冯兆东，男，1955年9月15日出生于甘肃省定西县 (updated on 2026-01-06)

手机：18238211836; 电子邮件：fengzd@vip.henu.edu.cn

●  学术训练

博士后——美国哥伦比亚大学地质所（校奖学金资助），1992-1994年。

博士——美国堪萨斯大学地理系，学位授予时间：1992年5月17日。

硕士——美国华盛顿大学地质系，学位授予时间：1987年3月15日。

硕士——中国兰州大学地质地理系，学位授予时间：1982年3月20日。

本科——中国兰州大学地质地理系，1975年9月1日至1978年8月31日。

●  任教经历

讲师——中国兰州大学，1982/01-1989/12。

助理教授——美国犹它大学地理系，1994/09-1996/09。

助理教授——美国蒙特可莱州立大学地球环境系，1996/09-1999/-09。

副教授——美国蒙特可莱州立大学地球环境系，1999/09---2006/04。

教授——美国蒙特可莱州立大学地球环境系，2006/04---2008/09。

教授（Probationary）——美国贝勒大学地球科学系，2008/09-2011/06。

特聘教授——中国兰州大学地理系，2000/01-2011/03。

特聘研究员——中国科学院新疆生态与地理研究所，2011/01-2017/4。

特聘教授——河南大学，自2017年5月1日起。

●  教过的课程

1. 美国MONTCLAIR STATE UNIVERSITY地球环境系（1996-2008）：

（1）Earth Environmental Systems (undergraduate)

（2）GIS and Spatial Analysis (undergraduate)

（3）Earth System Science (graduate)

（4）Global Change (graduate)

2. 美国Baylor大学地质系（2008-2011）：

（1）Earth Environmental Systems (undergraduate)

（2）Global Change (undergraduate)

（3）Earth System Science (graduate)

3. 中国兰州大学地理系（2000-2010）：

（1）地理信息系统与空间分析（研究生）

（2）地球系统科学（研究生）

（3）地学英文写作（研究生）

4. 中国科学院大学和新疆生地所（2013-2015）

（1）地球系统科学（研究生）

（2）地学英文写作（研究生）

（3）地貌学（研究生）

5. 河南大学（2017-）

（1）全球变化（研究生）

（2）地学英文写作（研究生）

（3）现代自然地理学（研究生）

（4）地球系统科学（本科生）

●  从事过的研究项目

1.       主持人：中华文明起源进程中的古环境和人地关系研究（社科院中华文明探源工程重大项目子课题；批准号：2020YFC1521605；经费：20万元；2021-2023）。

1.主持人：哈萨克丘陵全新世气候变化的高分辨率重建（国家基金委面上基金，批准号：41771234；70万元，2018-2021）。

2.       主持人：过去3500年阿尔泰山脉以周边地区的气候变化及文化演替(中国科学院重大国际合作项目，批准号：GJHZ201315；100万元,2014-2016)。

3.       主要合作者：过去500年中亚气候变化与生态水文响应（国家基金委国际合作项目，300万元的1/4（即75万元），批准号：41361140；项目负责人:陈曦;2014-2018）。

4.       主持人：过去500年新疆北部水文变化及其气候驱动（国家基金委-新疆联合基金重点基金，批准号：U1203281-L08； 200万元，2013-2017）。

5.       主持人:新疆干旱区生态系统和水文系统对气候和环境变化的响应及其社会适应机制的研究（教育部长江学者创新团队发展计划项目，批准号：IRT1180；300万元，2012-2015）。

6.       主持人: 西风带主导地区（新疆西北部和外蒙古西为主）过去一万年以来生物气候的变化（国家基金委重点基金，批准号：40930102；200万元，2010-2014）。

7.       主持人:西风带主导地区（新疆西北部为主）过去五万年以来生物气候的变化（国家基金委面上基金，批准号：40671190；55万元，2007-2010）。

8.       主持人:蒙古高原的全新世气候与环境变化的高分辨率重建研究（国家基金委重点基金，批准号：40930102；120万元，2004-2007）。

9.       主持人:晚第四纪中东亚干旱-半干旱区环境系统对全球气候变化的贡献与响应 （国家基金委杰出青年基金，批准号：4002521；80万元，2001-2004）.

10.   主持人: 黄土高原的流域水文和景观生态的GIS模拟研究 （教育部骨干教师基金， 60万元，2001-2004）。

11.   主持人: 黄土高原末次间冰期古土壤的气候和年代意义（教育部重点基金，13万元，2001-2004.）。

12.   主持人:黄土高原大气-生态-水文耦合过程的模拟研究（教育部重大基金，90万元，2004-2006）。

13.   主持人: 黄土高原的流域水文和景观生态的研究 （教育部博士点基金，10万元 2001-2003）。

14.   主持人：亚洲西风主导区（哈萨克斯坦东部为主）过去五万来的生物气候变化（2006-2009, NSF-NCS 06-52304: 29万美圆)。

15.   主持人: 中东亚的全新世气候与环境变化 （美国自然科学基金委，38.4万美圆，2004-2007）。

16.   主持人: 中国黄土高原末次间冰期古土壤的地理分异 （美国自然科学基金委，16万美圆，2000-2004）。

17.   主持人: 蒙古高原过去2000年以来人类与环境的关系（美国国家地理协会，2.5万美圆，2002-2003）。

18.   主持人：外蒙古的晚第四纪风成气候与戈壁动态（美国自然科学基金委，2.5万美圆，1998-2000）。

19.   主持人：地理信息系统实验室建设（美国自然科学基金委，7.2万美圆，1998-2000）。

20.   主要合作者（项目负责人：王涛 --- 中科院寒旱所）: 北方沙漠化过程与防治的研究（科技部973项目第一课题的前期部分，35万元，2002-2003）。

21.   主要合作者（项目负责人：陈发虎 --- 兰州大学）：西部环境与资源创新团队资助（国家基金委，300万元的1/5（即60万元），2006-2009）。

22.   主要合作者(项目负责人:李吉均):黄土高原地貌过程研究(科技部基金委，8万元, 1984-1986)。

23.   主要合作者(项目负责人:张林源):黄土高原农业可持续发展研究(教育部基金，8万元, 1984-1986)。

24.   主要合作者（项目负责人：Dr. Brachfeld at Montclair State University）：环境磁学实验室建设（美国自然科学基金委，23.8万美圆，2006-2007）。

25.   主要合作者（项目负责人：Dr. Solecki at City University of New York）：全球变化的城市尺度—上海国际会议（美国自然科学基金委，6.5万美圆，2003-2004）。

26.   主要合作者（项目负责人：Dr. Fowell at Columbia University）：外蒙古地学研究机会调查（美国自然科学基金委，6.8万美圆，1996-1998）。

●  发表

（1）气候变化方面的英文发表

2020-2024

1.          Zhang, Y.Y., Z.-D Feng, 2024. Pollen-based quantitative reconstructions of Holocene climate at Gun Nuur in the northern Mongolian Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 638: 112028 (doi.org/10.1016/j.palaeo.2024.112028)

2.          Zhang, D.L., Y.Y. Zhang, Z.-D. Feng*, 2024. Contrasting patterns of Last-deglacial and Holocene precipitation between the southern and northern portions of Arid Central Asia. Palaeogeography, Palaeoclimatology, Palaeoecology, 634: 111946 (doi.org/10.1016/j.palaeo.2023.111946).

3.          Chen*, L., Z.-D, Feng*, Y.Y. Zhang, H.B. Li, C. Liu, X. Wang, X.W. Zhou, 2023. Periodic hydroclimate variations during the first half of the Holocene in the Luoyang Basin: Evidence from the Tiancun paleolake sedimentary sequence. Palaeogeography, Palaeoclimatology, Palaeoecology, 627: 111747 (doi.org/10.1016/j.palaeo.2023.111747).

4.          Yong*, Z.J., L, Chen, Z.-D. Feng*, 2023. Mid-Holocene precipitation variations in the Luoyang Basin within the Central Plains of China: a pollen-based reconstruction. Climate Dynamics, 61: 5673-5685 (doi.org/10.1007/s00382-023-06876-7).

5.          Li, H.B., Y.Y. Zhang, Z.-D. Feng, 2023. Precipitation variations since the Last Deglacial reconstructed from pollen Precipitation variations since the Last Deglacial reconstructed from pollen. Quaternary International, 669: 1-11.

6.         陈亮, 冯兆东*, 冉敏, 惠争闯, 李开封, 李洪彬, 刘畅, 张样洋. 2023. 洛阳盆地的4.2 ka气候事件和人类活动. 科学通报, 2022, 67: 1–17（doi: 10.1360/TB-2022-0442）.

7.         李洪彬, 冯兆东*, 翟秋敏, 惠争闯, 李开封, 石天宇, 陈亮, 刘畅, 张样洋. 2023. 中原地区渑池盆地末次冰消期以来的气候与环境变化. 科学通报, 2023, 68: 1–17（doi: 10.1360/TB-2022-0703）.

8.         Zhang, D.L., Z.-D. Feng*., C.J. Su., K.H. Li., X.X. M., L. Ma., X.H. Zhao., 2023. Precipitation reconstruction since the last deglacial based on the stable carbon isotopic composition of a loess section in western Central Asia. The Holocene, 33: 80-90 (doi：10.1177/09596836221126134).

9.         Zhang, Z.D., Huang, X.Z., Liu, Q., Chen, X., Z.-D. Feng*, 2022. Holocene fire records and their drivers in the westerlies-dominated Central Asia. Science of the Total Environment, 833: 155153(doi.10.1016/j.scitotenv.2022.155153).

10.     Sun, A.Z., Z.D. Feng*., 2021. Holocene moisture variations across the Tibetan Plateau: A synthesis of pollen records. Review of Palaeobotany and Palynology, https://doi.org/10.1016/j.revpalbo.2021.104581.

11.          Yang, Y.P., Feng*, Z.-D., Ran, M., Zhang, D.L., Lan, B., Sun, A.Z., 2021.Holocene vegetation and hydrology variations and their associations with climate changes: a multi‑proxy analysis of a sediment core from an alpine basin in the middle Tianshan Mountains. Climate Dynamics, https://doi.org/10.1007/s00382-021-05670-7.

12.          Yang, Y.P., Feng*, Z.-D., Zhang, D.L., Lan, B., Ran, M., Wang, W., 2021. Holocene hydroclimate variations in the eastern Tianshan Mountains of northwestern China inferred from a palynological study. Palaeogeography, Palaeoclimatology, Palaeoecology, https://doi.org/10.1016/j.palaeo.2020.110184.

13.          Zhang, D.L., Chen, L., Feng*, Z.-D., Ran, M., Yang, Y.P., Zhang, Y., Liu, Q., 2021. Four peat humification-recorded Holocene hydroclimate changes in the southern Altai Mountains of China. The Holocene, ttps://doi.org/10.1177/0959683621101167.

14.          Feng, Z.-D., Yang, Y.P., Ran, M., Zhang, D.L., Wang, W., 2020. Holocene climate changes and cultural responses in Central Asian Arid Zone. Journal of History, 3(98): 4-16（https://bulletin-history.kaznu.kz）

15.     Li, F., Gaillard, M.-J., Cao, X., Herzschuh, U., Sugita, S., Tarasov, P.E., Wagner, M., Xu, Q., Ni, J., Wang, W., Zhao, Y., An, C., Beusen, A.H.W., Chen, F., Feng, Z.-D., Goldewijk, G.M.K., Huang, X., Li, Y., Liu, H., Sun, A., Yao, Y., Zheng, Z., Jia, X., 2020. Towards quantification of Holocene anthropogenic land-cover change in temperate China: A review in the light of pollen-based REVEALS reconstructions of regional plant cover. Earth-Science Reviews, https://doi.org/10.1016/j.earscirev.2020.103119.

16.          Zhang, D.L., Chen, X., Li, Y.M., Ran, M., Yang, Y.P., Zhang, S.R., Feng*, Z.-D., 2020. Holocene moisture variations in the Arid Central Asia: New evidence from the southern Altai Mountains of China. Science of the Total Environment, https://doi.org/10.1016/j.scitotenv.2020.139545.

17.          Zhang, D.L., Chen, X., Li, Y.M., Wang, W., Sun, A.Z., Yang, Y.P., Ran, M., Feng*, Z.-D., 2020. Response of vegetation to Holocene evolution of westerlies in the Asian Central Arid Zone. Quaternary Science Reviews, https://doi.org/10.1016/j.quascirev.2019.106138.

2019-2017

18.          Feng, Z.-D., Qin Zhen, Wu Pengfei, 2019. Climate change, Yellow River dynamics and human civilization in Central Plains of China. Quaternary International, 521: 1-3.

19.          Yang, Y.P., Zhang, D.L., Lan, B., Abdusalih, N., Feng, Z.-D., 2019. Peat δ¹³C_celluose-signified moisture variations over the past ∼2200 years in the southern Altai Mountains, northwestern China. Journal of Asian Earth Science, 174:59-67.

20.          Yang, Y.P., Zhang, D.L., Sun, A.Z., Wang, W., Lan,B., Feng*, Z.-D., 2019. Pollen-based reconstructions of vegetation and climate changes during the late Holocene in the southern Altai Mountains. The Holocene, 29(9) 1450–1458.

21.          Zhang, D.L., Feng*, Z.-D., 2018. Holocene climate variations in the Altai Mountains and the surrounding areas: A synthesis of pollen records. Earth-Science Reviews, 185: 847-869（引用:33）.

22.          Zhang, D.L., Feng*, Z.-D., Yang, Y.P., Lan, B., Ran, M., Mu, G.J., 2018. Peat δ¹³C_cellulose-recorded wetting trend during the past 8000 years in the southern Altai Mountains, northern Xinjiang of China. Journal of Asian Earth Sciences, 156: 174-179.

23.          Feng, Z.-D., Sun, A.Z., Abdusalih, N., Ran, M., Kurban, A., Lan, B., Zhang, D.L., 2017. Vegetation changes and associated climatic changes in the southern Altai Mountains within China during the Holocene. The Holocene, 27: 683–693.

2016-2014

24.          Feng, Z.-D., 2015. Climate changes and Hydrological Responses in the Tianshan Mountains and the Northern Basins. Quaternary International, 358: 1-1.

25.          Lee, X.Q., Huang, Y.M., Huang, D.K., Hu, L., Feng, Z.-D., Cheng, J.Z., Wang, B., Ni, J., Shurkhuu, T., 2016. Variation of Soil Organic Carbon and Its Major Constraints in East Central Asia. Plos One, DOI:10.1371/journal.pone.015070.

26.          Ran, M., Zhang, C.J., Feng, Z.-D., 2015. Climatic and Hydrological Variations during the Past 8000 Years in Northern Xinjiang of China and the Associated Mechanisms. Quaternary International, 358: 21-34.

27.          Sun, A.Z., Feng, Z.-D., 2015. Climatic Changes in the western part of the Chinese Loess Plateau during the Last Deglacial and the Holocene: A Synthesis of Pollen Records. Quaternary International，372:130-141.

28.         Ran, M., Feng, Z.-D., 2014. Variations in Carbon isotope composition over the past ca. 46,000 years in the loess-paleosol sequence in central Kazakstan and paleoclimatic significance. Organic Geochemistry, 73: 47-55.

2013

29.          Wang, W., Feng, Z.-D., 2013. Holocene moisture evolution across the Mongolian Plateau and its surrounding areas: A synthesis of climatic records. Earth-Science Reviews, 122: 38–57.

30.          Sun, A.Z., Feng, Z.-D., 2013. Pollen-recorded bioclimatic variations of the last 15,000 years retrieved from Lake Qigai Nuur in the southern Mongolian Plateau of China. The Holocene, 23: 1391–1402.

31.          Feng, Z.-D., Ran, M., Yang, Q.L., 2013. Geomorphological and sedimentological precautions in radiocarbon dating of eolian and lacustrine sequences in arid Asia. Quaternary International, 286: 126-137.

32.          Feng, Z.-D., 2013. Hydrological and ecological responses to climate change and land-use/cover changes in Central Asia. Quaternary International, 311: 1-2.

33.          Wang, W., Feng, Z.-D., Ran, M., Zhang, C.J., 2013. Holocene climate and vegetation changes inferred by pollen records from Lake Aibi of northern Xinjiang, China. Quaternary International, 311: 54-62.

34.          Sun, A.Z., Feng, Z.-D., Ran, M., Zhang, C.J., 2013. Pollen-recorded bioclimatic variations of the last ~22,600 years retrieved from Achit Nuur in the western part of the Mongolian Plateau. Quaternary International, 311: 36-43.

35.          Feng, Z.-D., Wu, H.N., Zhang, C.J., Ran, M., Sun, A.Z., 2013. Bioclimatic change of the past 2500 years within Balkhash Basin in the eastern Kazakhstan of Central Asia. Quaternary International, 311: 63-70.

36.          Ma, Y.Z., Liu, K.-b., Feng, Z.-D., Meng, H.W., Sang, Y.L., Wang, W., Zhang, H.C., 2013. Vegetation changes and associated climate variations during the past ~38,000 years reconstructed from the Shaamar eolian-paleosol section in northern Mongolia. Quaternary International, 311: 25-35.

37.          Wen, R.L., Xiao, J.L., Ma, Y,.Z., Feng, Z.-D., Li, Y.C. and Xu, Q.H., 2013. Pollen–climate transfer functions intended for temperate eastern Asia. Quaternary International, 311: 3-11.

38.          Feng, Z.-D., Ma, YZ., Zhang, H.C., Narantsetsega, Ts., Zhang, X.S., 2013. Holocene climate variations retrieved from Gun Nuur core in the Northern Mongolian Plateau. The Holocene, 23(12):1719 - 1728.

39.          Ran, M., Feng, Z.-D., 2013. Holocene moisture variations across China and driving mechanisms: a synthesis of climatic records. Quaternary International, 313/314 (2013) 179-193.

2012-2010

40.          Liu, F.G., Feng, Z.-D., 2012. A dramatic cultural transition at ~4000 Calendar yr BP and its responsible climate changes in China. The Holocene, 22(10): 1181–1197.

41.          Zhang, C.J., Zhang, W.Y., Feng, Z.-D., Mischke, S., Gao, X., Gao, D., Sun, F., 2012. Holocene hydrological and climatic change on the northern Mongolian Plateau basedon multi-proxy records from Lake Gun Nuur. Palaeogeography, Palaeoclimatology, Palaeoecology, 323-325: 75-86.

42.             Feng, Z.-D., Ran, M., Yang, Q.L., Zhai, X.W., Wang, W., Zhang, X.S., Huang, C.Q., 2011. Stratigraphies and Chronologies of Late Quaternary Loess-Paleosol Sequences in the Core Area of Central Asian Arid Zone. Quaternary International, 240: 156-166.

43.             Wang, W., Ma Y.Z., Feng Z.-D., Ts Narantsetseg,, Liu K.-b., Zhai X.W., 2011. A prolonged dry mid-Holocene climate revealed by pollen and diatom records from Lake Ugii Nuur in central Mongolia. Quaternary International, 229: 74-83.

44.             Chang, F.Q., Zhang, H.C., Ming, Q.Z., Chen, G.J., Zhang, W.X., Shi, Z.T., Feng, Z.-D., 2011. AMS radiocarbon dating problems between 10 and 8 ka BP in lacustrine deposits from Lake Gun Nuur, Northern Mongolia. Radiocarbon, 53: 501-509.

45.          Zhang, C.J., Feng, Z.-D., Yang, Q.L., Gou, X.H., 2010. Carbon- and carbonate-related proxies-recorded Holocene climatic variations in Bosten Lake of the Tarim Basin. The Holocene, 20(3): 263-273.

46.          Liu, F.G., Zhang, Yi, Y.L., Feng, Z.-D., Hou, G.L., Zhou, Q., Zhang, H.F., 2010. The impact of climate on Neolithic cultures in Gansu-Qinghai region during the late Holocene Megathermal. Journal of Geographic Sciences, 20(3): 417-430.

47.          Sun, A.Z., Feng, Z.-D., Ma, Y.Z., 2010. Vegetation and climate changes in the western Chinese Loess Plateau since 13.0 ka BP. Journal of Geographic Sciences, 20(2): 177-192.

2009-2007

48.          Zou, S.B., Cheng, G.D., Feng, Z.-D., Xiao, H.L., 2009. Holocene bioclimate rhythms and present potential ecology in the western part of the Chinese Loess Plateau. Quaternary International, 194: 55-67.

49.          Wu, H.N., Ma, Y.Z., Feng, Z.-D., 2009. A high-resolution record of vegvetation and and environmental variations through the last ~25,000 years in the western part of the Chinese Loess Plateau. Paleogeography Paleoclimatology Paleoecology, 273：191–199.

50.          Wang, W., Ma, Y.Z., Feng, Z.-D., 2009. Vegetation and climate changes during the last 8660 cal. a BP in central Mongolia, based on a high-resolution pollen record from Lake Ugii Nuur

51.           Chinese Science Bulletin, 54(9): 1579-1589.

52.         Wang, H.B., Liu, L.Y., Feng, Z.-D., 2008. Spatio-temporal variations of Zr/Rb ratio in three last interglacial paleosol sections across Chinese Loess Plateau and their implications for climatic interpretations. Chinese Science Bulletin, 53(9): 1413-1422.

53.         Ma, Y.Z., Liu, K.-b., Feng, Z.-D., Sang, Y.L., Wang, W., Sun, A.Z., 2008. A survey of modern pollen and vegetation along a south–north transect in Mongolia. Journal of Biogeography, 35: 1512–1532.

54.         Feng, Z.-D., Wang, L.X., Ji, Y.H., Guo, L.L., Lee, X.Q., Dworkin, S.I., 2008. Climatic dependency of soil organic carbon isotopic composition along the S–N Transect from 34°N to 52°N in central-east Asia. Palaeogeography, Palaeoclimatology, Palaeoecology, 257: 335–343.

55.         Feng, Z.-D., Tang, L.Y., Ma, Y.Z., Zhai, X.W., 2007. Vegetation and associated environmental changes during the marine isotope stage 3 in the western part of the Chinese Loess Plateau. Paleogeography Paleoclimatology Paleoecology, 246: 278-291.

56.         Feng, Z.-D., Zhai, X.W., Wang, W.G., Zhang, H.C., Ma, Y.Z., 2007. Eolian climatic variations during the past 30,000 years in the northern Mongolian Plateau, as indicated by geophysical, geochemical and geobotanical proxy data. Paleogeography Paleoclimatology Paleoecology, 245: 505-517.

57.         Guo, L.L., Feng, Z.-D., Liu, L.Y., Li, X.Q., Wang, L.X., 2007. Holocene climatic and environmental changes recorded in Baahar Nuur lake core in the Erdos Plateau, Inner Mongolia. Chinese Scientific Bulletin, 52(7): 959-966.

58.         Sun, A.Z., Ma, Y.Z., Feng, Z.-D., Li, F., Wu, H.N., 2007. Pollen-recorded climate changes between 13.0 and 7.0 C-14 ka BP in southern Ningxia, China. Chinese Science Bulletin, 52(8): 1080-1088.

2006-2005

59.         Feng, Z.-D., An, C.B., Wang, H.B., Zhai, X.W., 2006. Holocene Climatic and Environmental Changes in the Arid and Semiarid Regions of China: A Review.. The Holocene, 16: 1-12.

60.         Feng, Z.-D., Wang, H.B., 2006. Geographic variations in particle size distribution of the last interglacial pedocomplex S1 across the Chinese Loess Plateau: their chronological and climatic implications. Catena, 54: 22-34.

61.         An, C.B., Feng, Z.-D., Barton, B., 2006. Dry or humid? Mid-Holocene humidity changes in arid and semi-arid China. Quaternary Research, 25: 351-361.

62.         Feng^, Z.-D, L.Y. Tang^,, H.B. Wang, Y.Z. Ma, 2006. Holocene Vegetation Variations and the Associated Environmental Changes in the Western Part of the Chinese Loess Plateau. Paleogeography Paleoclimatology Paleoecology, 241: 440-456.

63.         Li, C.H., Tang, L.Y., Feng, Z.-D., Zhang, H.C., Wang, W.G., An, C.B., 2006. A high-resolution late Pleistocene record of pollen vegetation and climate change from Jingning, NW China. Science in China (D), 49(2): 154-162.

64.         Feng, Z.-D., Wang, H.B., 2006. Pedostratigraphy and carbonate accumulation in the Last Interglacial pedocomplex of the Chinese Loess Plateau. Soil Science Society of American Journal, 69: 1094-1011.

65.         Feng, Z.-D., Wang, W.G., Li, X.Q., Ma, Y.Z., Zhang, H.C., An CB., 2005. Holocene climate changes in the Mongolian Plateau: preliminary results. Quaternary International, 136: 25-32.

66.         Lee, X.Q., Feng, Z.-D., Guo, L.L., Wang, L.X., Jin, L.Y., Huang, Y.S., Chopping, M., Huang, D.K., Jiang, W. and Chen, H.G., 2005. Carbon isotope of bulk organic matter: A proxy for precipitation in the arid and semiarid central East Asia. Global Biogeochemical Cycles, 19, GB4010, doi:10.1029/2004GB002303.

2004-2003

67.         Feng, Z.-D., Wang, HB., Pope, GA., Chen, FH., Zhang, JW., 2004. Geographic Differentiation of the Last Interglacial Paleosol S1 in the Chinese Loess Plateau. Quaternary International, 117:17-26.

68.         Feng, Z.-D., Wang H.B., Olson, C.G., 2004. Pedogenic factors affecting magnetic susceptbility of the Last Interglacial paleosol S1 in the Chinese Loess Plateau. Earth Surface Processes and Landforms, 29(11): 1384-1402.

69.         Feng, Z.-D., Khosbayar, P. 2004. Paleosubarctic Eolian environments along the southern margin of the North American Icesheet and the southern margin of Siberia during the Last Glacial Maximum. Paleogeography Paleoclimatology Paleoecology, 212: 265-275.

70.         Feng, Z.-D., An, C.B., Tang, L.Y and Jull, A.J.T., 2004. Stratigraphic evidence of megahumid mid-Holocene climate in the western part of the Chinese Loess Plateau. Global and Planetary Changes, 43: 145-155.

71.         An, C.B., Feng, Z.-D., Tang, L.Y., 2004. Environmental changes and cultural response between 8000 and 4000 cal. Yr BP in the western Loess Plateau, northwestern China. Journal of Quaternary Science. 19(6): 529-535.

72.         An, C.B., Feng, Z.-D., Tang, L.Y., 2004. Evidence of a humid mid-Holocene in the western part of Chinese Loess Plateau. Chinese Science Bulletin, 48(22): 2472-2479.

73.         Wang, W.G., Feng, Z.D., Lee, X.Q., Ma, Y.Z., Zhang. H.C., An. C.B., 2004. Holocene abrupt climate shifts recorded in Gun Nuur lake core, northern Mongolia. Chinese Science Bulletin, 49(5): 520-526.

74.         Zhang H.C., Wunnemann, B., Ma, Y.Z., Peng, J.L., Pachur, H.-J., Li, J.J., Qi, Y., Chen, G.J., Fang, H.B., Feng, Z.-D., 2004. Later Quaternary paleolake levels in the Tengger Desert, NW China. Paleogeography Paleoclimatology Paleoecology, 211: 45-58.

75.         Ma, Y.Z., Zhang, H.C. Pachur, H.-J., Wunnemann,B., Li, J.J., Feng, Z.-D., 2004. Modern Pollen-inferred Holocene climate change in the Tengger Desert, NW China. The Holocene, 14(6): 841-850.

76.         Chen, F.H., Qiang, M.R., Feng, Z.-D., Wang, H.B., Bloemendal, J., 2003. Stable East Asian monsoon climate during the Last Interglacial (Eemian) indicated by paleosol S1 in the western part of Chinese Loess Plateau. Global and Planetary Change, 36: 171-179.

77.         Ma, Y.Z., Zhang, H.C., Pachur, H.-J., Wunnemann, B., Li, J.J., Feng, Z.-D., 2003. Late glacial and Holocene vegetation history and paleoclimate of the Tengger Desert, northwestern China. Chinese Science Bulletin, 48(14): 1457-1463.

2002-2000

78.         Zhang H.C., Wunnemann, B., Ma, Y.Z., Peng, J.L., Pachur, H.-J., Li, JJ., Qi, Y., Chen, GJ., Fang, HB., Feng, Z.-D., 2002. Lake level and climate changes between 40,000 and 18,000 years BP in the Tengger Desert, China. Quaternary Research, 58: 62-72.

79.         Zhang H.C., Ma, Y.Z., Peng, J.L., Li, J.J., Cao, J.X., Qi, Y., Chen, G.J., Fang, H.B., Mu, D.F., Pachur, H.-J., Wunnemann, B., Feng, Z.-D., 2002．Paleolake and paleoenvironment between 42 and 18 ka BP in Tengger Desert, NW China. Chinese Science Bulletin, 47(23): 1946-1956.

80.         Feng, Z.-D., 2001. Gobi Dynamics in the northern Mongolian Plateau during the past 20,000+ years: preliminary results. Quaternary International, 76/77: 77-83.

81.         Chen, F.H., Feng, Z.-D, Zhang, J.W., 2000. Loess Particle size data indicative of stable winter monsoon during the last interglacial in the western part of Chinese Loess Plateau. Catena, 39: 233-244.

1999-1995

82.         Chen, F.H., Boemendal, J., Feng, Z.-D., Wang, J.M., Zhou, Z.T., Park, E., Shi, Y., 1999. Last Interglacial East Asian monsoon variation: evidence from the western part of Chinese Loess Plateau. Quaternary Science Reviews, 18: 1127-1135.

83.         Feng, Z.-D., Chen, F.H., 1999. Problems of magnetic susceptibility signature as the summer monsoon proxy in Chinese loess sequences. Chinese Science Bulletin, 44 (suppl. 1): 97-104.

84.         Feng, Z.-D., Chen, F.H., Tang, L.Y., Kang, J.C., 1998. East Asian Monsoon Variations and Gobi Dynamics during Stages 4 and 3. Catena, 33 (1): 29-46.

85.         Feng, Z.D., 1998. Last Glacial snowlines in the Tibet Plateau: evidence against a coalescing icesheet. GeoJournal, 44 (4): 355-362.

86.         Feng, Z.-D., 1997. Geochemical characteristics of a loess-soil sequence in central Kansas, U.S.A. Soil Science Society of American Journal, 61: 534-541.

87.         Feng, Z.-D., 1996. Climatic implication of magnetic susceptibility and Be-10 in Chinese loess. Catena, 25: 211-216.

88.         Feng, Z.-D., Johnson, W.C., 1995. Factors affecting magnetic susceptibility of an eolian sequence in central Kansas. Catena, 24: 25-37.

1994-1988

89.         Feng, Z.-D., Johnson, W.C., Lu, Y.C., Ward, P.A., 1994. Climatic signals from loess-soil sequences in the central Great Plains. Paleogeography Paleoecology Paleoclimatology, 110: 345-358.

90.         Feng, Z.-D., Johnson, W.C., Sprowl, D.R., Lu, Y.C., 1994. Loess accumulation and soil formation in central Kansas during the past 400,000 years. Earth Surface Processes and Landforms, 19: 55-67.

91.         Feng, Z.-D., Johnson. W.C., Diffendal, R.F., 1994.  Environments of eolian deposition in Nebraska during the Last Glacial Maximum. Physical Geography, 15: 251-261.

92.         Feng, Z.-D., Thompson, L.G., Mosley-Thompson, E., Yao, T.D., 1993. Temporal and spatial variations of climate in China during the last 10 000 years. The Holocene, 3: 174-180.

93.         Li, J.J., Feng, Z.-D., Tang, L.Y., 1988. Late Quaternary monsoonal patterns in the Loess Plateau of China. Earth Surface Processes and Landforms, 13: 125-135.

（2）气候变化和现代过程方面的“重要”中文发表

1)            An, C.B., Feng, Z.-D., Tang, L.Y. and Chen, F.H., 2003. Climate change and the cultural responses around 4000 yr BP in eastern Gansu Province of China. Journal of Geographic Sciences, 58(5): 743-748 (安成邦, 冯兆东, 唐领余, 陈发虎, 2003. 甘肃中部4000年前环境变化与古文化变迁. 地理学报, 58(5): 743-748).

2)            An, C.B., Z.-D. Feng, L.Y. Tang, 2003. Holocene Climatic changes in the western part of the Chinese Loess Plateau. Chinese Science Bulletin (Chinese version), 48(21): 2240-2248 (安成邦, 冯兆东, 唐领余, 2003. 黄土高原西部全新世中期湿润气候的证据. 科学通报, 48(21): 2280-2288).

3)            Guo, L.L., Feng, Z.-D., Liu, L.Y., Wang, L.X., 2007. Holocene climatic changes recorded in the Baahar Nuur lake core, Erdos Plateau of Inner Mongolian, North China. Chinese Science Bulletin (Chinese version), 52(1): 584-590 (郭兰兰, 冯兆东, 李心清, 刘连友, 王丽霞, 2007. 鄂尔多斯高原巴汗淖湖泊记录的全新世气候变化. 科学通报, 52(1): 1-7) .

4)            Li, C.H., Tang, L.Y., Feng,Z.-D., Zhang, H.C., Wang, W.G., An, C.B., 2006. A high-resolution late Pleistocene record of pollen vegetation and climate change from Jingning, NW China. Science in China (D), 36(5): 453-460 (李春海, 唐领余, 冯兆东, 汪卫国, 安成邦, 张虎才, 2006. 甘肃静宁地区晚更新世晚期高分辨率的孢粉记录及其反映的气候变化. 中国科学(D辑), 36(5): 453-460).

5)            Sun A.Z., Ma, Y.Z., Feng, Z.-D., Li, F., W, H.N., 2007. Pollen-recorded Holocene environmental changes in Southern Ningxia along the boundary between the Mongolian Plateau and the Chinese Loess Plateau. Chinese Science Bulletin (Chinese version), 52(3): 324-331 (孙爱芝, 马玉贞, 冯兆东, 李霏, 仵慧宁, 2007. 宁夏南部13.0~7.0 14C ka BP 期间的孢粉记录及古气候演化. 科学通报, 52(3)：324-331).

6)            Sun, A.Z., Feng, Z.-D., Ma, Y.Z., 2008. Vegetation and climate changes in the western Chinese Loess Plateau since 13.0 ka BP. Journal of Geographic Sciences, 63(3): 280-292 (孙爱芝, 冯兆东, 唐领余, 马玉贞, 2008. 13 ka BP 以来黄土高原西部的植被与环境演化. 地理学报, 63(3): 280-292).

7)            Wang, H.B., Liu, L.Y., Feng, Z.-D., 2008. Spatio-temporal variations of Zr/Rb ratio in three last interglacial paleosol sections across Chinese Loess Plateau and their implications for climatic interpretations. Chinese Science Bulletin (Chinese version), 53(9): 1413-1422 (汪海斌, 刘连友, 冯兆东, 2008. 末次间冰期古土壤的Zr/Rb 值时空分布特征及其影响因素. 科学通报, 53(2): 238-246).

8)            Wang, W., Ma, Y.Z., Feng, Z.-D., 2009. A high-resolution-Holocene climate reconstruction based on pollen and diatom data from central Mongolia. Chinese Science Bulletin (Chinese version), 54(4): 469-478 (王维, 马玉贞, 冯兆东, 蒙红卫, 桑艳礼, 翟新伟, 2009. 蒙古国中部Ugii Nuur湖8660 a BP以来高分辨率孢粉记录及气候变化. 科学通报, 54(4): 469-478).

9)            Wang, W.G., Z.-D. Feng, X.Q. Li, Y.Z. Ma, H.C. Zhang, C.B. An. 2004. Holocene climate changes in the northern Mongolian Plateau. Chinese Science Bulletin (Chinese version), 49(1): 27-33 (汪卫国, 冯兆东, 李心清, 张虎才, 马玉贞, 安成邦, 郭兰兰, 2004. 蒙古北部GUN NUUR湖记录的全新世气候突变事件. 科学通报, 49(1): 27-32).

10)         Zeng, Y.N., Feng, Z.-D., Cao, G.C., 2003. Desert evolution in Chaidamu Basin during the last glacial. Journal of Geographic Sciences, 58(3): 452-457 (曾永年, 冯兆东, 曹广超, 2003. 末次冰期以来柴达木碰地沙漠形成与演化. 地理学报, 58(3): 452-457).

11)         Zeng, Y.N., Feng, Z.-D., Cao, G.C., Xue, L., 2004. Spatial estimation of organic carbon loss in the headwater area of the Yellow River. Journal of Geographic Sciences, 59(4): 497-504 (曾永年, 冯兆东, 曹广超, 薛亮, 2004. 黄河源区高寒草地土壤有机碳储量及分布特征化. 地理学报, 59(4): 497-504).

12)       Zeng, Y.N., Feng, Z.-D., 2007. Spatial and Temporal Changes of Desertification in the Headwater Area of the Yellow River Using Remote Sensing. Journal of Geographic Sciences, 62(5): 529-536. (曾永年，冯兆东，2007.黄河源区土地沙漠化时空变化遥感分析. 地理学报,62(5):529-536).

13)         Zhang H.C., Ma, Y.Z., Peng, J.L., Li, J.J., Cao, J.X., Qi, Y., Chen, G.J., Fang, H.B., Mu, D.F., Pachur, H.-J., Wunnemann, B., Feng, Z.-D., 2002. Paleolake and paleoenvironment between 42 and 18 ka BP in Tengger Desert, NW China. Chinese Science Bulletin (Chinese version), 47(23): 1946-1956 (张虎才, 马玉贞, 李吉均, 曹继秀, 陈光杰, 方红兵, 穆德芬, Pachur, H.-J., Wunnemann, B., 冯兆东, 2002. 距今42-18ka BP腾格里沙漠沽湖泊和古环境. 科学通报, 47(24): 1847-1857).

14)         Zhao Chuanyan, Feng, Z.-D., 2007. GIS-assisted modeling of the potential vegetation in the Chinese Loess Plateau. Journal of Geographic Sciences, 62(4): 125-132 (赵传燕, 冯兆东, 2007. 黄土高原潜在植被模拟研究. 地理学报, 62(1): 52-61).

（3）气候变化方面的“其它”中文发表

1.         安成邦,冯兆东,陈发虎，2003.甘青地区全新世中期的环境变化与文化演进.西北大学学报（自然科学版）,33(6):729-732.

2.         安成邦,冯兆东,唐领余,2004.黄土高原西部9～3.8 kaBP的湿润气候.海洋地质与第四纪地质,2004,24(3):111-116.

3.         陈一萌，冯兆东，宫辉力,2007.对黄土磁化率、粒度年龄模型的检验.自然科学进展,17(6):764-769（引用:42）.

4.         冯兆东,陈发虎,张虎才,2000.末次冰期-间冰期蒙古高原与黄土高原对全球变化的重要贡献.中国沙漠,20(2):171-177.

5.         冯兆东，秦大河.1984.天山乌鲁木齐河源末次冰期以来终碛的沉积类型和沉积过程.冰川冻土，6（3）：39-49.

6.         冯兆东，秦大河.1985.冰川沉积相研究的国际动态及主要成果.冰川冻土，7（1）：89-95.

7.         冯兆东,汪海斌，2001.末次盛冰期北美风成环境变化及其在全球气候突变事件中的意义.第四纪研究,21(5):436-442.

8.         冯兆东.1994.美国中西部第四纪冰川与黄土研究的进展和问题.第四纪研究，4：360-366.

9.         黄昌庆，Liu Kambiu，冯兆东,2013.哈萨克斯坦Tramplin剖面孢粉记录的MIS3a环境变化.吉林大学学报（地球科学版）,2013,43(1):149-154.

10.     黄昌庆,冯兆东,马玉贞,2009.内蒙巴汗淖孢粉记录的全新世环境变化.兰州大学学报（自然科学版）,45(4):7-12.

11.     秦大河，冯兆东，李吉均.1984.天山乌鲁木齐河源主玉木冰期以来冰川变化和发育环境的研究.冰川冻土，6（3）：51-61.

12.     秦大河,姚檀栋,周尚哲,冯兆东,陈发虎,方小敏,潘保田,王乃昂，2013. 李吉均及其学术思想.兰州大学学报（自然科学版）,49(02):147-153.

13.     邱国庆，李吉均，冯兆东.1987.阿尔伯特.林肯.华斯本-介绍.冰川冻土，9(2)：279-283.

14.     唐领余，冯兆东，康建成.1990.青藏高原与黄土高原比邻地区晚更新世以来孢粉植物群及沉积环境.冰川冻土，12（2）：125-139.

15.     汪海斌，李世萍，张小文，秦将为，冯兆东,2006.使用图形矢量化软件实现气候曲线向数据的转化.兰州大学学报（自然科学版），42(3):48-51.

16.     汪海斌,于英鹏,刘现彬,冯兆东,2011.黄土高原S₁古土壤的地球化学特征及其对物源的指示.第四纪研究,31(2):338-346.

17.     汪卫国，冯兆东,2005.蒙古全新世气候变化研究进展.地球科学进展，20(2):240-247.

18.     张成君，郑绵平，A PROKOPENK0，M STEFFEN，匡娟，杨奇丽，郭方琴，冯兆东,2007.博斯腾湖碳酸盐和同位素组成的全新世古环境演变高分辨记录及与冰川活动的响应.地质学报，81(12):1658-1671.

（4）与“现代环境过程”相关的SCI论文

1)          Abudukeyimu A., Feng Z.-D., Yang J.J., Abudoukeremujiang Z., Xu, Z.L., 2015. Invasion of the Himalaya hotspot by Acacia farnesiana: how the human footprint influences the potential distribution of alien species. Current Science, 109, 183-189.

2)          Li, C.B., Qi, J.G., Feng, Z.-D., Yin, R.S., Guo, B.Y., Zhang, F., Zou, S.B., 2010. Quantifying the Effect of Ecological Restoration on Soil Erosion in China’s Loess Plateau Region: An Application of the MMF Approach. Environmental Management, 45(3):476–487.

3)          Pan, J.H., Feng, Z.-D., 2010. Use of USLE/GIS technology to assess soil water erosion in the Chinese Loess hilly and gully regions, a case study of the Weigou River basin, Gansu Province of China. Intelligent Automation and Soft Computing, 16(6): 857-867.

4)          Peng, H.H., Zhao, C.Y., Feng, Z.-D., Xu, Z.L., Wang, C., Zhao, Y., 2014. Canopy interception of Qinghai Spruce forest. Hydrological Processes, 28: 1734–1741.

5)          Qi. P.C., Zhao, C.Y., Feng, Z.-D., 2010. GIS- and Machine Learning—Based Modeling of the Potential Distribution of Broadleaved Deciduous Forest in the Chinese Loess Plateau. GIScience & Remote Sensing, 47: 99-114.

6)          Tian, F.X., Zhao, C.Y., Feng, Z.-D., 2011. Simulating evapotranspiration of Qinghai spruce (Picea crassifolia) forest in the Qilian Mountains, northwestern China. Journal of Arid Environments, 75: 648-655.

7)          Xu Z.L., Peng H.H., Feng Z.-D., Nurbay A., 2014. Predicting current and future invasion of Solidago canadensis: a study from China. Polish Journal of Ecology, 62, 263-271.

8)          Xu, Z.L., Feng, Z.-D., Yang. J.J., Zheng, J.H., Zhang, F., 2013. Nowhere to Invade: Rumex crispus and Typha latifolia Projected to Disappear under Future Climate Scenarios. Plos One (doi:10.1371/journal.pone.0070728.g001) .

9)          Xu, Z.L., Feng, Z.-D., Zhao, C.Y., Yang, J.J., Tian, F.X., Peng, H.H., Wang, C., Peng, S.Z., Sher, H., 2013. Canopy rainfall interception of Qinghai spruce (Picea crassifolia) forest: current actual and future potential. Journal of Hydrology and Hydromechanics, 2013: 61(1): 64-72.

10)       Xu, Z.L., Zhao, C.Y., Feng, Z.-D., 2012. Species distribution models to estimate the deforested area of spruce forests in the arid region recently protected: Qilian Mts. National Natural Reserve (China). Polish Journal of Ecology, 60: 381-389.

11)       Xu, Z.L., Zhao, C.Y., Feng, Z.-D., Zhang, F., Sher, H., Wang, C., Peng, H.H., Wang, Y., Zhao, Y. and Wang, Y., Peng, Z., Zheng, X.L., 2013. Estimating realized and potential carbon storage benefits from reforestation and afforestation under climate change: a case study of the Qinghai spruce forests in the Qilian Mountains, northwestern China. Mitigation and Adaptation Strategies for Global Change (DOI 10.1007/s11027-012-9420-4) .

12)       Zeng, Y.N., Feng, Z.-D., Cao, G.C., 2003. Land Cover Change and Its Impacts on Environment in the Upper Reach of the Yellow River, Northeast Qinghai-Tibetan Plateau. Mountain Research and Development, 23 (4): 353-361.

13)       Zhao C.Y., Peng S.Z., Feng Z.-D., 2009. Spatial modelling of the variability of the soil moisture regime at the landscape scale in the southern Qilian Mountains, China. Hydrology & Earth System Discussions, 6(5):6335-6358.

14)       Zhao, C.Y., Feng, Z.-D., Cheng, G.D., 2004. Soil water balance simulation of alfalfa (Medicago sativa L.) in the semiarid Chinese Loess Plateau. Agricultural Water Management, 69:101–114.

15)       Zhao, C.Y., Nan, Z.R., Feng, Z.-D., 2004. GIS-assisted spatially distributed modeling of the potential evapotranspiration in semi-arid climate of the Chinese Loess Plateau. Journal of Arid Environments, 58:387–403.

16)       Zhao. C.Y., Nan, Z.R., Cheng, G.D., Zhang, J.H, Feng, Z.-D., 2006. GIS-assisted modeling of the spatial distribution of Qinghai spruce (Picea crassifolia) in the Qilian Mountains, northwestern China based on biophysical parameters. Ecological Modeling, 191: 487-500.

（5）与“现代环境过程”相关的EI论文

1.           Chen, L., Zhao, C.Y., Feng, Z.-D., 2010. Regional climate responses to the land use and land cover change in Heihe River Basin, China. Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 875-878.

2.           E, Y.H., Feng, Z.-D., Wang, Wang, J.H., Wang,Y.L. Yang, Z.H., 2005. GIS-Assisted FEFLOW Modeling of Groundwater Moving Processes within the Minqin Oasis in the Lower Reach of the Shiyang River, Northwest China. International Geoscience and Remote Sensing Symposium, (IGARSS), IEEE International, pp: 4614-4617.

3.           Han, H., Feng, Z.-D., E, Y.H., 2006. Study on salt land changes in Minqin basin oasis, northwestern China, Remote Sensing and Space Technology for Multidisciplinary Research and Applications (SPIE), 6199(06): 1-10.

4.           Li, C.B., Feng, Z.-D., 2005. GIS & RS assisted precipitation-flow generation simulation in a typical watershed of Chinese Loess Plateau. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 4387-4390.

5.           Li, C.B., Feng, Z.-D., 2005. GIS-based improvement of Clark method for simulating watershed scale overland flow in Chinese Loess plateau. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 4399-4402.

6.           Peng H.H., Zhao C.Y., Feng Z.-D., 2011. Estimating spatial distribution of radiation below the Qinghai Spruce forest canopy in Qilian Mountains using hemispherical images and Airborne LiDAR data. Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 1954-1957.

7.           Peng, H.H., Zhao, C.Y., Feng, Z.-D., Xu, Z.L., 2010. Estimating morphological parameters of Tamarix ramosissima by Digital hemispherical image in the lower reaches of heihe river, northwest China. International Geoscience and Remote Sensing Symposium, (IGARSS), IEEE International, pp: 3438–3441.

8.           Peng, H.H., Zhao, C.Y., Shen, W.H., Xu, Z.L., Feng, Z.-D., 2009. Modeling canopy interception of Picea crassifolia forest in Qilian Mountains using QuickBird satellite data. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 370-373.

9.           Xu, Z.L., Zhao, C.Y., Feng, Z.-D., Peng, H.H., Wang, C., 2009. The impact of climate change on potential distribution of species in semi-arid region: A case study of Qinghai spruce (Picea crassifolia) in Qilian Mountain, Gansu province, China. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 412-415.

10.       Zeng Y.N., Feng, Z.-D., Cao G.C., 2004. Assessment of soil moisture using Landsat ETM+ temperature and vegetation index in semiarid environment. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 4306-4309.

11.       Zeng, Y.N., Feng, Z.-D., 2003. Grassland Desertification and its Impacts on Carbon Cycle in the Source Region of the Yellow River, Northeastern Qinghai-Tibetain Plateau by Remote Sensing. International Geoscience and Remote Sensing Symposium, (IGARSS), IEEE International, pp: 2644-2646.

12.       Zeng. Y.N., Feng, Z.-D., Cao, G.C., 2003. Grassland Desertification Monitoring in the Upper Reach of the Yellow River, Northeast Qinghai-Xizang Plateau. Remote Sensing and Space Technology for Multidisciplinary Research and Applications (SPIE), 4890(2): 769-779.

13.       Zhan, Z., Feng, Z.-D., 2003. Estimation of land surface evapotranspiration in the western Chinese Loess Plateau using remote sensing. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 2959-2961.

14.       Zhang, X., Feng, Z.-D., 2004. Scale Effects of DEM on Erosion Potentials in the Western Chinese Loess Plateau. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 4636-4639.

15.       Zhang, Y., Feng, Z.-D., Tao, H., Wu, L., Li, K., Xin, D., 2004. Simulating Wildfire Spreading Processes in a Spatially Heterogeneous Landscapes using an Improved Cellular Automation Model. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 3371–3374.

16.       Zhao, C.Y., Cheng, G.D., Feng, Z.-D., 2004. GIS assisted modeling of potential vegetation patterns in Zulihe River watershed of the west-central Loess Plateau, China. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 4618-4621.

17.       Zou, S., Feng Z.-D., Liu Y., Xu B.. 2004. GIS-assisted and Climate-based Modeling of Spatial Pattern of the Potential Ecological Environments in the Western Part of the Chinese Loess Plateau. International Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, pp: 4670-4673.

（6）与现代环境过程相关的“其它”中文论文

1)          白庆梅,田文寿,冯兆东，2001.亚洲干旱/半干旱区降水与大洋暖池气候的相关特征研究.冰川冻土,32(2):295-308.

2)          别强,赵传燕,彭守璋,冯兆东，2009.基于多元数据和不同分类算法的遥感影像信息提取及精度评价.遥感技术与应用,24(5):576-582.

3)          陈亮,马金辉,冯兆东,2009.基于GIS和统计的民勤绿洲地下水位模拟.兰州大学学报(自然科学版),45(6):21-27.

4)          冯兆东,董晓峰，2000.中国西北生态-经济耦合资源环境信息系统的研制.地球信息科学,(3):50-52.

5)        冯兆东，李吉均.1985.甘肃黄土高原综合治理方案及治理前景.干旱区地理，8（2）：35-40.

6)          冯兆东,刘勇,陈发虎，2000.半干旱区流域水文的景观生态研究与设计:地理信息系统辅助的过程模拟.中国沙漠,20(2):217-222.

7)          冯兆东.地形分析与地理信息系统在水文地貌中的应用.干旱区地理，1996，19:84-90.

8)          韩惠，冯兆东，俄有浩，2006.利用TM系列影像监测盐碱化土地变化——以民勤绿洲为例.兰州大学学报（自然科学版），2006,42(4):1-6.

9)          贺秀斌，冯桓，冯兆东，2005.土壤显微结构的X光——同步加速器计算机三维图像透视技术.土壤学报，42(2):328-330.

10)       李常斌，冯兆东，马金珠，魏国孝，2008.区域尺度分布式水文模拟的时空分辨率.干旱区研究，25(2):169-173.

11)       李守波,赵传燕,冯兆东，2009.黑河下游地下水波动带地下水时空分布模拟研究-FEFLLOW模型应用.干旱区地理,32(3):391-396.

12)       李常斌，冯兆东，马金珠，魏国孝，2008.区域尺度分布式水文模拟的时空分辨率.干旱区研究，25(2):169-173.

13)       潘竞虎，冯兆东，董晓峰，2008.甘肃省区域经济差异时空格局的ESDA—GIS.兰州大学学报(自然科学版)，44(4):45-50.

14)       潘竞虎，冯兆东，相得年，2008.河谷型城市土地利用类型及格局的热环境效应遥感分析——以兰州市为例.遥感技术与应用，23(2):202-207.

15)       潘竟虎,冯兆东,魏宏庆，2009.长江上游小流域土壤侵蚀动态模拟与分析.测绘科学,34(2):93-96.

16)       潘竟虎,李晓雪,冯兆东，2010.基于V-I-AP模型的兰州市不透水面与植被盖度时空格局分析.资源科学,32(3):520-527.

17)       彭焕华,赵传燕,冯兆东，2011.利用半球图像法提取植被冠层结构特征参数.生态学报，31(12):3376-3383.

18)       戚鹏程,赵传燕,冯兆东,2010.干旱荒漠区土地利用变化对地表温度的影响.农业工程学报,26(11):310-316.

19)       田风霞, 赵传燕, 冯兆东，2011.祁连山区青海云杉林蒸腾耗水估算.生态学报,31(9):2383-2391.

20)       田风霞,赵传燕,冯兆东，2009.黄土高原地区降水的空间分布.兰州大学学报（自然科学版）,45(5):1-5.

21)       田风霞,赵传燕,冯兆东，2012.祁连山青海云杉林冠生态水文效应及其影响因素.生态学报，32(4):1066-1076.

22)       王超, 赵传燕, 冯兆东，2011.黑河上游不同流域融雪过程的SRM模拟.兰州大学学报(自然科学版),47(3):1-8.

23)       王超,戚鹏程,冯兆东，2009.基于CART模型陇西黄土高原潜在NDVI模拟.兰州大学学报（自然科学版）,45(5):17-22.

24)       许仲林,赵传燕,冯兆东，2011.祁连山青海云杉林物种分布模型与变量相异指数.兰州大学（自然科学版）,47(4):55-63.

25)       杨永民,冯兆东,龙爱华,2011.基于MODIS时序植被指数的植被物候空间格局.兰州大学学报（自然科学版）,46(6):14-19.

26)       杨永民，冯兆东，周剑，2008.基于SEBS模型的黑河流域蒸散发.兰州大学学报（自然科学版），44(5):1-6.

27)       曾永年，冯兆东，2005.沙质荒漠化遥感监测与环境影响研究进展.山地学报，23(2):218-227.

28)       曾永年，冯兆东，2008.黄河源区土地沙漠化及其对土壤碳库的影响研究.中国沙漠，28(2):208-211.

29)       曾永年,冯兆东，2009.黄河源区土地沙漠化成因机制分析.自然灾害学报,18(1):45-52.

30)       曾永年,冯兆东,曹广超，2003.基于GIS的黄河上游龙羊峡库区生态环境遥感监测研究.山地学报,21(2):140-148.

31)       曾永年，冯兆东，向南平，2005.基于地表定量参数的沙漠化遥感监测方法.国土资源遥感，2:40-44.

32)       曾永年,马正龙,冯兆东，2009.高寒草地沙漠化土地固碳潜力分析.山地学报,27(6):671-675.

33)       曾永年，向南平，冯兆东，2006.Albedo—NDVI特征空间及沙漠化遥感监测指数研究.地理科学，26(1):75-81.

34)       詹志明,冯兆东，2002.区域遥感土壤水分模型的方法初探.水土保持研究,9(3):227-230.

35)       詹志明,冯兆东,秦其明，2004.陇西黄土高原陆面蒸散的遥感研究.地理与地理信息科学,20(1):16-19.

36)       赵传燕,冯兆东，2002. SO₂目标控制点选择与总量控制方法研究——以白银市为例.兰州大学（自然科学学报）,38(3):109-113.

37)       赵传燕,冯兆东,刘勇，2002.祁连山区森林生态系统生态服务功能分析——以张掖地区为例.干旱区资源与环境,16(1):66-70.

38)       赵传燕,冯兆东,刘勇，2003.干旱区森林水源涵养生态服务功能研究进展.山地学报,21(2):57-61.

39)       赵传燕，冯兆东，南忠仁，2007.黄土高原西部土壤水分时空变化模拟研究——以安家坡流域为例.冰川冻土，29(5):785-794.

40)       赵传燕，冯兆东，南忠仁，2008.陇西祖厉河流域降水插值方法的对比分析.高原气象，27(1):208-214.

41)       赵传燕,李守波,冯兆东,2009.黑河下游地下水波动带地下水位动态变化研究.中国沙漠,29(2):365-370.

42)       赵传燕,李守波,冯兆东，2010. 黑河下游地下水波动带地下水时空分布模拟研究:研究区离散化与潜水蒸发空间化.中国沙漠,30(1):198-203.

（7）章节（专著和文集里的章节）

1.         苏珍，蒲建成，冯兆东，1996.横断山冰川发育条件、数量即形态特征，横断山冰川（李吉均主编），第一章，科学出版社.

2.         王立伦，蒲建成，苏珍，秦大河，冯兆东，宋明琨，周尚哲，姚檀栋，1996.横断山冰川的物理性质，横断山冰川（李吉均主编），第二章，科学出版社.

3.         李吉均，冯兆东，周尚哲.1996.横断山的第四纪冰川及遗迹，横断山冰川（李吉均主编），第六章，科学出版社.

4.         冯兆东，李吉均，周尚哲.1996.横断山的第四纪冰川环境.横断山冰川（李吉均主编），第七章，科学出版社.

5.         冯兆东，李吉均，姚檀栋.1996.横断山冰川侵蚀地貌.横断山冰川（李吉均主编），第八章,科学出版社.

6.         李吉均，冯兆东，康建成.1996.横断山冰川沉积地貌，横断山冰川（李吉均主编），第九章，科学出版社.

7.         李吉均，姚檀栋，冯兆东.1984.稻城古冰帽发育模式.青藏高原研究I（青藏高原综合考查队编辑）, 269-274，科学出版社.

8.         冯兆东，姚檀栋，李吉均，宋明琨.1985.贡嘎山冰川的考察研究.青藏高原研究II（青藏高原综合考查队编辑），241-254，科学出版社.

9.         冯兆东.1986.横断山稻城附近古冰帽冰下过程的探讨.第二界全国冰川冻土会议文集（中国科学院兰州冰川冻土研究所编辑）, 104-109页.科学出版社.

10.     唐领余，康建成，冯兆东.1991.黄土高原兰州附近的孢粉气候记录.中国西部环境变迁（张林源主编）.科学出版社，第237-243页.

11.       冯兆东.1999.美国密西西比流域洪水控制经历及对中国洪水平原管理的启示.21世纪的中国地理（林健枝、陈永勤、伍世良编辑），202-211页.香港中文大学出版社.

12.     冯兆东.1984.试论我国冰川的气候雪线和地形学线问题.兰州大学学报（自然科学版）（专集：山地冰川演化和第四纪冰期问题研究），93-101.

13.     李吉均，冯兆东.1984.横断山脉的第四纪冰川遗迹.兰州大学学报（自然科学版）（专集：山地冰川演化和第四纪冰期问题研究），61-72.

14.     冯兆东，秦大河.1982.冰碛组构研究及其意义.兰州大学学报（自然科学版）(专集：中国第四纪冰川沉积和地貌问题)，110-121.

15.     Feng, Z.-D., 1996. Late Cenozoic environmental change in the Mongolian Plateau. A Mongolia Research Initiative (edited by Douglas F. Williams). U.S. National Science Foundation (pages 43-47).

（8）出版中文专著四部

1)        汪海斌，冯兆东，中国黄土高原末次间冰期古土壤S1的地理分异—土壤发生学和土壤地貌学意义。兰州大学出版社，2014。

2)        冯兆东，赵传燕，中国黄土高原西部的生态环境：过去、现在、将来。甘肃科技出版社，2014。

3)        冯兆东，马玉贞，蒙古高原过去四万年来的生物气候变化。甘肃科技出版社，2015。

4)        冯兆东，张同文，冉敏，新疆北部及周边地区全新世的气候和水文变化。兰州大学出版社，2017.

（9）客编/主编英文期刊专辑四卷

1.              Feng, Z.-D. (Guest Editor), Hydrological and Ecological Responses to Climate Change and to LUCC in Central Asia (Quaternary International, Volume 311, 2013).

2.              Yernazarova, Aliya & Feng, Z.-D. (Guest Editors), Climate Changes and Hydrological Responses in the Tianshan Mountains and the Northern Basin (Quaternary International, Volume 358, 2015).

3.              Feng, Z.-D. (Executive Editor), Journal of Arid Land, Volume 9 (Issues: 1~6), 2017).

4.              Wu, P.F., Qin, Z., Feng, Z.-D. (Guest Editors), Climate Change, River Dynamics and Civilization in the Central Plains of China (Quaternary International, Volume 521, 2019).