2016年度
第一作者第一单位
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
第一作者第二三单位
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.
非第一作者单位
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.
(共发表中文核心45篇。第一作者第一单位发表中文核心33篇)
第一作者第一单位
1.曹喜林,胡小飞,潘保田,毛俊伟,张建,刘晓鹏.三角剪切断层传播褶皱在祁连山北缘断裂中的应用:以黑河口断层为例[J].第四纪研究,2016,36(4):870-883.
2.常跟应,王鹭,张文侠.民勤县农民对石羊河流域节水政策及节水效果认知[J]E.干旱区资源与环境,2016,(2):13-19.
3.陈建徽,饶志国,刘建宝,FENG Song,董广辉,胡玉,许清海,陈发虎,2016.全新世东亚夏季风最强盛期出现在何时?——兼论中国南方石笋氧同位素的古气候意义.中国科学:地球科学46 (11), 1494-1504.
4.陈雪梅,黄小忠,唐领余,陈发虎.云南星云湖现代盘星藻与湖泊水深关系及其化石记录的探讨. 2016,61(21):2395-3408.
5.丁文广,陈利珍,李丹璐,耿怡颖.1975-2014年晋西北地区沙漠化动态变化趋势研究.干旱区地理,2016,39(5):994-1003
6.董广辉,张山佳,杨谊时,陈建徽,陈发虎,2016.中国北方新石器时代农业强化及对环境的影响[J].科学通报, 61, 2913-2925.
7.董军,岳宁,党慧慧,王刚,魏国孝.应用修订的Shuttleworth-Wallace模型对半干旱区覆膜玉米蒸散的研究[J].中国生态农业学报,2016,(5):674-683.
8.付霞,张家武,王林,崔雪莉,马雪洋,张玉枝.近期人类活动对湖泊沉积记录的影响——以托素湖为例[J].第四纪科学,2016,36(6):1456-1465.
9.巩杰,钱大文,张玲玲,谢余初,高彦净.近35a临泽县绿洲-荒漠土地变化及其景观响应[J].干旱区研究, 2016,33(4):805-813.
10.胡玉,陈建徽,王海鹏,吕飞亚,魏国英, 2016.基于摇蚊的古环境和古气候国内外研究进展与展望.地球科学进展31(8), 870-884.
11.焦腾腾,李佳瑞,陈婕,张肖剑,靳立亚.全新世北大西洋海面温度变化趋势:观测-模拟对比研究[J].第四纪研究,2016,36(3):747-757.
12.黎海明, 左昕昕, 康利宏, 任乐乐, 刘峰文, 刘鸿高, 张乃梦, 闵锐, 刘旭, 董广辉, 2016. 植物大化石和微体化石分析揭示的云贵高原新石器-青铜时代农业发展历程[J].中国科学:地球科学, 46(7), 926-938.
13.李斐,刘苗苗,王水献.2001-2013年开都河流域上游积雪时空分布特征及其对气象因子的响应[J].资源科学,2016,38(6):1160-1168.
14.李英红,饶志国,谭吉华,段菁春,马永亮,贺克斌.兰州大气细颗粒物中多环芳烃污染特征及来源分析[J].环境科学,2016,37(7):2428-2435.
15.李英红,谭吉华,饶志国,段菁春,马永亮,贺克斌. 兰州市大气细颗粒物中水溶性离子的污染特征[J].环境化学,2016,35(9):1-9.
16.李育,刘媛. 末次盛冰期以来中国湖泊记录对环流系统及气候类型的响应[J].地理学报,2016,71(11):1898-1910.
17.刘思丝,黄小忠,强明瑞,林雪如,白志娟,彭卫.孢粉记录的青藏高原东北部更尕海地区中晚全新世植被和气候变化[J].第四纪研究,2016,36(2):247-256.
18.马婷,朱高峰,张琨,冯丽丽.葡萄农田土壤呼吸时空变异性及其与土壤温湿度的关系[J].兰州大学学报:自然科学版,2016,52(1):43-50.
19.马振华,李小苗,郭本泓,于昊,叶喜艳,宋春晖,李吉均.青藏高原东北缘马衔山夷平面特征指标的提取与分析[J].地理学报,2016,71(3):400-411.
20.庞红丽,高红山,刘晓鹏,田文倩,邹钰,潘保田.河流沉积物原位XRF岩芯扫描结果定量估算的初步研究[J].第四纪研究,2016,36(1):237-246.
21.彭卫,林雪如,黄小忠,刘思丝,贾宛娜.黄河兰州段河水搬运花粉与累积花粉组合特征初步研究.2016,18(4):691-698.
22.齐姗姗,巩杰,张影,钱彩云.基于GIS和地统计学的甘肃省白龙江流域土壤氮素空间变异分析[J]E.水土保持通报,2016,36(5):146-150.
23.钱大文,巩杰,贾珍珍.绿洲化-荒漠化土地时空格局变化对比研究——以黑河中游临泽县为例[J].干旱区研究,2016,33(1):80-88.
24.卿文武,刘俊峰,杨钰泉,陈仁升,韩春坛.基于气温的物质平衡模型的参数不确定性分析——以祁连山十一冰川为例[J].地球科学进展,2016,31(9):937-945.
25.史晓宜,蒲焘,何元庆,陆浩,牛贺文,夏敦胜.典型温冰川区湖泊的稳定同位素空间分布特征[J].环境科学,2016,(5):1685-1691.
26.舒和平,孙爽,马金珠,刘东飞,张鹏.甘肃省南部单沟泥石流灾害风险评估[J].山地学报,2016,(3):337-345.
27.舒和平,韩拓,齐识,马金珠.甘肃省南部泥石流运动规律的分析与研究——以甘肃舟曲三眼峪沟为例[J]E.灾害学,2016,31(3):119-124.
28.苏庆达,聂军胜,Joel E. Saylor, Brian K. Horton, Meredith A. Bush,陈文汉.柴达木盆地大红沟剖面新生代地层磁组构特征及构造意义[J].第四纪研究,2016,36(4):859-869.
29.孙朋,巩杰,贾珍珍,谢余初.基于通径分析的酒金盆地绿洲化时空变化及影响因子研究[J].地理科学,2016,36(6):902-909.
30.王莉娜,李勋贵,王晓磊,王乃昂.泾河流域枯水复杂性研究[J].自然资源学报,2016, 31(10):1702-1712.
31.王鑫,Brian KRAATZ Jin MENG Barbara CARRAPA Peter DECELLES Mark CLEMENTZ Sherzod ABDULOV 陈发虎.塔吉克盆地东北缘海相-风成沉积序列与中亚晚始新世-早中新世干旱化的初步研究[J].中国科学:地球科学,2016,(5):674-690.
32.王新,聂燕,陈红,王博,黄韬,夏敦胜.兰州城区大气PM2.5污染特征及来源解析[J].环境科学,2016,(5):1619-1628.
33.王修喜,陈述,何鹏举,宋艾,王强强.裂变径迹热年代学自动测试技术研究进展及实例分析[J].兰州大学学报:自然科学版,2016,52(1):11-17.
34.温振玲,胡小飞,潘保田,张建,曹喜林.金塔南山河流砾石特征指示的青藏高原东北缘地貌演化[J].第四纪研究,2016,36(4):907-916.
35.谢余初,张影,钱大文,巩杰,颉耀文,常根应.基于参与式调查与主成分分析的金塔绿洲变化驱动力分析[J].地理科学,2016,36(2):312-320.
36.谢余初,齐姗姗,张影,巩杰,陈冠.甘肃白龙江流域主要生态风险源危险度综合评价[J].兰州大学学报(自然科学版), 2016, 52 (5): 634-638.
37.熊木齐,孟兴民,庆丰,郭鹏,崔志杰,曾宇桐.甘肃省陇南市白龙江流域泥石流灾害事件与降水特征的关系[J].兰州大学学报:自然科学版,2016,52(3):295-300.
38.阳亚平,马雪洋,王林,付霞,张玉枝,张家武. 湖泊沉积物碳酸盐含量3种测定方法的比较[J].湖泊科学,2016.28(4):917-924.
39.张建,胡小飞,耿豪鹏,陈殿宝,潘保田. 钻孔及现代河流重矿物特征揭示的更新世以来酒东盆地水系演化历史[J]. 地理科学,2016, 36(10):1595-1604.
40.张玲玲,巩杰,张影.基于文献计量分析的生态系统服务研究现状及热点[J].生态学报, 2016,36(18): 5967- 5977.
41.张影,巩杰,马学成,张玲玲.基于文献计量的近20多年来土地利用对土壤有机碳影响研究进展与热点[J].土壤通报,2016,47(2):480-488.
42.张影,谢余初,齐姗姗,巩杰,张玲玲.基于InVEST模型的甘肃白龙江流域生态系统碳储量及空间格局特征[J].资源科学, 2016,38(8):1585-1593.
43.陈雪梅,黄小忠,唐领余,陈发虎. 2016. 云南星云湖现代盘星藻与湖泊水深关系及其化石记录的探讨.科学通报,61(21): 2395-2408.
44.彭卫,林雪如,黄小忠,刘思丝,贾宛娜. 2016. 黄河兰州段河水搬运花粉与累积花粉组合特征初步研究.古地理学报,18(4):691-698.
非第一作者单位
45.高金龙,侯尧宸,白彦福,孟宝平,杨淑霞,胡远宁,冯琦胜,崔霞,梁天刚.基于高光谱数据的高寒草甸氮磷钾含量估测方法研究-以青海省贵南县及玛沁县高寒草甸为例[J].草业学报,2016,(3):9-21.
46.李小强,王军,熊仁伟,范鹏举,杨攀新,张海峰,冯敏杰,任金卫.六盘山地区河道陡峭指数对隆升速率差异的响应[J].第四纪研究,2016,36(2):443-452.
47.马健,何元庆,冯起,李盼盼,何则.黑河下游地区柽柳沙丘的气候与环境记录[J].中国沙漠,2016,36(2):319-326.
48.庞文君,戴霜,张松林,张伟,陈瑞灵,郭坤.钢铁厂周边不同类型表层土壤的环境磁性参数特征研究[J].环境污染与防治,2016,38(4):28-31.
49.史坤博,杨永春,白硕,杨欣傲.成都市体验性网络团购市场发展的空间特征[J].地理研究,2016,35(1):108-122.
50.史坤博,杨永春,杨欣傲,白硕,邵蕊,李博.时间成本是否成为电子商务区位的核心机制——基于成都市O2O电子商务的实证分析[J].地理学报,2016,71(3):500-514.
51.史坤博,杨永春,张伟芳,宋美娜,白硕,李博.城市土地利用效益与城市化耦合协调发展研究——以武威市凉州区为例[J].干旱区研究,2016,33(3):655-663.
52.唐志光,马金辉,李朝奎,彭焕华,梁继.石羊河流域上游植被时空变化及其对区域气候的响应[J].地理与地理信息科学,2016,32(3):116-120.
53.盛阳, 杨胜利, 韩永翔, 郑秋凤,方小敏. 格尔木地区沙尘气溶胶硝酸盐含量及来源[J]. 中国沙漠, 2016, 36(3):792-797.
54.张恩楼,陈建徽,曹艳敏,唐红渠.摇蚊亚化石记录及其在中国湖泊沉积与全球变化研究中的应用[J].第四纪研究,2016,36(3):646-655.
55.张虎元,姜啸,王锦芳,李秀祥.壁画地仗中盐分的毛细输送机制研究[J].岩土力学,2016,37(1):1-11.
56.周子博,刘秀铭,吕镔,陈家胜,马明明,王涛,侯顺民,温昌辉.印度德干高原Panchgini地区黄土性质初探[J].第四纪研究,2016,36(2):354-366.
57.安成邦. 小麦与面条的邂逅. 自然杂志, 2016, 38(4):253-256.
58.黎海明, 左昕昕, 康利宏, 任乐乐, 刘峰文, 刘鸿高, 张乃梦, 闵锐, 刘旭, 董广辉*, 2016. 植物大化石和微体化石分析揭示的云贵高原新石器-青铜时代农业发展历程. 中国科学: 地球科学, 46(7), 926-938.
59.董广辉*, 张山佳, 杨谊时, 陈建徽, 陈发虎, 2016. 中国北方新石器时代农业强化及对环境的影响. 科学通报, 61, 2913-2925.
60.任乐乐, 董广辉*, 2016. “六畜” 的起源和传播历史. 自然杂志, 38(4), 257-262.
61.董广辉*, 刘峰文, 杨谊时, 王琳, 董广辉, 2016. 黄河流域新石器文化的空间扩张及其影响因素. 自然杂志, 38(4), 248-252.
62.陈发虎*, 刘峰文, 张东菊, 董广辉, 2016. 史前时代人类向青藏高原扩散的过程与动力. 自然杂志, 38(4), 235-240.