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SCI papers published in 2015

2016/05/17

1.An, C.-B., Dong, W.-M., Li, H.,Zhang, P.-Y.,Zhao, Y.-T.,Zhao, X.-Y., Yu, S.Y., 2015.Variability of the stable carbon isotope ratio in modern andarchaeological millets: evidence from northern China.Journal of Archaeological Science, 53:316-322.SCI-3/SSCI/A&HCI

2.An, C.-B., Dong, W.-M., Chen, Y.-F., Li, H., Shi, C., Wang, W., Zhang, P.-Y., Zhao, X.-Y., 2015. Stable isotopic investigations of modern and charred foxtail millet and the implications for environmental archaeological reconstruction in the western Chinese Loess Plateau. Quaternary Research, 84(1): 144-149.

3.Bai, Y., Zhu, G.-F., Su, Y.-Z., Zhang, K., Han, T., Ma, J.-Z., Wang, W.-Z., Ma, T., Feng, L.-L., 2015.Hysteresis loops between canopy conductance of grapevines and meteorological variables in an oasis ecosystem.Agricultural and Forest Meteorology, 214: 319–327. SCI-1

4.Chang, G.-Y., 2015. MaterialistValueOrientationsasCorrelatesoftheNewEcologicalParadigmamong UniversityStudents inChina. Psychological Reports,116(2):597-612.SSCI

5.Chen, F., Wang, H.-Q., Chen, F.-H., Yuan, Y.-J., Zhang, R.-B., 2015. Tree-ring reconstruction of July-May precipitation (AD 1816-2010) in the northwestern marginal zone of the East Asian summer monsoon reveals the monsoon-related climate signals. International Journal of Climatology,35(8):2109-2121.SCI-2

6.Chen,F.-H.,Dong, G.-H., Zhang, D.-J., Liu, X.-Y., Jia, X., An, C.-B., Ma, M.-M., Xie, Y.-W., Barton, L., Ren, X.-Y., Zhao, Z.-J., Wu, X.-H., Jones, M.-K., 2015.Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 BP. Science, 347(6219):248-250.SCI-1

7.Chen, F.-H., Xu, Q.-H., Chen, J.-H., Birks, H.-J.-B., Liu, J.-B., Zhang, S.-R., Jin, L.-Y., An, C.-B., Telford, R.-J., Cao, X.-Y., Wang, Z.-L., Zhang, X.-J., Selvaraj, K., Lu, H.-Y., Li, Y.-C., Zheng, Z., Wang, H.-P., Zhou, A.-F., Dong, G.-H., Zhang, J.-W., Huang, X.-Z., Bloemendal, J., Rao, Z.-G., 2015. East Asian summer monsoon precipitation variability since the last deglaciation. Scientific Reports,5: 11186.SCI-2

8.Chen, J.-H., Chen, F.-H., Feng, S., Huang, W., Liu, J.-B., Zhou, A.-F., 2015. Hydroclimatic changes in China and surroundings during the Medieval Climate Anomaly and Little Ice Age: Spatial patterns and possible mechanisms. Quaternary Science Reviews, 107: 98-111.Corrigendum to “Hydroclimatic changes in China and surroundings during the Medieval Climate Anomaly and Little Ice Age: Spatial patterns and possible mechanisms” [Quaternary Science Reviews 107 (2015) 98–111]. Quaternary Science Reviews, 119: 157–158.SCI-1

9.Cheng,X.-W.,Cheng,Q.-F.,Deng,X.-Y.,Pu Wang,P.,Liu, H.-L., 2015.Construction of TiO2nano-tubes arrays coupled with Ag2Snano-crystallites photoelectrode and its enhanced visible lightphotocatalytic performance and mechanism.Electrochimica Acta,184:264–275.SCI-1

10.Cheng,X.-W.,Cheng,Q.-F.,Lie,B.,Deng,X.-Y.,Li,J.-J.,Wang,P.,Zhang,B.-Q.,Liu,H.-L.,Wang, X.-N., 2015.One-step construction of N/Ti3+ codoped TiO2 nanotubesphotoelectrode with high photoelectrochemical andphotoelectrocatalytic performance.Electrochimica Acta,186:442–448.SCI-1

11.Dong, G.-H., Zhang, D.-J., Liu, X.-Y., Liu, F.-W., Chen, F., Jones, M., 2015. Asian archaeology. Response to Comment on "Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 B.P.". Science,348(6237):872-872.SCI-1

12.Gao, L.-L., Gou, X.-H., Deng, Y., Yang, M.-X, Zhang, F., Li, J., 2015. Dendroclimatic reconstruction of temperature in the eastern Qilian Mountains, northwestern China. Climate Research,62(3):241-250.SCI-2

13.Geng H.-P., Pan, B.-T., Milledge, D.-G., Huang, B., Zhang, G.-L., 2015. Quantifying sheet wash erosion rates in a mountainous semi-arid basin using environmental radionuclides and a stream power model: Quantifying Sheet Erosion Using Radionuclide and Stream Power Model. Earth Surface Processes and Landforms,40(13):1814–1826.SCI-2

14.Gou, X.-H., Deng, Y., Gao, L.-L., Chen, F.-H., Yang, M.-X., Zhang. F., 2015. Millennium tree-ring reconstruction of drought variability in the eastern Qilian Mountains, northwest China. ClimateDynamics, 45(7-8): 1761–1770.SCI-1

15.Gou, X.-H, Gao, L.-L., Deng, Y., Chen, F.-H., Yang, M.-X., Still, C., 2015. An 850-year tree-ring-based reconstruction of drought history in the western Qilian Mountains of northwestern China. International Journalof Climatology,35(11):3308-3319.SCI-2

16.Guan, Q.-Y., Yang, J., Zhao, S.-L., Pan, B.-T., Liu, C.-L., Zhang, D., Wu, T., 2015. Climatological analysis of dust storms in the area surrounding the Tengger Desert during 1960-2007. Climate Dynamics,45(3-4):903-913.SCI-1

17.Guo, P., Meng, X.-M., Li, Y.-J., Chen, G., Zeng, R.-Q., Qiao, L., 2015. Effect of large dams and irrigation in the upper reaches of the Yellow River of China, and the geohazards burden. Proceedings of the Geologists Association,126(3):367-376.SCI-4

18.He, J.-H.,Ma, J.-Z.,Zhao, W., Sun, P., 2015.Groundwater evolution and recharge determination of the Quaternary aquifer in the Shule River basin, Northwest China.Hydrogeology Journal, 23(8):1745-1759.SCI-3

19.Hu, X.-F., Pan, B.-T., Kirby, E., Gao, H.-S., Hu, Z.-B., Cao, B., Geng, H.-P., Li, Q.-Y., and Zhang, G.-L., 2015, Rates and kinematics of active shortening along the eastern Qilian Shan, China, inferred from deformed fluvial terraces: Tectonics, 34(12):2478-2493.

20.Huang, W., Chen, J.-H., Zhang, X.-J., Feng, S., Chen, F.-H., 2015. Definition of the core zone of the "westerlies-dominated climatic regime", and its controlling factors during the instrumental period. Science China-Earth Sciences,58(5):676-684.SCI-4

21.Huang, W., Feng, S., Chen, J.-H., Chen, F.-H., 2015. Physical Mechanisms of Summer Precipitation Variations in the Tarim Basin in Northwestern China. Journal of Climate,28:3579-3591.SCI-1

22.Huang, X.-Z., Chen, C.-Z., Jia, W.-N., An, C.-B., Zhou, A.-F., Zhang, J.-W., Jin, M., Xia, D.-S., Chen, F.-H., Grimm, E.C., 2015. Vegetation and climate history reconstructed from an alpine lake in central Tienshan Mountains since 8.5 ka BP. Palaeogeography Palaeoclimatology Palaeoecology,432:36-48.SCI-3

23.Jin,M., Li, G.-Q., Li, F.-L., Duan Y.-W., Wen, L.-J., Wei, H.-T., Yang, L.-P., Fan, Y.-X., Chen, F.-H., 2015. Holocene shorelines and lake evolution in Juyanze Basin, southern Mongolian Plateau, revealed by luminescence dating. Holocene,25(12):1898-1911.SCI-2

24.Jin, X., Zhang, L.-H., Gu, J., Zhao, C., Tian, J., He, C.-S., 2015. Modelling the impacts of spatial heterogeneity in soil hydraulic properties on hydrological process in the upper reach of the Heihe River in the Qilian Mountains, Northwest China. Hydrological Processes,29, 3318-3327.SCI-3

25.Li, C.-B., Qi, J.-G., Yang, L.-S., Wang, S.-B., Yang,L.-S., Zou, S.-B.,Zhu, G.-F., Yang, W.-J.,2015.Spatiotemporal characteristics of alpine snow and ice melt under achanging regional climate: A case study in Northwest China.Quaternary International, 358: 126-136.SCI-3

26.Li, C.-B., Zhang, X.-L., Qi, J.-G., Wang, S.-B., Yang, L.-S., Yang, W.-J., Zhu, G.-F., Hao, Q.,2015.A case study of regional eco-hydrological characteristics in the Tao River Basin, northwestern China, based on evapotranspiration estimated by a coupled Budyko Equation-crop coefficient approach,Science China-earth Sciences, 58(11):2103-2112.SCI-4

27.Li, G.-H., Xia, D.-S., Jin, M., Jia, J., Liu, J.-B, Zhao, S., Wen, Y.-L., 2015. Magnetic characteristics of loess-paleosol sequences in Tacheng, northwestern China, and their paleoenvironmental implications. Quaternary International,372:87-96.SCI-3

28.Li, G.-H.,Xia, D.-S., Jia, J., Zhao,S., Gao, F.-Y., Wang, Y.-J., Lu,H. and Chen, F.-H., 2015.Magnetic properties derived from a loess section at the northern piedmont of Tianshan Mountains, Xinjiang, China, and their paleoenvironmental significance, Geophysical Journal International, 203:828-839.SCI-2

29.Li, G.-Q.,Wen, L.-J.,Xia, D.-S.,Duan, Y.-W.,Rao, Z.-G.,Madsen, D.-B.,Wei, H.-T.,Li, F.-L.,Jia, J.,Chen, F.-H., 2015. Quartz OSL and K-feldspar pIRIR dating of a loess/paleosol sequence from arid central Asia, Tianshan Mountains,NW China. Quaternary Geochronology, 28: 40-53.SCI-2

30.Li, G.-Q.,Jin, M.,Duan, Y.-W.,Madsen, D.-B.,Li, F.-L., Yang, L.-P.,Wei, H.-T.,Chen, F.-H., 2015. Quartz and K-feldspar luminescence dating of a Marine Isotope Stage 5 megalake in the Juyanze Basin, central Gobi Desert, China. PalaeogeographyPalaeoclimatologyPalaeoecology, 440: 96-109.SCI-3

31.Li, G.-Q.,Jin, M., Chen, X.-W., Wen, L.-J., Zhang, J.-W.,Madsen, D.-B., Zhao, H., Wang, X., Fan, T.-L.,Duan, Y.-W., Liu, X.-K., Wu, D.,Li, F.-L.,Chen, F.-H., 2015. Environmental changes in the Ulan Buh Desert, southern Inner Mongolia, China since the middle Pleistocene based on sedimentology, chronology and proxy indexes. Quaternary Science Reviews, 128: 69–80.SCI-1

32.Li, H., An, C.-B., Fan, W.-J., Dong, W.-M., Zhao, Y.-T., Wang, H.-P., 2015. Population history and its relationship with climate change on the Chinese Loess Plateau during the past 10,000years. Holocene,25(7):1144-1152.SCI-2

33.Li, J.-J., Zhou, S.-Z., Zhao, Z.-J., Zhang, J., 2015.The Qingzang movement: The major uplift of the Qinghai-Tibetan Plateau.Science China-earth Sciences, 58(11): 2113-2122.SCI-4

34.Liu, J.-B.,Chen, J.-H.,Zhang, X.-J.,Li, Y.,Rao, Z.-G.,Chen, F.-H., 2015.Holocene East Asian summer monsoon records in northern China and their inconsistency with Chinese stalagmite delta O-18records. Earth-Science Reviews, 148: 194-208.SCI-1

35.Liu, S.-P., Li, J.-J., Stockli, D.-F., Song, C.-H., Nie, J.-S., Peng, T.-J., Wang, X.-X., He, K., Hui, Z.-C., Zhang, J., 2015. Late Tertiary reorganizations of deformation in northeastern Tibet constrained by stratigraphy and provenance data from eastern Longzhong Basin. Journalof Geophysical Research-Solid Earth,120(8):5804-5821.SCI-2

36.Liu, W.-H., Gou, X.-H., Li, J.-B., Huo, Y.-X., Fang, K.-Y., 2015. A method to separate temperature and precipitation signals encoded in tree-ring widths for the western Tien Shan Mountains, northwest China. Global and Planetary Change, 133: 141–148.SCI-3

37.Liu, X.-K., Rao, Z.-G., Zhang, X.-J., Huang, W., Chen, J.-H., Chen, F.-H., 2015. Variations in the oxygen isotopic composition of precipitation in the Tianshan Mountains region and their significance for the Westerly circulation. Journal of Geographical Sciences,25(7):801-816.SCI-4

38.Ma, M.-M.,Dong, G.-H., Liu X., Lightfoot, E., Chen, F.-H., Wang, H., Li, H., Jones, M.-K., 2015.Stable isotope analysis of human and faunal remains at Qijiaping site in middle Gansu, China.International Journal of Osteoarchaeology,25(6):925-934.SSCI

39.Mu, C.-C., Zhang, T.-J., Wu, Q.-B., Cao.-B., Zhang, X.-K., Peng, X.-Q., Wan, X.-D., Zheng, L., Wang, Q.-F., Cheng, G.-D., 2015. Carbon and nitrogen properties of permafrost over the Eboling Mountain in the upper reach of Heihe River basin, Northwestern China. Arctic Antarctic and Alpine Research,47(2):203-211.SCI-3

40.Nie, J.-S., Stevens, T., Rittner, M., Stockli D., Garzanti E., Limonta M., Bird A., Andò, S., Vermeesch, P., Saylor J., Lu H.-Y., Breecker D., Hu X.-F., Liu, S.-P., Resentini A., Vezzoli G., Peng W.-B., Carter A., Ji S.-C., Pan B.-T., 2015. Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment. Nature Communications, 6: 8511.SCI-1

41.Pan, B.-T., Li, Q., Hu, X.-F., Geng, H.-P., Gao, H.-S., 2015. Bedrock channels response to differential rock uplift in eastern Qilian Mountain along the northeastern margin of the Tibetan Plateau. Journal of Asian Earth Sciences,100:1-19.SCI-2

42.Pan, B.-T., Pang, H.-L., Zhang, D., Guan, Q.-Y., Wang, L., Li, F.-Q., Guan, W.-Q., Cai, A., Sun, X.-Z., 2015. Sediment grain-size characteristics and its source implication in the Ningxia-Inner Mongolia sections on the upper reaches of the Yellow River. Geomorphology,246, 255-262.SCI-2

43.Pan, B.T., Guan, Q.Y., Liu, Z.B., Gao, H.S., 2015. Analysis of channel evolution characteristics in the Hobq Desert reach of the Yellow River (1962-2000). Global and Planetary Change,135:148-158.SCI-3

44.Rao, Z.-G., Guo, W.-K., Xie, L.-H., Huang, C., Liu, X.-K., Hua, H., Chen, F.-H., 2015. High resolution delta C-13(TOC) and magnetic susceptibility data from the late Early Pleistocene southern margins of the Chinese Loess Plateau. Organic Geochemistry,87:78-85.SCI-2

45.Rao, Z.-G., Liu, X.-K., Hua, H., Gao, Y.-L., Chen, F.-H.,2015.Evolving history of the East Asian summer monsoon intensity during the MIS5: inconsistent records from Chinese stalagmites and loess deposits.Environmental Earth Sciences,73(7):3937-3950.SCI-4

46.Ren, L.-L., Wang, Y.-R., Li, G.-Q., Li, Q.-L., Ma, Z.-T., Dong, G.-H., 2015.Discovery of a tiger (Panthera tigris (L.)) skeleton from the Little IceAge buried on the shore of Qinghai Lake, northeast Tibet Plateau.Quaternary International, 355:145-152.SCI-3

47.Wang, F.,Sun, D.-H.,Chen, F.-H.,Bloemendal, J.,Guo, F.,Li, Z.-J.,Zhang, Y.-B.,Li, B.-F.,Wang, X., 2015.Formation and evolution of the Badain Jaran Desert, NorthChina, as revealed by a drill core from the desert centre and by geological survey.Palaeogeography Palaeoclimatology Palaeoecology, 426:139-158.SCI-3

48.Wang, J.,Cui, H.,Harbor, J.-M.,Zheng, L.-M.,Yao, P.,2015.Mid-MIS3climate inferred from reconstructing the Dalijia Shan ice cap, north-eastern Tibetan Plateau.Journal of Quaternary Science, 30(6):558-568. SCI-2

49.Wang, K., Zhang, T., Zhong, X.,2015.Changes in the timing and duration of the near-surface soil freeze/thaw status from 1956 to 2006 across China.Cryosphere, 9(3):1321-1331. SCI-2

50.Wu, D., Zhou, A.-F., Liu, J.-B., Chen, X.-M., Wei, H.-T., Sun, H.-L.,Chen, F.-H.,2015. Changing intensity of human activity over the last 2,000 years recorded by the magnetic characteristics of sediments from Xingyun Lake, Yunnan, China. Journal of Paleolimnology, 53(1):47-60.SCI-3

51.Wu, D., Zhou, A.F., Chen, X.M., Yu, J.Q., Zhang, J.W., Sun, H.L., 2015. Hydrological and ecosystem response to abrupt changes in the Indian monsoon during the last glacial, as recorded by sediments from Xingyun Lake, Yunnan, China. Palaeogeography Palaeoclimatology Palaeoecology, 421: 15-23.SCI-3

52.Yang,Y.-C.,Zhang,D.-L.,Meng,Q.-M.,McCarn, C.,2015.Urban Residential Land Use Reconstruction under Dual-Track Mechanism of Market Socialism in China: A Case Study of Chengdu.Sustainability, 7:16849-16865.SCI-4 SSCI

53.Zhang,B.-Q.,He,C.-S.,Burnham,M.,Zhang,L.-H., 2015. Evaluating the coupling effects of climate aridity and vegetationrestoration on soil erosion over the Loess Plateau in China. Science of the Total Environment,539:436–449.SCI-2

54.Zhang, G.-L., Pan, B.-T., Cao, B., Wang, J., Cui, H., Cao, X.-L., 2015. Elevation changes measured during 1966-2010 on the monsoonal temperate glaciers' ablation region, Gongga Mountains, China. Quaternary International,371:49-57.SCI-3

55.Zhang, L.-H., Wang, S.-G., He, C.-S., Shang, K.-Z., Meng, L., Li, X., Lofgren, B.-M., 2014.A new method for instant correction of numerical weatherprediction products in China. Science China-Earth Science, 58(2):231-244.SCI-4

56.Zhang, P., Ma, J.-.Z., Shu, H.-P., Han, T., Zhang, Y.-L., 2015. Simulating debris flow deposition using a two-dimensional finite model and Soil Conservation Service-curve number approach for Hanlin gully of southern Gansu (China). Environmental Earth Sciences,73(10):6417-6426.SCI-4

57.Zhang, T.-J., Wang, N.-L., 2015. Introduction-Changing cryosphere under a warming climate. Arctic Antarctic and Alpine Research,47(2):191-193.SCI-3

58.Zhang, X.-J., Jin, L.-Y., Li, N., 2015. Asynchronous variation in the East Asian winter monsoon during the Holocene. Journal of Geophysical Research-Atmospheres,120(11):5357-5370.SCI-2

59.Zhao, S.,Gao, F.-Y., Jia, J., Li, G.-H., Xia, D.-S., Jin, H.-L.,2015.Magnetic properties of eolian sand sediments in the Mu Us Desert and their paleoenvironmental significance.Chinese Journal of Geophysics-Chinese Edition, 58(10):3706-3718.SCI-4

60.Zhao, Y.-T., An, C.-B., Mao, L.-M., Zhao, J.-J., Tang, L.-Y., Zhou, A.-F., Li, H., Dong, W.-M., Duan, F.-T., Chen, F.-H., 2015. Vegetation and climate history in arid western China during MIS2: New insights from pollen and grain-size data of the Balikun Lake, eastern Tien Shan. Quaternary Science Reviews, 126: 112–125.SCI-1

61.Zhou, A.-F., He, Y.-X., Wu, D., Zhang, X.-N., Zhang, C., Liu, Z.-H., Yu, J.-Q., 2015. Changes in the Radiocarbon Reservoir Age in Lake Xingyun, Southwestern China during the Holocene. Plos One,10(3):e0121532.SCI-3

62.Chen, F.,Yuan, Y.-J.,Yu, S.-L.,Zhang, T.-W.,Shang, H.-M.,Zhang, R.-B.,Qin, L.,Fan, Z.-A., 2015.A 225-year long drought reconstruction for east Xinjiang based on Siberia larch (Larix sibirica) tree-ring widths: Reveals the recent dry trend of the eastern end of Tien Shan. Quaternary International, 358: 42-47.SCI-3

63.Chen, F., Yuan, Y.-J., Wei, W.-S., Yu, S.-L., Wang, H.-Q., 2015. Tree-ring response of subtropical tree species in southeast China on regional climate and sea-surface temperature variations. Trees-Structure and Function,29(1):17-24.SCI-2

64.Chen, F.,Yuan, Y.-J.,Wei, W.-S.,Zhang, T.-W.,Shang, H.-M.,Fan, Z.-A.,Yu, S.-L.,Zhang, R.-B.,Qin, L.,Wang, H.-Q., 2015.Precipitation-temperature Interactions in the west Altay Mountains inferred from tree rings of siberian larch. Iawa Journal,36(2):242-253. SCI-4

65.Chen, J.-S.,Kravchinsky, V.-A.,Liu, X.-M., 2015.The 13 million year Cenozoic pulse of the Earth.Earth and Planetary Science letters,431:256-263. SCI-1-三单位

66.Fan, Y.-X, Chen, X.-L., Liu, W.-H., Zhang, F., Zhang, F., 2015. Formation of present desert landscape surrounding Jilantai Salt Lake in northern China based on OSL dating. Frontiers of Earth Science,9(3):497-508.SCI-4-

67.Hou, Z.-F.,Li, J.-J.,Song, C.-H.,Meng, J.-J.,Zhang, J., 2015.Late-Miocene palaeoecological evolution of the Tianshui Basin, NE Tibetan Plateau: Evidence from stable organic carbon isotope record. Journal of Asian Earth Sciences, 98:296-303.SCI-2

68.Li, Z.-X., Feng, Q., Guo, X.-Y., Gao, Y., Pan, Y.-H., Wang, T.-T., Li, J.-G., Guo, R., Jia, B., Song, Y.-X., Han, C.-T., 2015. The evolution and environmental significance of glaciochemistry during the ablation period in the north of Tibetan Plateau, China. Quaternary International,374:93-109.SCI-3

69.Liu, B., Jin, H.-L., Sun, L.-Y., Sun, Z.,Zhao, S.,2015.Geochemical evidence for Holocene millennial-scale climatic and environmental changes in the south-eastern Mu Us Desert, northern China.International Journal of Earth Sciences,104(7):1889-1900. SCI-3

70.Lv, Y.-B.,An, C.-B.,Zhao, J.-J., 2015.An isotopic study on water system of Lake Barkol and its implication for Holocene climate dynamics in arid central Asia. Environmental Earth Sciences, 73(3): 1377-1383.SCI-4

71.Qin, S.-S.,Liu, F.,Wang, C.,Song, Y.-L.,Qu, J.-S., 2015.Spatial-temporal analysis and projection of extreme particulate matter (PM10 and PM2.5) levels using association rules: A case study of the Jing-Jin-Jiregion, China,Atmospheric Environment, 120:339-350.SCI-2

72.Wang, B., Xia, D.-S., Yu, Y., Jia, J., Nie, Y., Wang, X., 2015.Detecting the sensitivity of magnetic response on different pollution sources-A case study from typical mining cities in northwestern China. Environmental Pollution, 207: 288–298.

73.Zhang, B.-Q., Zhao, X.-N., Jin, J.-M., Wu, P.-T., 2015. Development and evaluation of a physically based multiscalar drought index: The Standardized Moisture Anomaly Index, Journal ofGeophysicalResearch:Atmosphere,11:575-588.SCI-2

74.Zhang, R.-B., Yuan, Y.-J., Wei, W.-S., Gou, X.-H., Yu, S.-L., Shang, H.-M., Chen, F., Zhang, T.-W., Qin, L., 2015. Dendroclimatic reconstruction of autumn-winter mean minimum temperature in the eastern Tibetan Plateau since 1600 AD. Dendrochronologia,33:1-7.SCI-3

75.An, X.-Q.,Tao, Y.,Mi, S.-Q.,Sun, Z.-B.,Hou, Q., 2015.Association between PK10 and Respiratory Hospital Admissions in Different Seasons in Heavily Polluted Lanzhou City. Journal of Environmental Health, 77(6 SI): 64-71.

76.Bidleman, T.-F., Jantunen, L.-M., Hung, H., Ma, J., Stern, G.-A., Rosenberg, B., Racine, J., 2015. Annual cycles of organochlorine pesticide enantiomers in Arctic air suggest changing sources and pathways. Atmospheric Chemistry and Physics, 15(3):1411-1420.

77.Bird, A., Stevens, T., Rittner, M., Vermeesch, P., Carter, A., Ando, S., Garzanti, E., Lu, H.-Y., Nie, J.-S., Zeng, L., Zhang, H.-Z., Xu, Z.-W., 2015. Quaternary dust source variation across the Chinese Loess Plateau. Palaeogeography Palaeoclimatology Palaeoecology,435:254-264.

78.Carrapa, B., DeCelles, P.-G., Wang, X., Clementz, M.-T., Mancin, N., Stoica, M., Kraatz, B., Meng, J., Abdulov, S., Chen, F., 2015. Tectono-climatic implications of Eocene Paratethys regression in the Tajik basin of central Asia. Earth and Planetary Science Letters,424:168-178.

79.Chen, X.-J., Jin, S.-Q., Qin, S.-S., Li, L.-P.,2015.Short-Term Wind Speed Forecasting Study and Its Application Using a Hybrid Model Optimized by Cuckoo Search.Mathematical Problems in Engineering,608597.

80.Chu,C.-J.,Bartlett, M.,Wang,Y.-S.,He,F.-L.,Weiner, J.,Chave, J.,Sack, L.,2016.Does climate directly influence NPP globally?Global Change Biology,22:12–24,

81.Dallmeyer, A., Claussen, M., Fischer, N., Haberkorn, K., Wagner, S., Pfeiffer, M., Jin, L., Khon, V., Wang, Y., Herzschuh, U., 2015. The evolution of sub-monsoon systems in the Afro-Asian monsoon region during the Holocene-comparison of different transient climate model simulations. Climate of the Past,11(2):305-326.

82.Deng, Q.-C.,Qin, F.-C.,Zhang, B.,Wang, H.-P.,Luo, M.-L.,Shu, C.-Q.,Liu, H.,Liu, G.-C., 2015.Characterizing the morphology of gully cross-sections based on PCA: A case of Yuanmou Dry-Hot Valley. Geomorphology, 228: 703-713.

83.Fang, K.-Y., Chen, D., Gou, X.-H., D'Arrigo, R., Davi, N., 2015. Influence of non-climatic factors on the relationships between tree growth and climate over the Chinese Loess Plateau. Global and Planetary Change, 132, 54-63.

84.Fang, X.-M., Zan, J.-B., Appel, E., Lu, Y., Song, C.-H., Dai, S., Tuo, S.-B., 2015. An Eocene-Miocene continuous rock magnetic record from the sediments in the Xining Basin, NW China: indication for Cenozoic persistent drying driven by global cooling and Tibetan Plateau uplift. Geophysical Journal International,201(1):78-89.

85.Fang, X.-Q., Chen, F.-H., 2015. Plant phenology and climate change (vol 58, pg 1043, 2015). Science China-Earth Sciences, 58, 1043-1044.

86.Gusmeroli, A., Liu, L., Schaefer, K., Zhang, T.-J., Schaefer, T., Grosse, G., 2015. Active layer stratigraphy and organic layer thickness at a thermokarst site in Arctic Alaska identified using ground penetrating radar. Arctic Antarctic and Alpine Research,47(2):195-202.

87.Jian, S.-Q., Zhao, C.-Y., Fang, S.-M., Yu, K., 2015. The distribution of fine root length density for six artificial afforestation tree species in Loess Plateau of Northwest China. Forest Systems,24(1):e003.

88.Jian, S.-Q., Zhao, C.-Y., Fang, S.-M., Yu, K., 2015. Effects of different vegetation restoration on soil water storage and water balance in the Chinese Loess Plateau. Agricultural and Forest Meteorology,206:85-96.

89.Jian, S.-Q., Zhao, C.-Y., Fang, S.-M., Yu, K., 2015. Evaluation of water use of Caragana korshinskii and Hippophae rhamnoides in the Chinese Loess Plateau. Canadian Journal of Forest Research,45(1):15-25.

90.Jiang, D.-B., Yu, G., Zhao, P., Chen, X., Liu, J., Liu, X.-D., Wang, S.-W., Zhang, Z.-S., Yu, Y.-Q., Li, Y.-F., Jin, L.-Y., Xu, Y., Ju, L.-X., Zhou, T.-J., Yan, X.-D., 2015. Paleoclimate Modeling in China: A Review. Advances in Atmospheric Sciences,32(2):250-275.

91.Jiang, P., Qin, S.-S., Wu, J.,Sun, B.-B.,2015.Time Series Analysis and Forecasting for Wind Speeds Using Support Vector Regression Coupled with Artificial Intelligent Algorithms.Mathematical Problems in Engineering,939305.

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