陈中强

通信地址：湖北省武汉市东湖新技术开发区锦程街68号中国地质大学（武汉）未来城校区生物地质与环境地质国家重点实验室，武汉市430078；

办公室电话：027-67883068；手机：13247146048；

电子信箱：zhong.qiang.chen@cug.edu.cn

个人简历：

于2001年获得澳大利亚迪肯大学博士学位，曾任澳大利亚西澳大学副教授，2012年全职回国，现任中国地质大学（武汉）生物地质与环境地质国家重点实验室副主任、二级教授、博士生导师、教育部长江学者（特聘教授）、国际地层委员会三叠系地层分会主席、国际古地理学会副主席、中国沉积学会副秘书长、中国古生物学会生物沉积学分会主任委员、国家外国专家局重点引智项目评审专家、中国科协评审专家、湖北省特聘专家，曾任联合国科教文组织的国际地学研究计划IGCP-572和IGCP-630项目主席、曾/现担任3部SCI期刊副主编或执行主编以及9种国际SCI期刊16次特邀嘉宾编辑。国际地学研究计划项目IGCP 572（2008-2013年）和IGCP 630 （2014-2019年）由联合国科教文组织和国际地科联联合资助，自担任IGCP-572和IGCP-630项目主席以来，牵头组织主办19个国际会议分会场和14个国际野外地质现场讨论会，积极推动了全球对二叠纪-三叠纪之交生物大绝灭和其后复苏事件的研究。应邀参与2020年版《国际地质年代表Geological Time Scale》撰写工作，是三叠系章节的主要撰写人；是全国2020-30年沉积学发展战略白皮书（中英文版）生物沉积学方向的执笔人。共发表SCI论文279篇，包括第一/通信作者《Nature Geoscience》、《Nature Communications》、《Nature Ecology & Evolution》、《Science Advances》论文6篇，及其它NI期刊论文7篇：Current Biology （1）、Geology（1）、PRS-B（1）、EPSL（2）、GRL（2）；7篇高被引论文，单篇高引达688次；SCI论文被引共超过1万次，H-因子：58。近5年连续被选为爱思唯尔（Elsevier）高被引中国学者、全球前2%顶尖学者榜单。

主要学术成就：

从事二叠纪和三叠纪生物和生态系统对全球极端环境气候事件的反馈机制以及古生物学、生物沉积学和生物-年代地层学等方面研究二十余年，取得三个方面的成果和认识：（1）系统描述了腕足类化石440余种，建立15个新属60个新种，它们已被由美国地质学会主编的《古生物学大百科全书》录用为国际标准化石；（2）提出了海洋生态系统在大危机之后的阶梯式复苏模式，发现二叠纪末大绝灭之后生态系统需近1000万年才完成复苏重建；（3）识别出地史时期五次微生物爆发期，并总结出微生物向后生生物转折时期的生物沉积模式。

教育经历：

1997年4月至2001年9月，澳大利亚迪肯大学（Deakin University），墨尔本市，博士

1990年09月至1993年06月，中国科学院院南京地质与古生物研究所，南京市，硕士

1986年09月至1990年06月，中国地质大学（武汉），地质系，武汉市，本科学士 

科研与学术工作经历：

2019年07月至现在，中国地质大学（武汉），武汉市，地大学科领军人才特聘教授；

2015年01月至2019年12月，中国地质大学（武汉），武汉市，教育部长江学者特聘教授；

2012年01月至2016年12月，中国地质大学（武汉），武汉市，湖北省百人计划特聘教授；

2011年12月至现在，中国地质大学（武汉）生物地质与环境地质国家重点实验室，教授；

2010年01月至2011年12月，【澳大利亚】西澳大学（The University of Western Australia），珀斯市，副教授；

2007年01月至2011年12月，【澳大利亚】西澳大学，珀斯市，澳大利亚联邦研究员（Australian Research Fellow）；

2003年10月至2006年12月，【澳大利亚】西澳大学，珀斯市，西澳大学博士后（2003.10-2004.1），澳大利亚联邦博士后（Australian Postdoc Fellow）(2004.1-2006.12)；

2001年10月至2003年09月，【日本】东北大学，仙台市，日本学术振兴会博士后；

1993年7月至1997年4月，中国科学院南京地质与古生物研究所，南京市，研究助理员、副研究员。

教学：

主讲：《沉积地球系统科学》课程，本科生必修课

主讲：全英文《古生物学与地史学》课程，地学院国际菁英班本科生必修课

主讲：《高水平地学英语阅读与写作》，地学院博士研究生必修课

合讲：中文《古生态学》，地学院本科生选修课

合讲：中文《古生物学》，地学院本科生必课

主讲：地学院本科生海外地质实习（西澳大利亚路线）

国际学术组织任职与国际学术会议：

• 2023年09月至现在，国际古地理学会副主席

• 2020年1月至现在，国际地层委员会三叠系分会主席

• 2014年01月至2019年12月，联合国教科文组织和国际地质科学联合会国际地学对比研究计划IGCP-630项目主席

• 2008年01月至2013年12月，联合国教科文组织和国际地质科学联合会国际地学研究计划IGCP-572项目主席

• 2011年-2016年，国际石炭—二叠系地质协会常设委员会主席

• 2011年1月至2023年，国际地层委员会石炭系分会投票选举委员

• 2011年1月至2023年，国际地层委员会三叠系分会投票选举委员

• 2024年10月，武汉，《第一届国际生物沉积学大会》大会主席

• 2018年5月，武汉，《深时极端气候环境事件及生态系统反馈机制》大会主席

• 2013年6月，武汉，《二叠纪-三叠纪之交大绝灭及极端气候变化全球峰会》大会主席

• 2011年7月，澳大利亚Perth，《第17届国际石炭纪-二叠纪地质大会》大会主席

• 担任10次重要国际会议分会场主席：包括美国地球物理学家协会（AGU）年会，多次美国地质学会GSA年会、35届国际地质大会、19-20届国际沉积大会、第1届国际地层学大会等等

• 共15次应邀在国际大会上做大会或分会场主题报告，包括2013年美国地质学会（GSA）年会分会场主题报告（2013年10月，美国丹弗）、35届南非国际地质大会（2016）分会场主题报告

国际SCI学术期刊执行主编、副主编：

2023年至现在，中国SCI期刊Journal of Earth Science和中文期刊《地球科学》执行主编(Executive Editor in Chief)

2023年至现在，Elsiver期刊Palaeogeography, Palaeoecology, Palaeoclimatology和Evoluting Earth 编委

2019年至2022，Elsiver期刊Global and Planetary Change 编委

2013年至现在，爱尔兰SCI期刊Geological Journal执行编辑（Executive Editor）、联合主编、执行编辑

2011年至2021年，中国SCI期刊Journal of Paleogeography副主编(Associate Editor in Chief)

2016年至2022年，中国SCI期刊Journal of Earth Science副主编(Associate Editor in Chief)

2012年至2013年，美国SCI期刊Palaios编委(Associate Editor)

SCI学术期刊特邀嘉宾编辑（16次）

*第一特邀嘉宾编辑

《Earth-Science Reviews》：3部（2014*，2015*，2019*）

《Global and Planetary Change》：3部（2010，2021*，2021*）

《Gondwana Research》：1部（2013*）

《Palaeogeography, Palaeoclimatology, Palaeoecology》：4部（2011，2017*，2017*，2019*）

《Palaios》：1部（2013*）

《Geological Magazine》：1部（2013*）

《Geological Journal》：1部（2010*，2021*）

《Australian Journal of Earth Sciences》：1部（2009*）

《Journal of Earth Sciences》：1部（2018*）

获奖情况

2022年：湖北省自然科学奖二等奖（排名第一）：项目名称：三叠纪海洋生态系统的崩塌与重建过程及环境制约

主持或参加科研项目（课题）及人才项目（13项主持、2项参加）：

1.国家自然基金重点项目，41930322，华南地区三叠纪海洋生态系统复苏过程的定量评价和环境制约机制，2020/01-2024/12，300万，在研，主持

2.国家自然科学基金创新群体项目，41821001，地球生物学，2019/01-2024/12，1050万，在研，参加(排名第二)

3.国家重点研发计划专项项目子课题，2017YFC0603103，中新元古界微生物碳酸盐岩沉积环境与成储机制，2018.05-2021.12，248万元，结题，主持

4.国家自然科学基金面上项目，2018313001，华南二叠纪至三叠纪海洋无脊椎动物之间捕食作用与共生关系的演化过程与模式，2018.01-2021.12，75万元，结题，主持

5.国家自然科学基金国际（地区）合作与交流项目，41661134047，二叠纪-三叠纪危机后生态系统重建和复苏过程，2017/01-2020/12，300万元，结题，参加(排名第二)

6.国家自然科学基金面上项目，41572091，二叠纪末期至中三叠世海洋碳酸盐工厂工作机制的转换：以华南为例，2016/01-2019/12，96万元，结题，主持

7.湖北省创新群体项目，三叠纪大辐射，2016/01-2019/12，50万元，结题，主持

8.联合国教科文组织和国际地质科学联合会，国际地学研究计划第630项（IGCP-630），二叠纪-三叠纪之交极端气候与环境事件及生物反馈机制，2014/01-2019/12；5万美元，结题，主持

9.国家自然科学基金面上项目，41272023，华南和西秦岭早、中三叠世海洋造迹生物在不同环境中的复苏过程与机制，2013/01-2016/02，103万元，已结题，主持

10.国家重点基础研究发展计划（973计划）课题，2011CB808800，若干重大地质环境突变的地球生物学过程，2011/08-2015/08，2561万元，已结题，参与

11.联合国教科文组织和国际地质科学联合会，国际地学研究计划第572项，IGCP-572，二叠纪-三叠纪之交生物大灭绝之后的海洋生态系统的重建：对当代脆弱生态系统管理的启示，2008/01-2013/12；5万美元，已结题，主持

12.澳大利亚研究委员会(ARC)重大科学发现项目，DP07752298，显生宙以来地球生命最大的大灭绝及之后的海洋生态系统重建过程和模式，2007/01-2011/12，56.3万澳元，已结题，主持

13.澳大利亚研究委员会(ARC)科学发现项目，DP0452296，中亚地区晚古生代生物地理学和古气候学研究，2004/01-2006/12，23万澳元，已结题，主持

14.教育部长江学者（特聘教授）人才基金，2015，古生物与地层学

15.湖北省百人计划特聘教授人才基金，2012，古生物学与地层学

16.澳大利亚国家/伊丽莎白皇后II世研究员人才基金，2007年，地球科学

17.日本学术振兴会博士后人才基金，2001年，地球科学

高被引和热点论文（7篇论文）：

1. Chen, Z.Q., Benton, M.J.*, 2012. The timing and pattern of biotic recovery following the end-Permian mass extinction. Nature Geoscience 5, 375-383；Citations: 552; 高被引（2012-现在）

2. Zou, C.N., Zhu, R.K.*, Chen, Z.Q.*, Ogg, J.G., Wu, S.T., Dong, D.Z., Qiu, Z., Wang, Y.M., Wang, L., Lin, S.H., Cui, J.W., Su, L., Yang, Z., 2019. Organic-matter-rich shales of China. Earth-Science Reviews 189, 51-78；Citations: 264；高被引和热点论文（2019-现在）

3. Huang, Y.G., Chen, Z.Q.*, Wignall, P.B., Grasby, S.E., Zhao, L.S., Wang, X.D., Kaiho, K., 2019. Biotic responses to volatile volcanism and environmental stresses over the Guadalupian-Lopingian (Permian) transition. Geology 47, 175–178；Citations: 61；高被引（2019-2020）

4. Huang, Y.G., Chen, Z.Q.*, Algeo, T.J., Zhao, L.S., Baud, A., Bhat, G.M., Zhang, L., Guo, Z., 2019. Two-stage marine anoxia and biotic response during the Permian-Triassic transition in Kashmir, northern India: pyrite framboid evidence. Global and Planetary Change 172, 124–139；Citations: 65; 高被引（2019-2020）

5. Zhang, F.F., Algeo, T.J., Romaniello, S.J., Cui, Y., Zhao, L.S., Chen, Z.Q., Anbar, A.D., 2018. Congruent Permian-Triassic delta U-238 records at Panthalassic and Tethyan sites: Confirmation of global-oceanic anoxia and validation of the U-isotope paleoredox proxy. Geology 46(4), 327-330；Citations: 91; 高被引（2018-2019）

6. Huang, Y.G., Chen, Z.Q.*, Wignall, P.B., Zhao, L.S., 2017. Latest Permian to Middle Triassic redox condition variations in ramp settings, South China: Pyrite framboid evidence. Geological Society of America Bulletin 129, 229-243；Citations: 88;高被引（2017-2018）

7. Song, H.Y., Tong, J.N., Algeo, T.J., Horacek, M., Qiu, H.O., Song, H.J., Tian, L., Chen, Z.Q., 2013. Large vertical delta C-13(DIC) gradients in Early Triassic seas of the South China craton: Implications for oceanographic changes related to Siberian Traps volcanism. Global and Planetary Change 105, 7-20; Citations: 152; 高被引（2013-2014）

代表性研究成果（22篇论文）：*通信作者；第一作者均为本人或其学生

1. Li, Z.H., Chen, Z.-Q.*, Daines, S., Zhang, F.F., Lenton, T.M., 2025. Periodic ocean oxygenation events during the mid-Ediacaran. Nature Geoscience, (accepted in principal)

2. Li, Z.H., Lenton, T.M., Zhang, F.F., Chen, Z.-Q.*, Daines, S., 2025. Earth system instability amplified biogeochemical oscillations following the end-Permian mass extinction. Nature Communications 16, 3703.

3. Guo, Z., Benton, M.J., Stubbs, T.L., Chen, Z.-Q*., 2024. Morphological innovation did not drive diversification in Mesozoic-Cenozoic brachiopods. Nature Ecology & Evolution, 8(10), 1948-1958.

4. Guo, Z., Flannery-Sutherland, J.T., Benton, M.J.*, Chen, Z.Q.*, 2023. Bayesian analyses indicate bivalves did not drive the downfall of brachiopods following the Permian-Triassic mass extinction. Nature Communications 14, 5566.

5. Huang, Y.G., Chen, Z.-Q.*, Roopnarine, P.D., Benton, M.J., Zhao, L.S., Feng, X.Q., Li, Z.H., 2023. The stability and collapse of marine ecosystems during the Permian-Triassic mass extinction. Current Biology 33, 1–12.

6. Chen, Z.-Q.*, Fang, Y.H., Wignall, P.B., Guo, Z., Wu, S.Q., Liu, Z.L., Wang, R.Q., Huang, Y.G., Feng, X.Q., 2022. Microbial blooms triggered pyrite framboid enrichment and oxygen depletion in carbonate platforms immediately after the latest Permian extinction. Geophysical Research Letters 49(7), e2021GL096998.

7. Feng, X.Q., Chen, Z.-Q.*, Benton, M.J., Su, C.M., Bottjer, D.J., Cribb, A.T., Li, Z.H., Zhao, L.S., Zhu, G.Y., Huang, Y.G., Guo, Z., 2022. Resilience of infaunal ecosystems during the Early Triassic greenhouse Earth. Science Advances 8(26), eabo0597.
   

8. Wu, S.Q., Chen, Z.-Q.*, Fang, Y.H., Pei, Y., Foster, W.J., 2022. Benthic Pleurocapsales (cyanobacteria) blooms catalyzing carbonate precipitation and dolomitization following the end-Permian mass extinction. Geophysical Research Letters 49, e2022GL100819.

9. Guo, Z., Chen, Z.-Q.*, Harper, D.A.T., Huang, Y.G., 2022. Permian–Triassic phylogenetic and morphologic evolution of rhynchonellide brachiopods. Paleobiology 48(1), 99-119.

10. Huang, Y.G., Chen, Z.-Q.*, Roopnarine, P.D., Benton, M.J., Yang, W., Liu, J., Zhao, L.S., Li, Z., Guo, Z., 2021. Ecological dynamics of terrestrial and freshwater ecosystems across three mid-Phanerozoic mass extinctions from northwest China. Proceedings of the Royal Society, B: Biological Sciences 288, 20210148.

11. Li, Z.H., Guo, Z., Chen, Z.-Q.*, Poulton, S. W., Bao, Y., Zhao, L.S*, Zhang, F. F., 2021. A novel carbon cycle turbulence index identifies environmental and ecological perturbations. Geochemical Perspectives Letters 20, 11-15.

12. Guo, Z., Chen, Z.-Q.*, Harper, D.A.T., 2020. Phylogenetic and ecomorphologic diversifications of spiriferinid brachiopods after the end-Permian extinction. Paleobiology 64(4), 495-510.

13. Li, Z.H., Chen, Z.-Q.*, Zhang, F.F., Ogg, J.G., Zhao, L.S.*, 2020. Global carbon cycle perturbations triggered by volatile volcanism and ecosystem responses during the Carnian Pluvial Episode (late Triassic). Earth-Science Reviews 211, 103404.

14. Chen, Z.-Q.*, Tu, C.Y., Pei, Y., Ogg, J., Fang, Y.H., Wu, S.Q., Feng, X.Q., Huang, Y.G., Guo, Z., Yang, H., 2019. Biosedimentological features of major microbe-metazoan transitions (MMTs) from Precambrian to Cenozoic. Earth-Science Reviews 189, 21-50.

15. Huang, Y.G., Chen, Z.-Q.*, Wignall, P.B., Grasby, S.E., Zhao, L.S., Wang, X.D., Kaiho, K., 2019. Biotic responses to volatile volcanism and environmental stresses over the Guadalupian-Lopingian (Permian) transition. Geology 47(2), 175–178.

16. Wang, X.D., Cawood, P.A., Zhao, H., Zhao, L.S.*, Grasby, S.E., Chen, Z.-Q.*, Zhang, L., 2019. Global mercury cycle during the end-Permian mass extinction and subsequent Early Triassic recovery. Earth and Planetary Science Letters 513, 144-155.

17. Feng, X.Q., Chen, Z.-Q.*, Bottjer, D.J.*, Wu, S.Q., Zhao, L.S., Xu, Y.L., Shi, G.R., Huang, Y.G., Fang, Y.H., Tu, C.Y., 2019. Unusual shallow marine matground-adapted benthic biofacies from the Lower Triassic of the northern Paleotethys: Implications for biotic recovery following the end-Permian mass extinction. Earth-Science Reviews 189, 194-219.

18. Wang, X.D., Cawood, P.A., Zhao, H., Zhao, L.S.*, Grasby, S.E., Chen, Z.-Q.*, Wignall, P.B., Lyu, Z.Y., Han, C., 2018. Mercury anomalies across the end Permian mass extinction in South China from shallow and deep-water depositional environments. Earth and Planetary Science Letters 496, 159–167.

19. Feng, X.Q., Chen, Z.-Q.*, Bottjer, D.J., Fraiser, M.L., Xu, Y., Luo, M., 2018. Additional records of ichnogenus Rhizocorallium from the Lower and Middle Triassic, South China: Implications for biotic recovery after the end-Permian mass extinction. Geological Society of America Bulletin 130(7-8), 1197-1215.

20. Huang, Y.G., Chen, Z.-Q.*, Wignall, P.B., Zhao, L.S., 2017. Latest Permian to Middle Triassic redox condition variations in ramp settings, South China: Pyrite framboid evidence. Geological Society of America Bulletin 129(1-2), 229-243.

21. Chen, Z.-Q.*, Yang, H., Luo, M., Benton, M.J., Kaiho, K., Zhao, L.S., Huang, Y.G., Zhang, K.X., Fang, Y.H., Jiang, H.S., Qiu, H., Li, Y., Tu, C.Y., Shi, L., Zhang, L., Feng, X.Q., Chen, L., 2015. Complete biotic and sedimentary records of the Permian-Triassic transition from Meishan section, South China: Ecologically assessing mass extinction and its aftermath. Earth-Science Reviews 149, 67-107.

22. Chen, Z.-Q., Benton, M.J.*, 2012. The timing and pattern of biotic recovery following the end-Permian mass extinction. Nature Geosciences 5(6), 375-383.

主要研究方向：

以下五个主要研究方向均在招收博士后、博士、硕士研究生，欢迎报考和加盟，和我们一道攻克地质历史时期与地球生物和环境相关的重大科学前沿问题以及能源资源勘探中卡脖子的技术难题：

• 生物沉积学与地球生物学：利用Nano SIMS和APT等超级原位微区技术，重点关注深时白云岩和微生物岩的成因机制，碳酸盐工厂演化、地球环境及宜居性演化，强调生物沉积学与原位微区地球化学的研究手段和方法

• 地球早期生命信号与天体生物学：利用Nano SIMS和APT等超级原位微区技术，重点解析地球34-38亿年前的生命信号，以及月壤和火星等地外生命信号和宜居性演化

• 地学大数据分析与深时古生态、生物地球化学循环模拟：强调运用AI和超级爬虫技术，建立新型知识图谱型大数据，并进行分析；关注深时生物多样性、生物群落功能群和食物链的生态模拟计算，以及生物地球化学循环的复杂模型模拟

• 深时极端环境、生物事件及三叠系综合年代地层学：重点关注显生宙5次大灭绝时期的生物灭绝和复苏模式，以及环境气候变化规律；建立全球三叠纪综合年代地层格架，主导全球的三叠系阶一级界线金钉子的研究

• 常规油气的白云岩储层、非常规页岩油、页岩气以及沉积型矿产的成因机制研究：利用Nano SIMS和APT等超级原位微区技术，重点关注常规油气微生物岩/白云岩储层、非常规页岩油/气的形成机制；沉积型矿产：锰矿、锂矿、铝土矿，以及火山岩型锂矿、金-铜矿的矿物富集与成矿机制研究

负责的实验平台与仪器设备：

通过近年来的不懈努力和学校、国家的大力支持，目前，研究小组完成组建研究地球生物学最为完备、具有国际一流水准的实验平台，拥有一批大型精密仪器，建成从影像形貌识别到微区原位元素含量-同位素比值测试系列以及同位素测年等实验室。各仪器的具体性能、应用和可以解决的重大科学问题，请见生环国重实验室大型仪器和实验平台的详细介绍。环境（场发射）扫描电子显微镜、傅里叶变换红外光谱仪、激光拉曼-扫描电镜联用系统、纳米二次离子质谱仪Nano-SIMS、三维原子探针（APT）和高精度TIMS测年系统列出如下：

研究团队：

黄元耕研究员：青年长江学者，地学大数据、古生态模拟、生物沉积学、地球化学

方谦研究员：德国洪堡学者，深时微生物-矿物学、生物沉积学、原位微区地球化学，负责原子探针（APT）

Ullmann, Clemons教授：生物骨骼同位素地球化学，负责TIMS平台

冯学谦副研究员：遗迹学、古生态学、生物沉积学

杨浩副高级工程师：生物沉积学，管理电子显微镜、红外光谱、拉曼光谱分析

仇鑫程工程师：地球生物学、原位微区地球化学，大型仪器（NanoSIMS，APT）管理 

裴羽博士后：生物沉积学、地球生物学、原位微区地球化学

李子珩博士后：生物地球化学循环、复杂模型模拟

郭镇博士后：腕足动物化石、演化古生物学及大数据分析和模拟

发明专利：

田朝宁、陈中强*、李浩、黄元耕，2025. 一种地球科学地质实体关系抽取方法、介质、设备。专利号：ZL 2025 1 0854944.3；授权公告号：CN 120354909 B。

全部SCI论文（共277篇）：

Zhong-Qiang Chen (1999-2025) Publication list (287 papers) 

(包括10篇近年核心期刊中文文章) ；发表文章的完整目录可以通过邮件索取。

Identifiers

• Web of Science ResearcherID F-1667-2016

• ORCiD https://orcid.org/0000-0001-5341-6913

2025

1. Li, Z.H., Chen, Z.-Q.*, Daines, S., Zhang, F.F., Lenton, T.M., 2025. Periodic ocean oxygenation events during the mid-Ediacaran. Nature Geoscience, (accepted in principal)

2. Li, Z.H., Lenton, T.M., Zhang, F.F., Chen, Z.-Q.*, Daines, S., 2025. Earth system instability amplified biogeochemical oscillations following the end-Permian mass extinction. Nature Communications 16, 3703.

3. Huang, Y.G.*, Roopnarine, P.D., Chen, Z.-Q., 2025. A modelling approach to quantify ecological dynamics and functional structures of paleocommunities. Nature Protocols 20, 3361–3393.

4. Han, C., Golding, M.L.*, Zhao, L.S.*, Wu, S.L., Zhao, H., Lyu, Z.Y., Chen, Z.-Q., Jan, I.U., Khan, A., 2025 Lower Triassic conodont succession and carbon isotope profile from Zaluch, Salt Range, Pakistan. Palaeogeography, Palaeoclimatology, Palaeoecology 678, 113229.

5. Liu, H.L., Huang, Y.G., Zhao, X.D., Wang, W., Qiu, X.C., Qiu, Z., Han, J., Shen, Z., Li, Y.J., Hua, G.L., Chen, Z.-Q., Zou, C.N., 2025. Temporal and spatial variations of redox conditions in the middle Triassic Chang 7 member of the Yanchang formation, Ordos Basin, North China. Martine and Petroleum Geology 182, 107565.

6. Wang, Y.M., Fang, Q.*, Hong, H.L., Zhao, L.L., Deng, A.B., Yin, K., Chen, Z.-Q., 2025 Formation and transformation of clay minerals influenced by biological weathering in a red soil profile (subtropical China). American Mineralogist 2025; doi: https://doi.org/10.2138/am-2024-9412.

7. Feng, X.Q.*, Chen, Z.-Q., Bottjer, D.J., Zhao, H., 2025. Ichnology of the Permian–Triassic mass extinction in China. 216 pp., Springer Nature, Singapore, https://link.springer.com/book/9789819666386

8. Wang, X.D., Grasby, S.E., Cawood, P.A., Zhao, H.*, Chen, Z.-Q., Hedhli, M., Lyu, Z.Y., Sun, G.Y., Fang, H., 2025. Photic-zone euxinia had a major role in the Devonian–Carboniferous boundary mass extinction. Communications Earth and Environment 6, 283. 

9. Yan, P.B., Feng, X.Q.*, Shang, S.W., Chen, Z.-Q., Zhao, H., Zhou, D., Zheng, Z.J., Zheng, Z.M., 2025. The Balanoglossites ichnofabrics in the aftermath of the Permian–Triassic mass extinction. Sedimentary Geology 481, 106877.

10. Fang, Q.*, Li, Y., Ding, H., Yang, L., Hong, H., Chen, Z.-Q., Deng, A., Geng, Q., Lu, A.*, 2025. Formation and transformation of clay minerals in Mars-analog rock varnish. American Mineralogist. American Mineralogist 110(9), 1343–1360.

11. Tong, M., Guo, X.J., Yuan, S.H.*, Chen, Z.-Q., Luo, G.M., Song, H.J.*, Xie, S.C., 2024. Reactive oxygen species: the last link in the mass extinction killing chain. Science Bulletin 70, 1398-1401. 

12. 陈中强*, 2025. 地球生物学的内涵、研究进展与挑战. 地球科学 50(03), 805-814. 

13. 刘丹娜，韦振晟，程博航，黄元耕，方谦，陈中强*，2025.三叠纪初期微生物岩泥晶球粒分类与有机质物源分析. 沉积学报，2025.

14. 黄元耕*, 辛佰仑, 郭镇, 李子珩, 乔慧捷, 黄鑫月, 陈中强*, 2025. 计算模拟方法提高深时食物网稳定性演变的时间分辨率: 以煤山剖面二叠纪-三叠纪生态记录为例. 地球科学, 50(03), 951-963. 

15. 冯学谦*, 陈中强, 赵来时, 黄元耕, 剡鹏兵, 2025.西秦岭地区二叠纪-三叠纪之交深海遗迹化石演化特征. 地球科学, 50(03), 1000-1022.

16. 仇鑫程*, 杨浩, 郑子杰, 方谦, 陈中强, 2025. 纳米离子探针分析技术在地质微生物学和生物沉积学研究中的应用与展望. 地球科学, 50(03), 1220-1233.

17. 方谦*, 杨僚, 仇鑫程, 杨浩, 洪汉烈, 陈中强, 2025. 矿物-微生物相互作用研究的新利器：三维原子探针（APT）. 地球科学, 50(03), 1201-1219.

18. 王成善，马永生，彭平安，邹才能，谢树成，肖文交，张水昌，胡修棉，王剑，高抒，侯明才，朱筱敏，邵龙义，吴怀春，刘志飞，陈中强，朱如凯，陈曦，2025.从沉积学到沉积圈科学：百年简要回顾与发展展望.沉积学报

2024

19. Yang, L., Feng, X.Q., Zheng, Z.J., Zheng, Z.M., Chen, H.F., Chen, Z.-Q.*, 2024. Exceptionally preserved burrows of ichnogenus Asterosoma from the lower Silurian of south China: systematic ichnology, palaeoecology and implications for ecosystem recovery following the late Ordovician mass extinction. Journal of the Geological Society 182, jgs2023-202. (T2; 1)

20. Li, S.Y., Huang, Y.G.*, Chen, Z.-Q., Chen, L.J., Wignall, P.B., Dong, J.H., Liu, X., Zheng, H.T., Wang, G., Wei, Z.S., Zhu, Z.L.*, 2024. Variations in antimony isotope and toxic metals across the Guadalupian-Lopingian (Permian) boundary at Penglaitan, China: Implications for the Emeishan volcanism and marine extinction. Earth and Planetary Science Letters 648, 119096.  (T1; NI)

21. Sun, F., Luo, G., Pancost, R.D., Dong, Z.K., Li, Z.G., Wang, H.M., Chen, Z.-Q., Xie, S.C.*, 2024. Methane fueled lake pelagic food webs in a Cretaceous greenhouse world. Proceedings of the National Academy of Sciences of the United States of America 121(44), e2411413121. (T1; NI）

22. Guo, Z., Benton, M.J., Stubbs, T.L., Chen, Z.-Q.*, 2024. Morphological innovation did not drive diversification in Mesozoic-Cenozoic brachiopods. Nature Ecology & Evolution 8(10), 1948-1958. (T1)

23. Zhao, H., Cui, Y.*, Zhang, L.*, Chen, Z.-Q., Algeo, T.J., Liu, Y., Sun, J., 2024. Calcium isotope evidence of increased carbonate saturation state during the Frasnian-Famennian boundary event. Earth and Planetary Science Letters, 642, 118876.  (T1; NI）

24. Guo, Z.-X.*, Papineau, D., O' Neil, J., Rizo, H., Chen, Z.-Q., Qiu, X., She, Z., 2024. Abiotic synthesis of graphitic carbons in the Eoarchean Saglek-Hebron metasedimentary rocks. Nature Communications 15(1), 5679. （T1; NI）

25. Kaiho, K.*, Shizuya, A., Kikuchi, M., Komiya, T., Chen, Z.-Q., Tong, J., Saltzman, M.R., 2024. Oxygen increase and the pacing of early animal evolution. Global and Planetary Change, 233, 104364. (T1)

26. Zhang, L.*, Algeo, T.J., Zhao, L.*, Dahl, T.W., Chen, Z.-Q., Zhang, Z., Li, C., 2024. Environmental and trilobite diversity changes during the middle-late Cambrian SPICE event. Geological Society of America Bulletin 136(1-2), 810-828.  (T1)

27. Mu, X.D., Wang, X.D., Lan, Z.W.*, Zhao, H., Chen, Z.-Q., 2024. Involvement of Hg-bearing methane seeps in forming Ediacaran cap carbonate in South China. Palaeogeography, Palaeoclimatology, Palaeoecology 636, 111965. (T2)

28. Wu, S., Golding, M.L., Zhao, H., Han, C., Zhang, X., Chen, Z.-Q., Lyu, Z.*, 2024. Lower to Middle Triassic conodont biostratigraphy and carbonate carbon isotope chemostratigraphy of the Zuodeng area, Guangxi, South China, and its relevance for stratigraphic correlation from the Induan to the Anisian. Palaeogeography, Palaeoclimatology, Palaeoecology 636, 111965. （T2）

29. Liu, D., Chen, Z.-Q.*, Woods, A.D., Fang, Y., Huang, Y., Feng, X., Liu, Z., 2024. Revisiting the Yudongzi microbialites (basal Triassic, northwestern Sichuan, South China): Fabric textures and paleoenvironmental implication. Global and Planetary Change 232, 104344.  (T1)

30. Zheng, Z.J., Chen, Z.-Q.*, Grasby, S.E., Wang, X., Papineau, D., Li, Z.H., Wang, X.D., Zhang, L., Zhao, H., Huang, Y.G., Feng, X.Q., Su, L.W., Guo, Z., 2024. Carbon-sulfur isotope and major and trace element variations across the Permian-Triassic boundary on a shallow platform setting (Xiejiacao, South China). Chemical Geology 657, 122115. （T1）

31. Wu, S.Q., Reitner, J.*, Harper, D. A., Yu, J., Chen, Z.-Q.*, 2024. New keratose sponges after the end-Permian extinction provide insights into biotic recoveries. Geobiology 22(1), e12582. （T1）

32. 王棫萱, 张小乐*, 王凯, 陈中强, 2024. 贵州印江三合场剖面志留纪晚期地层研究:兼论黔东北—渝东—湘西地区小溪组分布和第三套红层特征. 地层学杂志, 48(02), 115-123. 

2023

33. Guo, Z., Flannery-Sutherland, J.T., Benton, M.J.*, Chen, Z.-Q.*, 2023. Bayesian analyses indicate bivalves did not drive the downfall of brachiopods following the Permian-Triassic mass extinction. Nature Communications 14, 5566. 

34. Huang, Y., Chen, Z.Q.*, Roopnarine, P.D., Benton, M.J., Zhao, L., Feng, X., Li, Z., 2023. The stability and collapse of marine ecosystems during the Permian-Triassic mass extinction. Current Biology 33, 1–12.

35. Wang, X., Jing, Y., Peng, H., Yang, H., Zhu, Z., Chen, Z.-Q.*, 2023. Cadmium isotope evidence deciphers enhanced marine productivity during the middle Mesoproterozoic (the Xiamaling formation, North China). Precambrian Research 389, 107021.

36. Kaiho, K., Grasby, S.E., Chen, Z.-Q., 2023. High-temperature combustion event spanning the Guadalupian−Lopingian boundary terminated by soil erosion.  Palaeogeography, Palaeoclimatology, Palaeoecology 618, 111518. 

37. Lyu, Z., Henderson, C.M., Chen, Z.-Q., Tong, J., Zhao, L., Han, C., Wu, S., 2023. High-resolution conodont unitary association zonations (UAZs) across the Induan-Olenekian boundary (Lower Triassic): A global correlation. Palaeogeography, Palaeoclimatology, Palaeoecology 627, 111721. 

38. Wu, S.L., Han, C., Golding, M.L., Chen, Z.-Q., Lyu, Z., 2023. Integrated biochemostratigraphy of the Permian-Triassic boundary interval and Lower Triassic succession in the eastern Cimmerian continent (Baoshan block, West Yunnan, southwest China). Palaeogeography, Palaeoclimatology, Palaeoecology 627, 111711. 

39. Ye, F., Zhao, L., Zhang, L., Cui, Y., Algeo, T.J., Chen, Z.-Q., Lyu, Z., Huang, Y., Bhat, G.M., Baud, A., 2023. Calcium isotopes reveal shelf acidification on southern Neotethyan margin during the Smithian-Spathian boundary cooling event. Global and Planetary Change 227, 104138.

2022

40. Chen, Z.-Q.*, Fang, Y.H., Wignall, P.B., Guo, Z., Wu, S.Q., Liu, Z.L., Wang, R.Q., Huang, Y.G., Feng, X.Q., 2022. Microbial blooms triggered pyrite framboid enrichment and oxygen depletion in carbonate platforms immediately after the latest Permian extinction. Geophysical Research Letters 49(7), e2021GL096998. 

41. Chen, Z.-Q.*, Harper, D.A., Grasby, S., Zhang, L., 2022. Catastrophic event sequences across the Permian-Triassic boundary in the ocean and on land. Global and Planetary Change 215, 103890. 

42. Chen, Z.-Q.*, Harper, D.A., Grasby, S., Zhang, L., 2022. Editorial preface to special issue: Extreme environments and biotic responses during the Neoproterozoic-Phanerozoic transition. Global and Planetary Change 215, 103894. 

43. Feng, X.Q., Chen, Z.-Q.*, Benton, M.J., Su, C.M., Bottjer, D.J., Cribb, A.T., Li, Z.H., Zhao, L.S., Zhu, G.Y., Huang, Y.G., Guo, Z., 2022. Resilience of infaunal ecosystems during the Early Triassic greenhouse Earth. Science Advances 8(26), eabo0597. 

44. Wu, S.Q., Chen, Z.-Q.*, Fang, Y.H., Pei, Y., Foster, W.J., 2022. Benthic Pleurocapsales (cyanobacteria) blooms catalyzing carbonate precipitation and dolomitization following the end-Permian mass extinction. Geophysical Research Letters 49, e2022GL100819, 

45. Jing, Y.H., Chen, Z.-Q.*, Anderson, R.P., Wang, X., Zheng, Z.M., Feng, X.Q., 2022. Microscopic and geochemical analyses of the Tonian Longfengshan biota from the Luotuoling Formation (Hebei Province, North China) with taphonomic implications. Precambrian Research 382, 106899. 

46. Jing, Y.H., Chen, Z.-Q.*, Tu, C.Y., 2022. A late Paleoproterozoic microfossil community from siliceous granules, Dahongyu Formation, North China. Precambrian Research 377, 106723. 

47. Yang, H., Chen, Z.-Q.*, Papineau, D., 2022. Cyanobacterial spheroids and other biosignatures from microdigitate stromatolites of Mesoproterozoic Wumishan Formation in Jixian, North China. Precambrian Research 368, 106496. 

48. Guo, Z., Chen, Z.-Q.*, Harper, D.A.T., Huang, Y.G., 2022. Permian–Triassic phylogenetic and morphologic evolution of rhynchonellide brachiopods. Paleobiology 48(1), 99-119. 

49. Guo, Z., Chen, Z.-Q.*, Huang, Y.G., Chen, H.F., Qiu, Y.M., Guo, X., 2022. The Anisian (Middle Triassic) brachiopods from the southern Qilian Mountains, north-western China. Papers in Palaeontology 8(5), e1468. 

50. Zhao, H., Grasby, S.E., Wang, X.D., Zhang, L., Liu, Y.S., Chen, Z.-Q.*, Hu, Z.C.*, Huang, Y.G., 2022. Mercury enrichments during the Carnian Pluvial event (late Triassic) in South China. Geological Society of America Bulletin 134(9-10), 2709-2720.

51. Wang, X.D., Cawood, P.A., Grasby, S.E., Sun, G.Y., Zhao, L.S.*, Chen, Z.-Q.*, 2022. Mercury anomalies across the Cryogenian-Ediacaran boundary in South China. Precambrian Research 379, 106771. 

52. Wu, S.Q., Chen, Z.-Q.*, Su, C.M., Fang, Y.H., Yang, H., 2022. Keratose sponge fabrics from the lowermost Triassic microbialites in South China: geobiologic features and Phanerozoic evolution. Global and Planetary Change 211, 103787. 

53. Huang, Y.G., Chen, Z.-Q., Wu, S.Q., Feng, X.Q., 2022. Anisian (Middle Triassic) stromatolites from Southwest China: Biogeological features and implications for variations of filament size and diversity of Triassic cyanobacteria. Palaeogeography, Palaeoclimatology, Palaeoecology 601(2022), 111150.

54. Zhang, L., Algeo, T.J., Zhao, L.S.*, Chen, Z.-Q., Zhang, Z.H., Li, C., 2022. Linkage of the late Cambrian microbe-metazoan transition (MMT) to shallow-marine oxygenation during the SPICE event. Global and Planetary Change 213, 103798.

55. 陈中强*, 郭镇, 2022. 二叠纪-三叠纪之交大灭绝后腕足动物的复苏过程：多样性、壳饰演化与古生物地理区系. 古生物学报 61(3): 343–357.

56. 陈中强*, 黄元耕, 2022. 如何定量评价大灭绝时期生态系统的坍塌与重建过程? 地球科学 47(10): 3827–3829.

2021

57. Chen, Z.-Q.*, Wang, X.D., Cao, C.Q., Luo, M., Guo, Z., 2021. Late Palaeozoic-Mesozoic palaeontology and stratigraphy in China: A tribute to the achievements of Professor Zhuoting Liao. Geological Journal 56, 5863-5881. 

58. Huang, Y., Chen, Z.-Q.*, Roopnarine, P.D., Benton, M.J., Yang, W., Liu, J., Zhao, L., Li, Z., Guo, Z., 2021. Ecological dynamics of terrestrial and freshwater ecosystems across three mid-Phanerozoic mass extinctions from northwest China. Proceedings of the Royal Society B 288, 20210148.

59. Feng, X.Q., Chen, Z.-Q.*, Zhao, L.S., Lan, Z.W., 2021. Middle Permian trace fossil assemblages from the Carnarvon Basin of Western Australia: Implications for the evolution of ichnofaunas in wave-dominated siliciclastic shoreface settings across the Permian-Triassic boundary. Global and Planetary Change 197, 103392. 

60. Su, C.M., Chen, Z.-Q.*, Wang, X., Wu, S.Q., Guo, Z., 2021. Biotic and palaeoecological variations in the Permian-Triassic boundary microbialite (Xiejiacao, South China): Implication for a two-phase ecological crisis in microbialite ecosystems. Global and Planetary Change 207, 103679.

61. Zhang, M., Chen, Z.-Q.*, Harper, D.A.T., 2021. An atypical Burgess Shale-type fossil assemblage from Cambrian Stage 4 of the Jingshan area, South China: Taphonomy, palaeoecology, and global correlations. Global and Planetary Change 206, 103640.

62. Li, Z.H., Guo, Z., Chen, Z.-Q.*, Poulton, S. W., Bao, Y., Zhao, L.S*, Zhang, F. F., 2021. A novel carbon cycle turbulence index identifies environmental and ecological perturbations. Geochemical Perspectives Letters, 20, 11-15. 

63. Li, Z.H., Zhang, M., Chen, Z.-Q.*, Algeo, T.L., Zhao, L.S.*, Zhang, F.F., 2021. Early Cambrian oceanic oxygenation and evolution of early animals: A critical review from the South China Craton. Global and Planetary Change 204, 103561.

64. Wang, X.D., Cawood, P.A., Grasby, S.E., Zhao, L.*, Chen, Z.-Q.*, Wu, S.L., Huang, Y., 2021. Characteristics of Hg concentrations and isotopes in terrestrial and marine facies across the end-Permian mass extinction. Global and Planetary Change 205, 103592.

65. Guo, Z., Chen, Z.-Q.*, Liao, Z.T., 2021. Early Carboniferous brachiopod fauna from the Altai Mountains, northern Xinjiang, Central Asia: Systematics, and palaeobiogeographic and palaeogeographical implications. Geological Journal 56, 6000-6021.

66. Luo, M., Buatois, L.A., Shi, G.R., Chen, Z.-Q., 2021. Infaunal response during the end-Permian mass extinction. Geological Society of America Bulletin 133, 91-99. 

67. Retallack, G.J., Chen, Z.-Q., Huang, Y.G., Fang, Y.H., 2021. Oxidizing atmosphere and life on land during the late Paleoproterozoic outset of the “boring billion". Precambrian Research 364, 106361. 

68. Zhao, H., Lyu, Z., Chen, Z.-Q., Algeo, T.J., Orchard, M.J., Liu, Y.S., Hu, Z.C., Zhang, L., Zhang, X.M., 2021. Integrated biochemostratigraphy of the Permian-Triassic boundary beds in a shallow carbonate platform setting (Yangou, South China). Global and Planetary Change 206, 103583.

69. Chang, X., Hou, M., Woods, A., Chen, Z.-Q., Liu, X., Liao, Z., Liu, Y., Chao, H., 2021. Late Ordovician paleoceanographic change: Sedimentary and geochemical evidence from Northwest Tarim and Middle Yangtze region, China. Palaeogeography, Palaeoclimatology, Palaeoecology 562(2021), 110070.

70. Han, C., Orchard, M.J., Wu, S., Zhao, L., Chen, Z.-Q., Golding, M.L., Jan, I.U., Lyu, Z., Hashmi, S.T., 2021. Improved taxonomic definition based on the ontogenetic series of Griesbachian-Dienerian conodonts from the Early Triassic of northwestern Pakistan. Global and Planetary Change 208, 103703.

71. Wang, X.D., Cawood, P.A., Zhao, L.S., Chen, Z.-Q., Zhang, L., Lyu, Z.Y., Ye, F.H., 2021. Marine productivity variations and environmental perturbations across the early Triassic Smithian-Spathian boundary: Insights from zinc and carbon isotopes. Global and Planetary Change 205, 103579. 

72. Lyu, Z., Orchard, M.J., Golding, M.L., Henderson, C.M., Chen, Z.-Q., Zhang, L., Han, C., Wu, S.L., Huang, Y.G., Zhao, L., Bhat, G.M., Baud, A., 2021. Lower Triassic conodont biostratigraphy of the Guryul Ravine section, Kashmir. Global and Planetary Change 207, 103671.

73. Aftabuzzaman, M., Kaiho, K., Biswas, R.K., Liu, Y.Q., Saito, R., Tian, L., Bhat, G.M., Chen, Z.-Q., 2021. End-Permian terrestrial disturbance followed by the complete plant devastation, and the vegetation proto-recovery in the earliest-Triassic recorded in coastal sea sediments. Global and Planetary Change 205, 103621.

74. Kaiho, K., Miura, M., Tezuka, M., Hayashi, N., Jones, D.S., Oikawa, K., Casier, J.G., Fujibayashi, M., Chen, Z.-Q., 2021. Coronene, mercury, and biomarker data support a link between extinction magnitude and volcanic intensity in the Late Devonian. Global and Planetary Change 199, 103452.

75. Liu, H., Qiu, Z., Zou, C., Fu, J., Zhang, W., Tao, H., Li, S., Zhou, S., Wang, L., Chen, Z.-Q., 2021. Environmental changes in the Middle Triassic lacustrine basin (Ordos, North China): Implication for biotic recovery of freshwater ecosystem following the Permian-Triassic mass extinction. Global and Planetary Change 204, 103559.

76. Zhou, W.F., Algeo, T.J., Luo, G.M., Ruan, X.Y., Chen, Z.-Q., Xie, S.C., 2021. Hydrocarbon compound evidence in marine successions of South China for frequent wildfires during the Permian-Triassic transition. Global and Planetary Change 200, 103472.

77. Yang, H., Chen, Z.-Q., Mei, X., Sun, Y., 2021. Early Triassic microconchids from the Perth Basin, Western Australia: Palaeoecology and flourishing in the aftermath of the end‐Permian mass extinction. Geological Journal, 56(12), 6210-6222. 

78. Lan, Z., Zhang, S., Chen, Z.-Q., Mitchell, R.N., 2021. Locomotion and feeding trails produced by crabs. Geological Journal 56, 6288-6293. 

2020

79. Wang, C. S., Immenhauser, A., Ogg, J., Mckenzie, J., de Boer, P., Hu, X. M., Chen, Z.-Q., Liu, Z. F., Li, C., Shen, Y-A., Chen, X., eds. 2020. A roadmap of sedimentology in China until 2030: Sedimentology at the crossroad of new frontiers. 87 pp. https://sedimentologists.org/#sed-in-china.

80. Guo, Z., Chen, Z.-Q.*, Harper, D.A.T., 2020. Phylogenetic and ecomorphologic diversifications of spiriferinids brachiopods after the end-Permian extinction. Paleobiology 64(4), 495-510. 

81. Li, Z.H., Chen, Z.-Q.*, Zhang, F.F., Ogg, J.G., Zhao, L.S.*, 2020. Global carbon cycle perturbations triggered by volatile volcanism and ecosystem responses during the Carnian Pluvial Episode (late Triassic). Earth-Science Reviews 211(2020), 103404

82. Guo, Z., Chen, Z.-Q.*, Harper, D.A.T., 2020. The Anisian (Middle Triassic) brachiopod fauna from Qingyan, Guizhou, south-western China. Journal of Systematic Palaeontology 18(8), 647-701.

83. Luo, M., Shi, G.R., Buatois, L.A., Chen, Z.-Q., 2020. Trace fossils as proxy for biotic recovery after the end-Permian mass extinction: a critical review. Earth-Science Reviews 201, 103059. 

84. Zhao, H., Dahl, T.W., Chen, Z.-Q., Algeo, T.J., Zhang, L., Liu, Y.S., Hu, Z.C., Hu, Z.H., 2020. Anomalous marine calcium cycle linked to carbonate factory change after the Smithian Thermal Maximum (Early Triassic). Earth-Science Reviews 211(2020), 103418.

85. Cao, M.C., Daines, S.J., Lenton, T.M., Cui, H., Algeo, T.J., Dahl, T.W., Shi, W., Chen, Z.-Q., Anbar, A., Zhou, Y.Q., 2020. Comparison of Ediacaran platform and slope δ 238U records in South China: Implications for global-ocean oxygenation and the origin of the Shuram Excursion. Geochimica et Cosmochimica Acta 287((2020), 111-124. 

86. Li, Z.H., Cao, M.C., Loyd, S.J., Algeo, T.J., Zhao, H., Wang, X.D., Zhao, L.S., Chen, Z.-Q., 2020. Transient and stepwise ocean oxygenation during the late Ediacaran Shuram Excursion: insights from carbonate delta U-238 of northwestern Mexico. Precambrian Research 344, 105741.

87. Lyu, Z.Y., Orchard, M.J., Chen, Z.-Q., Henderson, C.M., Zhao, L.S., 2020. A proposed ontogenesis and evolutionary lineage of conodont Eurygnathodus

costatus and its role in defining the base of the Olenekian (Lower Triassic). Palaeogeography, Palaeoclimatology, Palaeoecology 539, 109916.

88. Zhao, H., Algeo, T.J., Liu, Y.S., Chen, Z.-Q., Zhang, L., Hu, Z.C., Li, Z.H., 2020. Lower Triassic carbonate delta U-238 record demonstrates expanded oceanic anoxia during Smithian Thermal Maximum and improved ventilation during Smithian-Spathian boundary cooling event. Palaeogeography, Palaeoclimatology, Palaeoecology 539, 109393. 

89. Ogg, J. G., Chen, Z.-Q., Orchard, M.J., Jiang, H.S., 2020. Chapter 25. The Triassic Period. In: Gradstein, F.M., Ogg, J.G., Schmitz, M., and Ogg, G.M. (coordinators), Geologic Time Scale 2020. Elsevier, Volume 2, pp. 903–953, ISBN: 9780444637987 https://doi.org/10.1016/B978-0-12-824360-2.00025-5

2019

90. Chen, Z.-Q.*, Tu, C.Y., Pei, Y., Ogg, J., Fang, Y.H., Wu, S.Q., Feng, X.Q., Huang, Y.G., Guo, Z., Yang, H., 2019. Biosedimentological features of major microbe-metazoan transitions (MMTs) from Precambrian to Cenozoic. Earth-Science Reviews 189, 21-50.

91. Chen, Z.-Q.*, Hu, X.M., Montanez, I.P., Ogg, J.M., 2019. Sedimentology as a Key to Understanding Earth and Life Processes. Earth-Science Reviews 189, 1-5.

92. Chen, Z.-Q.*, Algeo, T.J., Schoepfer, S.D., 2019. The Permian-Triassic transition in the eastern Paleo-Tethys and adjacent regions: Environmental and biotic changes in ocean and on land Preface. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 1-7.

93. Chen, Z.-Q.*, Guo, Z., 2019. Permian-Triassic climatic and environmental extremes and biotic response (IGCP 630: 2014-2018): Goals and achievements. Acta Geologica Sinica-English Edition 93, 780-782.

94. Huang, Y.G., Chen, Z.-Q.*, Wignall, P.B., Grasby, S.E., Zhao, L.S., Wang, X.D., Kaiho, K., 2019. Biotic responses to volatile volcanism and environmental stresses over the Guadalupian-Lopingian (Permian) transition. Geology 47(2), 175–178.

95. Wang, X.D., Cawood, P.A., Zhao, H., Zhao, L.S.*, Grasby, S.E., Chen, Z.-Q.* Zhang, L., 2019. Global mercury cycle during the end-Permian mass extinction and subsequent Early Triassic recovery. Earth and Planetary Science Letters 513, 144-155.

96. Feng, X.Q., Chen, Z.-Q.*, Bottjer, D.J.*, Wu, S.Q., Zhao, L.S., Xu, Y.L., Shi, G.R., Huang, Y.G., Fang, Y.H., Tu, C.Y., 2019. Unusual shallow marine matground-adapted benthic biofacies from the Lower Triassic of the northern Paleotethys: Implications for biotic recovery following the end-Permian mass extinction. Earth-Science Reviews 189, 194-219.

97. Zou, C.N., Zhu, R.K.*, Chen, Z.-Q.*, Ogg, J.G., Wu, S., Dong, D., Qiu, Z., Wang, Y., Wang, L., Lin, S., Cui, J., Su, L., Yang, Z., 2019. Organic-matter-rich shales of China. Earth-Science Reviews 189, 51-78.

98. Huang, Y.G., Chen, Z.-Q.*, Algeo, T.J., Zhao, L.S., Baud, A., Bhat, G.M., Zhang, L., Guo, Z., 2019. Two-stage marine anoxia and biotic response during the Permian-Triassic transition in Kashmir, northern India: pyrite framboid evidence. Global and Planetary Change 172, 124–139. 

99. Qiu, X.C., Xu, Y.L., Chen, Z.-Q.*, Benton, M.J., Wen, W., Huang, Y.G., Wu, S.Q., 2019. The Early Triassic Jurong fish fauna, South China: Age, anatomy, taphonomy, and global correlation. Global and Planetary Change 180, 33-50.

100. Pei, Y., Chen, Z.-Q.*, Fang, Y.H., Kershaw, S., Wu, S.Q., Luo, M., 2019. Volcanism, redox conditions, and microbialite growth linked with the end-Permian mass extinction: Evidence from the Xiajiacao section (western Hubei Province), South China. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 194-208.

101. Huang, Y.G., Chen, Z.-Q.*, Zhao, L.S., Stanley, G.D., Yan, J.X., Pei, Y., Yang, W.R., Huang, J.H., 2019. Restoration of reef ecosystems following the Guadalupian-Lopingian boundary mass extinction: Evidence from the Laibin area, South China. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 8-22.

102. Yang, H., Chen, Z.-Q.*, Kershaw, S., Liao, W., Lu, E.L., Huang, Y.G., 2019. Small microbialites from the basal Triassic mudstone (Tieshikou, Jiangxi, South China): Geobiologic features, biogenicity, and paleoenvironmental implications. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 221-235.

103. Feng, X.Q., Chen, Z.-Q.*, Benton, M.J., Wu, S.Q., Bottjer, D.J., Thompson, J.R., 2019. A diverse trackway-dominated marine ichnoassemblage from the Lower Triassic in the northern Paleotethys: Ichnology and implications for biotic recovery. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 124-140.

104. Luo, M., Chen, Z.-Q.*, Shi, G.R., Feng, X.Q., Yang, H., Fang, Y.H., Li, Y., 2019. Microbially induced sedimentary structures (MISSs) from the Lower Triassic Kockatea Formation, northern Perth Basin, Western Australia: Palaeoenvironmental implications. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 236-247.

105. Luo, M.*, Shi, G.R., Hu, S.X., Benton, M.J., Chen, Z.-Q.*, Huang, J.Y., Zhang, Q.Y., Zhou, C.Y., Wen, W., 2019. Early Middle Triassic trace fossils from the Luoping Biota, southwestern China: Evidence of recovery from mass extinction. Palaeogeography, Palaeoclimatology, Palaeoecology 515, 6–22.

106. Wang, X.D., Cawood, P.A., Zhao, L.S.*, Chen, Z.-Q.*, Lyu, Z.Y., Ma, B., 2019. Convergent continental margin volcanic source for ash beds at the Permian-Triassic boundary, South China: Constraints from trace elements and Hf-isotopes. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 154-165.

107. Lyu, Z.Y., Orchard, M.J., Chen, Z.-Q.*, Wang, X.D., Zhao, L.S.*, Han, C., 2019a. Uppermost Permian to Lower Triassic conodont successions from the Enshi area, western Hubei Province, South China. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 49-64.

108. Lyu, Z.Y., Zhang, L.*, Algeo, T.J.*, Zhao, L.S., Chen, Z.-Q., Li, C., Ma, B., Ye, F.H., 2019b. Global-ocean circulation changes during the Smithian-Spathian transition inferred from carbon-sulfur cycle records. Earth-Science Reviews 195, 114-132. 

109. Li, M.S., Huang, C.J., Ogg, J., Zhang, Y., Hinnov, L., Wu, H.C., Chen, Z.-Q., Zou, Z.Y., 2019. Paleoclimate proxies for cyclostratigraphy: Comparative analysis using a Lower Triassic marine section in South China. Earth-Science Reviews 189, 125-146. 

110. Zhang, L., Orchard, M.J., Brayard, A., Algeo, T.J., Zhao, L.S., Chen, Z.-Q., Lyu, Z.Y., 2019. The Smithian/Spathian boundary (late Early Triassic): A review of ammonoid, conodont, and carbon-isotopic criteria. Earth-Science Reviews 195, 7-36.

111. Lyu, Z.Y., Zhang, L., Algeo, T.J., Zhao, L.S., Chen, Z.-Q., Li, C., Ma, B.A., Ye, F.H., 2019. Global-ocean circulation changes during the Smithian-Spathian transition inferred from carbon-sulfur cycle records. Earth-Science Reviews 195, 114-132.

112. Li, H., Yu, J.X., McElwain, J.C., Yiotis, C., Chen, Z.-Q., 2019. Reconstruction of atmospheric CO2 concentration during the late Changhsingian based on fossil conifers from the Dalong Formation in South China. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 37-48.

113. Huang, J.Y., Martinez-Perez, C., Hu, S.X., Zhang, Q.Y., Zhang, K.X., Zhou, C.Y., Wen, W., Xie, T., Benton, M.J., Chen, Z.-Q., Luo, M., Donoghue, P.C.J., 2019. Apparatus architecture of the conodont Nicoraella kockeli (Gondolelloidea, Prioniodinina) constrains functional interpretations. Palaeontology 62(5), 823-835.

114. Huang, J.Y., Hu, S.X., Zhang, Q.Y., Donoghue, P.C.J., Benton, M.J., Zhou, C.Y., Martinez-Perez, C., Wen, W., Xie, T., Chen, Z.-Q., Luo, M., Yao, H.Z., Zhang, K.X., 2019. Gondolelloid multielement conodont apparatus (Nicoraella) from the Middle Triassic of Yunnan Province, southwestern China. Palaeogeography, Palaeoclimatology, Palaeoecology 522, 98-110.

115. Zhang, L., Orchard, M.J., Algeo, T.J., Chen, Z.-Q., Lyu, Z.Y., Zhao, L.S., Kaiho, K., Ma, B., Liu, S.J., 2019. An intercalibrated Triassic conodont succession and carbonate carbon isotope profile, Kamura, Japan. Palaeogeography, Palaeoclimatology, Palaeoecology 519, 65-83.

116. Wen, W., Hu, S.X., Zhang, Q.Y., Benton, M.J., Kriwet, J., Chen, Z.-Q., Zhou, C.Y., Xie, T., Huang, J.Y., 2019. A new species of Platysiagum from the Luoping Biota (Anisian, Middle Triassic, Yunnan, South China) reveals the relationship between Platysiagidae and Neopterygii. Geological Magazine 156(4), 669–682.

2018

117. Chen, Z.-Q.*, Zhao, L.S., Wang, X.D., Luo, M., Guo, Z., 2018. Great Paleozoic-Mesozoic biotic turnings and paleontological education in China: A tribute to the achievements of Professor Zunyi Yang. Journal of Earth Science 29(4), 721–732. 

118. Feng, X.Q., Chen, Z.-Q.*, Bottjer, D.J., Fraiser, M.L., Xu, Y., Luo, M., 2018. Additional records of ichnogenus Rhizocorallium from the Lower and Middle Triassic, South China: Implications for biotic recovery after the end-Permian mass extinction. Geological Society of America Bulletin 130(7-8), 1197-1215.

119. Wang, X.D., Cawood, P.A., Zhao, H., Zhao, L.S.*, Grasby, S.E., Chen, Z.-Q.*, Wignall, P.B., Lyu, Z.Y., Han, C., 2018. Mercury anomalies across the end Permian mass extinction in South China from shallow and deep water depositional environments. Earth and Planetary Science Letters 496, 159–167.

120. Zhang, F.F., Algeo, T.J., Romaniello, S.J., Cui, Y., Zhao, L.S., Chen, Z.-Q., Anbar, A.D., 2018. Congruent Permian-Triassic delta U-238 records at Panthalassic and Tethyan sites: Confirmation of global-oceanic anoxia and validation of the U-isotope paleoredox proxy. Geology 46(4), 327-330.

121. Luo, M., Shi, G.R., Chen, Z.-Q., Hu, S.X., Huang, J.Y., Zhang, Q.Y., Zhou, C.Y., Fang, Y.H., 2018. Youngest ambient inclusion trails from Middle Triassic phosphatized coprolites, southwestern China: New insights into an old intriguing phenomenon. Gondwana Research 55, 60-73.

122. Luo, M., Gong, Y.M., Shi, G.R., Chen, Z.-Q., Huang, J.Y., Hu, S.X., Feng, X.Q., Zhang, Q.Y., Zhou, C.Y., Wen, W., 2018. Palaeoecological analysis of trace fossil Sinusichnus sinuosus from the Middle Triassic Guanling Formation in Southwestern China. Journal of Earth Science 29(4), 854-863.

123. Lyu, Z.Y., Orchard, M.J., Chen, Z.-Q., Zhao, L.S.*, Zhang, L., Zhang, X.M., 2018. A taxonomic re-assessment of the Novispathodus waageni group and its role in defining the base of the Olenekian (Lower Triassic). Journal of Earth Science 29(4), 824–836.

2017

124. Chen, Z.-Q.*, Zhou, C.M., Stanley, G.J., 2017. Biosedimentary records of China from the Precambrian to present. Palaeogeography, Palaeoclimatology, Palaeoecology 474, 1-6.

125. Chen, Z.-Q.*, Algeo, T.J., Sun, Y.D., Schoepfer, S.D., 2017. The Paleozoic-Mesozoic transition in South China: Oceanic environments and life from Late Permian to Late Triassic. Palaeogeography, Palaeoclimatology, Palaeoecology 486, 1-5.

126. Huang, Y.G., Chen, Z.-Q.*, Wignall, P.B., Zhao, L.S., 2017. Latest Permian to Middle Triassic redox condition variations in ramp settings, South China: Pyrite framboid evidence. Geological Society of America Bulletin 129(1-2), 229-243.

127. Fang, Y.H., Chen, Z.-Q.*, Kershaw, S., Li, Y., Luo, M., 2017. An Early Triassic (Smithian) stromatolite associated with giant ooid banks from Lichuan (Hubei Province), South China: Environment and controls on its formation. Palaeogeography, Palaeoclimatology, Palaeoecology 486, 108-122.

128. Fang, Y.H., Chen, Z.-Q.*, Kershaw, S., Yang, H., Luo, M., 2017. Permian-Triassic boundary microbialites at Zuodeng Section, Guangxi Province, South China: Geobiology and palaeoceanographic implications. Global and Planetary Change 152, 115-128. 

129. Feng, X.Q., Chen, Z.-Q.*, Woods, A., Fang, Y.H., 2017. A Smithian (Early Triassic) ichnoassemblage from Lichuan, Hubei Province, South China: Implications for biotic recovery after the latest Permian mass extinction. Palaeogeography, Palaeoclimatology, Palaeoecology 486, 123-141.

130. Feng, X.Q., Chen, Z.-Q.*, Woods, A., Pei, Y., Wu, S.Q., Fang, Y.H., Luo, M., Xu, Y.L., 2017. Anisian (Middle Triassic) marine ichnocoenoses from the eastern and western margins of the Kamdian Continent, Yunnan Province, SW China: Implications for the Triassic biotic recovery. Global and Planetary Change 157, 194-213.

131. Wu, S.Q., Chen, Z.-Q.*, Fang, Y.H., Pei, Y., Yang, H., Ogg, J., 2017. A Permian-Triassic boundary microbialite deposit from the eastern Yangtze Platform (Jiangxi Province, South China): Geobiologic features, ecosystem composition and redox conditions. Palaeogeography, Palaeoclimatology, Palaeoecology 486, 58-73.

132. Xu, Y.L., Chen, Z.-Q.*, Feng, X.Q., Wu, S.Q., Shi, G.R., Tu, C.Y., 2017. Proliferation of MISS-related microbial mats following the end-Permian mass extinction in the northern Paleo-Tethys: Evidence from southern Qilianshan region, western China. Palaeogeography, Palaeoclimatology, Palaeoecology 474, 198-213. 

133. Yang, H., Chen, Z.-Q.*, Fang, Y.H., 2017. Microbially induced sedimentary structures from the 1.64 Ga Chuanlinggou Formation, Jixian, North China. Palaeogeography, Palaeoclimatology, Palaeoecology 474, 7-25.

134. Luo, M., Hu, S.X., Benton, M.J., Shi, G.R., Zhao, L.S., Huang, J.Y., Song, H.J., Wen, W., Zhang, Q.Y., Fang, Y.H., Huang, Y.G., Chen, Z.-Q.*, 2017. Taphonomy and palaeobiology of early Middle Triassic coprolites from the Luoping biota, southwest China: Implications for reconstruction of fossil food webs. Palaeogeography, Palaeoclimatology, Palaeoecology 474, 232-246. 

135. Fang, Q., Hong, H.L.*, Chen, Z.-Q.*, Yu, J.X., Wang, C.W., Yin, K., Zhao, L.L., Liu, Z., Cheng, F., Gong, N.N., Furnes, H., 2017. Microbial proliferation coinciding with volcanism during the Permian-Triassic transition: New, direct evidence from volcanic ashes, South China. Palaeogeography, Palaeoclimatology, Palaeoecology 474, 164-186. 

136. Zhang, L., Cao, L., Zhao, L.S.*, Algeo, T.J.*, Chen, Z.-Q., Li, Z.H., Lyv, Z.Y., Wang, X.D., 2017. Raman spectral, elemental, crystallinity, and oxygen-isotope variations in conodont apatite during diagenesis. Geochimica et Cosmochimica Acta 210, 184-207.

137. Elrick, M., Polyak, V., Algeo, T.J., Romaniello, S., Asmerom, Y., Herrmann, A.D., Anbar, A.D., Zhao, L.S., Chen, Z.-Q., 2017. Global-ocean redox variation during the middle-late Permian through Early Triassic based on uranium isotope and Th/U trends of marine carbonates. Geology 45(2), 163-166. 

138. Lei, L.D., Shen, J., Li, C., Algeo, T.J., Chen, Z.-Q., Feng, Q.L., Cheng, M., Jin, C.S., Huang, J.H., 2017. Controls on regional marine redox evolution during Permian-Triassic transition in South China. Palaeogeography, Palaeoclimatology, Palaeoecology 486, 17-32.

139. Fang, Q., Churchman, G.J., Hong, H.L., Chen, Z.-Q., Liu, J.C., Yu, J.X., Han, W., Wang, C.W., Zhao, L.L., Fumes, H., 2019. New insights into microbial smectite illitization in the Permo-Triassic boundary K-bentonites, South China. Applied Clay Science 140, 96-111.

140. Li, F., Yan, J.X., Burne, R.V., Chen, Z.-Q., Algeo, T.J., Zhang, W., Tian, L., Gan, Y.L., Liu, K., Xie, S.C., 2017. Paleo-seawater REE compositions and microbial signatures preserved in laminae of Lower Triassic ooids. Palaeogeography, Palaeoclimatology, Palaeoecology 486, 96-107.

141. Li, Y., Zhao, L.S., Chen, Z.-Q., Algeo, T.J., Cao, L., Wang, X.D., 2017. Oceanic environmental changes on a shallow carbonate platform (Yangou, Jiangxi Province, South China) during the Permian-Triassic transition: Evidence from rare earth elements in conodont bioapatite. Palaeogeography, Palaeoclimatology, Palaeoecology 486, 6-16.

142. Gong, Q., Wang, X.D., Zhao, L.S.*, Grasby, S.E.*, Chen, Z.-Q., Zhang, L., Li, Y., Cao, L., Li, Z.H., 2017. Mercury spikes suggest volcanic driver of the Ordovician-Silurian mass extinction. Scientific Reports 7, 5304e.

143. Hong, H.L., Fang, Q., Zhao, L.L., Schoepfer, S., Wang, C.W., Gong, N.N., Li, Z.H., Chen, Z.-Q., 2017. Weathering and alteration of volcanic ashes in various depositional settings during the Permian-Triassic transition in South China: Mineralogical, elemental and isotopic approaches. Palaeogeography, Palaeoclimatology, Palaeoecology 486, 46-57. 

144. Zhou, W.F., Algeo, T.J., Ruan, X.Y., Luo, G.M., Chen, Z.-Q., Xie, S.C., 2017. Expansion of photic-zone euxinia during the Permian-Triassic biotic crisis and its causes: Microbial biomarker records. Palaeogeography, Palaeoclimatology, Palaeoecology 474, 140-151. 

2016

145. Shi, L., Feng, Q.L., Shen, J., Ito, T., Chen, Z.-Q.*, 2016. Proliferation of shallow-water radiolarians coinciding with enhanced oceanic productivity in reducing conditions during the Middle Permian, South China: evidence from the Gufeng Formation of western Hubei Province. Palaeogeography, Palaeoclimatology, Palaeoecology 444, 1-14.

146. Tu, C.Y., Chen, Z.-Q.*, Retallack, G.J., Huang, Y.G., Fang, Y.H., 2016. Proliferation of MISS-related microbial mats following the end-Permian mass extinction in terrestrial ecosystems: Evidence from the Lower Triassic of the Yiyang area, Henan Province, North China. Sedimentary Geology 333, 50-69. 

147. Tu, C.Y., Chen, Z.-Q.*, Harper, D.A.T., 2016. Permian-Triassic evolution of the Bivalvia: Extinction-recovery patterns linked to ecologic and taxonomic selectivity. Palaeogeography, Palaeoclimatology, Palaeoecology 459, 53-62. 

148. Luo, M., Chen, Z.-Q.*, Shi, G. R., Fang, Y.H., Song, H.J., Jia, Z.H., Huang, Y.G., Yang, H., 2016. Upper Lower Triassic stromatolite from Anhui, South China: Geobiologic features and paleoenvironmental implications. Palaeogeography, Palaeoclimatology, Palaeoecology 452, 40-54. 

149. Luo, M., George, A.D., Chen, Z.-Q., 2016. Sedimentology and ichnology of two Lower Triassic sections in South China: Implications for the biotic recovery following the end-Permian mass extinction. Global and Planetary Change 144, 198-212.

150. Li, M.S., Huang, C.J., Hinnov, L., Ogg, J., Chen, Z.-Q., Zhang, Y., 2016. Obliquity-forced climate during the Early Triassic hothouse in China. Geology 44(8), 623-626.

151. Li, M.S., Ogg, J., Zhang, Y., Huang, C.J., Hinnov, L., Chen, Z.-Q., Zou, Z.Y., 2016. Astronomical tuning of the end-Permian extinction and the Early Triassic Epoch of South China and Germany. Earth and Planetary Science Letters 441, 10-25.

152. Shi, G.R., Chen, Z.-Q., Lee, S.M., Zhan, L.P., 2016. Early Carboniferous spiriferoid brachiopods from the Qaidam Basin, Northwest China: Taxonomy, biostratigraphy and biogeography. Palaeoworld 25(4), 581-599.

153. Jiang, H.S., Wignall, P.B., Chen, Z.-Q., Xie, S.C., Lai, X.L., Song, H.J., Wang, L.N., 2016. Comment on “Quantitative biochronology of the Permian-Triassic boundary in South China based on conodont unitary associations” by Brosse et al. (2016). Earth-Science Reviews 164, 257-258.

154. Zhang, L., Algeo, T.J., Cao, L., Zhao, L.S., Chen, Z.-Q., Li, Z.H., 2016. Diagenetic uptake of rare earth elements by conodont apatite. Palaeogeography, Palaeoclimatology, Palaeoecology 458, 176-197. 

155. Zhao, Z.G., Huang, X., Zhang, X.H., Yang, B., Chen, Z.-Q., Xiong, F.H., 2016. Permian radiolarians from the A’nyemaqen mélange zone in the Huashixia area of Madoi County, Qinghai Province, Western China, and their implications on regional tectonism. Journal of Earth Science 27(4), 623-630. 

156. Saito, R., Kaiho, K., Oba, M., Tong, J.N., Chen, Z.-Q., Takahashi, S., Chen, J., Tian, L., Biswas, R.K., 2016. Secular changes in environmental stresses and eukaryotes during the Early Triassic to the early Middle Triassic. Palaeogeography, Palaeoclimatology, Palaeoecology 451, 35-45. 

2015

157. Chen, Z.-Q.*, Yang, H., Luo, M., Benton, M.J., Kaiho, K., Zhao, L.S., Huang, Y.G., Zhang, K.X., Fang, Y.H., Jiang, H.S., Qiu, H., Li, Y., Tu, C.Y., Shi, L., Zhang, L., Feng, X.Q., Chen, L., 2015. Complete biotic and sedimentary records of the Permian-Triassic transition from Meishan section, South China: Ecologically assessing mass extinction and its aftermath. Earth-Science Reviews 149, 67-107.

158. Chen, Z.-Q.*, Liao, Z.T., Liu, L.J., 2015. Correction of two Upper Paleozoic stratigraphic units in the Tianshan Mountains region, Xinjiang Uygur Autonomous Region and implications on the Late Paleozoic evolution of Tianshan tectonic complex, Northwest China. Journal of Palaeogeography-English 4(4), 358-370. 

159. Yang, H., Chen, Z.-Q.*, Wang, Y.B., Ou, W.Q., Liao, W., Mei, X., 2015. Palaeoecology of microconchids from microbialites near the Permian-Triassic boundary in South China. Lethaia 48(4), 497-508. 

160. Yang, H., Chen, Z.-Q.*, Ou, W.Q., 2015. Microconchids from microbialites near the Permian-Triassic boundary in the Zuodeng Section, Baise Area, Guangxi Zhuang Autonomous Region, South China and their paleoenvironmental implications. Journal of Earth Science 26(2), 157-165. 

161. He, X., Chen, Z.-Q.*, Lu, Z.S., Li, J., Hu, W., Li, S.F., Xu, Z.T., 2015. Exceptionally preserved caddisfly larval cases (Insecta) from the Lower Cretaceous of the Liupanshan Basin, Western China. Journal of Earth Science 26(2), 192-202. 

162. Zhang, L., Zhao, L., Chen, Z.-Q.*, Algeo, T.J.*, Li, Y., Cao, L., 2015. Amelioration of marine environments at the Smithian-Spathian boundary, Early Triassic. Biogeosciences 12(5), 1597-1613. 

163. Algeo, T.J., Chen, Z.-Q., Bottjer, D.J., 2015. Global review of the Permian-Triassic mass extinction and subsequent recovery: Part II. Earth-Science Reviews 149(4), 10.1016/j.earscirev.2015.09.007. 

164. Li, F., Yan, J.X., Chen, Z.-Q., Ogg, J.G., Tian, L., Korngreen, D., Liu, K., Ma, Z.L., Woods, A.D., 2015. Global oolite deposits across the Permian-Triassic boundary: A synthesis and implications for palaeoceanography immediately after the end-Permian biocrisis. Earth-Science Reviews 149, 163-180. 

165. Yu, J.X., Broutin, J., Chen, Z.-Q., Shi, X., Li, H., Chu, D.L., Huang, Q.S., 2015. Vegetation changeover across the Permian-Triassic Boundary in Southwest China. Earth-Science Reviews 149, 203-224.

166. Chen, J.B., Algeo, T.J., Zhao, L.S., Chen, Z.-Q., Cao, L., Zhang, L., Li, Y., 2015. Diagenetic uptake of rare earth elements by bioapatite, with an example from Lower Triassic conodonts of South China. Earth-Science Reviews 149, 181-202.

167. He, W.H., Zhang, K.X., Chen, Z.-Q., Yan, J.X., Yang, T.L., Zhang, Y., Gu, S.Z., Wu, S.B., 2015. A new genus Liaous of early Anisian Stage (Middle Triassic) brachiopods from southwestern China: systematics, reassessment of classification of the Spiriferinioidea, community paleoecology, and paleoenvironmental implications. Journal of Paleontology 89(6), 966-979. 

168. Gao, Q.L., Chen, Z.-Q., Zhang, N., Griffin, W.L., Xia, W., Wang, G.Q., Jiang, T., Xia, X., O'Reilly, S.Y., 2015. Ages, trace elements and Hf-isotopic compositions of zircons from claystones around the Permian-Triassic boundary in the Zunyi Section, South China: Implications for nature and tectonic setting of the volcanism. Journal of Earth Science 26(6), 872-882. 

169. Zhang, Y., Li, M.S., Ogg, J.G., Montgomery, P., Huang, C.J., Chen, Z.-Q., Shi, Z.Q., Enos, P., Lehrmann, D.J., 2015. Cycle-calibrated magnetostratigraphy of middle Carnian from South China: Implications for Late Triassic time scale and termination of the Yangtze Platform. Palaeogeography, Palaeoclimatology, Palaeoecology 436, 135-166.

2014

170. Chen, Z.-Q.*, Wang, Y.B., Kershaw, S., Luo, M., Yang, H., Zhao, L.S., Feng, Y.H., Chen, J.B., Li, Y., Zhang, L., 2014. Early Triassic stromatolites in a siliciclastic nearshore setting in northern Perth Basin, Western Australia: Geobiologic features and implications for post-extinction microbial proliferation. Global and Planetary Change 121, 89-100. 

171. Chen, Z.-Q.*, Algeo, T.J., Bottjer, D.J., 2014. Global review of the Permian-Triassic mass extinction and subsequent recovery: Part I. Earth-Science Reviews 137, 1-5. 

172. Chen, Z.-Q.*, Joachimski, M., Montanez, I., Isbell, J., 2014. Deep time climatic and environmental extremes and ecosystem response: An introduction. Gondwana Research 25(4), 1289-1293. 

173. Chen, Z.-Q.*, Wang, X.D., Richards, B., Aretz, M., 2014. Multidisciplinary studies of global Carboniferous stage boundaries: towards a better definition and global correlations: an introduction. Geological Magazine 151(2), 199-200. 

174. Luo, M., Chen, Z.-Q.*, Zhao, L.S., Kershaw, S., Huang, J.Y., Wu, L.L., Yang, H., Fang, Y.H., Huang, Y.G., Zhang, Q.Y., Hu, S.X., Zhou, C.Y., Wen, W., Jia, Z.H., 2014. Early Middle Triassic stromatolites from the Luoping area, Yunnan Province, Southwest China: Geobiologic features and environmental implications. Palaeogeography, Palaeoclimatology, Palaeoecology 412, 124-140. 

175. Luo, M., Chen, Z.-Q., 2014. New arthropod traces from the Lower Triassic Kockatea Shale Formation, northern Perth Basin, Western Australia: ichnology, taphonomy and palaeoecology. Geological Journal 49(2), 163-176. 

176. Zhang, Q.Y., Wen, W., Hu, S.X., Benton, M.J., Zhou, C.Y., Xie, T., Lu, T., Huang, J.Y., Choo, B., Chen, Z.-Q., Liu, J., Zhang, Q.C., 2014. Nothosaur foraging tracks from the Middle Triassic of southwestern China. Nature Communications 5, 3973e.

177. Lan, Z.W., Li, X.H., Chen, Z.-Q., Li, Q.L., Hofmann, A., Zhang, Y.B., Zhong, Y., Liu, Y., Tang, G.Q., Ling, X.X., Li, J., 2014. Diagenetic xenotime age constraints on the Sanjiaotang Formation, Luoyu Group, southern margin of the North China Craton: Implications for regional stratigraphic correlation and early evolution of eukaryotes. Precambrian Research 251, 21-32

178. Lan, Z.W., Li, X.H., Zhu, M.Y., Chen, Z.-Q., Zhang, Q.R., Li, Q.L., Lu, D.B., Liu, Y., Tang, G.Q., 2014. A rapid and synchronous initiation of the wide spread Cryogenian glaciations. Precambrian Research 255, 401-411.

179. Liu, Y., Priscu, J.C., Yao, T., Vick-Majors, T.J., Michaud, A.B., Jiao, N., Hou, J., Tian, L., Hu, A., Chen, Z.-Q. 2014. A comparison of pelagic, littoral, and riverine bacterial assemblages in Lake Bangongco, Tibetan Plateau. FEMS Microbiology Ecology 89(2), 211-221