国产精品二区页在线播放,久久久久久精品免费免费,国产大片中文字幕,国产剧情一区二区

　　郝青振，研究員，博士生導師。1971年出生于河北柏鄉。1995年畢業(yè)于蘭州大學(xué)地質(zhì)系，1998年于中國科學(xué)院蘭州沙漠研究所獲碩士學(xué)位，2001年于中國科學(xué)院地質(zhì)與地球物理研究所獲博士學(xué)位。
　　主要從事風(fēng)塵堆積地層與古氣候學(xué)研究，參與建立西部黃土高原中新世–上新世風(fēng)成紅土的磁性地層序列，揭示出風(fēng)成紅土的成壤組分和碎屑組分的磁學(xué)性質(zhì)差異及其階段性演化特點(diǎn)；開(kāi)展下蜀黃土物源與古氣候研究，發(fā)展了下蜀黃土近源說(shuō)；發(fā)現地球偏心率長(cháng)周期調控的北極冰蓋滯后增長(cháng)新規律、MIS15-13北半球出現超長(cháng)間冰期，提出北半球當前溫暖氣候將至少再持續4萬(wàn)年，地球軌道參數配置導致部分冰期由南極過(guò)程觸發(fā)。
　　發(fā)表SCI論文70余篇，第一作者論文發(fā)表在Nature、Geology等刊物上，SCI引用4000余次。曾主持多項國家自然科學(xué)基金、中科院創(chuàng )新方向項目課題等課題。現任中國第四紀科學(xué)研究會(huì )第十屆理事會(huì )理事、第九屆理事會(huì )間冰期氣候與環(huán)境專(zhuān)業(yè)委員會(huì )秘書(shū)長(cháng)，曾任中國土壤學(xué)會(huì )第十二屆理事會(huì )“土壤地質(zhì)分專(zhuān)業(yè)委員會(huì )”副主任。獲2014年度國家自然科學(xué)二等獎(排名第二)、中國地質(zhì)學(xué)會(huì )2012年度十大地質(zhì)科技進(jìn)展獎(排名第一)。

教育及工作簡(jiǎn)歷

• 1991.09－1995.07，蘭州大學(xué)，地質(zhì)系，地質(zhì)學(xué)專(zhuān)業(yè)，獲理學(xué)學(xué)士學(xué)位；
• 1995.09－1998.07，中國科學(xué)院蘭州沙漠研究所，自然地理專(zhuān)業(yè)，獲理學(xué)碩士學(xué)位；
• 1998.09－2001.08，中國科學(xué)院地質(zhì)與地球物理研究，第四紀地質(zhì)專(zhuān)業(yè)，獲理學(xué)博士學(xué)位；
• 2001.09－2005.12，中國科學(xué)院地質(zhì)與地球物理研究，新生代地質(zhì)與環(huán)境研究室，助理研究員；
• 2006.01－2012.12，中國科學(xué)院地質(zhì)與地球物理研究，新生代地質(zhì)與環(huán)境研究室，副研究員；
• 2006.12－2007.12，英國利物浦大學(xué)，地理系，環(huán)境磁學(xué)實(shí)驗室，博士后(英國皇家學(xué)會(huì )王寬誠獎學(xué)金)；
• 2012.03－2012.09，英國利物浦大學(xué)，環(huán)境學(xué)院，古地磁實(shí)驗室，訪(fǎng)問(wèn)學(xué)者；
• 2013.01－今，　　 中國科學(xué)院地質(zhì)與地球物理研究，新生代地質(zhì)與環(huán)境研究室，研究員。

學(xué)術(shù)任職：

• 中國第四紀科學(xué)研究會(huì )第十屆理事會(huì )理事(2020-2023 )、第九屆理事會(huì )間冰期氣候與環(huán)境專(zhuān)業(yè)委員會(huì )秘書(shū)長(cháng)(2017-2020)
• 中國土壤學(xué)會(huì )第十二屆理事會(huì )“土壤地質(zhì)分專(zhuān)業(yè)委員會(huì )”副主任(2012-2016)
• 《地質(zhì)學(xué)報(英文版)》編委 (2019-)
• Quaternary International, Editor (2019-)
• Science Bulletin, Guest Editor (2016-2017)

• 研究方向：黃土地層與古氣候
• 研究區域：亞洲、歐洲等黃土分布區
• 研究手段：常規理化分析（古風(fēng)化強度、地球化學(xué)示蹤、粒度等）、環(huán)境磁學(xué)
• 科學(xué)問(wèn)題：季風(fēng)氣候軌道時(shí)間尺度變化與高緯、低緯過(guò)程的聯(lián)系；氣候相似型時(shí)期環(huán)境特征及其對未來(lái)氣候變化的啟示；下蜀黃土物源與北亞熱帶地區冰期環(huán)境演化

• 國家自然科學(xué)基金科學(xué)中心項目：大陸演化與季風(fēng)系統演變 (41888101)，2019.01-2023.12，核心成員
• 國家杰出青年基金：第四紀地質(zhì)學(xué)(41625010)，2017.01-2021.12，負責人
• 政府間國際科技創(chuàng )新合作重點(diǎn)專(zhuān)項：東亞季風(fēng)區和西風(fēng)影響區的多時(shí)間尺度古氣候變化對比研究(2017YFE0112800)，2018.07-2021.06，中方負責人
• 中國科學(xué)院戰略性先導科技專(zhuān)項（B類(lèi)）課題：亞洲季風(fēng)環(huán)境演變(XDB26020200)，2018.08-2023.07，負責人

• 國家自然科學(xué)二等獎，晚新生代風(fēng)化成壤作用與東亞環(huán)境演化，(排名第二，2014)
• 中國地質(zhì)學(xué)會(huì )十大地質(zhì)科技進(jìn)展(排名第一，2012)

1. Hao Qingzhen*, Wang Luo, Oldfield Frank*, Peng Shuzhen, Qin Li, Song Yang, Xu Bing, Qiao Yansong, Bloemendal Jan, Guo Zhengtang, 2012. Delayed build-up of Arctic ice sheets during 400,000-year minima in insolation variability. Nature, 490, 393–396. http://dx.doi.org/10.1038/nature11493.
2. Hao Qingzhen*, Wang Luo*, Oldfield Frank, Guo Zhengtang, 2015. Extra-long interglacial in Northern Hemisphere during MISs 15-13 arising from limited extent of Arctic ice sheets in glacial MIS 14. Scientific Reports, 5: 12103, http://dx.doi.org/10.1038/srep12103.
3. Gao Xinbo, Hao Qingzhen*, Wang Luo, Oldfield Frank, Bloemendal Jan, Deng Chenglong, Song Yang, Ge Junyi, Wu Haibin, Xu Bing, Li Fengjiang, Han Long, Fu Yu, Guo Zhengtang, 2018. The different climatic response of pedogenic hematite and ferrimagnetic minerals: Evidence from particle-sized modern soils over the Chinese Loess Plateau. Quaternary Science Reviews, 179: 69–86.
4. Han Long, Hao Qingzhen*, Qiao Yansong, Wang Luo, Peng Shuzhen, Li Nan, Gao Xinbo, Fu Yu, Xu Bin, Gu Zhaoyan, 2019. Geochemical evidence for provenance diversity of loess in southern China and its implications for glacial aridification of the northern subtropical region. Quaternary Science Reviews, 212: 149-163.

其它論著(zhù)：

－ResearchGate　　－Research ID

2020年

1. Jiang Qida, Hao Qingzhen*, Peng Shuzhen, Qiao Yansong (2020). Grain-size evidence for the transport pathway of the Xiashu loess in northern subtropical China and its linkage with fluvial systems. Aeolian Research, 46, 100613. http://doi.org/10.1016/j.aeolia.2020.100613.
2. Scheidt Stephanie, Hambach Ulrich, Hao Qingzhen, Rolf Christian, Wennrich Volker (2020). Environmental signals of Pliocene-Pleistocene climatic changes in Central Europe: Insights from the mineral magnetic record of the Heidelberg Basin sedimentary infill (Germany). Global and Planetary Change, 187, 103112. http://doi.org/10.1016/j.gloplacha.2020.103112.
3. Gao Xinbo, Ou Jian*, Guo Shengqiao, Ji Wenting, Li Xianqian, Deng Chenglong*, Hao Qingzhen, Guo Zhengtant (2020). Sedimentary history of the coastal plain of the south Yellow Sea since 5.1 Ma constrained by high-resolution magnetostratigraphy of onshore borehole core GZK01. Quaternary Science Reviews, 239, 106355. http://doi.org/10.1016/j.quascirev.2020.106355.
4. Zhang Yueting, Wu Naiqin*, Li Fengjing, Hao Qingzhen, Dong Yajie, Zhang Dan, Lu Huayuan (2020). Eco-environmental changes in the Chinese Loess Plateau during low-eccentricity interglacial Marine Isotope Stage 19. Science China Earth Sciences, 63(9), 1408–1421. http://doi.org/10.1007/s11430-020-9628-5 [張月婷, 吳乃琴, 李豐江, 郝青振, 董亞杰, 張丹, 呂厚遠 (2020). 低偏心率間冰期(MIS 19)黃土高原生態(tài)環(huán)境變化及影響機制. 中國科學(xué): 地球科學(xué) 50, 1477–1491].
5. 武雪超, 郝青振*, Markovic Slobodan B, 付玉, 娜米爾, 宋揚, 郭正堂 (2020). 多瑙河黃土與古環(huán)境研究進(jìn)展. 地球科學(xué)進(jìn)展, 35(4): 363–377.
6. 萬(wàn)琳琪, 朱麗東, 彭淑貞*, 丁敏, 趙秋月, 張偉, 郝青振 (2020). 魯中山地北麓黃土－古土壤粘土礦物組成及古環(huán)境意義. 第四紀研究, 40(6), 1522–1531.

2019年

1. Hao, Q.*, Zeeden, C., Moska, P., TOMIC, N., 2019. Loess2M - Modelling and Mapping. Quaternary International, 502, 1–3.
2. Gao X B, Hao Q Z*, Oldfield F, Bloemendal J, Deng C L, Wang L, Song Y, Ge J Y, Wu H B, Xu B, Li F J, Han L, Fu Y, Guo Z T., 2019. New high-temperature dependence of magnetic susceptibility-based climofunction for quantifying paleoprecipitation from Chinese loess. Geochemistry, Geophysics, Geosystems, 20, 4273-4291.
3. Gavrilov, M. B., An, W., Xu, C., Radakovic, M. G., Hao, Q., Yang, F., Guo, Z., Peric, Z., Gavrilov, G., Markovic, S.B., 2019. Independent Aridity and Drought Pieces of Evidence Based on Meteorological Data and Tree Ring Data in Southeast Banat, Vojvodina, Serbia. Atmosphere, 10, 586, http://doi.org/10.3390/atmos10100586.
4. Sümegi, P., Gulyás, S., Molnár, D., Sümegi, B.P., Torocsik, T., Almond, P.C., Smalley, I., Zhou, L., Galovic, L., Pál-Molnár, E., Hao, Q., Molnár, M., Koloszar, L., 2019. Periodicities of paleoclimate variations in the first high-resolution non-orbitally tuned grain size record of the past 1Ma from SW Hungary and regional, global correlations. Aeolian Research, 40, 74–90.
5. Deng Chenglong, Hao Qingzhen, Guo Zhengtang, Zhu Rixiang, 2019. Quaternary integrative stratigraphy and timescale of China. Science China Earth Sciences, 62(1): 324-348[鄧成龍, 郝青振, 郭正堂, 朱日祥. 中國第四紀綜合地層和時(shí)間框架. 中國科學(xué): 地球科學(xué), 49(1), 330-352, 2019].
6. He, Z., Guo, Z., Yang, F., Sayem, A. S. M., Wu, H., Zhang, C., Hao, Q., Xiao, G., Han, L., Fu, Yang., 2019. Provenance of Cenozoic Sediments in the Xining Basin Revealed by Nd and Pb Isotopic Evidence: Implications for Tectonic Uplift of the NE Tibetan Plateau. Geochemistry, Geophysics, Geosystems, 20(10), 4531–4544.
7. Hu, B., Zhang, C., Wu, H., Hao, Q., Guo, Z., 2019. Clay mineralogy of an Eocene fluvial-lacustrine sequence in Xining Basin, Northwest China, and its paleoclimatic implications. Sci. China Earth Sci., 62, 571–584.
8. Xu, B., Gu, Z., Wang, L., Hao, Q., Wang, H., Chu, G., Lü, Y., Jiang, D., 2019. Global Warming Increases the Incidence of Haze Days in China. Journal of Geophysical Research: Atmospheres, 124(12), 6180–6190.
9. 張浣荻, 郝青振*, 2019. 深海和冰芯證據指示氧同位素階段MIS 11~10時(shí)期北極冰蓋增長(cháng)滯后. 第四紀研究, 39(3): 783-788.

2018年 

1. Zhang Junjie, Li Sheng-Hua, Sun Jimin, Hao Qingzhen, 2018. Fake age hiatus in a loess section revealed by OSL dating of calcrete nodules. Journal of Asian Earth Sciences, https://doi.org/10.1016/j.jseaes.2017.11.016. 
2. Zeeden, C., Hambach, U., Obreht, I., Hao, Q., Abels, H.A., Veres, D., Lehmkuhl, F., Gavrilov, M.B., Markovic, S.B., 2018. Patterns and timing of loess-paleosol transitions in Eurasia: Constraints for paleoclimate studies. Global and Planetary Change, https://doi.org/10.1016/j.gloplacha.2017.12.021. 
3. Sümegi, P., Gulyás, S., Molnár, D., Sümegia, B.P., Almond, P.C., Vandenberghe, J., Zhou, L., Pál-Molnár, E., Torocsika, T., Hao, Q., et al., New chronology of the best developed loess/paleosol sequence of Hungary capturing the past 1.1 ma: Implications for correlation and proposed pan-Eurasian stratigraphic schemes. Quaternary Science Reviews, 191, 144–166.
4. Markovic, S. B., Stevens, T., Mason, J., Vandenberghe, J., Yang, S., Veres, D., újvári, G., Timar-Gabor, A., Zeeden, C., Guo, Z., Hao, Q., et al., 2018. Loess correlations – Between myth and reality. Palaeogeography, Palaeoclimatology, Palaeoecology, 509, 4–23.
5. Schaetzl, R. J., Bettis, E. A., Crouvi, O., Fitzsimmons, K. E., Grimley, D. A., Hambach, U., Lehmkuhl, F., Markovic, S. B., Mason, J. A., Owczarek, P., Roberts, H. M., Rousseau, D., Stevens, T., Vandenberghe, J., Zárate, M., Veres, D., Yang, S., Zech, M., Conroy, J. L., Dave, A. K., Faust, D., Hao, Q., et al., 2018. Approaches and challenges to the study of loess—Introduction to the LoessFest Special Issue. Quaternary Research, 89(3): 563–618. 
6. Song Yang, Guo Zhengtang, Markovic Slobodan, Hambach Ulrich, Deng Chenglong, Chang Lin, Wu Jianyu, Hao Qingzhen, 2018. Magnetic stratigraphy of the Danube loess: a composite Titel-Stari Slankamen loess section over the last one million years in Vojvodina, Serbia. Journal of Asian Earth Sciences, https://doi.org/10.1016/j.jseaes.2017.11.012.
7. Wang, L., Jiang, W. Y., Jiang, D. B., Zou, Y. F., Liu, Y. Y., Zhang, E. L., Hao, Q. Z., Zhang, D. G., Zhang, D. T., Peng, Z. Y., Xu , B., Yang, X. D., Lu, H. Y., 2018, Prolonged Heavy Snowfall During the Younger Dryas. Journal of Geophysical Research: Atmospheres, https://doi.org/10.1029/2018JD029271.
8. Xu Bing, Wang Luo, Gu Zhaoyan, Hao Qingzhen, Wang Haizhi, Chu Guoqiang, Jiang Dabang, Liu Qiang, Qin Xiaoguang, 2018, Decoupling of Climatic Drying and Asian Dust Export During the Holocene. Journal of Geophysical Research: Atmospheres, 123(2): 915–928.
9. 張偉, 彭淑貞, 丁敏, 何超, 林海意, 郝青振, 2018. 黃土高原黃土沉積伊利石結晶度的時(shí)空變化特征. 第四紀研究, 38 (2): 289–296.

2017年 

1. Li Xinling, Hao Qingzhen*, Wei Mingjian*, Andreev Andrei A.*, Wang Junping, Tian Yanyan, Li Xiaolei, Cai Maotang, Hu Jianmin, Shi Wei, 2017. Phased uplift of northeastern Tibetan Plateau inferred from the pollen record of Yinchuan Basin, northwestern China. Scientific Reports, 7: https://doi.org/10.1038/s41598-017-16915-z. 
2. Timar-Gabor, A., Buylaert, J-P., Guralnik, B., Trandafir-Antohi, O., Constantin, D., Anechitei-Deacu, V., Jain, M., Murray, A.S. , Porat, N., Hao, Q., Wintle, A.G. 2017. On the importance of grain size in luminescence dating using quartz. Radiation Measurements, 106: 464–471.
3. Xu Bing, Gu Zhaoyan, Qin Xiaoguang, Wu Yong, Mu Guijin, Jiao Yingxin, Zhang Lei, Hao Qingzhen, Wang Luo, Wei Dong, Liu Jiaqi, 2017. Radiocarbon dating the ancient city of Loulan. Radiocarbon, 59(4): 1215–1226.
4. 何超, 朱麗東, 彭淑貞, 林海意, 張偉, 丁敏, 郝青振, 郭正堂，2017. 西峰風(fēng)塵堆積的伊利石結晶度及古環(huán)境指示. 第四紀研究, 37 (2): 393–401.

2016年 

1. Peng Shuzhen, Hao Qingzhen*, Wang Luo, Ding Min, Zhang Wei, Wang Yanan, Guo Zhengtang, 2016. Geochemical and grain-size evidence for the provenance of loess deposits in the Central Shandong Mountains region, northern China. Quaternary Research, 85: 290–298. http://dx.doi.org/10.1016/j.yqres.2016.01.005. 
2. Zhou Xin, Sun Liguang, Zhan Tao, Huang Wen, Zhou Xinying, Hao Qingzhen, Wang Yuhong, He Xiaoqing, Zhao Chao, Zhang Jun, Qiao Yansong, Ge Junyi, Yan Pei, Yan Qing, Shao Da, Chu Zhuding, Yang Wenqing, Smol, John P. 2016, Time-transgressive onset of the Holocene Optimum. Earth and Planetary Science Letters, 456: 39–46. 
3. 李楠，郝青振*，張緒教，高新勃，韓龍，張偉，彭淑貞，旺羅，許冰，喬彥松，顧兆炎，2016. 東秦嶺黃土物源的常量元素和微量元素地球化學(xué)證據. 第四紀研究, 36 (2): 332–346. 
4. 郝青振, 張人禾, 汪品先, 王斌，2016. 全球季風(fēng)的多尺度演化. 地球科學(xué)進(jìn)展, 31(7): 689–699. 

2015年 

1. Hao Qingzhen*, Wang Luo*, Oldfield Frank, Guo Zhengtang, 2015. Extra-long interglacial in Northern Hemisphere during MISs 15-13 arising from limited extent of Arctic ice sheets in glacial MIS 14. Scientific Reports, 5: 12103, http://dx.doi.org/10.1038/srep12103.
2. Markovic S B, Stevens T, Kukla G J, Hambach U, Fitzsimmons K E, Gibbard P, Buggle B, Zech M, Guo Z T, Hao Q Z, et al. 2015. Danube loess stratigraphy — Towards a pan-European loess stratigraphic model. Earth-Science Reviews,148: 228–258. 
3. Chen Yiwei, Li Sheng-Hua, Li Bo, Hao Qinzhen, Sun Jimin, 2015. Maximum age limitation in luminescence dating of Chinese loess using the multiple-aliquot MET-pIRIR signals from K-feldspar. Quaternary Geochronology, 30(Part B): 207–212. 
4. Zhang Chunxia, Xiao Guoqiao, Guo Zhengtang, Wu Haibin, Hao Qignzhen, 2015. Evidence of late early Miocene aridification intensification in the Xining Basin caused by the northeastern Tibetan Plateau uplift. Global and Planerary Change, 128: 31–46. 
5. 袁寶印, 郝青振, 徐欽琦, 岳峰, 張偉, 劉平, 2015. 洛川黃土堆積粗顆粒變化記錄與華北第四紀哺乳動(dòng)物遷徙關(guān)系的初步探討. 第四紀研究, 35 (6): 1480–1488. 

2014年 

1. Song Yang, Hao Qingzhen*, Ge Junyi, Zhao De’ai, Zhang Yan, Li Qin, Zuo Xinxin, Lü Yanwu, Wang Pan, 2014. Quantitative relationships between magnetic enhancement of modern soils and climatic variables over the Chinese Loess Plateau. Quaternary International, 334–335: 119–131. http://dx.doi.org/10.1016/j.quaint.2013.12.010.  
2. Peng Shuzhen, Hao Qingzhen, Oldfield Frank, Guo Zhengtang, 2014. Release of iron from chlorite weathering and links to magnetic enhancement in Chinese loess deposits. Catena, 117: 43–49. 
3. 賈偉麗, 彭淑貞, 張偉, 郝青振, 韓軍青, 郭正堂, 2014. 末次間冰期以來(lái)黃土中伊利石結晶度的變化與古環(huán)境. 第四紀研究, 34 (3): 553–559. 

2012年 

1. Hao Qingzhen, Oldfield Frank*, Bloemendal Jan, Guo Zhengtang, 2012. Hysteresis and thermomagnetic properties of particle-sized fractions from loess and palaeosol samples spanning 22 Myr of accumulation on the Chinese Loess Plateau. Geophysical Journal International, 2012, 191: 64–77. http://dx.doi.org/10.1111/j.1365-246X.2012.05622.x. 
2. Wang, L., Li, J., Lu, H., Gu, Z., Rioual, P., Hao, Q., Mackay, A., Jiang, W., Cai, B., Xu, B., Han, J., Chu, G., 2012, The East Asian winter monsoon over the last 15,000 years: its links to high-latitudes and tropical climate systems and complex correlation to the summer monsoon. Quaternary Science Reviews, 32: 131–142, doi:10.1016/j.quascirev. 2011.11.003. 
3. Xu Bing, Gu Zhaoyan, Wang Chengyuan, Hao Qingzhen, Han Jingtai, Liu Qiang, Wang Luo, Lu Yanwu, 2012. Carbon isotopic evidence for the associations of decreasing atmospheric CO₂ level with the Frasnian-Famennian mass extinction. J. Geophys. Res., 117(G1): G01032, doi:10.1029/2011JG001847. 
4. Xiao, G., Guo, Z., Dupont-Nivet, G., Lu, H., Wu, N., Ge, J., Hao, Q., Peng, S., Li, F., Abels, H., Zhang, K., 2012. Evidence for northeastern Tibetan Plateau uplift between 25 and 20 Ma in the sedimentary archive of the Xining Basin, Northwestern China. Earth and Planetary Letters, 317/318: 185–195. 
5. Yi Liang, Yu Hongjun, Ortiz Joseph D., Xu Xingyong, Chen Shenliang, Ge Junyi, Hao Qingzhen, Yao Jing, Shi Xuefa, Peng Shuzhen, 2012, Late Quaternary linkage of sedimentary records to three astronomical rhythms and the Asian monsoon, inferred from a coastal borehole in the south Bohai Sea, China. Palaeogeography, Palaeoclimatology, Palaeoecology, 329/330: 101–117.  
6. 袁寶印, 湯國安, 周力平, 郝青振, 李發(fā)源, 陸中臣，2012. 新生代構造運動(dòng)對黃土高原地貌分異與黃河形成的控制作用. 第四紀研究，32 (5): 829–838. 
7. 宋揚, 郝青振*, 葛俊逸, 趙得愛(ài), 張巖, 李琴, 左昕昕, 呂延武, 王攀，2012. 黃土高原表土磁化率與氣候要素的定量關(guān)系研究. 第四紀研究，32 (4): 679–690. 

2011年 

1. Qiao, Y., Hao, Q., Peng, S., Wang, Y., Li, J., Liu, Z., 2011, Geochemical characteristics of the eolian deposits in southern China, and their implications for provenance and weathering intensity. Palaeogeography, Palaeoclimatology, Palaeoecology, 308: 513–523. 
2. Xu, B., Gu, Z., Han, J., Hao, Q., Lu, Y., Wang, L., Wu, N., Pei, Y., 2011, Radiocarbon age anomalies of land snail shells in the Chinese Loess Plateau. Quaternary Geochronology, 6: 383–389. 
3. 許晨曦, 郝青振, 楊石嶺, 趙淑君, 周鑫, 葛俊逸, 肖國橋, 2011. 黃土高原東南部黃土記錄的全新世東亞季風(fēng)變化. 地質(zhì)力學(xué)學(xué)報, 17(2): 175–184.  

2010年 

1. Hao Qingzhen, Guo Zhengtang, Qiao Yansong, Xu Bing, Oldfield Frank, 2010. Geochemical evidence for the provenance of Middle Pleistocene loess deposits in southern China. Quaternary Science Reviews, 29(23–24): 3317–3326. 
2. 姚玉鵬, 劉羽, 張進(jìn)江, 熊巨華, 郝青振, 鄭德順，2010. 2010年度地質(zhì)學(xué)科項目受理與資助分析. 地球科學(xué)進(jìn)展，25(12): 1389–1392. 

2009年 

1. Hao Qingzhen, Oldfield Frank., Bloemendal Jan, Torrent Jose, Guo Zhengtang, 2009. The record of changing Hematite and Goethite deposition over the last 22Ma on the Chinese Loess Plateau from magnetic measurements and Diffuse Reflectance Spectroscopy. Journal of Geophysical Research, 114: B12101. http://dx.doi.org/10.1029/2009JB006604.   
2. Oldfield F., Hao Q., Bloemendal J., Gibbs-Eggar Z., Patil S., Guo, Z., 2009. Links between particle size and magnetic grain size: general observations and some implications for Chinese loess studies. Sedimentology, 56: 2091–2106. doi: 10.1111/j.1365-3091.2009.01071.x.   
3. 姚玉鵬,劉羽,張進(jìn)江,熊巨華,郝青振,張曉東, 2009. 2009年度地質(zhì)學(xué)科項目受理與資助分析. 地球科學(xué)進(jìn)展，24(12): 1371–1374. 

2008年 

1. Hao, Qingzhen, Oldfield, Frank, Bloemendal Jan, Guo, Zhengtang, 2008. Particle size separation and evidence for pedogenesis in samples from the Chinese Loess Plateau spanning the last 22 Ma. Geology, 36(9): 727–730. http://dx.doi.org/10.1130/G24940A.1.  
2. Hao, Qingzhen, Oldfield, Frank, Bloemendal Jan, Guo, Zhengtang, 2008. The magnetic properties of loess and paleosol samples from the Chinese Loess Plateau spanning the last 22 million years. Palaeogeography, Palaeoclimatology, Palaeoecology, 260: 389–404. http://dx.doi.org/10.1016/j.palaeo.2007.11.010. 
3. Guo, Z.T., Sun, B., Zhang, Z.S., Peng, S.Z., Xiao, G.Q., Ge, J.Y., Hao, Q.Z., Qiao, Y.S., Liang, M.Y., Liu, J.Q., Yin, Q.Z., Wei, J.J., 2008. A major reorganization of Asian climate by the early Miocene. Climate of the Past, 4: 153–174. 
4. 袁寶印，郭正堂，喬彥松，郝青振，2008. 地文期及其在新生代黃土和古地理研究中的意義. 地質(zhì)通報，27(3): 300–307. 
5. 肖國橋, 郭正堂, 陳宇坤, 姚政權, 邵永新, 王旭龍, 郝青振, 盧演儔，2008. 渤海灣西岸BZ1鉆孔的磁性地層學(xué)研究. 第四紀研究, 28 (5): 909–916. 

2007年 

1. Hao Qingzhen, Guo Zhengtang, 2007. Magnetostratigraphy of an early-middle Miocene loess-soil sequence in the western Loess Plateau of China. Geophysical Research Letters, 34: L18305, http://dx.doi.org/10.1029/2007GL031162.  
2. 尹秋珍, 肖國橋, 郭正堂, 葛俊逸, 郝青振, 袁寶印, 2007. 風(fēng)塵堆積常見(jiàn)的同沉積和沉積后改造特征及其環(huán)境意義. 第四紀研究，27: 295–302. 
3. 袁寶印, 郭正堂, 郝青振, 彭淑貞, 喬彥松, 吳海斌, 肖國橋, 葛俊逸, 孫斌, 周鑫, 尹秋珍, 梁美艷, 秦利, 劉戀, 姚政權, 劉東生, 2007. 天水秦安一帶中新世黃土堆積區沉積-地貌演化. 第四紀研究, 27: 161–171. 
4. 周鑫, 郭正堂, 彭淑貞, 郝青振, 肖國橋, 葛俊逸, 秦利, 2007. 西峰剖面午城黃土古風(fēng)化強度變化與早更新世季風(fēng)環(huán)境演化. 第四紀研究, 27(4): 645–650. 

2006年 

1. Li, F.J., Wu, N.Q., Pei, Y.P., Hao, Q.Z., Rousseau, D., 2006. Wind-blown origin of Dongwan late Miocene-Pliocene dust sequence documented by land snail record in western Chinese Loess Plateau. Geology, 34: 405–408. doi: 10.1130/G22232.1 
2. Qiao, Y.S., Guo, Z.T, Hao, Q.Z., Yin, Q.Z., Yuan, B.Y. and Liu, T.S., 2006. Grain-size features of a Miocene loess-soil sequence at Qinan: Inplications on its origin. Science in China, Series D, 49(7): 731–738. [喬彥松，郭正堂，郝青振，尹秋珍，袁寶印，劉東生，2006. 中新世黃土-古土壤序列的粒度特征及其對成因的指示意義.中國科學(xué)，D輯，36(7): 646–653]. 
3. Liu Jinfeng, Guo Zhengtang, Qiao Yansong, Hao Qingzhen, Yuan Baoyin, 2006. Eolian origin of the Miocene loess-soil sequence at Qin’an, China: evidence of quartz morphology and quartz grain-size. Chinese Science Bulletin, 51(1): 117–120. [劉進(jìn)鋒，郭正堂，喬彥松，郝青振，袁寶印，2005. 秦安中新世黃土－土壤序列石英顆粒形態(tài)特征、粒度分布及其對成因的指示意義. 科學(xué)通報，50(24): 2806–2809]. 
4. 葛俊逸，郭正堂，郝青振，2006. 特征時(shí)期黃土高原風(fēng)化成壤強度的空間特征及氣候梯度. 第四紀研究，26(6): 962–968. 
5. 孫斌，郭正堂，尹秋珍，郝青振，2006. 西寧第四紀黃土- 古土壤序列中的可溶鹽、來(lái)源及環(huán)境意義. 第四紀研究, 26: 649–656.   
6. 姚政權，郭正堂，陳宇坤，肖國橋，邵永新，王旭龍，郝青振，盧演儔，安芷生，2006. 渤海灣海陸交互相沉積的磁性地層學(xué)研究. 海洋地質(zhì)與第四紀地質(zhì)，26(1): 9–15. 

2005年 

1. Hao Qingzhen, Guo Zhengtang, 2005. Spatial variations of magnetic susceptibility of Chinese loess for the last 600 ka: Implications for monsoon evolution. Journal of Geophysical Research, 110: B12101. http://dx.doi.org/10.1029/2005JB003765.  
2. 劉進(jìn)鋒，郭正堂，郝青振，彭淑貞，喬彥松，孫斌，葛俊逸，2005. 甘肅秦安糜子灣剖面中新世黃土堆積的磁性地層學(xué)研究. 第四紀研究，25(4): 503–509. 

2004年 

1. Hao Qingzhen, Guo Zhengtang, 2004. Magnetostratigraphy of a late Miocene-Pliocene loess-soil sequence in the western Loess Plateau in China. Geophysical Research Letters, 31: L092099. http://dx.doi.org/10.1029/2003GL019392. 
2. Guo, Z.T., Peng, S.Z., Hao, Q.Z., Biscaye, P. E., An, Z.S. and Liu, T.S., 2004. Late Miocene-Pliocene development of Asian aridification as recorded in an eolian sequence in northern China. Global and Planetary Changes, 41(3–4): 135–145. 

2003年 

1. Qiao Yansong, Guo Zhengtang, Hao Qingzhen, Wu Wenxiang, Jiang Wenying, Yuan Baoyin, Zhang Zhongshi, Wei Jianjing and Zhao Hua, 2003, Loess-soil sequences in southern AnhuiProvince: magnetostratigraphy and paleoclimatic significance. Chinese Science Bulletin, 48(9): 2088–2093. [喬彥松，郭正堂，郝青振，吳文祥，姜文英，袁寶印，張仲石，魏建晶，趙華, 2003, 皖南風(fēng)塵堆積-土壤序列的磁性地層學(xué)研究及其古環(huán)境意義. 科學(xué)通報，48(13), 1465–1469.]. 

2002年 

1. Guo, Z.T., Ruddiman, W. F., Hao, Q.Z., Wu, H.B., Qiao, Y.S., Zhu, R.X., Peng, S.Z, Wei, J. J., Yuan, B.Y., Liu, T.S, 2002. Onset of Asian desertification by 22 Myr ago inferred from loess deposits in China. Nature, 416: 159–163.   
2. Jiang, W.Y., Peng, S.Z., Hao, Q,Z., Liu, T.S., 2002. Carbon isotopic records in paleosols over the Pliocene in Northern China: implication on vegetation development and Tibetan uplift. Chinese Science Bulletin, 47(8), 687–690. [姜文英，彭淑貞，郝青振, 劉東生, 2001. 上新世紅粘土的碳同位素記錄與青藏高原隆升的關(guān)系. 科學(xué)通報，46(24): 2065–2068].  
3. 喬彥松，郭正堂，郝青振，吳文祥，張仲石，趙華，朱日祥，2002. 安徽宣城風(fēng)成堆積序列的磁性地層學(xué)研究與古環(huán)境意義. 地質(zhì)力學(xué)學(xué)報, 8: 369–375. 

2001年及以前 

1. Guo, Z.T., Peng, S.Z., Hao, Q.Z., Biscaye, P.E., Liu, T.S., 2001. Origin of the Miocene-Pliocene red-earth formation at Xifeng in Northern China and implications for paleoenvironments. Palaeogeography, Palaeoclimatology, Palaeoecology, 170: 11–26. 
2. Zou, X.Y., Wang, Z.L., Hao, Q.Z., Zhang, C.L., Liu, Y.Z. and Dong, G.R., 2001. The Distribution of velocity and energy of saltating sand grains in a wind tunnel. Geomorphology, 36: 155–165. 
3. Zou Xueyong, Hao Qingzhen, Zhang Chunlai, Yang Bao, Liu Yuzhang, Dong Guangrong, Zhou Shaoxiang, 1999. The trajectory parameters analysis of saltating sand grains driven by wind. Chinese Science Bulletin, 44(18): 1681–1685. [鄒學(xué)勇，郝青振，張春來(lái)，楊保，劉玉璋，董光榮，周紹祥，1999. 風(fēng)沙流中躍移沙粒軌跡參數分析. 科學(xué)通報，44(10): 1084–1088]. 
4. Hao Qingzhen, Guo Zhengtang, 2001. Quantitative measurements on the paleo-weathering intensity of the loess-soil sequences and the implication on paleomonsoon. Science in China, Ser. D., 44(6): 566–576. [郝青振, 郭正堂，2001. 1.2Ma以來(lái)黃土-古土壤序列風(fēng)化成壤強度的定量化研究與東亞夏季風(fēng)演化. 中國科學(xué), D輯, 31(6): 520–528].
5. 樂(lè )小橫, 徐旭榮，郝青振. 2000. 江西銀山礦區次火山巖巖石地球化學(xué)特征及形成大地構造環(huán)境. 大地構造與成礦學(xué)，24(4): 385–389. 
6. 郝青振，郭正堂，彭淑貞，2000. 隴西第三紀紅土磁學(xué)性質(zhì)初步研究. 第四紀研究，20(5): 447–456. 
7. 張春來(lái)，郝青振，鄒學(xué)勇，嚴平，1999. 新月形沙丘迎風(fēng)坡形態(tài)及沉積物對表面氣流的響應. 中國沙漠，19(4): 359–363. 
8. 郭正堂，彭淑貞，郝青振，陳習慧，劉東生，1999. 晚第三紀中國西北干旱化的發(fā)展及其與北極冰蓋形成演化和青藏高原隆升的關(guān)系. 第四紀研究，19(6): 556–567. 
9. 郝青振，鄒學(xué)勇，董光榮，李長(cháng)治，王國昌，1998. 室內沙風(fēng)洞空洞條件下流場(chǎng)規律. 中國沙漠，18(4): 334–339.