2014年度

(共发表SCI论文106篇。第一作者第一单位发表SCI论文69篇,其中，一区5篇，二区19篇)

第一作者第一单位

1.An, C.-B.,Li, H.,Dong, W.-M.,Chen, Y.-F.,Zhao, Y.-T.,Shi, C., 2014.How prehistoric humans use plant resources to adapt to environmental change: A case study in the western Chinese Loess Plateau during Qijia Period. Holocene，24(4)：512-517.（SCI-2,3.202）

2.Cao, B., Pan, B.-T.,Wang,J., Shangguan, D.-H., Wen, Z.-L., Qi, W.-T., 2014.Changes in the glacier extent and surface elevation along the Ningchanand Shuiguan river source, eastern Qilian Mountains, China.Quaternary Research,81(3): 531-537.（SCI-3,2.434）

3.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., 2014.Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 BP. Science,（SCI-1,31.235）

4.Chen,F.-H.,Li,G.-Q.,Zhao,H.,Jin,M.,Chen,X.-M.,Fan,Y.-X.,Liu,X.-K.,Wu,D.,Madsen,D.,2014. Landscape evolution of the Ulan Buh Desert in northern China during the late Quaternary.Quaternary Research,81(3): 476-487.（SCI-3,2.434）

5.Chen, F.-H.,Chen, X.-M.,Chen, J.-H.,Zhou, A.-F.,Wu, D.,Tang, L.-Y.,Zhang, X.-J., Huang, X.-Z.,Yu, J.-Q., 2014.Holocene vegetation history, precipitation changes and Indian Summer Monsoon evolution documented from sediments of Xingyun Lake, south-west China. Journal of Quaternary Science, 29(7):661-674.（SCI-2,2.636）

6.Chen,G.,Meng,X.-M.,Tan,L.,Zhang., F.-Y.,Qiao, L.,2014. Comparison and combination of different models foroptimal landslide susceptibility zonation. Quarterly Journal of Engineering Geology and Hydrogeology, 47:283-306.（SCI-4,0.707）

7.Chen, J.-H.,Zhang, E.-L.,Brooks, S.-J.,Huang, X.-Z.,Wang, H.-P.,Liu, J.-B.,Chen, F.-H., 2014.Relationshipsbetween chironomids and water depth in Bosten Lake, Xinjiang, northwest China.Journal of Paleolimnology, 51(2):313-323.（SCI-3,2.082）

8.Chen, J.-S.,Liu, X.-M.,Kravchinsky, V.-A., 2014.Response of the high-resolution Chinese loess grain size record to the 50 degrees N integrated winter insolation during the last 500,000 years. Geophysical Research Letters, 41(17):6244-6251.（SCI-2,4.077）

9.Chen, X.-M.,Chen, F.-H.,Zhou, A.-F.,Huang, X.-Z.,Tang, L.-Y.,Wu, D.,Zhang, X.-J.,Yu, J.-Q., 2014.Vegetation history, climatic changes and Indian summer monsoon evolution during the Last Glaciation (36,400-13,400 cal yr BP) documented by sediments from Xingyun Lake, Yunnan, China.PalaeogeographyPalaeoclimatologyPalaeoecology, 410:179-189.（SCI-2,2.630）

10.Dai, S.,Zhang, M.-Z.,Peng, D.-X.,Wang, H.-W.,Wu, M.-X.,Chen, R.-L.,Zhang, X., 2014.Tectonic and Environmental Evolutions of the Northern Tibetan Plateau Prior to the Collision of India with Asia. ActaGeologicaSinica-English Edition, 88(2):425-443.（SCI-4,1.408）

11.Deng,Y.,Gou, X.-H., Gao,L.-L.,Yang,T.,Yang, M.-X., 2014. Early-summer temperature variations over the past 563 years inferred from tree rings in the Shaluli Mountains, southeastern Tibet Plateau. Quaternary Research, 81(3): 513-519.（SCI-3,2.434）

12.Ding, W.-G.,Wang, L.-J.,Chen, B.-Y.,Xu, L.,Li, H.-X., 2014.Impacts of renewable energy on gender in rural communitiesofnorth-west China.Renewable Energy 69:180-189.（SCI-2,3.109）

13.Ding, W.-G.,Xu, L.,Ye, W.-F., 2014.A comparative study of bioenergy consumption and CO2 emissions in Tibetan region of China.Renewable Energy,71:344-350.（SCI-2,3.109）

14.Dong, G.-H.,Wang, Z.-L.,Ren, L.-L.,Matuzeviciute, G.-M.,Wang, H.,Ren, X.-Y.,Chen, F.-H., 2014.A Comparative Study of 14C Dating on Charcoal and Charred Seeds from Late Neolithic and Bronze Age Sites in Gansu and Qinghai Provinces, NW China.Radiocarbon, 56(1):157-163.（SCI-3,1.648）

15.Dong, G.-H.,Zhang, F.-Y., Ma, M.-M., Fan, Y.-X., Zhang, J.-W., Wang, Z.-L.,Chen,F.-H., 2014.Ancient landslide-dam events in the Jishi Gorge, upper Yellow River valley, China.Quaternary Research, 81(3): 445-451.（SCI-3,2.434）

16.Gou, X.-H., Deng,Y.,Chen,F.-H.,Yang,M.-X.,Gao,L.-L.,Nesje,A.,Fang, K.-Y.,2014.Precipitation variations and possible forcing factors on the Northeastern Tibetan Plateau during the last millennium.Quaternary Research.81(3): 508-512.（SCI-3,2.434）

17.Guan, Q.-Y.,Wang, L.-J.,Wang, L.,Pan,.-B.,TZhao, S.-L.,Zheng, Y., 2014.Analysis of trace elements (heavy metal based) in the surface soils of a desert-loess transitional zone in the south of the Tengger Desert. Environmental Earth Sciences, 72(8):3015-3023.（SCI-4,1.370）

18.Jia, H.,Manchester, S.-R., 2014.Fossil Leaves and Fruits of Cercis L.(Leguminosae) from the Eocene of Western North America. International Journal of Plant Sciences, 175(5):601-612.（SCI-4,1.624）通讯非,无原文

19.Jin, L.-Y.,Schneider, B.,Park, W.,Latif, M.,Khon, V.,Zhang, X.-J., 2014.The spatial-temporal patterns of Asian summer monsoon precipitation in response to Holocene insolation change: a model-data synthesis.Quaternary Science Reviews, 85:47-62.（SCI-1,4.207）

20.Hu, Y.-H.,Nan, Z.-R.,Jin, C.,Wang, N.,Luo, H.-Z., 2014. Phytoextraction potential of poplar(POPULUS ALBA L. VAR. PYRAMIDALIS BUNGE)fromcalcareousagricultural soils contaminated by cadmium.International Journal of Phytoremediation, 16(5):482-495.（SCI-4,1.314）

21.Huang, T.,Guo, Q.,Tian, H.,Mao, X.-X.,Ding, Z.-Y.,Zhang, G.,Li, J.,Ma, J.-M.,Gao, H.,2014.Assessing spatial distribution, sources, and human health risk of organochlorine pesticide residues in the soils of arid and semiarid areas of northwest China. Environmental Science and Pollution Research, 21(9):6124-6135.（SCI-3,2.675）

22.Li, C.-B., Qi, J.-G., Wang, S.-B., Yang, L.-S., Yang, W.-J., Zou, S.-B., Zhu, G.-F., Li, W.-Y., 2014.A Holistic System Approach to UnderstandingUnderground Water Dynamics in the Loess Tableland:A Case Study of the Dongzhi Loess Tablelandin Northwest China.Water ResourcesManagement,28:2937–2951.（SCI-3,2.259）

23.Li, C.-B., Qi, J.-G., Yang, L.-S.Yang, W.-J., Zhu, G.-F., Wang, S.-B.,2014. The Variability of the Snow and Ice Melt in Alpine Rivers in Northwestern China. Journal of Mountain Science. 11(4): 884-895.（SCI-4,0.809）

24.Li, C.-B., Qi, J.-G., Yang, L.-S., Wang, S.-B., Yang, W.-J., Zhu, G.-F., Zou, S.-B., Zhang, F., 2014.Regional vegetation dynamics and its response to climate change-a case study in the Tao River Basin in Northwestern China.Environmental Research Letters, 9(12):125003.

25.Li,G.-Q., Dong, G.-H., Wen, L.-J., Chen, F., 2014. Overbank flooding and human occupation of the Shalongka site in the Upper Yellow River Valley, northeast Tibet Plateau in relation to climate change since the last deglaciation. Quaternary Research，82，354-365.（SCI-3,2.434）

26.Li,G.-Q.,Jin,M.,Wen, L.-J.,Zhao,H., Madsen,D.,Liu,X.-K.,Wu,D.,Chen, F.-H.,2014. Quartz and K-feldspar optical dating chronology of eolian sand and lacustrine sequence from the southern Ulan Buh Desert, NW China: Implications for reconstructing late Pleistocene environmental evolution, Palaeogeography Palaeoclimatology Palaeoecology, 393: 111-121.（SCI-2,2.630）

27.Li, H.,Xu, D.-Y.,Zhao, Y., 2014.Peatlandarea change in the southern Altay Mountains over the last twenty years based on GIS and RS analysis. Frontiers of Earth Science, 8(4):558-563.（SCI-4,0.299）通讯非

28.Li, J.-J.,Fang, X.-M.,Pan, B.-T.,Ma, Y.-Z.,Yan, M.-D., 2014.Late Miocene–Quaternary rapid stepwise uplift of the NE Tibetan Plateauand its effects on climatic and environmental changes.Quaternary Research,81(3): 400-423.（SCI-3,2.434）

29.Li,Z.-J.,Sun D.-H., Chen, F.-H.,Wang,F., Zhang,Y.-B., Guo,F., Wang,X., Li,B.-F., 2014. Chronology and paleoenvironmental records of a drill core in the central Tengger Desert of China. Quaternary Science Reviews 85:85-98.（SCI-1,4.207）

30.Liu, J.,Zhang, T.-J., 2014.Fundamental solution method for reconstructing past climate change from borehole temperature gradients. Cold Regions Science and Technology, 102: 32-40.（SCI-3,1.389）(通讯非)

31.Liu, J.-B.,Chen, F.-H.,Chen, J.-H.,Zhang, X.-J.,Liu, J.,Bloemendal, J., 2014.Weakening of the East Asian summer monsoon at 1000-1100 A.D. within the Medieval Climate Anomaly: Possible linkage to changes in the Indian Ocean-western Pacific.Journal of Geophysical Research, 119(5):2209-2219.（SCI-2,3.212）

32.Liu, J.-B.,Chen, J.-H.,Selvaraj, K.,Xu, Q.-H.,Wang, Z.-L.,Chen, F.-H., 2014.Chemical weathering over the last 1200 years recorded in the sediments of Gonghai Lake, Lvliang Mountains, North China: a high-resolution proxy of past climate. Boeras, 43(4):914-923.（SCI-3,2.250）

33.Liu, L.-C.,Dong, X.-F.,Liu, X.-G., 2014.Quantitative Study of the Network Tendency of the Urban System in China. Journal of Urban Planning and Development. 140(2):15013003.（SCI-4,0.970）通讯非

34.Ma, M.-M., Dong, G.-H., Lightfoot, E., Wang, H., Liu, X.-Y., Jia, X., Zhang, K.-R., Chen, F.-H., 2014. Stable Isotope Analysis of Human and Faunal Remains in the Western Loess Plateau, Gansu, China, approximately 4000 Cal BP. Archaeometry, 56 Suppl, 237–255.（SCI和A&HCI共同收录）（SCI-4,1.266）

35.Ma, M.-M.,Dong, G.-H.,Chen, F.-H.,Meng, X.-M.,Wang, Z.-L.,Elston, R.,Li, G.-Q., 2014.Processofpaleofloods in Guanting basin, Qinghai Province, China and possible relation to monsoon strength during the mid-Holocene.Quaternary International, 321:88-96.（SCI-3,1.988）

36.Madsen,D.-B.,Lai, Z.-P.,Sun, Y.-J.,Rhode, D.,Liu, X.-J.,Brantingham, P.-J.., 2014.LateQuaternary Qaidam lake histories and implications for an MIS 3 "Greatest Lakes" period in northwest China.Journal of Paleolimnology, 51(2):161-177.（SCI-3,2.082）

37.Mao, X.-X.,Gao, H.,Huang, T.,Zhang, L.-S.,Ma, J.-M., 2014.Modeling global persistent organic chemicals in clouds. Atmospheric Environment, 96: 345-352.（SCI-2,3.212）

38.Nie, J.-S.,Zhang, R.,Necula, C.,Heslop, D.,Liu, Q.-S.,Gong, L.-S.,Banerjee, S., 2014.Late Miocene- early Pleistocene paleoclimate history of the Chinese Loess Plateau revealed by remanence unmixing. Geophysical Research Letters, 41(6):2163-2168.（SCI-2,4.077）

39.Nie, J.-S.,Peng, W.-B., 2014.Automated SEM-EDS heavy mineral analysis reveals no provenance shift between glacial loess and interglacial paleosol on the Chinese Loess Plateau. Aeolian Research, 13:71-75.（SCI-3,2.513）

40.Nie, J.-S.,Peng, W.-B.,Möller, A.,Song, Y.-G.,Stockli,D.-F.,Stevens, T.,Horton,B.-K.,Liu,S.-P.,Bird,A.,Oalmann,J.,Gong,H.-J.,Fang, X.-M.,2014.Provenance of the upper Miocene–Pliocene Red Clay deposits of the Chinese loess plateau.Earth and Planetary Science Letters, 407:35-47.（SCI-1,4.418）

41.Nie, J.-S.,Stevens, T.,Song, Y.-G.,King, J.-W.,Zhang, R.,Ji, S.-C.,Gong, L.-S.,Cares, D., 2014.Pacific freshening drives Pliocene cooling and Asian monsoon intensification. Scientific Reports, 4:5474.（SCI-2,4.003）

42.Pan, B.-T.,Guan, Q.-Y.,Gao, H.-S.,Guan, D.-S.,Liu, F.-L.,Li, Z.-M.,Su, H., 2014.The origin and sources of loess-like sediment in the Jinsha River Valley, SW China.Boreas, 43(1):121-131.（SCI-3,2.250）

43.Qiang, M.-R.,Liu, Y.-Y.,Jin, Y.-X.,Song, L.,Huang, X.-T.,Chen, F.-H., 2014.Holocene recordofeolian activity from Genggahai Lake, northeastern Qinghai- Tibetan Plateau, China.Geophysical Research Letters, 41(2):589-595.（SCI-2,4.077）

44.Qin, S.-S.,Liu, F.,Wang, J.-Z.,Sun, B.-B.,2014.Analysis and forecasting of the particulate matter (PM) concentration levels over four major cities of China using hybrid models. Atmospheric Environment, 98:665-675.(通讯非)（SCI-2,3.212）

45.Rao, Z.-G.,Jia, G.-D.,Qiang, M.-R.,Zhao, Y., 2014.Assessment of the difference between mid- and long chain compound specific delta Dn-alkanes values in lacustrine sediments as a paleoclimatic indicator. Organic Geochemistry, 76:104-117.（SCI-2,2.710）

46.Wang, B.,Xia, D.-S.,Yu, Y.,Jia, J.,Xu, S.-J., 2014.Magnetic properties of urban soils from typical oasis cities and their environmental implications. Chinese Journal of Geophysics-Chinese Edition, 57(3):891-905.（SCI-4,0.671）

47.Wang, B., Xia, D.-S.,Yu, Y., Jia, J., Xu, S.-J., 2014.Detection and differentiation of pollution in urban surface soils using magnetic properties in arid and semi-arid regions of northwestern China.Environmental Pollution, 184(SI):335-346.（SCI-2,3.793）

48.Wang, B.,Chu, K.-W.,Yu, A.-B.,Vince, A., 2014.Computationalinvestigation of the mechanisms of the "breakaway" effect in a dense medium cyclone. Minerals Engineering, 62(SI): 111-119.（SCI-3,1.424）通讯非

49.Wang, H.-P.,Chen, J.-H.,Zhang, X.-J.,Chen, F.-H., 2014.Palaeosol development in the Chinese Loess Plateau as an indicator of the strength of the East Asian summer monsoon: Evidence for a mid-Holocene maximum.Quaternary International, 334:155-164.（SCI-3,1.988）

50.Wang, X.,Sun, D.-H.,Chen, F.-H.,Wang, F.,Li, B.-F.,Popov, S.-V.,Wu, S.,Zhang, Y.-B.,Li, Z.-J., 2014,Cenozoic paleo-environmental evolution of the Pamir–Tien Shan convergence zone.Journal of Asian Earth Sciences, 80:84-100（SCI-3,2.454）

51.Wang, Y.-B., Niu, F.-J., Wu, Q.-B., Gao, Z.-Y., 2014.Assessing soil erosion and control factors by radiometric technique in thesource region of the Yellow River, Tibetan Plateau.Quaternary Research,81(3): 538-544.（SCI-3,2.434）

52.Wang, Z.-L.,Zhao, H.,Dong, G.-H.,Zhou, A.-F.,Liu, J.-B.,Zhang, D.-J., 2014.Reliability of radiocarbon dating on various fractions of loess-soil sequence for Dadiwan section in the western Chinese Loess Plateau. Frontiers of Earth Science, 8(4):540-546.（SCI-4,0.299）

53.Wei, G.-X.,Chen, F.-H.,Ma, J.-Z.,Dong, Y.,Zhu, G.-F.,Edmunds, W.-M., 2014.Groundwater recharge and evolution of water quality in China's Jilantai Basin based on hydrogeochemical and isotopic evidence. Environmental Earth Sciences, 72(9):3491-3506.（SCI-4,1.370）

54.Wei, G.-X.,Zhou, Z.-F.,Guo, Y.,Dong, Y.,Dang, H.-H.,Wang, Y.-B.,Ma, J.-Z.,2014.Long-Term Effects of Tillage on Soil Aggregates and the Distribution of Soil Organic Carbon, Total Nitrogen, and Other Nutrients in Aggregates on the Semi-Arid Loess Plateau, China.AridLand Research and Management, 28(3):291-310.（SCI-4,0.550）

55.Xia, D.-S.,Jia, J.,Zhao, S.,Wei, H.-T.,Chen,F.-H., 2014.Out-of-phase evolution between summer and winter East Asianmonsoons during the Holocene as recorded by Chinese loess deposits.Quaternary Research,81(3): 500-507.（SCI-3,2.434）

56.Xia, D.-S.,Wang, B.,Yu, Y.,Jia, J.,Nie, Y.,Wang, X.,Xu, S.-J., 2014.Combination of magnetic parameters and heavy metals to discriminate soil-contamination sources in Yinchuan - A typical oasis city of Northwestern China.Science of the Total Environment, 485:83-92.（SCI-2,3.236）

57.Xie, Y.-C.,Gong, J.,Sun, P.,Gou, X.-H., 2014.Oasis dynamics change and its influence on landscape pattern on Jinta oasis in arid China from 1963a to 2010a: Integration of multi-source satellite images.International Journal of Applied Earth Observation and Geoinformation, 33:181-191.（SCI-3,2.153）

58.Yan, X.-L.,Miao, Y.-F.,Zan, J.-B.,Zhang, W.-L.,Wu, S., 2014.Late Cenozoic fluvial-lacustrine susceptibility increases in the Linxia Basin and their implications for Tibetan Plateau uplift.Quaternary International,334：132-140.（SCI-3,1.988）通讯非

59.Zeng, R.-Q.,Meng, X.-M.,Wasowski, J.,Dijkstra, T.,Boveng, F.,Xue,Y.-T.,Wang, S.-Y.,2014. Ground instability detection using PS-InSAR in Lanzhou, China. Quarterly Journal of Engineering Geology and Hydrogeology, 47:307-321.（SCI-4,0.707）

60.Zhang, L.-H., Wang, S.-G., Zhang, Y., He, C.-S., Jin, X., 2014.Development of an Instant Correction and Display System of NumericalWeather Prediction Products in China.Chinese Geographical Science,24(6): 682-693.（SCI-4,0.576）

61.Zhang, M.-Z.,Dai, S.,Pan, B.-T.Wang, L.-B.,Peng, D.-X.,Wang, H.-W.,Zhang, X., 2014.The palynoflora of the Lower Cretaceous strata of the Yingen-Ejinaqi Basin in North China and their implications for the evolution of early angiosperms.Cretaceous Research, 48:23-38.（SCI-3,1.852）

62.Zhang, M.-Z.,Dai, S.,Ulrich H.,Wu, M.-X.,Wang, Z.-X.,Pan, B.-T.,2014.Palynological records from two cores in the Gongpoquan Basin, centralEast Asia: Evidence for floristic and climatic change during the LateJurassic to Early Cretaceous.Review of Palaeobotany and Palynology, 204: 1-17.（SCI-3,1.744）

63.Zhang, T.,Fang, X.-M.,Song, C.-H.,Appel, E.,Wang, Y.-D., 2014.Cenozoic tectonic deformation and uplift of the South Tian Shan: Implications from magnetostratigraphy and balanced cross-section restoration of the Kuqa depression. Tectonophysics, 628:172-187（SCI-2,2.661）

64.Zhang, X.-F., Zhang, L.-H., He, C.-S., Li, J.-L.,Jiang, Y.-W., Ma, L.-B., 2014.Quantifying the impacts of land use/land cover changeon groundwater depletion in Northwestern China – Acasestudy of the Dunhuang oasis.Agricultural Water Management, 146:270-279.（SCI-2,2.178）

65.Zhang, Y.-B.,Sun, D.-H.,Li, Z.-J.,Wang, F.,Wang, X.,Li, B.-F.,Guo, F.,Wu, S., 2014.Cenozoic recordofaeolian sediment accumulation and aridification from Lanzhou, China, driven by Tibetan Plateau uplift and global climate. Global and Planetary Change, 120:1-15.（SCI-3,3.264）

66.Zhao, J.-J.,An, C.-B.,Longo, W.-M.,Dillon, J.-T.,Zhao, Y.-T.,Shi, C.,Chen, Y.-F.,Huang, Y.-S., 2014.Occurrence of extended chain length C-41 and C-42 alkenones in hypersaline lakes. Organic Geochemistry, 75:48-53.（SCI-2,2.710）

67.Zhu, G.-F.,Lu, L.,Su, Y.-H.,Wang, X.-F.,Cui, X.,Ma, J.-Z.,He, J.-H.,Zhang, K.,Li, C.-B., 2014.Energy flux partitioning and evapotranspiration in a sub-alpine spruce forest ecosystem.Hydrological Processes, 28(19):5093-5104.（SCI-3,2.597）

68.Zhu, G.-F.,Li, X.,Su, Y.-H.,Zhang, K.,Bai, Y.,Ma, J.-Z.,Li, C.-B.,Hu, X.-L.,He, J.-H., 2014.Simultaneously assimilating multivariate data sets into the two-source evapotranspiration model by Bayesian approach: application to spring maize in an arid region of northwestern China. Geoscientific Model Development, 7(4):1467-1482.（SCI-1,4.784）

69.Zhu, G.-F.,Su, Y.-H.,Li, X.,Zhang, K.,Li, C.-B.,Ning, N., 2014.Modelling evapo-transpiration in an alpine grassland ecosystem on Qinghai-Tibetan plateau.Hydrological Processes, 28(3):610-619.（SCI-3,2.597）

第一作者第二三单位

70.Chen, F.,Yuan, Y.-J.,Chen, F.-H.,Yu, S.-L.,Shang, H.-M.,Zhang, T.-W.,Zhang, R.-B.,Qin, L., 2014.Reconstruction of spring temperature on the southern edge of the Gobi Desert, Asia, reveals recent climatic warming.PalaeogeographyPalaeoclimatologyPalaeoecology, 409:145-152.（SCI-2,2.630）

71.Chen, F.,Yuan, Y.-J.,Wei, W.-S.,Zhang, T.-W.,Shang, H.-M.,Zhang, R.-B.,, 2014.Precipitation reconstruction for the southern Altay Mountains (China) from tree rings of Siberian spruce, reveals recent wetting trend. Dendrochronologia, 32(SI 3):266-272.（SCI-3,1.567）

72.Dong, Z.-W.,Qin, D.-H.,Kang, S.-C.,Ren, J.-W.,Chen, J.-Z.,Cui, X.-Q.,Du, Z.-H.,Qin, X., 2014.Physicochemical characteristics and sources of atmospheric dust deposition in snow packs on the glaciers of western Qilian Mountains, China.Tellus Series B-Chemical and Physical Meteorology, 66: 20956.（SCI-2,3.780）

73.Fang,K.-Y.,Wilmking, M.,Davi, N.,Zhou, F.-F.,Liu, C.-Z., 2014.An Ensemble Weighting Approach for Dendroclimatology: Drought Reconstructions for the Northeastern Tibetan Plateau.Plos One, 9(1): e86689.（SCI-3,3.785）

74.He, C.-S.,Zhang, L.-H., ,DeMarchi, C.,Croley, T.-E., 2014.Estimating point and non-point source nutrient loads in the Saginaw Bay watersheds,Journal of Great Lakes Research.40(SI):11-17.（SCI-4,1.867）

75.Hou, Z.-F.,Li, J.-J.,Song, C.-H.,Zhang, J.,Hui, Z.-C.,Chen, S.-Y.,Xian, F., 2014.Understanding MioceneClimate Evolution in Northeastern Tibet: Stable Carbon and Oxygen Isotope Records from the Western Tianshui Basin, China. Journal of Earth Science, 25(2): 357-365.（SCI-4,0.418）

76.Lei, Y.-B.,Tian, L.-D.,Bird, B.-W.,Hou, J.-Z.,Ding, L.,Oimahmadov, I.,Gadoev, M., 2014.A 2540-year record of moisture variations derived from lacustrine sediment (Sasikul Lake) on the Pamir Plateau.Holocene,24(7):761-770.（SCI-2,3.202）

77.Niu, H.-W.,He, Y.-Q.,Lu, X.-X.,Shen, J.,Du, J.-K.,Zhang, T.,Pu, T.,Xin, H.-J.,Chang, L., 2014.Chemical composition of rainwater in the Yulong Snow Mountain region, Southwestern China.Atmospheric Research,144(SI):195-206.（SCI-3,2.177）

78.Niu, H.-W.,He, Y.-Q.,Desideri, U.,Zhang, P.-D.,Qin, H.-Y.,Wang, S.-J., 2014.Rural household energy consumption and its implications for eco-environments in NW China: A case study.Renewable Energy, 65(SI):137-145.（SCI-2,3.109）

79.Niu, H.-W.,He, Y.-Q.,Lu, X.-X.,Dong, Z.-W.,Zhao, G.-Y.,Zhang, T.,Du, J.-K., 2014.Characteristics of modern atmospheric dust deposition in snow in the Mt. Yulong region, southeastern Tibetan Plateau. Journal of Asian Earth Sciences, 94(SI):45-54.（SCI-3,2.454）

80.Song, Y.-G., Fang, X.-M.,King, W.-J.,Li, J.-J.,Naoto, I., An, Z.-S., 2014.Magneticparameter variations in the Chaona loess/paleosol sequences inthe central Chinese Loess Plateau, and their significance for the middlePleistocene climate transition.Quaternary Research,81(3):433-444.（SCI-3,2.434）

81.Wang, Y.-B.,Gao, Z.-Y.,Wen, J.,Liu, G.-H.,Geng, D.,Li, X.-B., 2014.Effect of a thermokarst lake on soil physical properties and infiltration processes in the permafrost region of the Qinghai-Tibet Plateau, China. Science China-Earth Sciences, 57(10):2357-2365.（SCI-4,1.247）

非第一作者单位

82.Dijkstra, T.-A.,Wasowski, J.,Winter,M.-G.,Meng,X.-M.,2014.Introduction to Geohazards of Central China.Quarterly Journal of Engineering Geology and Hydrogeology,47:195-199.（SCI-4,0.707）

83.Du, B.-X.,Zhang, M.-Z.,Dai, S.,Sun, B.-N., 2014.Discovery of Pseudofrenelopsis from the Lower CretaceousofLiupanshan Basin and its paleoclimatic significance. Cretaceous Research, 48:193-204.（SCI-3,1.852）

84.Fang, K.-Y.,Chen, F.,Sen, A.-K.,Davi, N.Huang, W.,Li, J.-B.,Seppa, H., 2014.Hydroclimate Variations inCentral and Monsoonal Asia over the Past 700 Years. Plos One, 9(8):e102751.（SCI-3,3.785）

85.Feng,S.,Hu, Q.,Huang, W.,Ho, C.-H.,Li, R.-P.,Tang, Z.-H., 2014.Projectedclimate regime shift under future global warming from multi-model, multi-scenario CMIP5 simulations.Global and Planetary Change, 112:41-52.（SCI-3,3.264）

86.Fu, L.,Zhang, L.-H.,He, C.-S., 2014.Analysis of Agricultural Land Use Change in the MiddleReach of the Heihe River Basin, Northwest China.International Journal of Environmental Research and Public Health, 11(3):2698-2712.（SCI-3,1.996）

87.Jian, S.-Q.,Zhao, C.-Y.,Fang, S.-M.,Yu, K., 2014.Characteristics of Caragana korshinskii and Hippophae rhamnoides stemflow and their significance in soil moisture enhancement in Loess Plateau, China.Journal of Arid Land, 6(1):105-116.（SCI-4,0.596）

88.Jian, S.-Q.,Zhao, C.-Y.,Fang, S.-M.,Yu, K., 2014.Soil water content and water balance simulation of Caragana korshinskii Kom. in the semiarid Chinese Loess Plateau. Journal of Hydrology and Hydromechanics, 62(2):89-96.（SCI-4,0.741）

89.Li, H.-M.,Qian, X.,Wei, H.-T.,Zhang, R.-B.,Yang, Y.,Liu, Z.,Hu, W.,Gao, H.-L.,Wang, Y.-L., 2014.Magnetic properties as proxies for the evaluation of heavy metal contamination in urban street dusts of Nanjing, Southeast China, Geophysical Journal International, 199(3):1354-1366.（SCI-2,2.666）

90.Li, J.-Y.,Zhao, Y.,Xu, Q.-H.,Zheng, Z.,Lu, H.-Y.,Luo, Y.-L.,Li, Y.-C.,Li, C.-H.,Seppa, H. 2014.Humaninfluence as a potential source of bias in pollen-based quantitative climate reconstructions.Quaternary Science Reviews, 99:112-121.（SCI-1,4.207）

91.Li, Z.-X.,Feng, Q.,Liu, W.,Wang, T.-T.,Cheng, A.-F.,Gao, Y.,Guo, X.-Y.,Pan, Y.-H.,Li, J.-G.,Guo, R., 2014.Study on the contribution of cryosphere to runoff in the cold alpine basin: A case study of Hulugou River Basin in the Qilian Mountains.Globaland Planetary Change, 122:345-361.（SCI-3,3.264）

92.Liu,B.,Jin, H.-L.,Sun, L.-Y.,Sun, Z.,Niu, Q.-H.,Xie, S.-B.,Li, G.-H., 2014.Holocene moisture change revealed by the Rb/Sr ratio of aeolian deposits in the southeastern Mu Us Desert, China.Aeolian Research, 13: 109-119.（SCI-3,2.513）

93.Liu, B.,Jin, H.-L.,Sun, L.-Y.,Su, Z.-Z.,Sun, Z.,Zhao, S.,Miao, Y.-F., 2014.Spatial-temporal differences in climate change at different altitudes, northeastern Qinghai-Tibetan Plateau during the Holocene period. International Journal of Earth Sciences, 103(6):1699-1710.（SCI-3,2.229）

94.Liu,L.,Schaefer, K.,Gusmeroli, A.,Grosse, G.,Jones, B.-M.,Zhang, T.-J.,Parsekian, A.-D.,Zebker, H.-A., 2014.Seasonalthaw settlement at drained thermokarst lake basins, Arctic Alaska.Cryosphere, 8(3):815-826.（SCI-2,3.808）

95.Liu, Q.-P.,Yang, Y.-C.,Tian, H.-Z.,Zhang, B.,Gu, L., 2014.Assessment of human impacts on vegetation in built-up areas in China based on AVHRR, MODIS and DMSP_OLS nighttime light data, 1992-2010. Chinese Geographical Science, 24(2):231-244.（SCI-4,0.576）

96.Long, H.,Shen, J.,Tsukamoto, S.,Chen, J.-H.,Yang, L.-H.,Frechen, M., 2014.Dry early Holocene revealed by sand dune accumulation chronology in Bayanbulak Basin (Xinjiang, NW China). Holocene, 24(5):614-626.（SCI-2,3.202）

97.MaM.-M.,Liu, X.-M.,Pillans, B.-J.,Li, P.-Y.,Lu, B.,Hu, S.-Y., 2014.Magnetic properties and particle-size analysis of dust-storm samples collected in Lanzhou and Sydney, Australian Journal of Earth Sciences, 61(5):765-774.（SCI-4,1.425）

98.Mischke,S.,Chen, F.-H., 2014.Introductionto "Late Pleistocene and Holocene climate change in continental Asia".Journal of Paleolimnology, 51(2):157-159.（SCI-3,2.082）

99.Qin, D.-H.,Yao, T.-D.,Zhou, S.-Z.,Chen, F.-H.,Meng, X.-M.,Zhang, T.-J.,A visionary geomorphologist and glaciologist: Professor Jijun Li on his eightieth birthday.Quaternary Research, 81(3):393-396.（SCI-3,2.434）

100.Qin, D.-H.,Yao, T.-D.,Chen, F.-H.,Zhang, T.-J.,Meng, X.-M., 2014.Uplift of the Tibetan Plateau and its environmental impacts.Quaternary Research,81(3):397-399（SCI-3,2.434）

101.Tang, Q.,He, C.-S.,He, X.-B.,Bao, Y.-H.,Zhong, R.-H.,Wen, A.-B., 2014.Farmers' Sustainable Strategies for Soil Conservation on Sloping Arable Lands in the Upper Yangtze River Basin, China. Sustainability, 6(8):4795-4806.（SCI-4,1.077）

102.Wang, J.-L.,Yang, B.,Qin, C.,Kang, S.-Y.,He, M.-H.,Wang, Z.-Y., 2014.Tree-ring inferred annual mean temperature variations on the southeastern Tibetan Plateau during the last millennium and their relationships with the Atlantic Multidecadal Oscillation.Climate Dynamics, 43(3-4):627-640.（SCI-1,4.484）

103.Wang, J.-Z.,Jin, S.-Q.,Qin, S.-S.,Jiang, H.-Y., 2014.Swarm Intelligence-Based Hybrid Models for Short-Term Power Load Prediction. MathematicalProblems in Engineering. MathematicaProblems in Engineering, No.712417.（SCI-4,1.081）

104.Yang, Y.-B.,Fang, X.-M.,Galy, A.,Li, M.-H.,Appel, E.,Liu, X.-M., 2014.Paleoclimatic significance of rare earth element record of thecalcareous lacustrine sediments from a long core (SG-1) in the western Qaidam Basin, NE Tibetan Plateau. Journal of Geochemical Exploration, 145:223-232.（SCI-3,1.941）

105.Zhang, W.-L.,Appel, E.,Fang, X.-M.,Song, C.-H.,Setzer, F.,Herb, C.,Yan, M.-D., 2014.Magnetostratigraphy ofdrill-core SG-1b in the western Qaidam Basin (NE Tibetan Plateau) and tectonic implications. Geophysical Journal International, 197(1):90-118.（SCI-2,2.666）

Zhao, Y.,Yu, Z.-C.,Tang, Y.,Li, H.,Yang, B.,Li, F.-R.,Zhao, W.-W.,Sun, J.-H.,Chen, J.-H.,Li, Q., 2014.Peatlandinitiation and carbon accumulation in China over the last 50,000 years.Earth-Science Reviews, 128: 139-146.（SCI-1,7.023）

(共发表中文核心88篇，标注实验室的76篇，其中第一作者第一单位标注实验室的51篇)

第一作者第一单位标注实验室

1.曹宗英,勾晓华,刘文火,高琳琳,张芬.祁连山中部青海云杉上下限树轮宽度年表对气候的响应差异[J].干旱区资源与环境,2014,28(7):29-34.（只标注研究院）

2.柴亚凡,马金珠,周波,李欣娟,周建海,杨靖文.戈壁荒漠区风电场建设对水土流失的影响[J].水土保持通报,2014,34(2):124-127.（只标注研究院）

3.常跟应,张文侠.基于生态文明的疏勒河流域大规模移民反思[J].兰州大学学报(自然科学版),2014,50(3): 405-409.

4.崔志杰,郭鹏,熊木齐,庆丰,张毅,曾宇桐,孟兴民.基于ASTER遥感影像武都区松散堆积物研究[J].兰州大学学报(自然科学版),2014,50(5):739-744.

5.高彦净,巩杰,贾珍珍,谢余初,钱大文.甘肃白龙江流域土地利用在地形梯度上的空间分布[J].兰州大学学报(自然科学版),2014,50(5)680-686.

6.巩杰,高彦净,张玲玲,谢余初,赵彩霞,钱大文.基于地形梯度的景观生态风险空间分析-以甘肃省白龙江流域为例[J].兰州大学学报(自然科学版),2014,50(5)692-698.

7.巩杰,赵彩霞,谢余初,高彦净.基于景观格局的甘肃白龙江流域生态风险评价与管理[J].应用生态学报,2014,25(7):2041-2048.

8.巩杰,谢余初,贾珍珍,钱大文.黑河流域土地利用/土地覆被变化研究新进展[J].兰州大学学报(自然科学版),2014,50(3):390-397.

9.巩杰,谢余初,赵彩霞,高彦净.甘肃白龙江流域景观生态风险评价及其时空分异[J].中国环境科学,2014,34(8):2153-2160.

10.巩杰,张玲玲,孙朋.近40年来酒泉肃州绿洲时空变化及景观稳定性.兰州大学学报:自然科学版,2014,50(3):398-404.

11.顾春杰,孙爽,马金珠.基于DEA模型和生产函数的泥石流易损性评价[J].兰州大学学报(自然科学版),2014,50(5):751-756.

12.郭峰,孙东怀,王飞,李再军,李宝锋.巴丹吉林沙漠地层序列的粒度分布及其组分成因分析[J].海洋地质与第四纪地质,2014,34(1):165-173.

13.郭建军,李凯,江宝骅,孙悦迪,汪玉琼,岳东霞.流域生态承载力空间尺度效应分析-以石羊河流域为例[J].兰州大学学报(自然科学版),2014,50(3):383-389.

14.郭富赟,孟兴民,尹念文,曾润强,王思源,陈冠,谢正团.甘肃省岷县耳阳沟“5·10”泥石流基本特征及危险度评价[J].兰州大学学报(自然科学版),2014,50(5):628-632.

15.郭富赟,孟兴民,张永军,李松,谢正团,熊木齐,郭鹏.甘肃山区城镇地质灾害风险区划技术方法探讨[J].兰州大学学报(自然科学版),2014,50(5):604-610.

16.胡小飞,潘保田,李 琼.基岩河道水力侵蚀模型原理及其最新研究进展[J].兰州大学学报(自然科学版),2014,50(6):824-831.

17.胡雅杰,董阳,郭映,党慧慧,董军,魏国孝.环江流域径流模拟研究[J].资源科学,2014, 36(10):2038-2045.

18.黄伟,陈发虎,冯松,陈建徽,张肖剑.中纬度亚洲降水年际变化的空间差异与环流异常[J].科学通报,2014,59(7): 630.

19.李常斌,杨林山,杨文瑾,王帅兵.洮河流域土地利用/土地覆被变化及其驱动机制研究[J].地理科学,2014,34(7): 848-855.（只标注研究院）

20.李虎,安成邦,董惟妙,王树芝,董广辉.陇东地区齐家文化时期木炭化石记录及其指示意义[J].第四纪研究,2014,34(1):35-42.

21.李金麟,赵琛,张兰慧,贺缠生,王忠富.地统计方法在黑河上游气象分析中的应用比较[J].兰州大学学报(自然科学版),2014,50(3):318-323.

22.李凯,孙悦迪,江宝骅,郭建军,汪玉琼,岳东霞.基于像元二分法的白龙江流域植被覆盖度与滑坡时空格局分析[J].兰州大学学报(自然科学版),2014,50(3):376-382.

23.刘东飞,马金珠,田黎明,舒和平.基于DAN-W模型的舟曲泄流坡滑坡运动特性模拟研究[J].兰州大学学报(自然科学版),2014,50(5):733-738.

24.刘艳蕊,杨一博,方小敏,宋春晖,刘晓明.沉积相变迁对内陆湖泊沉积易溶盐作为古环境指标的影响-以西宁盆地为例[J].沉积学报,2014,32(1):101-109.（只标注研究院）

25.马金辉,田菲,陈璐.基于优势分析法的泥石流影响因子相对重要性分析-以白龙江流域为例[J].兰州大学学报(自然科学版),2014,50(5):722-727.

26.宁娜,舒和平,刘东飞,马金珠.基于熵权和模糊评判的单沟泥石流危险性评价[J].兰州大学学报(自然科学版),2014,50(3):369-375.

27.牛贺文,何元庆.玉龙雪山地区大气降水中粉尘颗粒物特征研究[J].冰川冻土,2014,36(1):71-79.

28.牛贺文,何元庆,辛慧娟,杜建括,蒲焘,张涛,常丽.玉龙雪山积雪中粉尘微粒的沉积特征[J].环境化学,2014,33(8):1347-1353.

29.齐识,刘东飞,马金珠,田黎明.白龙江流域典型单体滑坡危险度[J].兰州大学学报(自然科学版),2014,50(3):356-362.

30.齐识,张雅莉,张鹏,马金珠.白龙江流域滑坡危险性评价指标体系的构建[J].长江科学院院报,2014,31(1):23-28.

31.乔良,郭鹏,曾润强,陈冠,李亚军,孟兴民.甘肃省冶力关国家森林公园地质灾害隐患分析[J].兰州大学学报(自然科学版),2014,50(4):477-483.（只标注研究院）

32.曲建升,王莉,邱巨龙.中国居民住房建筑固定碳排放的区域分析[J].兰州大学学报(自然科学版),2014,50(2):200-207.

33.舒和平,马金珠,张鹏,刘东飞.不同降雨频率单沟泥石流灾害风险评价[J].兰州大学学报(自然科学版),2014,50(5):653-658.

34.孙朋,巩杰,高彦净,谢余初,钱大文.干旱区流域绿洲时空变化及其景观响应[J].干旱区研究,2014,31(2):355-361.

35.孙悦迪,郭建军,李凯,江宝骅,岳东霞.白龙江流域泥石流沟不同立地条件下土壤理化性质对比研究[J].兰州大学学报(自然科学版),2014,50(5)：699-704.

36.谭龙,陈冠,曾润强,熊木齐,孟兴民.人工神经网络在滑坡敏感性评价中的应用[J].兰州大学学报(自然科学版),2014,50(1):15-20.

37.田杰,金鑫,贺缠生.基于MODFLOW的山区地下水径流数值模拟[J].兰州大学学报(自然科学版),2014,50(3):324-332.

38.王博,夏敦胜,余晔,贾佳,许淑婧.典型沙漠绿洲城市表土磁性特征及环境指示意义[J].地球物理学报,2014,57(3):891-905.

39.王宗礼,何建华,陈亚东.湖泊碳库效应及校正方法[J].中国沙漠,2014,34(3): 683-688.

40.王思源,曾润强,乔良,孟兴民,汪霞,崔志杰.松散斜坡上刺槐根系分布特征及其抗拉实验[J].兰州大学学报(自然科学版) 2014,50(5):676-679.

41.王鑫,王宗礼,陈建徽,刘建宝,王海鹏,张生瑞,许清海,陈发虎.山西宁武天池区高山湖泊群的形成原因[J].兰州大学学报(自然科学版),2014,50(2):208-212.

42.吴铎,魏海涛,赵瑞瑞,张蕊,刘建宝.兰州市室内大气降尘环境磁学特征及其随高度变化研究[J].环境科学,2014,35(1):79-84.

43.吴娴,黄伟,陈发虎.1951-2012年中国大陆0.025×0.025高分辨率月气温和降水量格点数据集的建立[J].兰州大学学报(自然科学版),2014,50(2):213-220.

44.谢余初,巩杰,赵彩霞.甘肃白龙江流域水土流失的景观生态风险评价[J].生态学杂志, 2014,33(3):702-708.

45.许淑婧,夏敦胜,春喜,王博,张英.呼和浩特市大气降尘磁学特征及其环境意义[J].中国环境科学,2014,34(4):1004-1011.

46.杨胜利,盛阳,韩永翔,陈旸.格尔木地区沙尘气溶胶铁氧化物漫反射光谱分析[J].兰州大学学报(自然科学版),2014,50(5):710-715.

47.岳东霞,李凯,张佳静,江帆,孙悦迪,江宝骅,郭建军.基于RS和广义目标函数法的清水沟地质灾害承灾体易损性评价[J].兰州大学学报(自然科学版),2014,50(5)671-675.

48.曾宇桐,乔良,曾润强,张毅,陈冠,孟兴民.人工降雨条件下坡积层斜坡入渗地表径流检测[J].兰州大学学报(自然科学版),2014,50(5):659-665.

49.张琨,朱高峰,白岩,马婷.基于人工神经网络的涡度相关仪观测蒸散量的数据插补方法[J].兰州大学学报(自然科学版),2014,50(3):348-355.

50.张鹏,马金珠,舒和平,王刚.基于FLO-2D模型的泥石流运动冲淤数值模拟[J].兰州大学学报(自然科学版),2014,50(3):363-368.

51.张瑞,戴霜,张明震,赵杰,汪禄波,张莉莉,张翔,刘海娇.内蒙古乌拉特后旗乌兰剖面记录的早白垩世火灾事件[J].地质学报,2014,88(6):1177-1186.

52.张喜风,张兰慧,顾娟,贺缠生.敦煌绿洲地下水时空变异特征及其对土地利用/覆被变化的响应分析[J].兰州大学学报(自然科学版),2014,50(3):311-317.

53.张毅,乔良,曾润强,陈冠,王思源,孟兴民.基于原位双环渗水试验的堆积层滑坡入渗规律[J].兰州大学学报(自然科学版),2014,50(5):666-670.

54.张毅,谭龙,陈冠,郭鹏,乔良,孟兴民.基于面向对象分类法的高分辨率遥感滑坡信息提取[J].兰州大学学报(自然科学版),2014,50(5):745-751.

55.赵琛,张兰慧,李金麟,田杰,吴维臻,金鑫,张喜风,蒋忆文,王晓磊,贺缠生,白晓.黑河上游土壤含水量的空间分布与环境因子的关系[J].兰州大学学报(自然科学版),2014,50(3):338-347.

56.赵永涛,安成邦,陈玉凤,赵家驹,周爱锋,施超.晚冰期以来乌伦古湖沉积物多指标高分辨率的古环境演化[J].干旱区地理,2014,37(2):222-229.

第一作者第二三单位标注实验室

57.董志文,秦大河,秦翔,杜志恒,陈记祖,任贾文.祁连山老虎沟12号冰川积雪中飞灰颗粒物的特征[J].环境科学,2014,35(2):504-512.

58.刘东旭,司高华,李哲,吴茂嘉,富宝锋,马金珠.²³⁹Pu在某核废物处置预选区包气带的迁移预测[J].东华理工大学学报(自然科学版),2014,37(1):75-80.

59.刘秀铭,吕镔,毛学刚,温昌辉,俞鸣同,郭雪莲,陈家胜,王涛.风积地层中铁矿物随环境变化及其启示[J].第四纪研究,2014,34(3):443-457.

60.潘峰,张清寰,何建华.甘肃董志塬地区第四系地下水补给环境与水化学特征演化[J].干旱区地理, 2014,37(1): 9-18.

61.宿星,吴玮江,叶伟林,冯乐涛.甘肃舟曲县龙江新村滑坡特征及稳定性[J].兰州大学学报(自然科学版),2014,50(1):7-14.（只标注研究院）

62.颉耀文,姜海兰,林兴周,赵虹,王浩宇,代德磊.1963-2013a间临泽绿洲时空变化过程研究[J].干旱区资源与环境,2014,28(8):55-60.

63.颉耀文,姜海兰,王学强,马宗义,陈云海.1963-2012年黑河下游额济纳绿洲的时空变化[J].干旱区地理2014,37(4):786-792.

64.汪霞,张洋洋,怡欣,王思源,庆丰,孟兴民.基于生态足迹模型的舟曲县生态承载力空间差异[J].兰州大学学报(自然科学版),2014,50(5):687-691.

65.杨林山,李常斌,王帅兵,杨文瑾.洮河流域潜在蒸散发的气候敏感性分析[J].农业工程学报,2014,30(11):102-109.

66.杨林山,李常斌,帅兵,杨文瑾.基于SWAT和遥感方法的黄土台塬区土壤水库均衡-以甘肃省陇东黄土董志塬为例[J].冰川冻土,2014,36(3):691-698.

67.杨林山,王帅兵,杨文瑾,李常斌.干旱沟谷漫滩区暴雨洪水特性-以景泰县驼水沟为例[J].兰州大学学报(自然科学版),2014,50(3):333-337.

68.杨林山,李常斌,王帅兵,杨文瑾.气候变化和人类活动对洮河流域植被动态的影响研究[J].资源科学,2014,36(9):1941-1948.

非第一作者单位标注实验室

69.崔志杰,徐镱钦,高俊红,孙朋巩杰.酒泉-金塔盆地绿洲土地利用变化与生态系统服务价值评估[J].水土保持通报,2014,34(1):252-257.

70.董利苹,曲建升,张志强,刘莉娜.居民生活碳排放抽样调查方案设计：以青海省为例[J].数学的实践与认识,2014,44(6):81-88.

71.高泽永,王一博,刘国华,刘明浩,罗京,印泾经.多年冻土区活动层土壤水分对不同高寒生态系统的响应[J].冰川冻土,2014,36(4):1002-1010.

72.郭映,董阳,周振方,党慧慧,魏国孝.半干旱区玉米茎流规律及其对气象因子的响应研究[J].干旱区资源与环境,2014,28(9):94-99.

73.郭映,董阳,党慧慧,董军,魏国孝.基于不同时间尺度玉米蒸散蒸腾量及其影响因素[J].资源科学,2014,36(7):1501-1508.

74.黄春林,李艳,卢玲,顾娟.考虑干旱水分胁迫的地表通量遥感估算[J].水科学进展, 2014,25(2):181-188.（只标注研究院）

75.姜啸,张虎元,严耿升,王锦芳.湿度对盐溶液在壁画地仗中的毛细迁移影响研究[J].岩土力学,2014,35(2):459-465.

76.李云,宋友桂,聂军胜,孙博亚.基于U-Pb定年和单颗粒锆石粒径分析示踪中国黄土高原黄土和红粘土物源[J].地质论评,2014,60(2):380-388.（只标注研究院）

77.梁倍,邸利,赵传燕,彭守璋,彭焕华,王超.祁连山天老池流域灌丛地上生物量空间分布[J].应用生态学报,2014,25(2):367-373.

78.梁凯丽,聂燕,夏敦胜,王舒馨,许淑婧,王博,王向前.乌鲁木齐大气降尘磁学特征及其环境意义[J].中国沙漠,2014,34(5):1369-1375.

79.刘春雨,董晓峰,刘英英.不同尺度视角下大敦煌NPP分布格局研究[J].资源科学,2014,36(2):406-412.（只标注研究院）

80.刘沁萍,杨永春,付冬暇,李鸿轶,田洪阵.基于DMSPOLS灯光数据的1992-2010年中国城市空间扩张研究[J].地理科学,2014,34(2):129-136.（只标注研究院）

81.刘沁萍,杨永春,田洪阵,顾磊,张博.快速城市化时期中国城市建成区植被状况的时空分异特征[J].自然资源学报,2014,29(2):223-236.

82.宋晓玲,郭富赟,谢煜.陇南市招待所沟泥石流危险度评价及防治[J].兰州大学学报(自然科学版),2014,50(5):639-644.

83.王君兰,邓伟,张平宇,张家武.湖泊沉积物不同粒级组分有机碳同位素差异及其对实验结果的影响[J].湖泊科学,2014,26(4):625-631.

84.王琳,崔一付,刘晓芳.甘青地区马家窑文化遗址的地貌环境分析及其土地利用研究[J].第四纪研究,2014,34(1):224-233.（只标注研究院）

85.王树芝,李虎,张良仁,陈国科,王鹏,赵志军.甘肃张掖黑水国西城驿遗址出土木炭指示的树木利用和古环境[J].第四纪研究,2014,34(1):43-50.

86.王涛,刘秀铭,吕镔,马明明,赵国永,陈家胜.新疆尼勒克黄土岩石磁学特征及变化机制研究[J].第四纪研究,2014,34(3):491-503.

87.余波,周英,刘祖涵,王海鹏.基于混沌理论的兰州市近10a空气污染指数时间序列分析[J].干旱区地理,2014,37(3):570-578.（只标注研究院）

88.钟歆玥,王康.基于PBM的甘肃省用水量变化分析[J].系统工程理论与实践,2014,34(4): 870-877.