y.N., Hu, J., Wang, H.Y., Lu, H.X., Dong, J.B., Xing, M., Liu, H., Wang, H., Liu, W.G., 2022.Linking sedimentary and speleothem precipitation isotope proxy records to improve lacustrine and marine 14C chronologies. Quaternary Science Reviews 282 (2022) 107444.
Wang, H., Zhou, W.J., Shu, P.X., Hong, B., An, Z.S., 2021. Two stage evolution of glacial-period Asian monsoon circulation by shifts of westerly jet streams and changes of North American ice sheets. Earth-Science Reveies. 215 (2021) 103558. https://doi.org/10.1016/j.earscirev.2021.103558
Wang, H. and Follmer, L.R.,1998. Proxy of monsoon seasonality in carbon isotopes from paleosols of the southern Chinese Loess Plateau. Geology 26, 987-990.
Shu, P.X., Wang, H., Zhou, W.J., Ao, H., Niu, D.F., Wen, X.H., Li, B.S. 2020. Seasonal rainfall patterns in stable carbon isotopes in the Mu Us Desert, northern China during the early and middle Holocene. Climate Dynamics https://doi.org/10.1007/s00382-020-0554-y.
Wang, H., Liu, J.C-L., and Follmer, L.R.,1998. Climate trend and habitat variation based on oxygen and carbon isotopes in paleosols frm Liujiapo, Shaanxi, China. Quaternary International 51/52, 52-54.
Wang, H. ,2013. Interactive comment on “Excursions to C4 vegetation recorded in the Upper Pleistocene loess of Surduk (Northern Servia): an organic isotope geochemistry study by C. Hatté et al. Climate of the Past Discussion, 9, p. C29.
Wang, H., Ambrose, S.H., Liu, J.C-L., and Follmer, L.R., 1997. Paleosol stable isotope evidence for early Hominid Occupation of East Asian Temperate environments. Quaternary Research. 48, 228-238.
ii. 用碳氧同位素,黄土-古土壤地层,及其它物理化学指标重建北美末次冰期以来的古ENSO记录:
Wang, H., Follmer, L.R., and Liu, J.C-L., 2000. Isotope evidence of paleo-El Ni?o-Southern Oscillation cycles in loess-paleosol record in the central United States. Geology 28, 771-774.
Wang, H., Hughes, R.E., Steele, J.D., Lepley, S.M., and Tian, J., 2003. Correlation of climate cycles of Middle Mississippi Valley loess and reenland ice. Geology 31, 179-182.
Wang H. and Greenberg, S.E., 2007. Reconstructing the response of C3 and C4 plants to decadal-scale climate change during the Late Pleistocene in southern Illinois using isotopic analyses of calcified rootlets. Quaternary Research 67, 136-142.
Wang H., Mason, J.A., and Balsam, W.L., 2006. The importance of both geological and pedological processes in control of grain size and sedimentation rates in Peoria loess. Geoderma 136, 388-400.
Wang, H., Ambrose, S.H., and Fouke, B.W., 2004. Evidence of long-term seasonal climate forcing in rhizolith isotopes during the last glaciation. Geophysical Research Letters 31 L13203.
iii. 用黄土-古土壤,沙丘-湿地,湖泊-磷灰石地层讨论冰消期以来极地气流/西风环流对北美南北两翼干湿度影响的机理:
Wang, H., Stumpf, A.J., Miao, X., Lowell, T.V., 2012. Atmospheric changes in North America during the last deglaciation from dune-wetland records in the Midwestern United States. Quaternary Science Reviews 58, 124-134.
Wang, H., Stumpf, A.J., Miao, X.,, 2013. Reply to comments by Curry et al. (2013) on “Atmospheric changes in North America during the last deglaciation from dune-wetland records in the Midwestern United States”. Quaternary Science Reviews 80, 200-203.
iv. 用宏观-中观土壤结构和地球物理-化学指标划分出美国最长久的黄土-古土壤及古气候环境变化记录:
Wang, H., Lundstrom, C.C., Zhang, Z., Grimley, D.A., and Balsam, W.L., 2009. A mid-late Quaternary loess-paleosol record in Simmons Farm in southern Illinois, USA. Quaternary Science Review 28, 93-106.
Curry, B.B., Wang, H., Hackley, K.C., and Panno, S.V., 2010. Chapter 10, Quaternary Paleoclimate. Geology of Illinois (Kolata, D.R., Ed). ISGS Press. pp. 248-260.
IV. 高温裂解加速器碳十四测年应用(全球唯一)
i. 美国及中国沉积年代学,考古遗址:
Wang, H., Hackley, K.C., Panno, S.V., Coleman, D.D., Liu, J. C-L., and Brown, J., 2003. Pyrolysis combustion 14C dating of soil organic matter. Quaternary Research 60, 348-355.
Miao, X., Wang, H., Hanson, P.R., Mason, J.A., Liu X., 2015. A few mthod to constrain soil development time using both OSL and radiocarbon dating. Geoderma 261 93-100.
Wang, H., Ambrose, S., Headman, K., and Emerson, T., 2010. AMS 14C dating of human bones using sequential pyrolysis and combustion of collagen. Radiocarbon 52 (1) 157-163.
Cheng, P., Zhou, W., Wang, H., Lu, X., and Du, H., 2013. 14C dating of soil organic carbon (SOC) in loess-paleosol using sequential pyrolysis and accelerator mass spectrometry (AMS). Radiocarbon 55, 563-570.
ii. 日本芒草土壤对大气二氧化碳储藏及贡献
Howlett, D.S., Toma, Y., Wang, H., Sugiyama, S., Yama, T., Nishiwaki, A., Fernandez, F., Stewart, J.R. (2013). Soil carbon source and accumulation over 12,000 years in a semi-natural Miscanthus sinensis grassland in southern Japan. Catena, 104, 127-135.
Howlett, D.S., Stewart, J.R., Inoue, J, Saito M., Lee, D. Wang, H., Yamada, T., Nishiwaki, A., Fernandez, F.G., Toma, Y., 2022. Source and Accumulation of Soil Carbon along Catena Toposequences over 12,000 Years in Three Semi-Natural Miscanthus sinensis Grasslands in Japan. Agriculture. https://doi.org/10.3390/agriculture12010088
iii. 美国中西部关键带观测站土壤有机碳活跃和惰性碳库循环动力学
Wang, H., Stumpf, A. J., Kumar, P., 2018. Labile and inert carbon cycling dynamics in the Critical Zone Observatory in Illinois, USA. Radiocarbon. DOI:10.1017/RDC.2018.31
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