吉林大学 古生物学与地层学研究中心

 

全成                       (English)

博士,教授

博士生导师

E-mail: quan@jlu.edu.cn

学科领域:植物古气候学
讲授课程:地层学、古植物学、古气候学

研究方向:新生代环境变迁与生物响应
目前工作:陆相气候格局及重大转换、古大气CO2与温室效应

教育背景:吉林大学,博士(2005)
长春地质学院,本科(1998)

学术经历:East Tennessee State University,访问学者(2010–2011)
中国科学院南京地质古生物研究所,博士后(2009–2011)

全成博士

获奖荣誉:第三届青年古生物学奖(2015)
第十四届青年地质科技奖,银锤奖(2014)
首批国土资源杰出青年科技人才(2013)

主持课题:晚白垩世-古近纪重要“温室阶段”的气候特征及其驱动因素(NSFC 41372002; 2014–2017)
低纬度植被对始新世-渐新世全球变化的响应:以广西百色为例(NSFC 41528201; 2015–2016; 海外及港澳项目; Co–PI)
辽宁抚顺古新世-始新世极热事件:基于植物化石的古气候定量研究(NSFC 41172008; 2012–2015)
黑龙江嘉荫晚白垩世银杏的比较解剖、系统发育和多样性特征(NSFC 41002004; 2011–2013)

近年成果:

全文论文

2015

Huang YJ, Liu YS, Wen J, Quan C*, 2015. First fossil record of Staphylea L. (Staphyleaceae) from North America, and its biogeographic implications. Plant Systematics and Evolution 301:2203–2218 (PDF)

2014

Quan C, Liu Z, Utescher T, Jin J, Shu J, Li Y, Liu YSC, 2014. Revisiting the Paleogene climate pattern of East Asia: a synthetic review. Earth–Science Reviews 139: 213–230 (PDF)

Liu Z, Zhang K, Sun Y, Liu W, Liu YSC, Quan C*, 2014. Cenozoic environmental changes in the northern Qaidam Basin inferred from n–alkane records. Acta Geologica Sinica–English Edition 88: 1547–1555 (PDF)

Wu S, Zhang F, Edwards S, Wu W, Ye J, Bi S, Ni X, Quan C*, Meng J, Organ C, 2014. The evolution of bipedalism in jerboas (Rodentia: Dipodoidea): origin in humid and forested environments. Evolution 68: 2108–2118 (PDF)

Quan C, Liu YSC, Tang H, Utescher T, 2014. Miocene shift of European atmospheric circulation from trade wind to westerlies. Scientific Reports 4: 5660 (PDF)

Su K, Quan C*, Liu YSC, 2014. Cycas fushunensis sp. nov. (Cycadaceae) from the Eocene of northeast China. Review of Palaeobotany and Palynology 204: 43–49 (PDF)

Wang Y, Huang C, Sun B, Quan C*, Wu J, Lin Z, 2014. Paleo-CO2 variation trends and the Cretaceous greenhouse climate. Earth–Science Reviews 129: 136–147 (PDF)

2013

Quan C, Han S, Utescher T, Zhang C, Liu YSC, 2013. Validation of temperature–precipitation based aridity index: paleoclimatic implications. Palaeogeography, Palaeoclimatology, Palaeoecology 386: 86–95 (PDF)

Wang D, Lu S, Han S, Sun X, Quan C*, 2013. Eocene prevalence of monsoon-like climate over eastern China reflected by hydrological dynamics. Journal of Asian Earth Sciences 62: 776–787 (PDF)

2012

Quan C, Liu YSC, Utescher T, 2012. Eocene monsoon prevalence over China: a paleobotanical perspective. Palaeogeography, Palaeoclimatology, Palaeoecology 365–366: 302–311 (PDF)

Quan C, Liu YSC, Utescher T, 2012. Paleogene temperature gradient, seasonal variation and climate evolution of northeast China. Palaeogeography, Palaeoclimatology, Palaeoecology 313–314: 150–161 (PDF)

Zhou ZY, Quan C*, Liu YSC, 2012. Tertiary Ginkgo ovulate organs with associated leaves from North Dakota, U.S.A., and their evolutionary significance. International Journal of Plant Sciences 173: 67–80 (PDF)

2011

Quan C, Liu YSC, Utescher T, 2011. Paleogene evolution of precipitation in northeast China supporting the middle Eocene intensification of the East Asian monsoon. Palaios 26: 743–753 (PDF)

Wan CB, Wang DH, Zhu ZP, Quan C*, 2011. Trend of Santonian (Late Cretaceous) atmospheric CO2 and global mean land surface temperature: Evidence from plant fossils. SCIENCE CHINA Earth Sciences 54: 1338–1345 (PDF)

2010

Sun Y, Liu H, Wan C, Quan C, 2010. In situ spores of Asplenium and their implications for the evolution of the Aspleniaceae: a case study from the Lower Cretaceous Changcai Formation in eastern Jilin Province, China. Cretaceous Research 31: 424–432 (PDF)

Quan C, Zhou ZY, 2010. Occurrence of Oligocene Ginkgo megafossils from Heilongjiang Province and its paleophytogeographic significance. Acta Palaeontologica Sinica 49(4): 439–442 (in Chinese with English abstract) (PDF)

Quan C, Sun G, Zhou ZY, 2010. A new Tertiary Ginkgo (Ginkgoaceae) from the Wuyun Formation of Jiayin, Heilongjiang, northeastern China and its paleoenvironmental implications. American Journal of Botany 97: 446–457 (PDF)

2009

Quan C, Sun C, Sun Y, Sun G, 2009. High resolution estimates of paleo-CO2 levels through the Campanian (Late Cretaceous) based on Ginkgo cuticles. Cretaceous Research 30: 424–428 (PDF)

2008

Quan C, Sun G, 2008. Late Cretaceous aquatic angiosperms from Jiayin of Heilongjiang, Northeast China. Acta Geologica Sinica–English Edition 82: 1133–1140 (PDF)

摘  要

Liu YSC, Quan C, 2013. Late Neogene dry climate condition in the southern Appalachians. Geological Society of America Abstracts with Programs 45(7): 303

Quan C, Liu YSC, Utescher T, 2013. How dry is dry in paleoclimate? Sino–German Symposium on the Late Cenozoic Environmental Change in Eastern Eurasia and Its Impact on Past and Present Biodiversity. Xishangbanna, Yunnan.

Quan C, Liu, YSC., Utescher T, 2012. Climatic distribution of Eocene China: Planetary wind or monsoon-dominated? Japanese Journal of Palynology 58: 192

Quan C, Liu, YSC, Utescher T, 2012. Justification, validation, and implication of aridity index for paleoclimate. Japanese Journal of Palynology 58: 193

Liu YSC, Quan C, 2012. Vegetation change across the Eocene–Oligocene Transition (EOT): A case study from southern China. Japanese Journal of Palynology 58:133

Liu YSC, Quan C, 2012. Cenozoic vegetation and climate changes in the subtropical East Asia: A case study from Guangxi, south China. Japanese Journal of Palynology 58:133

Liu YSC, Quan C, Zavada MS, 2012. Late Neogene climate condition in the southern Appalachiens. GSA Annual Meeting & Exposition. Charlotte, North Carolina, USA

Quan C, Liu YSC, Utescher T, 2012. Aridity index for paleoclimate quantification. GSA Annual Meeting & Exposition. Charlotte, North Carolina, USA

©吉林大学古生物学与地层学研究中心 @ 吉林省·长春市·西民主大街938号
TEL: (0431)88502587, 88502598;   FAX: (0431)88502427, 88502598;   E-mail: palaeont@jlu.edu.cn