Research

Research > 正文

SCI papers published in 2016

2017/05/09

1.Chang, G.-Y.,Wang, L.,Meng, L.-Y.,Zhang, W.-X., 2016.Farmers' attitudes toward mandatory water-saving policies: A case study in two basins in northwest China. Journal of Environmental Management, 181:455-464.

2.Chen, F.-H.,Jia, J.,Chen, J.-H.,Li, G.-Q.,Zhang, X.-J.,Xie, H.-C.,Xia, D.-S.,Huang, W.,An, C.-B., 2016.A persistent Holocene wetting trend in arid central Asia, with wettest conditions in the late Holocene, revealed by multi-proxy analyses of loess-paleosol sequences in Xinjiang, China. Quaternary Science Reviews, 146:134-146.SCI-1

3.Chen, F.-H., Wu, D., Chen, J.-H., Zhou, A.-F., Yu, J.-Q., Shen, J., Wang, S.-M., Huang, X.-Z., 2016. Holocene moisture and East Asian summer monsoon evolution in the northeastern Tibetan Plateau recorded by Lake Qinghai and its environs: A review of conflicting proxies. Quaternary Science Reviews 154, 111-129.SCI-1

4.Chen, J.-H., Rao, Z.-G., Liu, J.-B., Huang, W., Feng, S., Dong, G.-H., Hu, Y., Xu, Q.-H.,Chen, F.-H., 2016. On the timing of the East Asian summer monsoon maximum during the Holocene - Does the speleothem oxygen isotope record reflect monsoon rainfall variability? Science China Earth Sciences 59 (12):2328-2338.SCI-3

5.Chen, J.-S.,Liu, X.-M., 2016.A connection between geomagnetic intensity and climatic anomalies recorded in Chinese loess. Quaternary International, 399:151-155.SCI-3

6.Cui, Y.-Q.,Meng, Q.,Deng, X.-Y.,Ma,Q.-L.,Zhang, H.-X.,Cheng, X.-W.,Li,X.-L.,Xie,M.-Z.,Cheng, Q.-F., 2016.Fabrication of platinum nano-crystallites decorated TiO2 nano-tubearray photoelectrode and its enhanced photoelectrocatlyticperformance for degradation of aspirin and mechanism.Journal of Industrial and Engineering Chemistry,43:177–184.SCI-2

7.Dai, S.,Zhu, Q.,Huang, Y.-B.,Da Silva, A.-C.,Zhao, J.,Liu, J.-W.,Kong, L.,Peng, D.-X.,Luo, L.-L., Yan, N.-Y., Wang, W.-J., Zhang, X., 2016.Early Cretaceous Climate Changes Recorded in Magnetic Susceptibility and Color Index Variations of the Lower Liupanshan Group, Central China. Acta Geologica Sinica-English Edition, 90(3):1011-1023.SCI-3

8.Deng, Y.,Gou, X.-H.,Gao, L.-L.,Zhang, F.,Xu, X.-Y.,Yang, M.-X., 2016.Tree-ring recorded drought variability in the northern Min Mountains of northwestern China.International Journal of Climatology,36: 3550–3560.

9.Ding, W.-G., Yu, H.-L., Zhao, C.,Xu,H.,Chen, L.-Z.,Xu, L, 2016.Impacts of historical socio-economic development policies on eco-environment in great Dunhuang region of China. Environmental Science and Policy, 55: 258-265.SCI-2

10.Dong, G.-H.,Liu, H.-G.,Yang, Y.-S.,Yang, Y.,Zhou, A.-F.,Wang, Z.-X.,Ren, X.-Y.,Chen, F.-H., 2016.Emergence of ancient cities in relation to geopolitical circumstances and climate change during late Holocene in northeastern Tibetan Plateau, China. Frontiers of Earth Science, 10(4): 669-682.SCI-4

11.Dong, G.-H., Ren, L.-L., Jia, X., Liu, X.-Y., Dong, S.-M., Li, H.-M.,Wang, Z.-X., Xiao, Y.-M., Chen, F.-H., 2016. Chronology and subsistence strategy of Nuomuhong Culture in the Tibetan Plateau. Quaternary International,426:42-49.SCI-3

12.Dong, W.-M., An, C.-B., Fan, W.-J., Li, H., Zhao, X.-Y., 2016.Stable isotopic detection of manual intervention among the faunal assemblage from a Majiayao site in NW China. Radiocarbon, 58(2):311-321.SCI-2

13.Gao, H.-S., Li, Z.-M., Pan, B.-T., Liu, F.-L., Liu, X.-P., 2016.Fluvial responses to late Quaternary climate change in the Shiyang River drainage system, western China. Geomorphology, 258: 82-94.SCI-2

14.Gao,H.-S., Li,Z.-M., Ji,Y.-P., Pan,B.-T., Liu,X.-F. 2016. Climatic and tectonic controls on strath terraces along the upper Weihe River in central China. QuaternaryResearch, 86: 326–334SCI-3

15.Gao, T.-G.,Zhang, T.-J.,Cao, L.,Kang, S.-C.,Sillanpaa, M., 2016.Reduced winter runoff in a mountainous permafrost region in the northern Tibetan Plateau. Cold Regions Science and Technology, 126:36-43.SCI-3

16.Guan, Q.-Y., Wang, L., Pan, B.-T.,Guan, W.-Q.,Sun, X.-Z.,Cai, A.,2016.Distribution features and controls of heavy metals in surface sediments from the riverbed of the Ningxia-Inner Mongolian reaches, Yellow River, China. Chemosphere, 144: 29-42.SCI-2

17.Guan, Q.-Y.,Wang, L.,Wang, F.-F.,Pan, B.-T.,Song, N.,Li, F.-C.,Lu, M., 2016.Phosphorus in the catchment of high sediment load river: A case of the Yellow River, China. Science of the Total Environment, 572: 660-670.SCI-2

18.Guan, Q.-Y.,Cai, A.,Wang, F.-F.,Wang, L.,Wu, T.,Pan, B.-T.,Song, N.,Li, F.-C., Lu, M., 2016.Heavy metals in the riverbed surface sediment of the YellowRiver, China.EnvironmentalScience andPollutionResearch,23(24):24768–24780.SCI-3

19.Hu, Z.-B., Pan, B.-T., Guo, L.-Y.,Vandenberghe,J.,Liu, X.-P.,Wang,J.-P.,Fan,Y.-L.,Mao, J.-W.,Gao,H.-S.,Hu,X.-F., 2016.Rapid fluvial incision and headward erosion by the Yellow River along the Jinshaan gorge during the past 1.2 Ma as a result of tectonic extension. Quaternary Science Reviews. 133:1-14.SCI-1

20.Jia, J.,Xia, D.-S.,Wang, Y.-J.,Wang, B.,Lu, H.,Zhao, S., 2016.East Asian monsoon evolution during the Eemian, as recorded in the western Chinese Loess Plateau. Quaternary International, 399:156-164.SCI-3

21.Jiang, Y.-W., Zhang,L.-H., Zhang, B.-Q., He, C.-S., Jin, X., Zhang, X.-F.,2016. Modeling Irrigation Management for Water Conservation by DSSAT Model in arid Northwestern China. Agricultural Water Management,77:37-45SCI-2

22.Jin, L.-Y.,Zhang, X.-J.,Leduc, G., 2016.Reply to comment by Rashid et al. on "Asynchronous variation in the East Asian winter monsoon during the Holocene".Journal of Geophysical Research-Atmospheres, 121(4):1615-1620.SCI-2

23.Li, B.-F., Sun, D.-H., Wang, X., Zhang, Y.-B., Hu, W.-W., Wang, F., Li, Z.-J., Ma, Z.-W., Liang, B.-Q., 2016.delta O-18 and delta C-13 records from a Cenozoic sedimentary sequence in the Lanzhou Basin, Northwestern China: Implications for palaeoenvironmental and palaeoecological changes. Journal of Asian Earth Sciences, 125: 22-36.SCI-2

24.Li, G.-Q.,Rao, Z.-G.,Duan, Y.-W.,Xia, D.-S.,Wang, L.-B.,Madsen, D.-B.,Jia, J.,Wei, H.-T.,Qiang, M.-R., Chen, J.-H., Chen, F.-H., 2016.Paleoenvironmental changes recorded in a luminescence dated loess/paleosol sequence from the Tianshan Mountains, arid central Asia, since the Penultimate Glaciation. Earth and Planetary Science Letters, 448:1-12.SCI-1

25.Li, H.-M.,Zuo, X.-X.,Kang, L.-H.,Ren, L.-L.,Liu, F.-W.,Liu, H.-G.,Zhang, N.-M.,Min, R.,Liu, X.,Dong, G.-H., 2016.Prehistoric agriculture development in the Yunnan-Guizhou Plateau, southwest China:Archaeobotanical evidence. Science China-Earth Sciences, 59(8):1562-1573.SCI-3

26.Li, X.-G.,Wei, X.,Wei, N., 2016.Correlating check dam sedimentation and rainstorm characteristics on the Loess Plateau, China. Geomorphology, 265:84-97.SCI-2

27.Li, Y.,Xu, L.-M., 2016.Asynchronous Holocene Asian monsoon vapor transport and precipitation.PalaeogeographyPalaeoclimatologyPalaeoecology, 461:195-200.SCI-3

28.Li, Y.,Zhang, C.-Q.,Wang, Y., 2016.The verification of millennial-scale monsoon water vapor transport channel in northwest China.Journalof Hydrology, 536:273-283.SCI-2

29.Liu, J.,Li, J.-J.,Song, C.-H., 2016.Palynological evidence for late Miocene stepwise aridification on the northeastern Tibetan Plateau. Climate of the Past, 12(7):1473-1484.SCI-2

30.Ma, H.-Y., 2016.Major ion chemistry of groundwater in the Sangong River Watershed, Northwestern China.Environmental Earth Sciences,75:487.

31.Mu, C.-C.,Zhang, T.-J.,Zhang, X.,Cao, B.,Peng, X.-Q., 2016.Sensitivity of soil organic matter decomposition to temperature at different depths in permafrost regions on the northern Qinghai-Tibet Plateau. European Journal of Soil Science, 37(6): 773-781.SCI-1

32.Mu, C.-C.,Zhang, T.-J.,Zhao, Q.,Guo, H.,Zhong, W.,Su, H.,Wu, Q.-B., 2016.Soil organic carbon stabilization by iron in permafrost regions of the Qinghai-Tibet Plateau. Geophysical Research Letters, 43(19): 10286-10294.SCI-1

33.Mu, C.-C.,Zhang, T.-J.,Zhang, X.-K.,Cao, B.,Peng, X.-Q.,Cao, L.,Su, H., 2016.Pedogenesis and physicochemical parameters influencing soil carbon and nitrogen of alpine meadows in permafrost regions in the northeastern Qinghai-Tibetan Plateau. Catena, 141:85-91.SCI-3

34.Mu, C.-C.,Zhang, T.-J.,Zhang, X.-K.,Li, L.-L.,Guo, H.,Zhao, Q.,Cao, L.,Wu, Q.-B.,Cheng, G.-D., 2016.Carbon loss and chemical changes from permafrost collapse in the northern Tibetan Plateau. Journal of Geophysical Research-Biogeosciences, 121(7):1781-1791.SCI-2

35.Niu, S.-W., Jia, Y.-Q., Ye, L.-Q.,Dai, R.-Q.,Li,N., 2016.Does electricity consumption improve residential living status in less developed regions? An empirical analysis using the quantile regression approach. Energy, 95: 550-560.SCI-1

36.Niu, S.-W.,Liu, Y.-Y.,Ding, Y.-X.,Qu, W., 2016.China's energy systems transformation and emissions peak. Renewable&Sustainable Energy Reviews, 58:782-795.SCI-1

37.Pan, B.-T., Chen, D.-B., Hu, X.-F., Cao, X.-L., Chen, J.-J., Mao, J.-W.,2016. Drainage evolution of the heihe river in western hexi corridor, china, derived from sedimentary and magnetostratigraphic results. Quaternary Science Reviews, 150, 250-263.SCI-1

38.Pan, B.T., Pang, H.-L., Gao, H.-S., Garzanti, E., Zou, Y., Liu, X.-P.,Li, F.-Q., Jia, Y.-X.,2016. Heavy-mineral analysis and provenance of yellow river sediments around the china loess plateau. Journal of Asian Earth Sciences, 127, 1-11.SCI-2

39.Pang, J.-X.,Chen, X.-P.,Zhang, Z.-L.,Li, H.-J., 2016.Measuring Eco-Efficiency of Agriculture in China. Sustainability, 8(4):398.SCI-4

40.Peng, T.-J.,Li, J.-J.,Song, C.-H.,Guo, B.-H.,Liu, J.,Zhao, Z.-J.,Zhang, J., 2016.An integrated biomarker perspective on Neogene-Quaternary climatic evolution in NE Tibetan Plateau: Implications for the Asian aridification. Quaternary International, 399:174-182.SCI-3

41.Peng, W.-B.,Wang, Z.,Song, Y.-G.,Pfaff, K.,Luo, Z.,Nie, J.-S.,Chen, W.-H., 2016.A comparison of heavy mineral assemblage between the loess and the Red Clay sequences on the Chinese Loess Plateau. Aeolian Research, 21:87-91.SCI-3

42.Peng, X.-Q.,Zhang, T.-J.,Cao, B.,Wang, Q.-F.,Wang, K.,Shao, W.-W.,Guo, H., 2016.Changes in freezing-thawing index and soil freeze depth over the Heihe River Basin, western China. Arctic Antarctic and Alpine Research, 48(1):161-176

43.Peng,X.-Q., Frauenfeld, O.-W., Cao, B., Wang, K., Wang, H.-J.,Hang Su, H.,Huang, Z.,Yue, D.-X.,Zhang, T.-J., 2016. Response of changes in seasonal soil freeze/thaw state to climate change from 1950 to 2010 across china.Journal of Geophysical Research-earth Surface,121:1984–2000.

44.Qiang, M.-R., Jin, Y.-X., Liu, X.-X.,Song,L.,Li,H.,Li,F.-S.,Chen, F.-H., 2016.Late Pleistocene and Holocene aeolian sedimentation in Gonghe Basin, northeastern Qinghai-Tibetan Plateau: Variability, processes, and climatic implications. Quaternary Science Reviews, 132: 57-73.SCI-1

45.Rao, Z.-G.,Qiang, M.-R.,Jia, G.-D.,Li, Y.-X.,Dan, D.,Chen, F.-H., 2016.A 15 ka lake water delta D record from Genggahai Lake, northeastern Tibetan Plateau, and its paleoclimatic significance. Organic Geochemistry, 97:5-16.

46.Rao, Z.-G.,Jia, G.-D.,Li, Y.-X.,Chen, J.-H.,Xu, Q.-H.,Chen, F.-H., 2016.Asynchronous evolution of the isotopic composition and amount of precipitation in north China during the Holocene revealed by a record of compound-specific carbon and hydrogen isotopes of long-chain n-alkanes from an alpine lake. Earth and Planetary Science Letters, 446:68-76.SCI-1

47.Rao, Z.-G.,Li, Y.-X.,Zhang, J.-W., Jia, G.-D.,Chen, F.-H., 2016.Investigating the long-term palaeoclimatic controls on the delta D and delta O-18 of precipitation during the Holocene in the Indian and East Asian monsoonal regions. Earth-Science Reviews, 159:292-305.SCI-1

48.Sun, P.,Ma, J.-Z.,Qi, S.,Zhao, W.,Zhu, G.-F., 2016.The effects of a dry sand layer on groundwater recharge in extremelyarid areas: field study in the western Hexi Corridorof northwestern China.HydrogeologyJournal(2016) 24:1515–1529. SCI-3

49.Wang, H.-P., Brooks, S.-J., Chen, J.-H., Hu, Y., Wang, Z.-L., Liu, J.-B., Xu, Q.-H.,Chen, F.-H., 2016. Response of chironomid assemblages to East Asian summer monsoon precipitation variability in northern China since the last deglaciation. Journal of Quaternary Science 31 (8):967-982.SCI-2

50.Wang, X., Wei, H.-T., Taheri, M.,Khormali, F.,Danukalova,G.,Chen, F.-H., 2016.Early Pleistocene climate in western arid central Asia inferred from loess-palaeosol sequences. Scientific Reports, 6: e20560.SCI-2

51.Wang, X.,Kraatz, B.,Meng, J.,Carrapa, B.,Decelles, P.,Clementz, M.,Abdulov, S.,Chen, F.-H., 2016.Central Asian aridification during the late Eocene to early Miocene inferred from preliminary study of shallow marine-eolian sedimentary rocks from northeastern Tajik Basin. Science China-Earth Sciences, 59(6):1242-1257.SCI-3

52.Wang, X.-X., Song, C.-H., Zattin, M., 2016. Cenozoic pulsed deformation history of northeastern Tibetan Plateau reconstructed from fission-track thermochronology. Tectonophysics, 672-673: 212-227.SCI-2

53.Wang, X.-Y.,Yi, S.-H.,Wu, Q.-B.,Yang, K.,Ding, Y.-J., 2016.The role of permafrost and soil water in distribution of alpine grassland and its NDVI dynamics on the Qinghai-Tibetan Plateau.Global and Planetary Change, 147: 40-53.

54.Wang, Y.,Li, Y.,Zhang, C.-Q., 2016.Holocene millennial-scale erosion and deposition processes in the middle reaches of inland drainage basins, arid China.Environmental Earth Sciences,75:454.

55.Wei, G.-X., Zhu, X.-F., Yue, N., Fan, Y.-X., Dong, J., Dang, H.-H., 2016. Constraining the groundwater flow system and aquifer properties using major ions, environmental traces and a simple physical model in China's Jilantai Basin.Environmental Earth Sciences,75:459.

56.Wei, G.-X.,Rao, Z.-G.,Dong, J.,Yue, N.,Dang, H.-H.,Dong, Y., 2016.Late Quaternary climatic influences on megalake Jilantai-Hetao, North China, inferred from a water balance model. Journal of Paleolimnology, 55(3):223-240.SCI-3

57.Wei, X.,Li, X.-G.,Wei, N., 2016.Fractal features of soil particle size distribution in layered sediments behind two check dams: Implications for the Loess Plateau, China. Geomorphology, 266:133-145.SCI-2

58.Xie, Y.-C.,Gong, J., Sun, P., Gou, X.-H., Xie, Y.-W., 2016.Impacts of major vehicular roads on urban landscape and urban growth in an arid region: A case study of Jiuquan city in Gansu Province, China. Journal of Arid Environments, 127: 235-244.SCI-4

59.Wu, D., Chen, F.-H., Li, K., Xie, Y.-W., Zhang, J.-W., Zhou, A.-F., 2016.Effects of climate change and human activity on lake shrinkage in Gonghe Basin of northeastern Tibetan Plateau during the past 60 years. Journal of Arid Land,8(4): 479-491.SCI-4

60.Xue, Y.-T.,Meng, X.-M.,Wasowsk, J.,Chen, G.,Li, K.,Guo, P.,Bovenga, F.,Zeng, R.-Q., 2016.Spatial analysis of surface deformation distribution detected by persistent scatterer interferometry in Lanzhou Region, China.Environmental Earth Sciences, 75(1):1866-6280.

61.Yu, S.-Y.,Colman, S.-M.,Li, L.-X., 2016.BEMMA: A Hierarchical Bayesian End-Member Modeling Analysis of Sediment Grain-Size Distributions. Mathematical Geosciences, 48(6):723-741.SCI-3

62.Zeng, R.-Q.,Meng, X.-M.,Zhang, F.-Y.,Wang, S.-Y.,Cui, Z.-J.,Zhang, M.-S.,Zhang, Y.,Chen, G., 2016.Characterizing hydrological processes on loess slopes using electrical resistivity tomography - A case study of the Heifangtai Terrace, Northwest China. Journal of Hydrology, 541:742-753.SCI-2

63.Zhang, B.-Q., He, C.-S., Burnham, M., Zhang, L.-H., 2016.Evaluating the coupling effects of climate aridity and vegetation restoration on soil erosion over the Loess Plateau in China. Science of the Total Environment, 539: 436-449.SCI-2

64.Zhang,B.-Q.,He, C.-S., 2016.A modified water demand estimation method for droughtidentification over arid and semiarid regions.Agricultural and Forest Meteorology,230–231:58–66.SCI-1

65.Zhang, C.-Q.,Li, Y., 2016.Verification of watershed vegetation restoration policies, arid China.Scientific Reports, 6:30740.SCI-2

66.Zhang D.-J., Dong G.-H., Wang H., Ren X.-Y., Ha P.-P.,Qiang,M.-R., Chen F.H., 2016. History and possible mechanisms of prehistoric human migration to the Tibetan Plateau. Science China-Earth Sciences,59(9):1765-1778.

67.Zhang, J.,Li, J.-J.,Guo, B.-H.,Ma, Z.-H.,Li, X.-M.,Ye, X.-Y.,Yu, H.,Liu, J.,Yang, C.,Zhang, S.-D., Song, C.-H., Hui, Z.-C., Peng, T.-J., 2016.Magnetostratigraphic age and monsoonal evolution recorded by the thickest Quaternary loess deposit of the Lanzhou region, western Chinese Loess Plateau. Quaternary Science Reviews, 139:17-29.SCI-1

68.Zhang, J.-W.,Ma, X.-Y.,Qiang, M.-R.,Huang, X.-Z.,Li, S.,Guo, X.-Y.,Henderson, A.-C.-G.,Holmes, J.-A.,Chen, F.-H., 2016.Developing inorganic carbon-based radiocarbon chronologies for Holocene lake sediments in arid NW China. Quaternary Science Reviews, 144:66-82.SCI-1

69.Zhang, J.-Z.,Gou, X.-H.,Zhang, Y.-X.,Lu, M.,Xu, X.-Y.,Zhang, F.,Liu, W.-H.,Gao, L.-L., 2016.Forward modeling analyses of Qilian Juniper (Sabina przewalskii) growth in response to climate factors in different regions of the Qilian Mountains, northwestern China. Trees-Structure and Function, 30(1): 175-188.SCI-2

70.Zhang, L.-H., Jin, X., He, C.-S., Zhang, B.-Q., Zhang, X.-F., Li, J.-L., Zhao, C., Tian, J., DeMarchi, C., 2016.Comparison of SWAT and DLBRM for Hydrological Modeling of a Mountainous Watershed in Arid Northwest China. Journal of Hydrologic Engineering, 21(5): 04016007.SCI-3

71.Zhang, R.,Necula, C.,Heslop, D.,Nie, J.-S., 2016.Unmixing hysteresis loops of the late Miocene-early Pleistocene loess-red clay sequence. Scientific Reports, 6:29515.SCI-2

72.Zhang, R.-B., Yuan, Y.-J., Gou, X.-H.,He, Q.,Shang, H.-M.,Zhang, T.-W.,Chen, F.,Ermenbaev, B.,Yu, S.-L.,Qin,L.,Fan,Z., 2016.Tree-ring-based moisture variability in western Tianshan Mountains since AD 1882 and its possible driving mechanism. Agricultural and Forest Meteorology, 218-219: 267-276.SCI-1

73.Zhang, X.-J.,Jin, L.-Y.,Jia, W.-N., 2016.Centennial-scale teleconnection between North Atlantic sea surface temperatures and the Indian summer monsoon during the Holocene. Climate Dynamics, 46(9-10):3323-3336.SCI-1

74.Zhang, X.-J., Jin, L.-Y., 2016.Association of the Northern Hemisphere circumglobal teleconnection with the Asian summer monsoon during the Holocene in a transient simulation. Holocene, 26(2): 290-301.SCI-2

75.Zhang, X.-J.,Jin, L.-Y.,Huang, W.,Chen, F.-H., 2016.Forcing mechanisms of orbital-scale changes in winter rainfall over northwestern China during the Holocene. Holocene, 26(4): 549-555SCI-2

76.Zhang, X.-N.,Zhou, A.-F.,Zhang, C.,Hao, S.-T.,Zhao, Y.-T.,An, C.-B., 2016.High-resolution records of climate change in arid eastern central Asia during MIS 3 (51600-25300 cal a BP) from Wulungu Lake, north-western China. Journal of Quaternary Science, 31(6):577-586.

77.Zhang, Z.-L., Xue, B., Pang, J.-X., 2016. The Decoupling of Resource Consumption and Environmental Impact from Economic Growth in China: Spatial Pattern and Temporal Trend. Sustainability, 8(3):222.SCI-4

78.Zhao, S.,Xia, D.-S.,Jin, H.-L.,Jia,J., Li.G.-H., Gao,F.-Y., Wang,Y.-J., 2016.Long-term weakening of the East Asian summer and winter monsoons during the mid- to late Holocene recorded by aeolian deposits at the eastern edge of the Mu Us Desert.Palaeogeography Palaeoclimatology Palaeoecology,457:258-268.SCI-3

79.Zhao, W.,Ma, J.-Z.,Gu, C.-J.,Qi, S.,Zhu, G.-F.,He, J.-H., 2016.Distribution of isotopes and chemicals in precipitation in Shule River Basin, northwestern China: an implication for water cycle and groundwater recharge. Journal of Arid Land, 8(6):973-985.SCI-4

80.Zhu, G.-F., Zhang, K., Li, X., Liu, S.-M., Ding, Z.-Y., Ma, J.-Z., Huang, C.-L.,Hana,T.,He, J.-H., 2016. Evaluating the complementary relationship for estimating evapotranspiration using the multi-site data across north China.Agricultural and Forest Meteorology, 230:33-44.

81.Zhu, G.-F.,Li, X.,Zhang, K.,Ding, Z.-Y.,Han, T.,Ma, J.-Z.,Huang, C.-L.,He, J.-H.,Ma, T., 2016.Multi-model ensemble prediction of terrestrial evapotranspiration across north China using Bayesian model averaging. Hydrological Processes, 30(16):2861-2879.SCI-4

82.Chen, F., Zhang, R.-B., Wang, H.-Q.,Qin, L.,Yuan, Y.-J., 2016.Updated precipitation reconstruction (AD 1482-2012) for Huashan, north-central China. Theoretical and Applied Climatology, 123(3-4): 723-732.

83.Chen, F.,Yuan, Y.-J., Zhang, T.-W.,Linderholm,H.-W.2016.Annual precipitation variation for the southern edge of the Gobi Desert (China) inferred from tree rings: linkages to climatic warming of twentieth century. Natural Hazards, 81(2): 939-955.

84.Fan, Y.-X.,Zhang, F.,Zhang, F.Liu, W.-H.,Chen, X.-L.,Fan, T.-L.,Wang, Y.-D.,Chen, F.-H.,Lai, Z.-P., 2016.History and mechanisms for the expansion of the Badain Jaran Desert, northern China, since 20 ka: Geological and luminescence chronological evidence. Holocene, 26(4):532-548.

85.Liu, B.,Jin, H.-L.,Sun, Z.,Zhao, S., 2016.Geochemical weathering of aeolian sand and its palaeoclimatic implications in the Mu Us Desert, northern China, since the Late Holocene. Journal of Arid Land, 8(5):647-659.

86.Ma, M.-M.,Dong, G.-H.,Jia, X.,Wang, H.,Cui, Y.-F.,Chen, F.-H., 2016.Dietary shift after 3600 cal yr BP and its influencing factors in northwestern China: Evidence from stable isotopes. Quaternary Science Reviews,145:57-70.

87.Mu, C.-C., Zhang, T.-J., Wu, Q.-B., 2016. Dissolved organic carbon, CO2, and CH4 concentrations and their stable isotope ratios in thermokarst lakes on the Qinghai-Tibetan Plateau. Journal of Limnology, 75(2): 313-319.

88.Niu, H.-W., He, Y.-Q., Kang, S.-C., 2016. Chemical compositions of snow from Mt. Yulong, southeastern Tibetan Plateau. Journal of Earth System Science, 125(2): 403-416.

89.Qu, J.-S.,Qin, S.-S.,Liu, L.-N.,Zeng, J.-J.,Bian, Y., 2016.A hybrid study of multiple contributors to per capita household CO2 emissions (HCEs) in China. Environmental Science an Pollution Research, 23(7): 6430-6442.

90.Wang, S.-L.,Nan, Z.-R.,Prete, D.,Ma, J.-M.,Liao, Q.,Zhang, Q., 2016.Accumulation, transfer, and potential sources of mercury in the soil-wheat system under field conditions over the Loess Plateau, northwest China. Science of the Total Environment. 568:245-252.

91.Wang, Z.-T.,An, Z.-S., 2016.A simple theoretical approach to the thermal expansion mechanism of salt weathering. Catena,147:695-698.

92.Zhang, H.-W.,Wu, Z.,Xiao, H.-L., 2016.Leaf stable carbon isotope composition in Picea schrenkiana var. tianschanica in relation to leaf physiological and morphological characteristics along an altitudinal gradient. Journal of Mountain Science, 13(7):1217-1228.

93.Zhang, R.-B.,Yuan, Y.-J.,Gou, X.-H.,Yang, Q.,Wei, W.-S.,Yu, S.-L.,Zhang, T.-W.,Shang, H.-M.,Chen,F., Fan, Z., Qin, L., 2016.Streamflow variability for the Aksu River on the southern slopes of the Tien Shan inferred from tree ring records. Quaternary Research, 85(3):371-379.

94.Zhang, R.-B.,Qin, L.,Yuan, Y.-J.,Gou, X.-H.,Zou, C.,Yang, Q.,Shang, H.-M.,Fan, Z.,2016.Radial growth response of Populus xjrtyschensis to environmental factors and a century-long reconstruction of summer streamflow for the Tuoshigan River, northwestern China. Ecological Indicators, 71: 191-197.

95.Bush, M.-A.,Saylor, J.-E.,Horton, B.-K.Nie, J.-S., 2016.Growth of the Qaidam Basin during Cenozoic exhumation in the northern Tibetan Plateau: Inferences from depositional patterns and multiproxy detrital provenance signatures. Lithosphere, 8(1): 58-82.

96.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(1): 12-24.

97.Dodson,J., Dong,G.-H., 2016.What do we know about domestication in eastern Asia?. Quaternary International,426:2-9.

98.Gong, H.-J.,Nie, J.-S.,Wang, Z.,Peng, W.-B.,Zhang, R.,Zhang, Y.-X., 2016.A comparison of zircon U-Pb age results of the Red Clay sequence on the central Chinese Loess Plateau. Scientific Reports, 6:29642.

99.Lee, X.-Q., Huang, Y.-M., Huang, D.-K., Hu, L., Feng, Z.-D., Cheng, J.-Z., Wang, B., Ni, J., Shurkhuu, T., 2016.Variation of Soil Organic Carbon and Its Major Constraints in East Central Asia. Plos One, 11(3): e0150709.

100.Li, J.-Y.,Ilvonen, L.,Xu, Q.-H.,Ni, J.,Jin, L.-Y.,Holmstrom, L.,Zheng, Z.,Lu, H.-Y.,Luo, Y.-L., Li, Y.-C., Li, C.-H., Zhang, X.-J., Seppa, H., 2016.East Asian summer monsoon precipitation variations in China over the last 9500 years: A comparison of pollen-based reconstructions and model simulations. Holocene, 26(4): 592-602.

101.Liu, Y., Yang, Y.-C., 2016.Effects of Mg doping in the quantum barriers on the efficiency droop of GaN based light emitting diodes.. 25(5): 058101.

102.Ma, X.-X., Zheng, J.-J., Zheng, G.-D.,Xu, W.,Qian,Y.,Xia, Y.-Q.,Wang,Z.-D.,Wang,X.-F.,Ye, X.-Y., 2016.Influence of pyrite on hydrocarbon generation during pyrolysis of type-III kerogen. Fuel, 167: 329-336.

103.Maraseni, T.-N., Qu, J.-S., 2016.An international comparison of agricultural nitrous oxide emissions. Journal of Cleaner Production, 135: 1256-1266.

104.Maraseni, T.-N.,Qu, J.-S.,Yue, B.,Zeng, J.-J.,Maroulis, J., 2016.Dynamism of household carbon emissions (HCEs) from rural and urban regions of northern and southern China. Environmental Science and Pollution Research, 23(20): 20553-20566.

105.Miao, Y.-F.,Fang, X.-M.,Song, C.-H.,Yan, X.-L.,Zhang, P.,Meng, Q.-Q.,Li, F.,Wu, F.-L.,Yang, S.-L., Kang, S.-Y., Wang, Y.-P., 2016.Late Cenozoic fire enhancement response to aridification in mid-latitude Asia: Evidence from microcharcoal records. Quaternary Science Reviews, 139:53-66.

106.Saylor, J.-E.,Casturi, L.,Shanahan, T.-M.,Nie, J.-S.,Saadeh, C.-M., 2016.Tectonic and climate controls on Neogene environmental change in the Zhada Basin, southwestern Tibetan Plateau. Geology, 44(11):919-922.无原文

107.Siegert, C.-M., Levia, D.-F., Hudson, S.-A.,Dowtin-, A.-L. Zhang, F.,Mitchell,M.-J.2016.Small-scale topographic variability influences tree species distribution and canopy throughfall partitioning in a temperate deciduous forest. Forest Ecology and Management, 359: 109-117.

108.Song, M., Zhou, A.-F, He, Y.-X.,Zhao,C.,Wu, J.-L.,Zhao,Y.,Liu, W.-G.,Liu,Z.-H., 2016.Environmental controls on long-chain alkenone occurrence and compositional patterns in lacustrine sediments, northwestern China. Organic Geochemistry, 91:43-53.

109.Su, R.-X., Lough, J.-M., Sun, D.-H, 2016.Variations in massive Porites growth rates at Hainan Island, northern South China Sea. Marine Ecology Progress Series, 546: 47-60.

110.Wang, X.-F.,Cheng, G.-D.,Li, X.,Lu, L.,Ma, M.-G.,Su, P.-X.,Zhu, G.-F.,Tan, J.-L., 2016.A comparison of two photosynthesis parameterization schemes for an alpine meadow site on the Qinghai-Tibetan Plateau. Theoretical and Applied Climatology, 126(3-4):751-764.

111.Wang, Y.-Q.,Ma,J.-Z.,Guan, H.-D., 2016.A mathematically continuous model for describing the hydraulicproperties of unsaturated porous media over the entire range of matricsuctions.Journal of Hydrology 541 (2016) 873–888

112.Waring, R.-H.,Gao, L.-L., 2016.Recent reduction in the frequency of frost accounts for most of the increased growth of a high elevation spruce forest in northwestern China. Tree-Structure and Function, 30(4):1225-1236.

113.Wu, J.,Wang, J.-Z.,Qin, S.-S.,Lu,H.-Y., 2016.Suitable error evaluation criteria selection in the wind energy assessment via the K-means clustering algorithm. International Journal of Green Energy, 13(11):1145-1162.

114.Wu, Y., Zhu, Z.-Y., Qiu, S.-F.,Han, Y.-L.,Cai,J.-X.,Rao,Z.-G., 2016.Magnetic stratigraphy constraints on the Matuyama-Brunhes boundary recorded in a loess section at the southern margin of Chinese Loess Plateau. Geophysical Journal International, 204(2): 1072-1085.

115.Zhang, Y.-L.,Kang, S.-C.,Zhang, Q.-G.,Gao, T.-G.,Guo, J.-M.,Grigholm, B.,Huang, J.,Sillanpaa, M., Li, X.-F., Du, W.-T., Li, Y., Ge, X.-L., 2016.Chemical Records in Snowpits from High Altitude Glaciers in the Tibetan Plateau and Its Surroundings. Plos One, 11(5):e0155232.

116.Zhang, Y.-Y.,Zhao, W.-Z.,He, J.-H.,Zhang, K., 2016.Energy exchange and evapotranspiration over irrigated seed maize agroecosystems in a desert-oasis region, northwest China. Agricultural and Forest Meteorology, 223:48-59

117.Zhao, Z.-J., Granger, D., Zhang, M.-H., Kong, X.-G., Yang, S.-L., Chen, Y., Hu, E.-Y., 2016.A test of the isochron burial dating method on fluvial gravels within the Pulu volcanic sequence, West Kunlun Mountains, China. Quaternary Geochronology, 34:75-80.

118.Zheng, W.-J.,Liu, X.-W.,Yu, J.-X.,Yuan, D.-Y.,Zhang, P.-Z.,Ge, W.-P.,Pang, J.-Z.,Liu, B.-Y., 2016.Geometry and late Pleistocene slip rates of the Liangdang-Jiangluo fault in the western Qinling mountains, NW China. Tectonophysics, 687:1-13.

119.Zhou, F.-F.,Fang, K.-Y.,Zhang, F.,Dong, Z.-P.,Chen, D., 2016.Climate-Driven Synchronized Growth of Alpine Trees in the Southeast Tibetan Plateau. Plos One, 11(6):e0156126.

120.Zhou, F.-F., Fang, K.-Y., Li, Y.-J., Chen, Q.-Y., Chen, D., 2016.Nonlinear characteristics of hydroclimate variability in the mid-latitude Asia over the past seven centuries. Theoretical and Applied Climatology, 126(1-2):151-159

121.Zhou, X.-L.,Wang, Y.-S.,Zhang, P.-F.,Guo, Z.,Chu, C.-J.,Du, G.-Z., 2016.The effects of fertilization on the trait-abundance relationships in a Tibetan alpine meadow community. Journal of Plant Ecology, 9(2): 144-152.

122.Zhou, X.-Y., Lei, W.-J., Ma, J.-Z., 2016.Entropy Base Estimation of Moisture Content of the Top 10-m Unsaturated Soil for the Badain Jaran Desert in Northwestern China. Entropy, 18(9):323.