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师资队伍

教授(正高)

 

姓名:王国安

性别:男

职称:教授/博士生导师

Email: gawang@cau.edu.cn

办公电话:010-62733942

办公地址:新教学楼一区420室


 教育背景

 

1983.9-1987.7 中南大学地质系 地质学学士 工学

1995.9-1998.7 中国科学院兰州地质所 地球化学 硕士 理学

1998.9-2001.8 中国科学院地质研究所 地质学 博士 理学

 

 工作履历

 

1987.8-1993.8 甘肃有色地质研究所 助理工程师

1993.8-1995.8甘肃有色地质研究所  工程师

2001.9-2003.10 北京大学城市与环境学院  博士后

2003.10-2011.12  中国农业大学资源与环境学院  副教授

2006.11-2007.11 达特茅斯学院地球科学系(Dartmouth College),访问学者

2012.1-现在 中国农业大学资源与环境学院  教授

2015.9-2016.3达特茅斯学院地球科学系(Dartmouth College),交流学者

 

 学术兼职

 

中国原子能农学会第九届理事会常务理事

中国生物地球化学循环专业委员会 委员

中国第四纪科学学会会员

中国岩石、矿物和地球化学学会会员

欧洲地球科学学会(European Geosciences Union)会员

中国科学院研究生院(国科大)地球科学学院校友会理事

 

 研究领域

 

1. 利用碳氮稳定同位素技术研究陆地生态系统对全球气候和环境变化的响应;

2. 利用碳同位素和分子标志化合物研究过去气候和环境变化。

 

奖励与荣誉

 

获中国农业大学2012届本科生“百篇优秀毕业论文(设计)”优秀指导教师奖

获中国农业大学2014届本科生“百篇优秀毕业论文(设计)”优秀指导教师奖

获中国农业大学2014-2015学年“优秀班主任”称号

评为2013年中国农业大学“优秀党员”

获中国农业大学2018年度“优秀教师”称号

 

主持项目

 

1. 国家自然科学基金委,面上项目,40273006,土壤有机质与地表植被稳定同位素差异的系统研究,2003.1-2005.12,23万,已结题,主持

2.  国家自然科学基金委,面上项目,40673017,中国大陆东部植物稳定碳同位素以及现代植被中C4植物生物量贡献沿温度梯度带的变化, 2007.1-2009.12,41万,已结题,主持

3.  国家自然科学基金委,面上项目,40973006,温度和凋落物品质对土壤有机质分解过程中的碳同位素分馏影响,2010.1-2012.12, 51万,已结题,主持

4.  国家自然科学基金委,面上项目,41272193,基于中国大陆尺度的植物碳同位素变化及其与环境因子关系,.2013.1 – 2016.12, 90万,已结题,主持

5.  国家自然科学基金委,面上项目,41772171,植物碳同位素组成与温度和降雨之间的关系:来自对同一地点植物碳同位素二十多年连续的测量,2018.1 – 2021.12,108万,在研,主持

6. 亚欧内陆荒漠生态系统对全球变化的响应特征与区域生态安全中的子课题降雨、温度和氮沉降对荒漠植物稳定碳同位素及水分利用的影响。2014.1-2018.12. 国家重大科学研究计划(973项目),子课题共同负责人

 

学术成果

 

一、发表论文

SCI论文(*通讯作者)

2021

1.     Chongjuan ChenYingjie WuShuhan WangZhaotong LiuGuoan Wang*. Relationships between leafδ15N and leaf metallic nutrients. Rapid Commun Mass Spectrom.2021;35:e8970.

2.     Qiqi Tan,Yufu Jia, Guoan Wang*, Decoupling of soil nitrogen and phosphorus dynamics along a temperature gradient on the Qinghai-Tibetan Plateau. Geoderma. 396(2021)115084

3.     Minrui Shi, Jiamao Han, Guoan Wanga*, Jia Wanga, Yaowen Han, Linlin Cui. A long-term investigation of the variation in leaf wax n-alkanes responding to climate on Dongling Mountain, north China. Quaternary International592(2021)67–79

4.     Shuhan Wang,HanxiaYu,Beidou Xi,Zaifeng Tian,Guoan Wang,Wenbing Tan*. Change in the bio-uptake of soil phthalates with  increasing mulching years: Underlying mechanism and response to temperature rise. Journal of Cleaner Production 287(2021)125049

5.     Yingjie Wu,Chongjuan Chen,Jiazhu Li,Guoan Wang. Effects of arbuscular mycorrhizal fungi on maize nitrogen uptake strategy under different soil water conditions. Plant Soil.https://doi.org/10.1007/s11104-021-04972-3

6.     Zixun Chen, Xuejun Liu, Xiaoqing Cui, Yaowen Han, Guoan Wang*, and Jiazhu Li*. Evaluating the response of δ13C in Haloxylon ammodendron, a dominant C4 species in Asian desert ecosystems, to water and nitrogen addition as well as the availability of its δ13C as an indicator of water use efficiency. Biogeosciences, 18, 2859–2870, 2021.

7.     Qiqi Tan*, Guoan Wang*, Melinda D. Smith, Yuzhen Chen, Qiang Yu. Temperature patterns of soil carbon: nitrogen: phosphorus stoichiometry along the 400 mm isohyet in China. Catena 203(2021)105338.

 

2020

1.          Yufu Jia, Yakov Kuzyakov, Guoan Wang*, Wenbing Tan, Biao Zhu, Xiaojuan Feng. Temperature sensitivity of decomposition of soil organic matter fractions increases with their turnover time. Land Degradation and Development. 2020,31:632–645.

2.          QiqiTan,Wenxuan Han,Xiran Lie, Guoan Wang*. Clarifying the response of soil organic carbon storage to increasing temperature through minimizing the precipitation effect. Geoderma 374 (2020) 114398.

3.          QiqiTan,Tianxiang Hao,Si Gao,Xuejun Liu,Guoan Wang*,Qiang Yu. Soil organic carbon turnover recovers faster than plant diversity in the grass land when high nitrogen addition is ceased: Derived from soil 14C evidences. Global Ecology and Conservation. 24(2020)e01229.

4.          Qiqi Tan,Yuzhen Chen,Wenxuan Han,Guoan Wang*. Dynamics of soil metallic nutrients across a 6000-km temperature transect in China. Science of the Total Environment,744(2020)140888

 

 2019

1.   Wenbing Tan, Guoan Wang, Xinyu Zhao, Qiuling Dang, Renfei Li, Beidou Xi, Jie Jiang,| Hui Zhang, Dan Li, Dongyu Cui,Yufu Jia. Molecular‐weight‐dependent redox cycling of humic substances of paddy soils over successive anoxic and oxic alternations. Land Degradation and Development. 2019, 30:1130–1144.

2.   Wenbing Tana, Beidou Xia, Guoan Wang, Xiaosong Hea, Rutai Gaoa, Jie Jiang, Biao Zhu. Microbial-accessibility-dependent electron shuttling of in situ solid-phase organic matter in soils. Geoderma, 2019,338:1-4.

3.   Qiqi Tan, Jiazhu Li, Zixun Chen, Ying Ma, Guoan Wang*, Yufu Jia, Hongyan Yao, Wenxuan Han. Clarifying the influence of temperature on variances in plant metallic nutrients through minimizing the effect of precipitation. Science of the Total Environment 646 (2019) 347–356.

4.   Wenbing Tana, Beidou Xia, Guoan Wang, Xiaosong Hea, Rutai Gaoa, Jie Jiang, Biao Zhu. Microbial-accessibility-dependent electron shuttling of in situ solid-phase organic matter in soils. Geoderma 338 (2019) 1–4.

 

2018

1.   Qiqi Tan, Jiazhu Li, Zixun Chen, Guoan Wang *, Yufu Jia, Hongyan Yao,Wenxuan Han. Minimizing the effect of precipitation in clarifying the responses of leaf N and P stoichiometry to temperature. Environmental Pollution 243 (2018) 404-409

2.   Qiqi Tan, Guoan Wang*, Xuejun Liu, Tianxiang Hao, Wenbing Tan. Responses of soil organic carbon turnover to nitrogen deposition are associated with nitrogen input rates: Derived from soil 14C evidences. Environmental Pullution, 2018, 238:500-507.

3.   Chongjuan Chen, Yufu Jia, Yuzhen Chen, Imran Mehmood, Yunting Fang, and Guoan Wang*. Nitrogen isotopic composition of plants and soil in an arid mountainous terrain: south slope versus north slope. Biogeosciences, 2018,15, 369–377.

4.   Jia Wang, Ergu Axia, Yunping Xu, Guoan Wang*,Liping Zhou, Yufu Jia, Zixun Chen, Jiazhu Li. Temperature effect on abundance and distribution of leaf wax n-alkanes across a temperature gradient along the 400 mm isohyet in China. Organic Chemistry, 2018,120:31-41.

5.   Wang, J., Xu, Y., Zhou, L., Shi, M., Axia, E., Jia, Y., Chen, Z., Li, J., Wang, G*., Disentangling temperature effects on leaf wax n-alkane traits and carbon isotopic composition from phylogeny and precipitation. Organic Geochemistry 2018,126:13-22, doi: https://doi.org/10.1016/j.orggeochem.2018.10.008

6.   Wenbing Tan, Hanxia Yu, Caihong Huang, Dan Li, Hui Zhang, Yufu Jia, Guoan Wang, Beidou Xi. Discrepant responses of methane emissions to additions with different organic compound classes of rice straw in paddy soil. Science of the Total Environment. 2018,630:141-145.

7.   Wenbing Tan, Yufu Jia, Caihong Huang, Hui Zhang, Dan Li, Xinyu Zhao,Guoan Wang , Jie Jiang , Beidou Xi. Increased suppression of methane production by humic substances in response to warming in anoxic environments. Journal of Environmental Management.2018,206:602-606

8.   Wenbing Tana, Hanxia Yu, Caihong Huanga, Dan Li, Hui Zhang, Xinyu Zhao,Renfei Li, Guoan Wang, Yuan Zhang, Xiaosong He, Beidou Xi. Intercropping wheat and maize increases the uptake of phthalic acid esters by plant roots from soils. Journal of Hazardous Materials.2018,359: 9-18.

 

2017

1.   Wenbing Tan, Beidou Xi, Guoan Wang, Jie Jiang, Xiaosong He, Xuhui Mao, Rutai Gao, Caihong Huang, Hui Zhang, Dan Li, Yufu Jia, Ying Yuan, and Xinyu Zhao. Increased Electron-Accepting and Decreased Electron-Donating Capacities of Soil Humic Substances in Response to Increasing Temperature. Environmental Science & Technology.2017, 51, 31763186.

2.   Wenbing Tan, Guoan Wang, Caihong Huang, Rutai Gao, Beidou Xi, Biao Zhu. Physico-chemical protection, rather than biochemical composition,governs the responses of soil organic carbon decomposition to nitrogen addition in a temperate a groecosystem. Science of the Total Environment, 2017,598, 282-288.

3.   Zixun Chen Guoan Wang* and Yufu Jia. Foliar δ13C showed no altitudinal trend in an arid region and atmospheric pressure exerted a negative effect on plant δ13C. Frontiers in Plant Science, 2017,doi:10.3389/fpls2017.01070.

4.   Chongjuan Chen, Jiazhu Li, Guoan Wang*, Minrui Shi. Accounting for the effect of temperature in clarifying the response of foliar nitrogen isotope ratios to atmospheric nitrogen deposition. Science of the Total Environment, 2017,69, 1295-1302.

5.   Wenbing Tan,Yuan Zhang, Beidou Xi*, Xiaosong He, Rutai Gao, Caihong Huang, Hui Zhang, Dan Li, Xinyu Zhao, Meng Li, Li Li, Jie Jiang, Guoan Wang*.Discrepant responses of the electron transfer capacity of soil humic substances to irrigations with wastewaters from different sources. Science of the Total Environment, 2017 (610-611):333-341.

 

2016

1.   Li JZ, Wang GA*, Zhang RN, Li L. A Negative Relationship between Foliar Carbon Isotope Composition and Mass-Based Nitrogen Concentration on the Eastern Slope of Mount Gongga, China. PLoS ONE 2016, DOI:10.1371/journal.pone.0166958.

2.   Qiqi Tan, Guoan Wang*. Decoupling of nutrient element cycles in soil and plants across an altitude gradient. Scientific Reports 2016,| 6:34875 | DOI: 0.1038/srep34875

3.   Yufu Jia, Guoan Wang*, Qiqi Tan, and Zixun Chen.Temperature exerts no influence on organic matter δ13 C of surface soil along the 400mm isopleth of mean annual precipitation in China. Biogeosciences, 13, 5057-5064, doi:10.5194/bg-13-5057-2016, 2016.

 

2015

1.   Meng Xu, Guoan Wang*, Xiaoling Li. et al. The key factor limiting plant growth in cold and humid alpine areas also plays a dominant role in plant carbon isotope discrimination. Frontiers in Plant Science 2015,6, doi: 10.3389/fpls.2015.00961.

2.   Guoan Wang*, Yufu Jia, Wei Li. Effects of environmental and biotic factors on carbon isotopic fractionation during decomposition of soil organic matter. Scientific Reports 2015, 5, 11043; doi: 10.1038/srep11043.

3.   Wenjie Xiao, Yunping Xu, Su Ding, Yinghui Wang, Xinyu Zhang, Huan Yang, Guoan Wang, Juzhi Hou. Global calibration of a novel, branched GDGT-based soil pH proxy. Organic Geochemistry, 2015, 89-90:56-60.

 

2014

1.   Guoan Wang, Leilei Zhang , Xinyu Zhang , Yinghui Wang , Yunping Xu*. Chemical and carbon isotopic dynamics of grass organic matter during litter decompositions: A litterbag experiment. Organic Geochemistry. 2014, 69:106-113.

 

2013

1.   Zhiguo Rao, Fahu Chen, Hai Cheng, Weiguo Liu, Guo’an Wang, Zhongping Lai  & Jan Bloemendal. High-resolution summer precipitation variations in the western Chinese Loess Plateau during the last glacial. Scentific Reports. 2013, 3 : 2785. DOI: 10.1038/srep02785

2.   Guoan Wang*Jiazhu Li*Xianzhao LiuXiaoyun Li.Variations in carbon isotope ratios of plants across a temperature gradient along the 400 mm isoline of annual precipitation in north China and relevance to paleovegetation reconstruction. Quaternary Science Reviews.2013,63:83-90.

 

2012

1.   Shi WQ, Wang GA*, Han WX* Altitudinal variation in leaf nitrogen concentration on the eastern slope of Mount Gongga on the Tibetan Plateau, China. PLoS ONE, 2012, 7(9):e44628.doi:10.1371/journal.pone.0044628.

2.   Wang GA*Feng XH. Response of plants’ water use efficiency to increasing atmospheric CO2 concentration. Environmental Science & Technology.2012, 46:8610-8620.

 

2011

1.   Yao FY, Wang GA*, Liu XJ, Song L. Assessment of effects of the rising atmospheric nitrogen deposition on nitrogen uptake and long‐term water‐use efficiency of plants using nitrogen and carbon stable isotopes. Rapid Commun. Mass Spectrom. 2011, 25, 1827–1836

 

2010

1.   Wang GA*, Zhou LP*, Liu M, et al. Altitudinal trends of leaf δ13C follow different patterns across a mountainous terrain in north China characterized by a temperate semi-humid climate. Rapid Communications in Mass Spectrometry, 2010, 24:1557-1564

2.   Liu XZ, Wang GA*. Measurements of nitrogen isotope composition of plants and surface soils along the altitudinal transect of the eastern slope of Mount Gongga in southwest China. Rapid Communications in Mass Spectrometry, 2010, 24:3063-3071

3.   Liu XZ, Wang GA, Li JZ, Wang Q. Nitrogen isotope composition characteristics of modern plants and their variations along an altitudinal gradient in Dongling Mountain in Beijing. Science China Earth Sciences, 2010,53(1):128-140

4.   Chen PN, Wang GA*, Han JM, Liu M, Liu XQ. δ13C difference between plants and soils on the eastern slope of Mount Gongga. Chinese Science Bulletin, 2010,55(1):55-62, doi:10.1007/s11434-009-0405-y

 

2009

1.   Li JZ, Wang GA*, liu XZ et al. Variations in carbon isotope ratios of C3 plants and distribution of C4 plants along an altitudinal transect on the eastern slope of Mount Gongga. Sci China Ser D-Earth Sci, 2009, doi: 10.1007/s11430-009-0170-4

2.   Tan WB, Wang GA*, Han JM et al. δ13C and water-use efficiency indicated by δ13C of different plant functional groups on Changbai Mountains, Northeast China. Chinese Science Bulletin,2009,54(10):1759-1764

3.   Tao QianyeLi Yumei, Wang Guoan, QiaoYuhuiLiu Tung-Sheng. Variations of microbial communities and the contents and isotopic compositions of total organic carbon and total nitrogen in soil samples during their preservation. Acta Geologica Sinica, 2009, 83(1): 114-120

 

2008

1.   Wang GA*, Feng X, Han J, Zhou L, Tan W. Su F. Paleovegetation reconstruction using δ13C of soil organic matter. Biogeosciences, 2008, 5:1325-1337

2.   Wang GA*, Han J, Faiia A, et al.. Experimental measurements of leaf carbon isotope discrimination and gas exchange in the progenies of Plantago depressa and Setaria viridis collected from a wide altitudinal range. Physiologia Plantarum, 2008,134:64-73

 

2006

1.   Wang GA*, Han JM, Zhou LP, et al. Carbon isotope ratios of C4 plants in loess areas of North China. Science in China, series D,. 2006, 49(1)97 – 102

 

2005

1.   Wang GA*, Han JM, Zhou LP, et al. Carbon isotope ratios of plants and occurrences of C4 species under different soil moisture regimes in arid region of Northwest China. Physiologia Plantarum, 2005, 25: 74- 81

 

2004

1.   Lu HY, Wu NQ, Gu ZY, Guo ZT, Wang L, Wu HB, Wang GA et al. Distribution of carbon isotope composition of modern soils on the Qinghai- Tibetan Plateau. Biogeochemistry, 200470:273-297

 

2003

1.   Wang GA*, Han JM, Liu TS. The carbon isotopic composition of C3 herbaceous plants in loess area of North China. Science in China, series D, 2003,46(10):1069 -1076

 

2002

2.   Ding ZL, Ranov V, Yang SL, Finaev A, Han JM, Wang GA. The loess record in southern Tajikistan and correlation with Chinese loess. Earth and Planetary Science Letters.2002, 200(3-4):387-400

 

2000

1.   Lu Houyuan, Wang Yongji, Wang Guoan, Yang Hui, Li Zhen,2000, Analysis of carbon isotope in phytoliths from C3 and C4 plants and modern soils. Chinese Science Bulletin,45(19):1804 -1808

 

中文核心期刊

1. 孙省利,王国安,袁明坤,1992, 甘肃西成铅锌矿田铅、硫同位素总结研究,甘肃地质学报.

2. 王国安,申建中,季美英,1998,塔北天然气组分特征及同位素组成。沉积学报,164):128 ~ 132.

3. 王永吉, 吕厚远, 王国安, 杨辉, 李珍. 2000. C3,C4植物和现代土壤中硅酸体碳同位素分析. 科学通报, 45(9):978-982.

4. 蔡春芳,王国安,何宏,2000,库车前陆盆地流体化学、成因与流动,地质地球化学,28(1):58-62.

5. 丁仲礼,杨石岭,韩家懋, 王国安, 2000,塔吉克斯坦南部黄土堆积。第四纪研究,202):171 ~ 177

6. 王国安,申建中,季美英,2001,塔北、塔中天然气中CO2的碳同位素组成及成因探讨。地质地球化学,291):36 ~ 39

7. 王国安, 韩家懋. 2001, C-3植物碳同位素在旱季和雨季中的变化. 海洋地质与第四纪地质, 21(4):43 - 47

8. 王国安, 韩家懋. 2001, 中国西北C-3植物的碳同位素组成与年降雨量关系初探. 地质科学, 36(4): 494 ~ 499.

9. 王国安, 韩家懋, 周力平. 2002, 中国北方C-3植物碳同位素组成与年均温度关系. 中国地质, 29(1): 55-57

10. 王国安,申建中,何宏,季美英,2002,塔北、塔中天然气中烷烃同系物碳同位素组成系列倒转现象的解释。沉积学报,203):482 ~ 487

11. 韩家懋,王国安, 刘东生. 2002, C4植物的出现与全球环境的变化. 地学前缘,9(1): 233 ~ 243

12. 韩家懋,王国安,2002,植物的演进与全球环境的变化。天津地质矿产研究所建所40周年·前寒武纪第四纪地质文集,地质出版社,北京。

13. 王国安. 2003, 稳定碳同位素在第四纪古环境研究中的应用. 第四纪研究, 23(5):471 - 484

14. 王国安, 韩家懋, 刘东生, 2003. 中国北方黄土区C-3草本植物碳同位素组成研究. 中国科学, D , 33(6):550 – 556

15. 秦小光,蔡炳贵,吴金水,王国安,刘东生. 2004. 土壤微量气体的昼夜变化以及相关影响因素. 第四纪研究, 25(3):376-388

16. 秦小光,蔡炳贵,吴金水,刘东生, 王国安. 2004. 北京灵山草地土壤CO2源汇和排放通量与温度湿度昼夜变化的关系. 生态环境. 13(4):470-475

17. 王国安, 韩家懋, 周力平, . 2005, 中国北方黄土区C4植物稳定碳同位素组成的研究. 中国科学, D , 35(12):1174 -1179

18. 蔡炳贵,程海,侯居峙, 刘宏,王国安,刘东生. 2005. 云南石林地区土壤侵蚀的石笋记录与现代观测。第四纪研究, 2005,25(2):170-175

19. 石伟琦,王国安,张俊伶,李晓林. 2008.丛枝菌根真菌对羊草δ13C组成和气体交换影响.植物营养与肥料学报, 14(3):570-575

20. 石伟琦,王国安,李晓林. 2008. 丛枝菌根真菌对羊草气体交换和δ13Cδ15N组成的影响.核农学报, 22(3):353-358

21. 陈芃娜, 王国安*, 韩家懋, 柳晓娟, 刘敏.2009. 贡嘎山东坡植物和土壤有机质的13C 差异.科学通报,54(22):3512-3520.

22. 李嘉竹, 王国安*,刘贤赵,韩家楙,刘敏,柳晓娟. 2009. 贡嘎山东坡C3植物碳同位素组成及C4植物分布沿海拔高度的变化.中国科学,D;地球科学,3910):1387-1396(通信作者)

23. 檀文炳,王国安*,韩家楙,刘敏,周力平,罗婷,曹子余,程树志. 2009.长白山不同功能群植物碳同位素及其对水分利用效率的指示.科学通报,5413):1912-1916(通信作者)

24. 刘贤赵,王国安*,李嘉竹,王庆.2009. 北京东灵山地区现代植物氮同位素组成及其对海拔梯度的响应。中国科学,D(地球科学)3910):1347-1359

25. 刘贤赵, 李朝奎, 徐树建, 王文文, 王国安, 赵丽丽.2011. 中国北方干湿气候区C3草本植物δ13C值及其与湿润指数的关系。植物学报,46(6):675-687.

26. 王国安, 张雷雷, 柳晓娟,2012, 利用土壤有机质的碳同位素变化探讨环境因子和生物学因子对土壤有机碳周转的影响.地球环境学报,2012,3(4):960-968.

27. 王数,李保国,吕贻忠,张洪军,郭淑媛,王国安,孔祥斌,李子忠, 2014. “资源环境野外综合实习课程的创新与实践. 教学研究与课改.

28. 李丽,檀文炳,王国安*,等.2016. 腐殖质电子传递机制及其环境效应研究进展.环境化学,35(2): 254-266.

29. 石敏锐,韩家懋,周力平,等.植物亲缘关系影响植物叶蜡正构烷烃的含量和分布特征.第四纪研究,2021,41(4):986-999

 

二、出版著作

  1.王国安. 环境稳定同位素原理. 2011.北京:中国地质出版社.

  2.王国安参与编写. 地质与地貌学.2012. 北京:中国农业大学出版社。

  3.王国安参与编著. 根际生态学。2008.北京:中国科学出版社。