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張家富

職稱(chēng):教授

研究方向:(1) 釋光測(cè)年技術(shù)、方法和基本理論;(2) 第四紀(jì)環(huán)境和地貌過(guò)程; (3) 環(huán)境考古

通訊地址:

Tel: 010-62754411
Email:jfzhang@pku.edu.cn

個(gè)人簡(jiǎn)歷 人才培養(yǎng) 科學(xué)研究 教研成果

教育經(jīng)歷

1984、1990和2000年分別在原華東地質(zhì)學(xué)院、核工業(yè)北京地質(zhì)研究院和香港大學(xué)獲學(xué)士、碩士和博士學(xué)位

工作經(jīng)歷

從1984.8起,分別在核工業(yè)北京地質(zhì)研究院任技術(shù)員、助理工程師、工程師和高級(jí)工程師,北京大學(xué)副研究員、研究員和教授

博士生導(dǎo)師/方向

(1)第四紀(jì)年代學(xué);

(2)第四紀(jì)環(huán)境和地表過(guò)程;

(3)環(huán)境考古

碩士生導(dǎo)師/方向

(1)第四紀(jì)年代學(xué);

(2)第四紀(jì)環(huán)境和地表過(guò)程;

(3)環(huán)境考古

本科生課程: 

普地野外實(shí)習(xí)

地貌野外實(shí)習(xí)

研究生課程:

第四紀(jì)野外實(shí)驗(yàn)技術(shù)與方法


歡迎有地學(xué)或物理背景的同學(xué)報(bào)考研究生


研究簡(jiǎn)介:

釋光現(xiàn)象就是吸收輻照能量后的礦物晶體在受到加熱或光照時(shí)發(fā)射光的現(xiàn)象,如果是熱激發(fā)的,發(fā)射的光就稱(chēng)為熱釋光(TL);如果是光(包括紅外線)激發(fā)的,發(fā)射的光就稱(chēng)為光釋光(OSL)。礦物的釋光性質(zhì)有廣泛的用途,其中在第四紀(jì)地質(zhì)和地貌與考古研究中的主要應(yīng)用是測(cè)年。本課題組涉及釋光測(cè)年技術(shù)、方法和基本理論的研究,比如探討各種釋光信號(hào)的性質(zhì)對(duì)測(cè)年的影響,如何提高測(cè)年的精確度,開(kāi)發(fā)可測(cè)年的礦物等,這方面的研究需要一定的物理基礎(chǔ)。本課題組另一個(gè)重要的研究方向是釋光技術(shù)在第四紀(jì)河流階地等地貌過(guò)程和環(huán)境考古尤其是舊石器遺址年代等方面的應(yīng)用研究,在這些方面的應(yīng)用主要就是通過(guò)光釋光技術(shù)提供各種地質(zhì)地貌事件或考古事件的年代序列,比如通過(guò)光釋光技術(shù)測(cè)量黃河階地的發(fā)育年代,從而可以討論黃河的演化歷史;比如通過(guò)測(cè)量考古遺址堆積物得到其年代序列,結(jié)合其它資料,可以恢復(fù)古人類(lèi)的生活環(huán)境,探討人類(lèi)起源等,應(yīng)用方面的研究需要地學(xué)和考古學(xué)方面的知識(shí)。



2001年來(lái)發(fā)表的國(guó)際學(xué)術(shù)期刊論文(*通訊作者)

71. Wang, J.-J., Tan, P.-Y., Feng, Y. *, Zheng, Z.-X., Guo, Y.-J., He, J.-N., Wang, Y.-P., Zhang, J.-F., 2025. Human presence in the southeastern Tibetan Plateau after the Last Glacial Maximum. Palaeogeography, Palaeoclimatology, Palaeoecology 667, 112878.

70. Hu, G., Hu, C.-C. *, Wu, X.-W., Pan, G.,Y. Zhuma, D.-B., He, Q.-H., Wang, H.-Y.,Wang, P., Xu, L.-B., Xie, J.-M., Zhang, J.-F., Wang, X., 2025. Fluvial downcutting and its influence on human settlement in the middle reaches of the Lancang River. Geomorphology 477, 109703.

69. Yang, S.X.*, Zhang, J.F.*, Yue, J.P., Ollé,A., d’Errico., F.*, Petraglia, M.*, 2025. Reply to: An Initial Upper Palaeolithic attribution is not empirically supported at Shiyu, northern China. Nature Ecology and Evolution 9, 38-41.

68. Ma, Q.H., Guo, Y.J., Lei, H.R., Shen, Y.H., Wang, J.J., Liu, Y., Zhou, Z.Y., Zhang, J.F.*, 2024. Holocene paleoenvironment of the Nihewan Basin, China, inferred from high-resolution luminescence dating and a multiproxy analysis of gully sediments. Palaeogeography, Palaeoclimatology, Palaeoecology 655, 112533.

67. Hu, G., Wang, H.Y., Xu, B., Wang, P., Xu, L.B., Xie, J.M., Wang, X., Qiao, L., Guo, C.H., Wang, J.K., Zhang, J.F., Wang, W.X., Ta, L., Wang, L., 2024. Sedimentation rate changes across the Chinese Loess Plateau from luminescence dating of Malan loess in the Sanmen Gorge. Quaternary Research 1–16, doi:10.1017/qua.2024.18.

66. Wu, X.-W, Wang, L., Ta, L., Guo, C.H., Qiao, L., Wang, H.Y., Wang, P., Xu, L.P., Xie, J.M., Zhang, J.F., Wang, X., Wang, X.X., Hu, G., 2024. Fluvial landscape change in Anqing through the last glacial cycle: Implications for eustatic controls on the Yangtze River's continental-scale incision-aggradation cycles. Quaternary Science Reviews 333, 108689.

65. Hu, G., Dong, G., Liu, T., Min, R., Yang, Z., Gao, Q.J., Wang, H.Y., Wang, P., Chen, J., Zhang, J.F., Wang, C.S., Zhao, C.Y., Zhang. A.M., 2024. Geological study of an outburst flood event in the upper Yangtze River and risk of similar extreme events. Global and Planetary Change, 104480.

64. Liu, Y., Wang, J. K., Zhang, J. F.*, 2024. Quaternary evolution of the Jinshan Gorge and Yellow River: Insight from numerical modelling and terrace correlation. Earth Surface Processes and Landforms, 49(8), 2567–2582.

63. Yang, S.X. *, Zhang, J.F.*, Yue, J.P., Wood, R., Guo, Y.J., Wang, H., Luo, W.G., Zhang, Y., Raguin, E., Zhao, K.L., Zhang, Y.X., Huan, F.X., Hou, Y.M., Huang, W.W., Wang, Y.R., Shi, J.M., Yuan, B.Y., Ollé, A., Queffelec, A., Zhou, L.P., Deng, C.L., d'Errico, F.*, Petraglia, M.*, 2024. Initial Upper Palaeolithic material culture by 45,000 years ago at Shiyu in northern China. Nature Ecology & Evolution 8, 552–563.

62. Zhang, A.M., Gao, Q.H., Rahman, S.M., Alam, M.M., Guo, Y.J., Chen, Y.W., Chen, J., Wang, H.Y., Wang, P., Zhang, J.F., Yi, C.L., Hu, G., 2023. Luminescence fingerprints fluvial sediment transport from the Tibetan Plateau to the Bangladesh Delta. Earth and Planetary Science Letters, 622, 118387.

61. Li, Y.Y., Li, H., Sumner, A., Zhang, J.F., 2023. Lithic technological strategies of Late Pleistocene hominins in the Daoshui River valley, Hunan province, central South China. Frontiers in Earth Science 11, 1133499.

60. Hu, Y., Zhang, J.F., Lu, H.L., Hou, Y.M., Huang, W.W., Li, B., 2023. New chronology of the deposits from the inner chambers of the Guanyindong cave, southwestern China. Journal of Archaeological Science 159. https://doi.org/ARTN 105872

59. Zhao, Y., Fan, N., Nie, J., Abell, J. T., An, Y., Jin, Z., Wang, C. Zhang, J., Liu, X., Nie, R.. 2023. From Desiccation to ReIntegration of the Yellow River Since the Last Glaciation. Geophysical Research Letters, 50(15), e2023GL103632.

58 Han, Y.-S., Zhang, J.-F, Liu, G.-N, Cui, Z.-J., 2022. Optical dating of quartz grains from the Minjiang fluvial terraces in the Sonpan area on the eastern margin of the Tibetan Plateau. Frontiers in Earth Science, 10:939539.

57. Zhang, J.-F., Hou, Y.-M., Guo, Y.-J., Rui, X., Wang, Z.-H., Yang, Z.-M., Liu, Y., Zhen, Z.-M., Hu, Y., Zhou, L. -P., 2022. Radiocarbon and luminescence dating of the Wulanmulun site in Ordos, and its implication for the chronology of Paleolithic sites in China. Quaternary Geochronology 72, 101371.

56. Lei, H.-R., Zhou, Z.-Y., Guo, Y.-J., Du, J.-H., Zhang, J.-F.*, 2022. Chronology of the Paleolithic site of Xibaimaying in the Nihewan Basin, North China, inferred from optical dating of fine-grained quartz. Quaternary Geochronology 72, 101363.

55. Rui, X., Li, B., Yuan, B.-Y., Zhang, J.-F., 2022. Luminescence dating of the Huliu River terraces in the Nihewan Basin, North China. Quaternary Geochronology 71, 101316.

54. Lai, H.-C., Zhang, J.-F.*, Li, Y.-Y., Zhou, L.P., 2021. Origin and provenance of Red Clay in north Hunan Province, China: Inferred from grain-size analysis and end-member modelling. Aeolian Research 51, 100714.

53. Lai, H.-C., Zhang, J.-F.*, Li, Y.-Y., Zhou, L.P., 2021. Chronology of the Huxushan paleolithic site in south China: inferred from multiple luminescence dating techniques. Geochronometria, DOI 10.2478/geochr-2020-0039

52. Wang, H., Tong, K., Hu, G., Wang, P., Li, D., Huang, J., Cao, G., Zhang, J., Chen, J., 2021. Dam and megafloods at the First Bend of the Yangtze River since the Last Glacial Maximum. Geomorphology 373, 107491.

51. Hu, G., Wang, P., Rahman, S.M., Li, D., Alam, M.M., Zhang, J., Jin, Z., Fan, A., Chen, J., Zhang, A., Yang, W., 2020. Vicissitudes experienced by the oldest urban center in Bangladesh in relation to the migration of the Brahmaputra River. Journal of Quaternary Science 35, 1089-1099.

50. Yan, Y.-Y., Zhang, J.-F.*, Hu, G., Zhou, L.-P., 2019. Luminescence chronology of the Yellow River terraces in the Heiyukou area, China, and its implication for the uplift rate of the Ordos Plateau. Geochronometria, DOI 10.2478/geochr-2020-0008.

49. Hu, G., Yi, C.L., Liu, J.H., Wang, P., Zhang, J.F., Li, S.H., Li, D.H., Huang, J.W., Wang, H.Y., Zhang, A.M., Shi, L.F., Shui, X.J., 2020. Glacial advances and stability of the moraine dam on Mount Namcha Barwa since the Last Glacial Maximum, eastern Himalayan syntaxis. Geomorphology 365, 107246.

48. Zhang J.F. *, Qiu, W.-L., Hu, G., Zhou, L.-P., 2020. Determining the age of terrace formation using luminescence dating—A case of the Yellow River terraces in the Baode Area, China. Methods and Protocols 3, 17.

47. Hu, G., Wang, P., Li, D.-H., Huang, J.-W., Wang, H.-Y., Yang, X.-Y., Zhang, J.-F., Chen, J., Qiu, M.-H., Zhang, A.-M., Shi, L.-F., 2020. Landscape change and its influence on Lhasa Basin of central Tibetan Plateau since the last deglacial. Quaternary International 536, 1-12.

46. Mischkea, S., Zhang, C.-J., Liu, C.-L., Zhang, J.-F., Jiao, P.-C., Plessen, B., 2019. The Holocene salinity history of Lake Lop Nur (Tarim Basin, NW China) inferred from ostracods, foraminifera, ooids and stable isotope data. Global and Planetary Change 175, 1–12.

45. Xue, R., Guo, Y.-J., Zhang, J.-F., Hu, Y., Mei, H.-J., Wang, Y.-P., Xie, F., LI, B., 2019. Luminescence chronology of the Palaeolithic–Neolithic transition in the Yujiagou site at the Nihewan Basin, northern China. Journal of Quaternary Science 34, 125–13.

44. Hu, Y., Marwick, B., Zhang, J.-F., Rui, X., Hou, Y.M., Chen, W.R., Huang, W.W., Li, B., 2019. Robust technological readings identify integrated structures typical of the Levallois concept in Guanyindong Cave, South China. National Science Review 6, 1096–1099.

43. Hu, Y., Marwick, B., Zhang, J.-F., Rui, X., Hou, Y.M., Yue, J.-P., Chen, W.-R., Huang, W.W., Li, B., 2019. Late Middle Pleistocene Levallois stone-tool technology in southwest China. Nature 565, 82–85.

42. Zhang, J.-F.*, Li, Y.Y., Han, Y.-S., Wang, J. K., 2019. Luminescence dating of weathered sediments from the Paleolithic site of Fengshuzui in northern Hunan province, China. Quaternary Geochronology 49, 211–217.

41. Rui, X., Li, B., Guo, J, Zhang, J.F., Yuan, B.Y., Xie, F., 2019. Variability in the thermal stability of OSL signal of single-grain quartz from the Nihewan Basin, North China. Quaternary Geochronology 49, 25-30.

40. Zhang, J.F.*, Dennell, R., 2018. The last of Asia conquered by Homo sapiens -- Excavation reveals the earliest human colonization of the Tibetan Plateau. Science 362 (6418), 992–993.

39. Hu, G., H., Yi, C.L., Zhang, J.F., Pan, B.L., Liu, L.H., Jiang, T., Yi, S.W., Li,D.H., Huang,J.W., 2018. Chronology of a lacustrine core from Lake Linggo Co using a combination of OSL, 14C and 210Pb dating: implications for the dating of lacustrine sediments from the Tibetan Plateau. Boreas 47, 656-670.

38. Zou, G.-N., Shelach, G., Li, X.-Q., Zhao, C., Rui, X., Zhou, L-P., Zhang, J.-F*., 2018. Geochronology and paleoenvironment of the Taoshan site, northeastern China, and archaeological implications. Quaternary International 463, 6–17.

37. Guo, Y. J., Li, B., Zhang, J.F., Yuan, B. Y., Xie, F., Roberts R.G., 2017. New ages for the Upper Palaeolithic site of Xibaimaying in the Nihewan Basin, northern China: implications for small-tool and microblade industries in northeast Asia during Marine Isotope Stages 2 and 3. Journal of Quaternary Science 32, 540–552.

36. Mischke, S., Liu, C.L., Zhang, J.F., Zhang, C.J., Zhang, H., Jiao, P.C., Plessen,P., 2017. The world’s earliest Aral-Sea type disaster: the decline of the Loulan Kingdom in the Tarim Basin. Scientific Reports 7: 43102.

35. Hu, G., Yi, C.-L., Zhang, J.-F., Dong, G-C., Liu, J.-H., Xu, X.K., Jiang, T., 2016. Extensive glacial advances during the Last Glacial Maximum near the eastern Himalayan syntaxis. Quaternary International 443, 1–12.

34. Hu, G., Yi, C.L., Zhang, J. F., Liu J.H., Jiang, T., Li, S.H., 2016. Late Quaternary glacial advances in the eastern Qilianshan, north-eastern Tibet, as inferred from luminescence dating of fluvioglacial sediments. Journal of Quaternary Science 31, 587–597.

33. Liu, C.L., Zhang, J.F.*, Jiao, P.C., Mischke, S., 2016. The Holocene history of Lop Nur and its palaeoclimate implications. Quaternary Science Reviews 148, 163–175.

32. Guo, Y. J., Li, B., Zhang J. -F., Yuan, B.Y., Xie F., Roberts, R.G., 2016. Luminescence ages for three ‘Middle Palaeolithic’ sites in the Nihewan Basin, northern China, and their archaeological and palaeoenvironmental implications. Quaternary Research 85, 456–470.

31. Rui, X., Zhang, J.F.*, Hou, Y.M., Yang, Z.M., Liu, Y., Zhen Z.M., Zhou, L.P., 2015. Feldspar multi-elevated-temperature post-IR IRSL dating of the Wulanmulun Paleolithic site and its implication. Quaternary Geochronology 30, 428–444.

30. Meng, Y.M., Zhang, J.F. *, Qiu, W.L., Fu, X., Guo, Y.J., Zhou, L.P, 2015. Optical dating of the Yellow River terraces in the Mengjin area (China): First results. Quaternary Geochronology 30, 479–486.

29. Zhang, J.F., Huang, W.W., Hu, Y., Yang, S.X., Zhou, L.P., 2015. Optical dating of flowstone and silty carbonate-rich sediments from Panxian Dadong Cave, Guizhou, southwestern China. Quaternary Geochronology 30, 479–486.

28. Hu, G., Yi, C.Y., Zhang J.F., Liu J.H., Jiang, T., 2015. Luminescence dating of glacial deposits near the eastern Himalayan syntaxis using different grain-size fractions. Quaternary Science Reviews 124, 124–144.

27. Guo, Y.J., Li, B., Zhang, J.F., Roberts, R.G., 2015. Luminescence-based chronologies for Palaeolithic sites in the Nihewan Basin, northern China: First tests using newly developed optical dating procedures for potassium feldspar grains. Journal of Archaeological Science: Reports 3, 31–40.

26. Qiu, W.L., Zhang, J.F., Wang, X.Y., Guo, Y.J., Zhuang,, M.G., Fu, X., Zhou, L.-P., 2014. The evolution of the Shiwanghe River valley in response to the Yellow River incision in the Hukou area, Shaanxi, China. Geomorphology 215, 34–44.

25. Hu, G., Yi, C.L., Zhang, J.F., Liu, J.H., Jiang, T., Qin, X., 2013. Optically stimulated luminescence dating of a moraine and a terrace in Laohugou valley, western Qilian Shan, northeastern Tibet. Quaternary International 321, 37–49.

24. Hou, Y.M., Yang,S.H., Dong,W., Zhang, J.F. Liu Y., 2013. Late Pleistocene representative sites in North China and their indication of evolutionary human behavior. Quaternary International 295, 183–190.

23. Guo, Y.J., Zhang, J.F.*, Qiu, W.L., Hu, G., Zhuang, M.G., Zhou, L.P., 2012. Luminescence dating of the Yellow River terraces in the Hukou area, China. Quaternary Geochronology 10, 129–135.

22. Zhang, J.F., Liu, C.L., Wu, X.H., Liu, K.X., Zhou, L.P., 2012. Optically stimulated luminescence and radiocarbon dating of sediments from Lop Nur (Lop Nor), China. Quaternary Geochronology 10, 150–155.

21. Fu, X., Zhang, J.F.*, Zhou, L.P., 2012. Comparison of the properties of various optically stimulated luminescence signals from potassium feldspar. Radiation Measurements 47 210–218.

20. Zhang, J.F., Wang, X.Q., Qiu, W.L., Shelach, G., Hua, G., Fu, X., Zhuang, M.G., Zhou L.P., 2011. The paleolithic site of Longwangchan in the middle Yellow River, China: chronology, paleoenvironment and implications. Journal of Archaeological Science 38, 1537–1550.

19. Zhang, J.F., Huang, W.W., Yuan, B.Y., Fu, R.Y., Zhou, L.P., 2010. Optically stimulated luminescence dating of cave deposits at the Xiaogushan prehistoric site, northeastern China. Journal of Human Evolution 59, 514–524.

18. Avni, Y., Zhang, J.F., Shelach. G., Zhou. L.P., 2010. Upper Pleistocene–Holocene geomorphic changes dictating sedimentation rates and historical land use in the valley system of the Chifeng region, Inner Mongolia, northern China. Earth Surface Processes and Landforms 35, 1251–1268.

17. Zhang, J.F., Qiu, W.L., Wang, X.Q., Hu, G., Li, R.Q., Zhou, L.P., 2010. Optical dating of a hyperconcentrated flow deposit on a Yellow River terrace in Hukou, Shaanxi, China. Quaternary Geochronology 5, 194–199.

16. Hu, G, Zhang, J.F.*, Qiu, W.L., Zhou, L.P., 2010. Residual OSL signals in modern fluvial sediments from the Yellow River(HuangHe) and the implications for dating young sediments. Quaternary Geochronology 5, 187–193.

15. Fu, X., Zhang, J.F.*, Mo, D.W., Shi, C.X., Liu, H., Li, Y.Y., Zhou, L.P., 2010. Luminescence dating of baked earth and sediments from the Qujialing archaeological site, China. Quaternary Geochronology 5, 353–359.

14. Zheng, Y.E, Zhou, L.P., Zhang, J.F., 2010. Optical dating of the upper 22 m of cored sediments from Daihai Lake, northern China. Quaternary Geochronology 5, 228–232.

13. Zhou, L.P., Fu D.P., Zhang, J.F., 2010. An analysis of the components of the luminescence signals of selected polymineral and quartz samples from loess in western China and southern Tajikistan, and their suitability for optical dating. Quaternary Geochronology 5, 149–153.

12. Zhang, J.F., Qiu, W.L., Li, R.Q., Zhou, L.P., 2009. The evolution of a terrace sequence along the Yellow River (HuangHe) in Hequ, Shanxi, China, as inferred from optical dating. Geomorphology 109, 54–65.

11. Zhou, Y.L., Lu, H.Y., Zhang, J.F., Mason, J.A., Zhou, L.P., 2009. Luminescence dating of sand–loess sequences and response of Mu Us and Otindag sand fields (north China) to climatic changes. Journal of Quaternary Science 24, 336–344.

10. Zhang, J.F., Yuan, B.Y., Zhou, L.P., 2008. Luminescence chronology of "Old Red Sand" in Jinjiang and its implications for optical dating of sediments in South China. Chinese Science Bulletin 53, 591–601.

9. Zhang, J.F., Fan, C.F., Wang, H., Zhou, L.P., 2007. Chronology of an oyster reef on the coast of Bohai Bay, China: Constraints from optical dating using different luminescence signals from fine quartz and polymineral fine grains of coastal sediments. Quaternary Geochronology 2, 71–76.

8. Zhang, J.F., Zhou, L.P., 2007. Optimization of the 'double SAR' procedure for polymineral fine grains. Radiation Measurements 42, 1475–1482.

7. Pei, S.W., Zhang, J.F.*, Gao, X., Zhou, L.P., Feng, X.W., Chen, F.Y., 2006. Optical dating of the Jingshuiwan Paleolithic site of Three Gorges, China. Chinese Science Bulletin 51, 1334–1342.

6. Zhang, J.F., Yan, C., Zhou, L.P., 2005. Feasibility of optical dating using halite. Journal of Luminescence 114, 234–240.

5. Lu, H.Y., Miao, X.D., Zhou, Y.L., Mason, J., Swinehart, J., Zhang, J.F., Zhou, L.P., Yi, S.W., 2005. Late Quaternary aeolian activity in the Mu Us and Otindag dune fields (north China) and lagged response to insolation forcing. Geophysical Research Letters 32, -L21716, doi:10.1029/2005GL024560.

4. Zhang, J.F., Zhou, L.P., Yue, S.Y., 2003. Dating fluvial sediments by optically stimulated luminescence: selection of equivalent doses for age calculation. Quaternary Science Reviews 22, 1123–1129.

3. Chen, Y.G., Chen, Y.W., Chen, W.S., Zhang, J.F., Zhao, H., Zhou, L.P., Li, S.H., 2003. Preliminary results of long-term slip rates of 1999 earthquake fault by luminescence and radiocarbon dating. Quaternary Science Reviews 22, 1213–1221.

2. Zhang, J.F., Li, S.H., Tso, M.Y.W., 2001. Assessment of bleaching of K-feldspar grains. Radiation Measurements 33, 103–108.

1. Zhang, J.F., Li, S.H., Tso, M.Y.W., 2001. Improvement of the equivalent dose determination using aliquots of potassium feldspar. Radiation Measurements 33, 65–71.


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