Name | Research Field | |
Department of Earth Materials | ||
cqma@cug.edu.cn | Granite geology, magmatic dynamics and deep processes, Igneous rock petrology and geochemistry, magmatism and metallogenic relations, rock geotectonics and plate tectonics, History of Geological Sciences and Higher Geological education | |
yhzhu@cug.edu.cn | Digital geological survey, ophiolite, magmatite | |
Lithosphere evolution, magmatism and deep processes, deep processes and shallow responses | ||
hwzhou@cug.edu.cn | Precambrian geology and metamorphic geology, orogen evolution, geological disaster regional geoscience background | |
zhangn@cug.edu.cn | Sedimentary petrology, carbonate microfacies analysis | |
jhzhao@cug.edu.cn | Crust-mantle evolution in South China; Petrology and geochemistry of magmatic rocks | |
rongliu@cug.edu.cn | Metamorphic fluid and metamorphism, mixed lithification | |
zbsher@cug.edu.cn | Precambrian geobiology and astrobiology | |
gqwang@cug.edu.cn | Marine sedimentary geology;carbonate and siliceous sedimentary geology | |
suyuping99@126.com | Formation and evolution of central Asian orogenic belt, basalts and their xenoliths | |
shanrongzhao@126.com | Crystal symmetry theory, mineral crystal chemistry, crystal growth and morphology | |
mineralogy | ||
zhongyufang@cug.edu.cn | Petrogeochemistry; Genetic mineralogy | |
yilongli.cn@gmail.com | The structure and tectonic evolution of the Central Asian orogenic belt and the Qilian-Qinling orogenic belt;the Archean crust-mantle interaction of the North China Craton;Archean-Paleoproterozoic metamorphic evolution of the Yangtze Craton | |
yinke1984@qq.com | Clay mineralogy, gemology | |
luobiji@163.com | Igneous magmatism, mineralization and evolution | |
wwz@cug.edu.cn | Sedimentary basin; A study of Precambrian geological events | |
lianxunwang@cug.edu.cn | Research of halogen elements (F-Cl-Br-I) in magmatic rocks;alkaline-peralkaline magmatic rocks, igneous carbonate rocks and rare earth metal mineralization, highly differentiated granites, granitic pegmatite and rare metal mineralization | |
Geochemical dynamic background and crust-mantle material exchange mechanism of magmatism in subduction zone, sedimentary basin evolution of orogenic belt, accretive orogeny of Central Asian orogenic belt and paleogeographic reconstruction | ||
xiabin@cug.edu.cn | Metamorphic petrology and metamorphic chronology, phase equilibrium modeling, metamorphism and orogenic evolution | |
xqping@cug.edu.cn | Composition and evolution of the lower crust, alkaline rocks and granites, mossbauer spectrometer and its application | |
Zhou Xiang | Mantle petrology | |
liupengleiincug@aliyun.com | High pressure uhp metamorphic rocks;fluid properties and behavior of the subduction zone petrology;deep earth carbon cycle experiment;dynamic metamorphic rock | |
Metamorphic rocks, including high-pressure and ultrahigh-pressure metamorphism, metamorphic chronology, metamorphic element distribution and formation and evolution of subduction zone terranes. | ||
Genesis of magmatic rocks, evolution of continental crust, destruction of North China Craton | ||
Chen Huawei | Mineral physics | |
zhufeng45890@163.com | Storage and circulation of carbon, hydrogen and other volatile components in the deep earth, light elements in the Earth and planetary nuclei, phase transformation and physical properties of iron-aluminum-rich Bridgmanite in the lower mantle, and perovskite type minerals | |
Department of Geochemistry | ||
yuchongwen@public.bta.net.cn | Geochemical dynamics, ore deposit geochemistry | |
hfzhang@cug.edu.cn | Magmatic geochemistry and lithosphere evolution in the Tibetan Plateau | |
shhu@cug.edu.cn | LA-ICP-MS microanalysis, ICP-MS immunoanalysis, and epigenetic geochemical environmental markers | |
Wetland environment research, soil/groundwater pollution investigation and remediation, unconventional exploration and new methods and technologies | ||
wlling@cug.edu.cn | Early Precambrian geological evolution; Neoproterozoic tectono-magmatic events in South China; Indosinian magmatic events and tectonic evolution in South China | |
yshliu@cug.edu.cn | Trace element geochemistry, LA-ICP-MS analysis of elements and isotopes, crust-mantle material exchange and deep earth carbon cycle | |
yuanbaowu@cug.edu.cn | High-pressure and ultrahigh-pressure metamorphism, orogenic processes and crustal formation and evolution, isotope geochemistry, Precambrian geology | |
Agricultural geochemistry, oil and gas reservoir heterogeneity, exploration geochemistry | ||
renlm9974@163.com | Exploration geochemistry, environmental geochemistry, digital geological survey methods and techniques | |
lizhang@cug.edu.cn | Marine chemistry, environmental geochemistry, element and isotope geochemistry, orogenic geochemistry | |
bixy@cug.edu.cn | Study on the sources and environmental effects of lead pollutants | |
hytang2005@163.com | Magmatism and craton destruction, continental accretion and evolution | |
kqzong@126.com | Magma and metamorphism in orogenic belts; Lithospheric mantle metasomatism; Precambrian continental crust formation and evolution; Study on determination method of trace elements | |
wcxu2003@163.com | Orogenic geochemistry, uplift and evolution of the Tibetan Plateau | |
liangguocug@yahoo.com | Magmatism; Qinghai-tibet Plateau; Tethyan evolution; Continental crust composition and evolution | |
liujinling@cug.edu.cn | Environmental geochemical behavior of trace elements; Bioavailability of trace elements | |
zaicongwang@gmail.com | Iron and copper elements geochemistry, crust and mantle evolution, metal mineralization and environmental effects | |
Physical and chemical properties of the lower continental crust and its formation and evolution history; Precambrian continental crust formation and evolution; High precision in-situ isotopic analysis of accessory minerals | ||
geochemistry | ||
Tectonic evolution, magmatic evolution and mineralization of orogenic belts | ||
feyxuan@gmail.com | Stable isotope geochemistry; Subduction zone material circulation; Mantle magmatic process; Crust-mantle interaction; Paleooceanic evolution | |
Active continental margin magmatic petrogenesis, pale granite petrogenesis, Fe-Mg isotope geochemistry | ||
geochemistry | ||
Department of Earth Surface System Science | ||
xiecug@163.com | Geobiology: the interaction and co-evolution of organisms and environment in key geological periods; Geomicroorganisms: the study of ancient bacteria and archaea from a molecular and isotopic perspective; Global Change: A study of dry and wet paleoclimate changes and their relationship with ancient civilizations from the perspective of geomicroorganisms | |
huangcj@cug.edu.cn | Cyclostratigraphy,Quantitative stratigraphy,Global Change,Carbon Cycle,Marine Science | |
zhumin@cug.edu.cn | Global change: Based on magnetic records of cave stalagmites, regional precipitation changes and extreme hydrological events are discussed. Environmental pollution: magnetic means are used to investigate the environmental heavy metal pollution in the supergene zone and trace the pollution sources | |
Global climate change in geological history | ||
qianqianyu09@gmail.com | Biogeochemistry: microbial, mineral, organic interactions and their effects on the transport of rare earth elements, radioactive elements, and heavy metals; Biological environmental materials: development and performance optimization of biological mineral functional materials. | |
kai.cao@cug.edu.cn | Tectono-thermochronology, orogenic process of Qinghai-Tibet Plateau, basin-mountain relationship | |
honghl8311@aliyun.com | Mineral genetic environmental identification, clay mineralogy, mineral surface chemistry | |
sen.yan@cug.edu.cn | Environmental geochemistry and biogeochemistry | |
longxiao@cug.edu.cn | Planetary geology and geomorphology; Planetary chemistry; Science popularization | |
zhanghao@cug.edu.cn | Planetary spectra and luminosity, experimental study of planetary analogue materials, small body detection in the solar system | |
9534971@qq.com | Remote sensing image processing, LiDAR data processing and analysis, geographic information systems, computer software and applications | |
qihe_cug@yahoo.com | Planetary geology | |
Huang Jun | junhuang@cug.edu.cn | Planetary geology |
(1) Simulated reconstruction of holocene climate, surface vegetation and wetland spatial patterns, and (2) assessment of temporal and spatial characteristics, driving factors and impacts of climate change on surface processes. | ||
Tectonic geomorphic simulation; Tectonic geology; Geological mechanics | ||
Measurement of thermodynamic properties of common important minerals and development of thermodynamic models; Study on mechanism and dynamics of natural crystallization process involving organisms and organic matter; Development of anti-scale surface materials; Geohydrochemistry database establishment and data analysis | ||
Department of Geobiology | ||
Geobiology | ||
duyuansheng126@126.com | Sedimentary geology;Carbonate sedimentology; Sedimentary deposit | |
ymgong@cug.edu.cn | Fossil relics and geobiology; Devonian and stratigraphic paleontology; Sedimentary geology; Stratigraphic paleontology and sedimentary geology based on big data; Quality education | |
qinglaifeng@cug.edu.cn | Micropaleontology, Geobiology, Geology of Southeast Asia, Historical geotectonics, shale gas geology | |
jntong@cug.edu.cn | P-T boundary geology, Triassic paleontology and stratigraphy, coevolution of organisms and environment during major geological mutations | |
Carbonate platform evolution and biological evolution; Early diagenesis of carbonate deposition; Paleo-marine significance of carbonate deposits; Carbonate rocks and sedimentary minerals. | ||
1065250198@qq.com | Sedimentary geology | |
xllai@cug.edu.cn | Geobiology | |
whzhang@cug.edu.cn | Permian-triassic mass extinction, Permian and early Triassic invertebrate fossils, paleoenvironment | |
yujianxin@cug.edu.cn | Extinction, survival and recovery of terrestrial organisms between Paleozoic and Mesozoic | |
bossgu@cug.edu.cn | Permian foraminifera extinction | |
xu_ran@126.com | Stratigraphy, sedimentology, devonian events | |
aihuay@qq.com | Taxonomy, palaeoecology, palaeogeography and coevolution with environment of micropalaeontological ostracoda | |
jiangliuis@hotmail.com | Paleontology, conodont biology, biostratigraphy | |
yadong.xu@cug.edu.cn | Cenozoic palynology, sedimentary paleogeography, quantitative changes of paleoclimate and paleo-elevation in the Tibetan Plateau, stable isotope analysis | |
clcug@163.com | Molecular fossil and isotopic analysis of microbiolites at the Permian-Triassic transition | |
logming@163.com | Evolution of early Earth environment and life | |
Paleoenvironmental evolution, extinction events, big data and AI applications in geobiology | ||
yjhcug@126.com | Orogenic sedimentary geology, palaeogeomorphology and palaeogeographic reconstruction | |
hfl0501@163.com | Origin and evolution of vertebrate paleontology | |
Study on stratigraphic sequence and biological and environmental events of continental Permian-Triassic boundary; Study on taxonomy and biostratigraphy of phyllopedia fossils from permian-Triassic; Study on the establishment of terrestrial ecosystem in early Mesozoic | ||
shimincug@126.com | Precambrian microbial community composition and microbial behavior, Precambrian eukaryotic origin and evolution | |
yuwenchaocug@163.com | Sedimentary geology, sedimentary deposit | |
Fan Ruoying | cugfry@163.com | Geobiology |
Ye Qin | yeqin@cug.edu.cn | Geobiology |
Yang Mingyu | Geobiology | |
Department of Structural Geology and Geodynamics | ||
Rock rheology, upper mantle dynamics, rock deformation experiments at high temperature and high pressure | ||
wgcan@cug.edu.cn | Orogenic belt geology, tectonic chronology, tectonic geomorphology, regional geological survey | |
psongbai@aliyun.com | Orogen ophiolite melange; Petrotectonics; Microstructure; Regional metallogenic prediction and ore field structure; | |
jfzhang@cug.edu.cn | Rheology of crust-mantle rocks, high-T,P experiments, rock and mineral physics | |
liuqiang@cug.edu.cn | Partial melting and high temperature and high pressure experiment; Analytic tectonic geology | |
5guc@163.com | Continental dynamics, neotectonics and tectonic geomorphology, applied tectonics | |
xuyajun19@163.com | Geotectonic sedimentology; Basin-mountain interaction; Tectono-sedimentary evolution; Supercontinent reconstruction | |
yfwang@cug.edu.cn | Rheology of mantle peridotite and its constituent minerals, rheology of granulite in lower crust, fabric and seismic wave properties of upper mantle minerals | |
xuhaijin@cug.edu.cn | Ultrahigh temperature metamorphism; Deep melting and evolution of orogenic belts; Crust-mantle interaction in continental subduction zone; Metamorphism and magmatism in the evolution of continental collision orogenic belts | |
anwang@hotmail.com | Orogenic belt structure and surface geomorphic process | |
hj_xu@sina.com | Rock deformation microstructure, mineral exsolvation structure, mineral and petrophysics | |
bzyang@cug.edu.cn | Sedimentology, paleontology and stratigraphy | |
chaichangjin@sina.com | Tectonic geology | |
zhiyong.li@cug.edu.cn | Active tectonics and geological hazards, physical and numerical simulation of tectonic deformation process, basin tectonics | |
xbxu2011@cug.edu.cn | Tectonic analysis, seismogeology, tectonic stress field, tectonic chronology and provenance analysis | |
shuyun.cao@cug.edu.cn | Orogenic geology, regional tectonic geology, microtectonic geology, tectono-thermochronology, rock deformation and rheology | |
wangdun@cug.edu.cn | Seismology and artificial intelligence seismology | |
Tectonic process, uplift history and sedimentary evolution of orogenic belts | ||
627083635@qq,com | Precambrian geology, orogen evolution, and structural analysis | |
Early crustal growth mechanism, tectonic analysis and magmatic evolution of Precambrian orogenic belt, genetic mechanism of ophiolite | ||
Microstructure and rheological properties of high-pressure metamorphic rocks and peridotites | ||
Tectonic evolution of orogenic belt; Theoretical research on the conditions and standards of structural analysis of magnetic fabric; Dynamic process of magma emplacement; Tectonic chronology | ||
Paleomagnetic constraints;Plate reconstruction of the South China Block;Recover high-fidelity paleomagnetic field intensity records from ideal rocks | ||
Palaeomagnetism and palaeocontinents; Quantitative reconstruction of supercontinent and related dynamic evolution and related important paleoclimate events | ||
Evolution of the Tethys Ocean, the Yangtze and the Precambrian tectonic evolution in Southeast Asia | ||
