2018年度
(共发表论文155篇,第一作者第一单位发表SCI论文98篇,参考2018年分区,发表一区17篇,二区31篇)
第一作者第一单位
1.Cao, B.,Zhang, T.-J.,Peng, X.-Q.,Mu, C.-C.,Wang, Q.-F.,Zheng, L.,Wang, K.,Zhong, X.-Y., 2018.Thermal Characteristics and Recent Changes of Permafrost in the Upper Reaches of the Heihe River Basin, Western China. Journal of Geophysical Research-Atmospheres, 123(15): 7935-7949. (SCI-2)
2.Chang, J.,Ye, R.-Z.,Wang, G.-X., 2018.Review: Progress in permafrost hydrogeology in China. Hydrogeology Journal, 26(5 SI): 1387-1399. (SCI-3)
3.Chang, J.,Hui, Z.-C.,Pan, B.-T.,Wang, Z.-J.,Ma, J.-F., 2018.Characteristics of the modern pollen assemblages from different sedimentary environments of the middle reaches of the arid Heihe region of Asia. Quaternary International, 479(SI): 34-41. (SCI-3)
4.Chen, G.,Meng, X.-M.,Qiao, L.,Zhang, Y.,Wang, S.-Y., 2018.Response of a loess landslide to rainfall: observations from a field artificial rainfall experiment in Bailong River Basin, China. Landslides, 15(5):895-911. (SCI-2)
5.Chen, G., Zhang, Y., Zeng, R.-Q., Yang, Z.-K., Chen, X., Zhao, F.-M., Meng, X.-M., 2018. Detection of Land Subsidence Associated with Land Creation and Rapid Urbanization in the Chinese Loess Plateau Using Time Series InSAR: A Case Study of Lanzhou New District. Remote Sensing, 10(2): 270.(SCI-2)
6.Chen, J.,Liu, J.-B.,Xie, C.-L.,Chen, G.-J.,Chen, J.-H.,Zhang, Z.-P.,Zhou, A.-F.,Ruhland, K.-M., Smol, J.-P.,Chen, F.-H.,Biogeochemical responses to climate change and anthropogenic nitrogen deposition from a 200-year record from Tianchi Lake, Chinese Loess Plateau.Quaternary International, 493: 22-30.(SCI-3)
7.Chen, J. Huang,W.,Jin, L.-Y.,Chen, J.-H.,Chen, S.-Q.,Chen, F.-H., 2018.A climatological northern boundary index for the East Asian summer monsoon and its interannual variability. Science China-Earth Science, 61(1): 13-22.(SCI-3)
8.Chen, S.-Q.,Liu, J.-B.,Xie, C.-L.,Chen, J.-H.,Wang, H.-P.,Wang, Z.-L.,Rao, Z.-G.,Xu, Q.-H.,Chen, F.-H., 2018.Evolution of integrated lake status since the last deglaciation: A high-resolution sedimentary record from Lake Gonghai, Shanxi, China.PalaeogeographyPalaeoclimatology Palaeoecology, 496:175-182. (SCI-3)
9.Cui, H.,Wang, J.,Yu, B.-B.,Hu, Z.-B.,Yao, P.,Harbor, J.-M., 2018.Marine Isotope Stage 3 paleotemperature inferred from reconstructing the Die Shan ice cap, northeastern Tibetan Plateau. Quaternary Research, 89(2): 494-504. (SCI-3)
10.Cui, Y.-F.,Liu, Y.-J.,Ma, M.-M., 2018.Spatiotemporal evolution of prehistoric Neolithic-Bronze Age settlements and influencing factors in the Guanting Basin, northeast Tibetan Plateau. Science China-Earth Science, 61(2): 149-162. (SCI-3)
11.Cui, Y.-Q.,Zhang, X.-Y.,Guo, R.-N.,Zhang, H.-X.,Li, B.,Xie, M.-Z.,Cheng, Q.-F.,Cheng, X.-W., 2018.Construction of Bi2O3/g-C3N4 composite photocatalyst and its enhanced visible light photocatalytic performance and mechanism. Separation and Purification Technology, 203: 301-309. (SCI-2)
12.Cui, Y.-Q.,Zhang, Z.-X.,Li, B.,Guo, R.-N.,Zhang, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Ultrasound assisted fabrication of AgBr/TiO2 nano-tube arrays photoelectrode and its enhanced visible photocatalytic performance and mechanism for detoxification of 4-chlorphenol.Separation and Purification Technology, 197: 189-196. (SCI-2)
13.Cui, Y.-Q.,Deng, X.-Y.,Ma, Q.-L.,Zhang, H.-X.,Cheng, X.-W.,Li, X.-L.,Xie, M.-Z.,Cheng, Q.-F., 2018.Kinetics of Photoelectrocatalytic Degradation of Diclofenac Using N, S CO-Doped TIO2Nano-Crystallite Decorated TIO2 Nanotube Arrays Photoelectrode. Environment Protection Engineering, 44(2): 117-130. (SCI-4)
14.Dang, J.,Zhang, Q.-Z., 2018.Gas-phase reaction of benzo[a]anthracene with hydroxyl radical in the atmosphere: products, oxidation mechanism, and kinetics. Journal of Molecular Modeling, 24(11): 320.(SCI-4)
15.Deng, X.-Y.,Zhang, H.-X.,Guo, R.-N.,Ma, Q.-L.,Cui, Y.-Q.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Effect of Ti3+ on enhancing photocatalytic and photoelectrochemical properties of TiO2 nanorods/nanosheets photoelectrode. Separation and Purification Technology, 192: 329-339. (SCI-2)
16.Deng, X.-Y.,Zhang, H.-X.,Guo, R.-N.,Cui, Y.-Q.,Ma, Q.-L.,Zhang, X.-Y.,Cheng, X.-W.,Li, B.,Xie, M.-Z.,Cheng, Q.-F., 2018.Effect of fabricating parameters on photoelectrocatalytic performance of CeO2/TiO2 nanotube arrays photoelectrode.Separation and Purification Technology, 193: 264-273. (SCI-2)
17.Deng, X.-Y.,Zhang, H.-X.,Guo, R.-N.,Cheng, X.-W.,Cheng, Q.-F., 2018.Construction of AgBr nano-cakes decorated Ti3+ self-doped TiO2 nanorods/nanosheets photoelectrode and its enhanced visible light driven photocatalytic and photoelectrochemical properties. Applied Surface Science, 441: 420-428. (SCI-2)
18.Deng, X.-Y.,Guo, R.-N.,Zhang, H.-X.,Li, B.,Ma, Q.-L.,Cui, Y.-Q.,Zhang, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.A facile strategy to fabricate reduced TiO2 nano-tube arrays photoelectrode and its high visible light photocatalytic performance for detoxification of trichlorophenol solution. Journal of the Taiwan Institute of Chemical Engineers, 85: 83-90. (SCI-2)
19.Dong, G.-H.,Zhang, F.-Y.,Liu, F.-W.,Zhang, D.-J.,Zhou, A.-F.,Yang, Y.-S.,Wang, G.-H., 2018.Multiple evidences indicate no relationship between prehistoric disasters in Lajia site and outburst flood in upper Yellow River valley, China. Science China-Earth Science, 61(4): 441-449. (SCI-3)
20.Dong, G.-H.,Yang, Y.-S.,Liu, X.-Y.,Li, H.-M.,Cui, Y.-F.,Wang, H.,Chen, G.-K.,Dodson, J.,Chen, F.-H., 2018.Prehistoric trans-continental cultural exchange in the Hexi Corridor, northwest China. Holocene, 28(4): 621-628. (SCI-3)
21.Gao, F.-Y.,Shi, F.-X.,Chen, H.-M.,Zhang, X.-H.,Yu, X.-Y.,Cui, Q.,Zhao, C.-Z., 2018.Rapid Expansion of Melica przewalskyi Causes Soil Moisture Deficit and Vegetation Degradation in Subalpine Meadows. Clean-soil Air Water, 46(1): 1700587. (SCI-4)
22.Gao, L.-L.,Gou, X.-H.,Deng, Y.,Wang, Z.-Q.,Gu, F.,Wang, F., 2018.Increased growth of Qinghai spruce in northwestern China during the recent warming hiatus.Agricultural and Forest Meteorology, 260: 9-16. (SCI-1)
23.Gao, T.-G., Zhang, T.-J., Guo, H., Hu, Y.-T., Shang, J.-G., Zhang, Y.-L.,Impacts of the active layer on runoff in an upland permafrost basin, northern Tibetan Plateau. 2018. PLOS ONE, 13(2 ): e0192591. (SCI-3)
24.Gou, J.-F.,Li, X.-H.,Zhang, H.-X.,Guo, R.-N.,Deng, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Synthesis of of silver/silver chloride/exfoliated graphite nano-photocatalyst and its enhanced visible light photocatalytic mechanism for degradation of organic pollutants. Journal of Industrial and Engineering Chemistry, 59: 99-107. (SCI-2)
25.Gu, C.-J.,Ma, J.-Z.,Zhu, G.-F.,Yang, H.,Zhang, K.,Wang, Y.-Q.,Gu, C.-L., 2018.Partitioning evapotranspiration using an optimized satellite-based ET model across biomes. Agricultural and Forest Meteorology, 259: 355-363.(SCI-1)
26.Guan, Q.-Y.,Wang, F.-F.,Xu, C.-Q.,Pan, N.-H.,Lin, J.-K.,Zhao, R.,Yang, Y.-Y.,Luo, H.-P., 2018.Source apportionment of heavy metals in agricultural soil based on PMF: A case study in Hexi Corridor, northwest China. Chemosphere, 193: 189-197. (SCI-2)
27.Guan, Q.-Y.,Li, F.-C.,Yang, L.-Q.,Zhao, R.,Yang, Y.-Y.,Luo, H.-P., 2018.Spatial-temporal variations and mineral dust fractions in particulate matter mass concentrations in an urban area of northwestern China. Journal of Environmental Management, 222: 95-103. (SCI-2)
28.Guan, Q.-Y.,Yang, L.-Q.,Pan, N.-H.,Lin, J.-K.,Xu, C.-Q.,Wang, F.-F.,Liu, Z.-Y., 2018.Greening and Browning of the Hexi Corridor in Northwest China: Spatial Patterns and Responses to Climatic Variability and Anthropogenic Drivers. Remote Sensing, 10(8): 1270. (SCI-2)
29.Guan, Q.-Y.,Song, N.,Wang, F.-F.,Yang, L.-Q.,Liu, Z.-Y., 2018.Contamination levels and health risk assessments of heavy metals in an oasis-desert zone: a case study in northwest China. Environmental Science and Pollution Research, 25(23 SI): 22606-22618. (SCI-3)
30.Guo, B.-H.,Liu, S.-P.,Peng, T.-J.,Ma, Z.-H.,Feng, Z.-T.,Li, M.,Li, X.-M.,Li, J.-J.,Song, C.-H.,Zhao, Z.-J.,Pan, B.-T.,Stockli, D.-F.,Nie, J.-S., 2018.Late Pliocene establishment of exorheic drainage in the northeastern Tibetan Plateau as evidenced by the Wuquan Formation in the Lanzhou Basin. Geomorphology, 303: 271-283. (SCI-2)
31.Guo, R.-N.,Xia, X.-H.,Zhang, X.-Y.,Li, B.,Zhang, H.-X.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Construction of Ag3PO4/TiO2 nano-tube arrays photoelectrode and its enhanced visible light driven photocatalytic decomposition of diclofenac. Separation and Purification Technology, 200: 44-50. (SCI-2)
32.Hu, Y.-H., Huang, Y., Su, J.-Q., Gao, Z., Li, S.-Q., Nan, Z.-R., 2018. Temporal changes of metal bioavailability and extracellular enzyme activities in relation to afforestation of highly contaminated calcareous soil. Science of theTotal Environment,622: 1056-1066.(SCI-2)
33.Huang, W.,Feng, S.,Liu, C.,Chen, J.,Chen, J.-H.,Chen, F.-H., 2018.Changes of climate regimes during the last millennium and the twenty-first century simulated by the Community Earth System Model. Quaternary Science Reviews, 180:42-56. (SCI-1)
34.Huang, X.-Z.,Chen, X.-M.,Du, X., 2018.Modern pollen assemblages from human-influenced vegetation in northwestern China and their relationship with vegetation and climate. Vegetation History and Archaeobotany, 27(6): 767-780.(SCI-3)
35.Huang, X.-Z.,Peng, W.,Rudaya, N.,Grimm, E.-C.,Chen, X.-M.,Cao, X.-Y.,Zhang, J.,Pan, X.-D.,Liu, S.-S.,Chen, C.-Z.,Chen, F.-H., 2018.Holocene Vegetation and Climate Dynamics in the Altai Mountains and Surrounding Areas, Geophysical Research Letters, 45(13): 6628-6636. (SCI-1)
36.Hui, Z.-C.,Li, X.-C.,Ma, Z.-H.,Xiao, L.,Zhang, J.,Chang, J., 2018.Miocene pollen assemblages from the Zeku Basin, northeastern Tibetan Plateau, and their palaeoecological and palaeoaltimetric implications.Palaeogeography Palaeoclimatology Palaeoecology, 511: 419-432.(SCI-3)
37.Ji, S.-C.,Nie, J.-S.,Lechler, A.,Huntington, K.-W.,Heitmann, E.-O.,Breecker, D.-O., 2018.A symmetrical CO2 peak and asymmetrical climate change during the middle Miocene. Earth and Planetary Science Letters, 499: 134-144.(SCI-1)
38.Jia, J.,Gao, F.-Y.,Xia, D.-S.,Huang, W.,Chen, F.-H., 2018.Moisture variations in arid central Asia and its out-of-phase relationship with the Asian Monsoon during MIS 5: evidence from loess records. Journal of Quaternary Science, 33(4):435-443. (SCI-3)
39.Jia, J.,Lu, H.,Wang, Y.-J.,Xia, D.-S., 2018.Variations in the Iron Mineralogy of a Loess Section in Tajikistan During the Mid-Pleistocene and Late Pleistocene: Implications for the Climatic Evolution in Central Asia. Geochemistry Geophysics Geosystems, 19(4): 1244-1258. (SCI-2)
40.Jia, J.,Liu, H.,Gao, F.-Y.,Xia, D.-S., 2018.Variations in in the westerlies in Central Asia since 16 ka recorded by a loess section from the Tien Shan Mountains.Palaeogeography Palaeoclimatology Palaeoecology,504: 156-161. (SCI-3)
41.Li, C.-B.,Wang, L.-M.,Wang, W.-R.,Qi, J.-G.,Yang, L.-S.,Zhang, Y.,Wu, L.,Cui, X.,Wang, P., 2018.An analytical approach to separate climate and human contributions to basin streamflow variability. Journal of Hydrology, 559: 30-42. (SCI-2)
42.Li, F.-Q.,Pan, B.-T.,Lai, Z.-P.,Gao, H.-S.,Ou, X.-J., 2018. Identifying the Degree of Luminescence Signal Bleaching in Fluvial Sediments FromtheInner Mongolian Researchs of the Yellow River. Geochronometria, 45(1): 82-96. (SCI-4)
43.Li, G.-Q.,Madsen, D.-B.,Jin, M.,Stevens, T.,Tao, S.-X.,She, L.-L.,Yang, L.-P.,Li, F.-L.,Wei, H.-T.,Duan, Y.-W.,Chen, F.-H., 2018.Orbital scale lake evolution in the Ejina Basin, central Gobi Desert, China revealed by K-feldspar luminescence dating of paleolake shoreline features. Quaternary International, 482: 109-121. (SCI-3)
44.Li, G.-Q.,Chen, F.-H.,Xia, D.-S.,Yang, H.,Zhang, X.-J.,Madsen, D.,Oldknow, C.,Wei, H.-T.,Rao, Z.-G.,Qiang, M.-R., 2018.A Tianshan Mountains loess-paleosol sequence indicates anti-phase climatic variations in arid central Asia and in East Asia.Earth and Planetary Science Letters, 494: 153-163. (SCI-1)
45.Li, G.-Q.,She, L.-L.,Jin, M.,Yang, H.,Madsen, D.,Chun, X.,Yang, L.-P.,Wei, H.-T.,Tao, S.-X.,Chen, F.-H., 2018.The spatial extent of the East Asian summer monsoon in arid NW China during the Holocene and Last Interglaciation. Global and Planetary Change, 169: 48-65.(SCI-2)
46.Li, Y.,Liu, Y.,Ye, W.-T.,Xu, L.-M.,Zhu, G.-R.,Zhang, X.-Z.,Zhang, C.-Q., 2018.A new assessment of modern climate change, China-An approach based on paleo-climate. Earth-Science Reviews, 177: 458-477. (SCI-1)
47.Li, Y.,Qiang, M.-R.,Jin, Y.-X.,Liu, L., Zhou, A.-F.,Zhang, J.-W., 2018. Influence of Aquatic Plant Photosynthesis the Reservoir Effect of Genggahailake, Northeastern Qinghai-Tibetan Plateu. Radiocarbon, 60(2): 561-569. (SCI-3)
48.Li, Y.,Xu, L.-M.,Zhang, C.-Q.,Liu, Y.,Zhu, G.-R.,Zhou, X.-H., 2018.Temporal and spatial evolution of Holocene vegetation and lake hydrological status, China. Holocene, 28(5): 706-720. (SCI-3)
49.Li, Z.-J.,Wang, F.,Wang, X.,Li, B.-F.,Chen, F.-H., 2018.A multi-proxy climatic record from the central Tengger Desert, southern Mongolian Plateau: Implications for the aridification of inner Asia since the late Pliocene. Journal of Asian Earth Science, 160: 27-37. (SCI-3)
50.Li, Z.-J.,Li, Z.-X.,Song, L.-L.,Ma, J.-Z.,Song, Y., 2018.Environment significance and hydrochemical characteristics of supra-permafrost water in the source region of the Yangtze River.Science of theTotal Environment, 644: 1141-1151.(SCI-2)
51.Lin, X.-R., Rioual, P., Peng, W., Yang, H.-D., Huang, X.-Z., 2018. Impact of recent climate change on Lake Kanas, Altai Mountains (NW China) inferred from diatom and geochemical evidence. Journal of Paleolimnology, 59(4): 461-477.(SCI-3)
52.Liu, C.,Huang, W.,Feng, S.,Chen, J.-H.,Zhou, A.-F., 2018.Spatiotemporal variations of aridity in China during 1961-2015: decomposition and attribution. Science Bulletin, 63(18): 1187-1199. (SCI-3)
53.Liu, J.-B.,Chen, J.-H.,Kandasamy, S.,Chen, S.-Q.,Xie, C.-L.,Chen, Q.-M.,Lin, B.-Z.,Yu, K.-F.,Xu, Q.-H.,Velasco, V.-M.,Chen, F.-H., 2018.A 14.7 Ka record of earth surface processes from the arid-monsoon transitional zone of China. Earth Surface Processes and Landforms, 43: 723-734. (SCI-2)
54.Lu, H.,Jia, J.,Wang, Y.-J.,Yin, Q.-Z.,Xia, D.-S., 2018.The cause of extremely high magnetic susceptibility of the S5S1 paleosol in the central Chinese Loess Plateau. Quaternary International, 493: 252-257. (SCI-3)
55.Lu, L.,Zhang, T.-J.,Wang, T.-J.,Zhou, X.-M., 2018.Evaluation of Collection-6 MODIS Land Surface Temperature Product Using Multi-Year Ground Measurements in an Arid Area of Northwest China.Remote Sensing, 10(11): 1852.(SCI-2)
56.Luo, Z.,Su, Q.-D.,Wang, Z.,Heermance, R.-V.,Garzione, C.,Li, M.,Ren, X.-P.,Song, Y.-G., Nie, J.-S., 2018.Orbital forcing of Plio-Pleistocene climate variation in a Qaidam Basin lake based on paleomagnetic and evaporite mineralogic analysis.Palaeogeography Palaeoclimatology Palaeoecology, 510(SI): 31-39.(SCI-3)
57.Ma, Q.-L.,Zhang, H.-X.,Cui, Y.-Q.,Deng, X.-Y.,Guo, R.-N.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Fabrication of Cu2O/TiO2 nano-tube arrays photoelectrode and its enhanced photoelectrocatalytic performance for degradation of 2,4,6-trichlorophenol. Journal of Industrial and Engineering Chemistry, 57: 181-187. (SCI-2)
58.Ma, Q.-L.,Zhang, H.-X.,Guo, R.-N.,Li, B.,Zhang, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Construction of CuS/TiO2 nano-tube arrays photoelectrode and its enhanced visible light photoelectrocatalytic decomposition and mechanism of penicillin G.Electrochimica Acta, 283: 1154-1162. (SCI-1)
59.Ma, Z.-B.,Chen, X.-P.,Chen, H., 2018.Multi-scale Spatial Patterns and Influencing Factors of Rural Poverty: A Case Study in the Liupan Mountain Region, Gansu Province, China. Chinese Geographical Science, 28(2): 296-312. (SCI-4)
60.Mu, C.-C.,Li, L.-L.,Zhang, F.,Li, Y.-X.,Xiao, X.-X.,Zhao, Q.,Zhang, T.-J., 2018.Impacts of permafrost on above- and belowground biomass on the northern Qinghai-Tibetan Plateau. Arctic Antarctic and Alpine Research, 50(1): e1447192. (SCI-3)
61.Mu, C.-C.,Li, L.-L.,Wu, X.-D.,Zhang, F.,Jia, L.,Zhao, Q.,Zhang, T.-J., 2018.Greenhouse gas released from the deep permafrost in the northern Qinghai-Tibetan Plateau. Scientific Reports, 8:4205. (SCI-3)
62.Nie, J.-S.,Ruetenik, G.,Gallagher, K.,Hoke, G.,Garzione, C.-N.,Wang, W.-T.,Stockli, D.,Hu, X.-F.,Wang, Z.,Wang, Y.,Stevens, T.,Danisik, M.,Liu, S.-P., 2018.Rapid incision of the Mekong River in the middle Miocene linked to monsoonal precipitation. Nature Geoscience, 11(12): 944-948.(SCI-1)
63.Nie, J.-S.,Pullen, A.,Garzione, C.-N.,Peng, W.-B.,Wang, Z., 2018.Pre-Quaternary decoupling between Asian aridification and high dust accumulation rates. Science Advances, 4(2): eaao6977.(SCI-2)
64.Nie, J.-S., 2018.The Plio-Pleistocene 405-kyr climate cycles.Palaeogeography Palaeoclimatology Palaeoecology, 510(SI):26-30. (SCI-3)
65.Niu, S.-W.,Hong, Z.-G.,Qiang, W.-L.,Shi, Y.-D.,Liang, M.,Li, Z.,2018.Assessing the potential and benefits of domestic solar water heating system based on field survey.Environmental Progress & Sustainable Energy, 37(5): 1781-1791.(SCI-4)
66.Pang, H.-L.,Pan, B.-T.,Garzanti, E.,Gao, H.-S.,Zhao, X.,Chen, D.-B., 2018.Mineralogy and geochemistry of modern Yellow River sediments: Implications for weathering and provenance. Chemical Geology, 488: 76-86. (SCI-2)
67.Peng, W.-B.,Nie, J.-S.,Wang, Z.,Qiang, X.-K.,Garzanti, E.,Pfaff, K.,Song, Y.-G.,Stevens, T., 2018.A major change in precipitation gradient on the Chinese Loess Plateau at the Pliocene-Quaternary boundary. Journal of Asian Earth Science, 155(SI): 134-138. (SCI-3)
68.Peng, X.-Q.,Zhang, T.-J.,Frauenfeld, O.-W.,Wang, K.,Luo, D.-L.,Cao, B.,Su, H.,Jin, H.-J.,Wu, Q.-B., 2018.Spatiotemporal Changes in Active Layer Thickness under Contemporary and Projected Climate in the Northern Hemisphere. Journal of Climate, 31(1):251-266. (SCI-1)
69.Qing, W.-W.,Han, C.-T.,Liu, J.-F., 2018.Surface energy balance of Bayi Ice Cap in the middle of Qilian Mountains, China. Journal of Mountain Science, 15(6): 1229-1240. (SCI-4)
70.Ren, L.-L.,Dong, G.-H.,Li, H.-M.,Rhode, D.,Flad, R.-K.,Li, G.-Q.,Yang, Y.,Wang, Z.-X.,Cai, L.-H.,Ren, X.-Y.,Zhang, D.-J.,Chen, F.-H., 2018.Dating Human Settlement in the East-Central Tibetan Plateau During the Late Holocene. Radiocarbon, 60(1): 137-150. (SCI-3)
71.Shen, Z.-W.,Liu, J.-B.,Xie, C.-L.,Zhang, X.-S.,Chen, F.-H., 2018.An environmental perturbation at AD 600 and subsequent human impacts recorded by multi-proxy records from the sediments of Lake Mayinghai, North China. Holocene, 28(12): 1870-1880.(SCI-3)
72.Wang, B.,Li, S.-Q.,Dong, S.-J.,Xin, R.-B.,Jin, R.-Z.,Zhang, Y.-M.,Dong, K.-J.,Jiang, Y.-C., 2018.A New Fine Particle Removal Technology: Cloud-Air-Purifying. Industrial & Engineering Chemistry Research, 57(34): 11815-11825. (SCI-2)
73.Wang, F.,Li, Z.-J.,Wang, X.,Li, B.-F.,Chen, F.-H., 2018.Variation and interplay of the Siberian High and westerlies in central-east Asia during the past 1200 kyr. Aeolian Research, 22: 62-81. (SCI-3)
74.Wang, J.,Yao, P.,Yu, B.-B.,Zou, L.-Y.,Wang, F.,Harbor, J.-M., 2018.Controls on spatial variations of glacial erosion in the Qilian Shan, northeastern Tibetan Plateau. Geomorphology, 318: 128-138. (SCI-2)
75.Wang, L.,Guan, Q.-Y.,Wang, F.-F.,Yang, L.-Q.,Liu, Z.-Y., 2018.Association between heating seasons and criteria air pollutants in three provincial capitals in northern China: Spatiotemporal variation and sources contribution. Building and Environment, 132: 233-244. (SCI-2)
76.Wang, L.-B.,Jia, J.,Li, G.-Q.,Li, Z.-J.,Wang, X.,Chen, F.-H.,Fine-grained quartz OSL dating chronology of loess sequence from southern Tajikistan: Implications for climate change in arid central Asia during MIS 2. Journal of Asian Earth Science, 155(SI): 116-123. (SCI-3)
77.Wang, W.,Wang, Y.-Q.,An, C.-B.,Ruan, Q.-R.,Duan, F.-T.,Li, W.-Y.,Dong, W.-M.,2018.Human diet and subsistence strategies from the Late Bronze Age to historic times at Goukou, Xinjiang, NW China. Holocene, 28(4) : 640-650. (SCI-3)
78.Wang, Y.-J.,Jia, J.,Liu, H.,Lu, H.,Lu, C.-C.,Xia, D.-S., 2018.Iron mineralogy characteristics of the desert sediments of the Tarim Basin and its provenance implications. Canadian Journal of Earth Sciences, 55(12): 1384-1388.(SCI-4)
79.Wei, X.,Huang, C.-H.,Wei, N.,Zhao, H.-C.,Wang, T., 2018.Reducing soil loss using surface application of stem juices. Land Degradation & Development, 29(6): 1705-1713.(SCI-1)
80.Wu, D.,Chen, X.-M.,Lv, F.-Y.,Brenner, M.,Curtis, J.,Zhou, A.-F.,Chen, J.-H.,Abbott, M.,Yu, J.-Q.,Chen, F.-H., 2018.Decoupled early Holocene summer temperature and monsoon precipitation in southwest China.Quaternary Science Reviews, 193: 54-67. (SCI-1)
81.Xiao, X.-X.,Zhang, T.-J.,Zhong, X.-Y.,Shao, W.-W.,Li, X.-D., 2018.Support vector regression snow-depth retrieval algorithm using passive microwave remote sensing data. Remote Sensing of Environment, 210: 48-64. (SCI-1)
82.Xie, H.-C.,Zhang, H.-W.,Ma, J.-Y.,Li, G.-Q.,Wang, Q.,Rao, Z.-G.,Huang, W.,Huang, X.-Z.,Chen, F.-H., 2018.Trend of increasing Holocene summer precipitation in arid central Asia: Evidence from an organic carbon isotopic record from the LJW10 loess section in Xinjiang, NW China.Palaeogeography Palaeoclimatology Palaeoecology,509(SI): 24-32. (SCI-3)
83.Yang, J.-L.,Shi, Q.-J.,Zhang, R.,Xie, M.-Z.,Jiang, X.,Wang, F.-C.,Cheng, X.-W.,Han, W.-H., 2018.BiVO4 quantum tubes loaded on reduced graphene oxide aerogel as efficient photocatalyst for gaseous formaldehyde degradation. Carbon, 138: 118-124.(SCI-1)
84.Yue, D.-X.,Zeng, J.-J.,Yang, C., Zou, M.-L., Li, K., Chen, G.-G., Guo, J.-J.,Xu,X.-F.,Meng,X.-M., 2018.Ecological risk assessment of the Gannan Plateau, northeastern Tibetan Plateau. Journal of Mountain Science, 15(6): 1254-1267. (SCI-4)
85.Zhang, D.-J., Xia, H., Chen, F.-H., 2018.Early human occupation of the Tibetan Plateau. Science Bulletin, 63: 1598-1600.(SCI-3)
86.Zhang, H.-X.,Cheng, S.,Li, B.,Cheng, X.-W.,Cheng, Q.-F., 2018.Fabrication of magnetic Co/BiFeO3 composite and its advanced treatment of pharmaceutical waste water by activation of peroxysulphate. Separation and Purification Technology, 202: 242-247. (SCI-2)
87.Zhang, H.-X.,Deng, X.-Y.,Ma, Q.-L.,Cui, Y.-Q.,Cheng, X.-W.,Xie, M.-Z.,Li, X.-L.,Cheng, Q.-F., 2018.Fabrication of Silver Decorated Graphene Oxide Composite for Photocatalytic Inactivation of Escherichia coli.Journal of Nanoscience and Nanotechnology, 18(4): 2304-2309. (SCI-4)
88.Zhang, H.-X.,Li, H.-R.,Wang, Z.-J.,Li, B.,Cheng, X.-W.,Cheng, Q.-F., 2018.Synthesis of Magnetic CoFe2O4 Nanoparticles and Their Efficient Degradation of Diclofenac by Activating Persulfate via Formation of Sulfate Radicals. Journal of Nanoscience and Nanotechnology, 18(10): 6942-6948. (SCI-4)
89.Zhang, H.-X.,Zhang, X.-Y.,Guo, R.-N.,Cheng, Q.-F.,Cheng, X.-W., 2018.A Facile Strategy to Fabricate Nanoscale Zero-Valent Iron Decorated Graphene Oxide Composite for Dechloridation of Trichloroacetic Acid in Water.Journal ofNanoscience and Nanotechnology, 18(12): 8252-8257.(SCI-4)
90.Zhang, J.,Huang, X.-Z.,Wang, Z.-L.,Yan, T.-L.,Zhang, E.-Y., 2018.A late-Holocene pollen record from the western Qilian Mountains and its implications for climate change and human activity along the Silk Road, Northwestern China, Holocene, 28(7): 1141-1150. (SCI-3)
91.Zhang, J.-Z.,Gou, X.-H.,Manzanedo, R.-D.,Zhang, F.,Pederson, N., 2018.Cambial phenology and xylogenesis of Juniperus przewalskii over a climatic gradient is influenced by both temperature and drought.Agricultural and Forest Meteorology, 260: 165-175.(SCI-1)
92.Zhang, J.-Z.,Gou, X.-H.,Pederson, N.,Zhang, F.,Niu, H.-G.,Zhao, S.-D.,Wang, F., 2018.Cambial phenology in Juniperus przewalskii along different altitudinal gradients in a cold and arid region. Tree Physiology, 38(6): 840-852. (SCI-1)
93.Zhang, X.-J.,Li, J.-R.,Gao, M.,Jin, L.-Y., 2018.Simulated precipitation changes in Central Asia since the Last Glacial Maximum. Quaternary International, 490: 82-97.(SCI-3)
94.Zhang, X.-N.,Zhou, A.-F.,Wang, X.,Song, M.,Zhao, Y.-T.,Xie, H.-C.,Russell, J.-M.,Chen, F.-H., 2018.Unmixing grain-size distributions in lake sediments: a new method of endmember modeling using hierarchical clustering. Quaternary Research, 89(1 SI): 365-373. (SCI-3)
95.Zhang, X.-Y., Zhang, H.-X.,Xiang, Y.-Y.,Hao, S.-B.,Zhang, Y.-X.,Guo, R.-N.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F.,Li, B., 2018.Synthesis of silver phosphate/graphene oxide composite and its enhanced visible light photocatalytic mechanism and degradation pathways of tetrabromobisphenol A. Journal of Hazardous Materials, 342: 353-363.(SCI-1)
96.Zhang, Y.,Meng, X.-M.,Jordan, C.,Novellino, A.,Dijkstra, T.,Chen, G., 2018.Investigating slow-moving landslides in the Zhouqu region of China using InSAR time series. Landslides, 15(7): 1299-1315. (SCI-2)
97.Zhou, X.,Zhang, T.-J.,Li, Z.-Q.,Tao, Y.,Wang, F.-T.,Zhang, X.,Xu, C.-H.,Ma, S.,Huang, J., 2018.Particulate and gaseous pollutants in a petrochemical industrialized valley city, Western China during 2013-2016. Environment Science and Pollution Research, 25(15SI): 15174-15190. (SCI-3)
98.Zhu, G.-F.,Li, X.,Ma, J.-Z.,Wang, Y.-Q.,Liu, S.-M.,Huang, C.-L.,Zhang, K.,Hu, X.-L., 2018.A new moving strategy for the sequential Monte Carlo approach in optimizing the hydrological model parameters. Advances in Water Resources, 114: 164-179. (SCI-2)
第一作者第二三单位
99.Fan, Y.-X.,Mou, X.-S.,Wang, Y.-D.,Liu, C.-Y.,Zhao, H.,Wang, F.,Li, Z.-J.,Mao, X.,Liu, W.-H.,Ma, J.,Liu, C.-R.,Zhang, F.,Zhang, F., 2018.Quaternary paleoenvironmental evolution of the Tengger Desert and its implications for the provenance of the loess of the Chinese Loess Plateau.Quaternary Science Reviews, 197: 21-34.(SCI-1)
100.Jin, C.,Nan, Z.-R.,Wang, H.-C.,Li, X.-L.,Zhou, J.,Yao, X.,Jin, P., 2018.Effect of Cd stress on the bioavailability of Cd and other mineral nutrition elements in broad bean grown in a loess subsoil amended with municipal sludge compost. Environmental Science and Pollution Research, 25(8) SI: 7418-7432. (SCI-3)
101.Li, G.-H.,Xia, D.-S.,Appel, E.,Wang, Y.-J.,Jia, J.,Yang, X.-Q., 2018.A paleomagnetic record in loess-paleosol sequences since late Pleistocene in the arid Central Asia. Earth Planets and Space, 70:44. (SCI-3)
102.Li, Y.-J., Armitage, S.-J., Stevens, T., Meng, X.-M., 2018. Alluvial fan aggradation/incision history of the eastern Tibetan plateau margin and implications for debris flow/debris-charged flood hazard. Geomorphology, 318: 203-216.(SCI-2)
103.Li, Y.-P.,Wang, S.-L.,Zhang, Q.,Zang, F.,Nan, Z.-R.,Sun, H.-L.,Huang, W.,Bao, L.-L., 2018.Accumulation, interaction and fractionation of fluoride and cadmium in sierozem and oilseed rape (Brassica napus L.) in northwest China. Plant Physiology and Biochemistry, 127: 457-468. (SCI-3)
104.Liu, L.-N.,Qu, J.-S.,Zhang, Z.-Q.,Zeng, J.-J.,Wang, J.-P.,Dong, L.-P.,Pei, H.-J.,Liao, Q., 2018.Assessment and determinants of per capita household CO2 emissions (PHCEs) based on capital city level in China. Journal of Geographical Science, 28(10): 1467-1484.(SCI-3)
105.Liu, W.-H.,Gou, X.-H.,Li, J.-B.,Huo, Y.-X.,Yang, M.-X.,Lin, W., 2018.Separating temperature from precipitation signals encoded in tree-ring widths over the past millennium on the northeastern Tibetan Plateau, China.Quaternary Science Reviews, 93: 159-169. (SCI-1)
106.Qi, S.,Ma, J.-Z.,Feng, Q.,Liu, F.-H.,He, J.-H.,Shu, H.-P.,Jia, B., 2018.NO3- sources and circulation in the shallow vadose zone in the edge of Dunhuang Mingsha sand dunes in an extremely arid area of Northwestern China. Catena, 162: 193-202. (SCI-2)
107.Wang, B., Xia, D.-S., Yu, Y., Chen, H., Jia, J., 2018. Source apportionment of soil-contamination in Baotou City (North China) based on a combined magnetic and geochemical approach. Science of the Total Environment, 642: 95-104.(SCI-2)
108.Wang, H.-P.,Chen, J.-H.,Zhang, S.-D.,Zhang, D.-D.,Wang, Z.-L.,Xu, Q.-H.,Chen, S.-Q.,Wang, S.-J.,Kang, S.-C.,Chen, F.-H., 2018.A chironomid-based record of temperature variability during the past 4000 years in northern China and its possible societal implications.Climate of the Past, 14(3): 383-396. (SCI-2)
109.Zhang, Q.,Wang, S.-L.,Nan, Z.-R.,Li, Y.-P.,Zang, F.,2018.Accumulation, fractionation, and risk assessment of mercury and arsenic in the soil-wheat system from the wastewater-irrigated soil in Baiyin, northwest China. Environment Science and Pollution Research, 25(15 SI): 14856-14867. (SCI-3)
110.Zhang, Q.,Wang, S.-L.,Yousaf, M.,Wang, S.-X.,Nan, Z.-R.,Ma, J.-M.,Wang, D.-P.,Zang, F., 2018.Hydrochemical characteristics and water quality assessment of surface water in the northeast Tibetan Plateau of China. Water Science and Technology-Water Supply, 18(5): 1757-1768.(SCI-4)
111.Zhang, Z.-P.,Liu, J.-B.,Chen, S.-Q.,Chen, J.,Zhang, S.-J.,Xia, H.,Shen, Z.-W.,Wu, D.,Chen, F.-H.,2018.Nonlagged Response of Vegetation to Climate Change During the Younger Dryas: Evidence from High-Resolution Multiproxy Records from an Alpine Lake in Northern China. Journal of Geophysical Research- Atmospheres, 123(14): 7065-7075. (SCI-2)一作三单位,
非第一作者单位
112.Chen, J.,Liu, L.,Zhang, T.-J.,Cao, B.,Lin, H., 2018.Using Persistent Scatterer Interferometry to Map and Quantify Permafrost Thaw Subsidence: A Case Study of Eboling Mountain on the Qinghai-Tibet Plateau.Journal of Geophysical Research-Earth Surface, 123(10): 2663-2676.
113.Cheng, Q.-F.,Deng, X.-Y.,Zhang, H.-X.,Guo, R.-N.,Cui, Y.-Q.,Ma, Q.-L.,Zhang, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Li, B., 2018.Microwave assisted construction of Ag-AgBr/reduced TiO2 nano-tube arrays photoelectrode and its enhanced visible light photocatalytic performance for degradation of 4-chlorphenol.Separation and Purification Technology, 193: 255-263.
114.Du, J.,Li, K.,He, Z.-B.,Chen, L.-F.,Zhu, X.,Lin, P.-F., 2018.Age-mediation of tree-growth responses to experimental warming in the northeastern Tibetan Plateau.Ecology and Evolution, 9:2242-2254.
115.Gao, B., Yang, D.-W., Qin, Y., Wang, Y.-H., Li, H.-Y., Zhang, Y.-L., Zhang, T.-J., 2018.Change in frozen soils and its effect on regional hydrology, upper Heihe basin, northeastern Qinghai-Tibetan Plateau. Gryosphere, 12(2): 657-673.
116.Heermance, R.-V.,Pearson, J.,Moe, A.,Liu, L.-T.,Xu, J.-H.,Chen, J.,Richter, F.,Garzione, C.-N.,Nie, J.-S.,Bogue, S., 2018.Erg deposition and development of the ancestral Taklimakan Desert (western China) between 12.2 and 7.0 Ma. Geology, 46(10): 919-922.
117.Huo, G.-P., Zhao, X.-N., Gao, X.-D., Wang, S.-F., Pan, Y.-H., 2018. Seasonal water use patterns of rainfed jujube trees in stands of different ages under semiarid Plantations in China.Agriculture Ecosystems & Environment, 265: 392-401.
118.Jin, X., He, C.-S., Zhang, L.-H., Zhang, B.-Q., 2018. A Modified Groundwater Module in SWAT for Improved Streamflow Simulation in a Large, Arid Endorheic River Watershed in Northwest China.Chinese Geographical Science, 28(1): 47-60.
119.Li, D.-M.,Meng, C.-X.,Wu, G.-X.,Xie, B.-T.,Han, Y.-F.,Guo, Y.-Q.,Song, C.-H.,Gao, Z.-Q.,Huang, Z.-Y., 2018.Effects of zinc on the production of alcohol by Clostridium carboxidivorans P7 using model syngas. Journal of Industrial Microbiology & Biotechnology, 45(1): 61-69.
120.Li, J.-J.,Wang, H.,Wang, L.,Ma, C.,Luan, C.,Zhao, B.,Zhang, Z.-H.,Zhang, H.-W.,Cheng, X.-W.,Liu, J.-L., 2018.The Preparation of Pd/Foam-Ni Electrode and Its Electrocatalytic Hydrodechlorination for Monochlorophenol Isomers. Catalysts, 8(9): 378.
121.Li, J.-J.,Deng, X.-Y.,Guo, R.-N.,Li, B.,Cheng, Q.-F.,Cheng, X.-W., 2018.Visible light driven photocatalytic decomposition of penicillin G by Ti3+ self-doped TiO2 nano-catalyst through response surface methodology. Journal of the Taiwan Institute of Chemical Engineers, 87: 174-181.
122.Li, L.-Z.,Ma, Q.-L.,Wang, S.-F.,Song, S.-X.,Li, B.,Guo, R.-N.,Cheng, X.-W.,Cheng, Q.-F., 2018.Photocatalytic Performance and Degradation Mechanism of Aspirin by TiO2 through Response Surface Methodology. Catalysts, 8(3): 118.
123.Liang, H.-B.,Xue, Y.-Y.,Li, Z.-S.,Wang, S.,Wu, X.,Gao, G.-Y.,Liu, G.-H.,Fu, B.-J., 2018.Soil moisture decline following the plantation of Robinia pseudoacacia forests: Evidence from the Loess Plateau.ForestEcology and Management, 412:62-69.
124.Liu, W.-M.,Hu, K.-H.,Carling, P.-A.,Lai, Z.-P.,Cheng, T.,Xu, Y.-L., 2018.The establishment and influence of Baimakou paleo-dam in an upstream reach of the Yangtze River, southeastern margin of the Tibetan Plateau. Geomorphology, 321: 167-173.
125.Meng, B.-P.,Gao, J.-L.,Liang, T.-G.,Cui, X.,Ge, J.,Yin, J.-P.,Feng, Q.-S.,Xie, H.-J., 2018.Modeling of Alpine Grassland Cover Based on Unmanned Aerial Vehicle Technology and Multi-Factor Methods: A Case Study in the East of Tibetan Plateau, China. Remote Sensing, 10(2): 320.
126.Qiang, W.-L.,Niu, S.-W.,Liu, X.-J.,Wang, X.,Jia, Z.,Dai, R.-Q., 2018.Analysis of generation cost changes during China's energy transition. Energy & Environment, 29(4): 456-472.
127.Ren, S.-L.,Yi, S.-H.,Peichl, M.,Wang, X.-Y., 2018.Diverse Responses of Vegetation Phenology to Climate Change in Different Grasslands in Inner Mongolia during 2000-2016.Remote Sensing, 10(1): 17.
128.Schuster, P.-F.,Schaefer, K.-M.,Aiken, G.-R.,Antweiler, R.-C.,Dewild, J.-F., Gryziec, J.-D.,Gusmeroli, A.,Hugelius, G.,Jafarov, E.,Krabbenhoft, D.-P., Liu, L.,Herman-Mercer, N.,Mu, C.-C.,Roth, D.-A.,Schaefer, T.,Striegl, R.-G.,Wickland, K.-P.,Zhang, T.-J., 2018.Permafrost Stores a Globally Significant Amount of Mercury. Geophysical Research Letters, 45(3): 1463-1471.
129.Song, Y.-G.,Fang, X.-M.,Chen, X.-L.,Torii, M.,Ishikawa, N.,Zhang, M.-S.,Yang, S.-L.,Chan, H., 2018.Rockmagnetic record of late Neogene red clay sediments from the Chinese Loess Plateau and its implications for East Asian monsoon evolution.Palaeogeography Palaeoclimatology Palaeoecology, 510(SI): 109-123.
130.Storozum, M.-J.,Qin, Z.,Ren, X.-L.,Li, H.-M.,Cui, Y.-F.,Fu, K., 2018.The collapse of the North Song dynasty and the AD 1048-1128 Yellow River floods: Geoarchaeological evidence from northern Henan Province, China. Holocene, 28(11): 1759-1770.
131.Sun, B.-Y., Wang, X.-X.,Ji, M.-X.,Pang, L.-B.,Shi, Q.-Q.,Hou, S.-K.,Sun, D.-H.,Wang, S.-Q., 2018.Miocene mammalian faunas from Wushan, China and their evolutionary, biochronological, and biogeographic significances. Palaeoworld, 27(2): 258-270.
132.Sun, H.-L.,Bendle, J.,Seki, O.,Zhou, A.-F., 2018.Mid-to-late Holocene hydroclimatic changes on the Chinese Loess Plateau: evidence from n-alkanes from the sediments of Tianchi Lake.Journal of Paleolimnology, 60(4): 511-523.
133.Wang, J.-Z.,Wu, J.-L.,Pan, B.-T.,Jia, H.-J.,Li, X.,Wei, H., 2018.Sediment records of Yellow River channel migration and Holocene environmental evolution of the Hetao Plain, northern China. Journal of Asian Earth Science, 156: 180-188.
134.Wang, S.-J.,Shi, X.-Y.,Cao, W.-H.,Pu, T., 2018.Seasonal Variability and Evolution of Glaciochemistry at An Alpine Temperate Glacier on the Southeastern Tibetan Plateau. Water, 10(2): 114.
135.Wang, X.-Q., Jin, Z.-D., Zhang, X.-B., Xiao, J., Zhang, F., Pan, Y.-H., 2018.High-resolutiongeochemical records of deposition couplets in a palaeolandslide-dammed reservoir on the Chinese Loess Plateau and its implication for rainstorm erosion. Journal of Soils and Sediments, 18(3): 1147-1158.
136.Wei, B.-C.,Xie, Y.-W.,Jia, X.,Wang, X.-Y.,He, H.-J.,Xue, X.-Y., 2018.Land use/land cover change and it's impacts on diurnal temperature range over the agricultural pastoral ecotone of Northern China. Land Degradation & Development, 29(9) : 3009-3020.非一作
137.Wu, X.-D.,Xu, H.-Y.,Liu, G.-M.,Zhao, L.,Mu, C.-C., 2018.Effects of permafrost collapse on soil bacterial communities in a wet meadow on the northern Qinghai-Tibetan Plateau. BMC Ecology, 18:27.
138.Xu, H.-Y.,Liu, G.-M.,Wu, X.-D.,Smoak, J.-M.,Mu, C.-C.,Ma, X.-L.,Zhang, X.-L.,Li, H.-Q.,Hu, G.-L., 2018.Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau. Ecological Indicators, 85: 585-593.
139.Xu, M., Kang, S.-C., Chen, X.-L., Wu, H., Wang, X.-Y., Su, Z.-B., 2018. Detection of hydrological variations and their impacts on vegetation from multiple satellite observations in the Three-River Source Region of the Tibetan Plateau. Science of the Total Environment, 639: 1220-1232.
140.Yang, N.,Zhang, Z.-L.,Xue, B.,Ma, J.-X.,Chen, X.-P.,Lu, C.-Y., 2018.Economic Growth and Pollution Emission in China: Structural Path Analysis. Sustainability, 10(7): 2569.
141.Zhang, H.,Werner, J.-P.,Garcia-Bustamante, E.,Gonzalez-Rouco, F.,Wagner, S.,Zorita, E.,Fraedrich, K.,Jungclaus, J.-H.,Ljungqvist, F.-C.,Zhu, X.-H.,Xoplaki, E.,Chen, F.-H.,Duan, J.-P. Ge, Q.-S.,Hao, Z.-X.,Ivanov, M.,Schneider, L.,Talento, S.,Wang, J.-L.,Yang, B.,Luterbacher, J., 2018.East Asian warm season temperature variations over the past two millennia. Scientific Reports, 8: 7702.
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143.Zhang, P.,Wu, Q.-B.,Mu, C.-C.,Chen, X.-P., 2018.Nucleation Mechanisms of CO2 Hydrate Reflected by Gas Solubility. Scientific Reports, 8: 10441.
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