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发表论著

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2016年发表论著

时间:  2017-03-20 08:30  点击:   次
1.  alexander f., liu s., bao w., et al. climate change and water potential of the pamir mountains. geogra- phy,environment, sustainability, 2016, 9(3):88-105.
2.  benjamin f., tong y., yin x., et al. first field-based atmospheric observation of the reduction of reac- tive mercury driven by sunlight. atmospheric environment, 2016, 134:27-39.
3.  bi x., luo w., gao j., et al. polycyclic aromatic hydrocarbons in soils from the central-himalaya region: d istribution, sources, and risks to humans and wildlife. science of the total environment, 2016, 556:12-22.
4.  chen p., li c., kang s., et al. source apportionment of particle-bound polycyclic aromatic hydrocarbons in lumbini, nepal by using the positive matrix factorization receptor model. atmospheric research, 2016, 182: 46-53.
5.  chen s., liu w., zhao q., et al. response of freeze-thaw processes to experimental warming in the per mafrost regions of the central qinghai-tibet plateau. the cryosphere discussions, 2016, 1-24, doi: 10.5194/tc-2016-80.
6.  dong z., kang s., qin d., et al. provenance of cryoconite deposited on the glaciers of the tibetan plateau: new insights from nd-sr isotopic composition and size distribution. journal of geophysical research: atmo- spheres, 2016, 12:1-12.
7.  dong z., qin d.,kang s., et al. individual particles of cryoconite deposited on the mountain glaciers of the tibetan plateau: insights into chemical composition and sources. atmospheric environment, 2016, 138: 114-124.
8.  du w., kang s., qin x., et al. atmospheric insight to climatic signals of δ 18o in a laohugou ice core in the northeastern tibetan plateau during 1960-2006. sciences in cold and arid regions, 2016, 8(5): 0367-0377.
9.  du w., qin x., kang s., et al. variations in annual accumulation recorded in a laohugou ice core from the northeastern tibetan plateau and their relationship with atmospheric circulation. environmental earth sciences, 2016, 75(9):1-13.
10. erji du, the relationship between the ground surface layer permittivity and active-layer thawing depth in a qinghai-tibetan plateau permafrost area. cold regions science and technology, 2016, volume 126: 55-60.
11. feng l., xu j., kang s., et al. chemical composition of microbe-derived dissolved organic matter in cry- oconite in tibetan plateau glaciers: insights from fourier transform ion cyclotron resonance mass spectrometry analysis. environmental science & technolog, 2016, (21): 1-28.
12. gao t., zhang t., wan x., et al. influence of microtopography on active layer thaw depths in qilian mountain, northeastern tibetan plateau. environmental earth sciences, 2016, 75(5):1-12.
13. grigholm b., mayewski p.a., aizen v., et al. mid-twentieth century increases in anthropogenic pb, cd and cu in central asia set in hemispheric perspective using tien shan ice core. atmospheric environment, 2016, 131: 17-28.
14. guo j., kang s., huang j., et al. trace elements and rare earth elements in wet deposition of lijiang, mt. yulong region, southeastern edge of the tibetan plateau. journal of environmental sciences, 2016: 1-11.
15. hu g., zhao l., wu x., et al. an analytical model for estimating soil temperature profile on the qing- hai-tibet plateau of china. j arid land, 2016, 8(2): 232-240.
16. hu g., zhao l., wu x., et al. an improved model for soil surface temperature from air temperature in permafrost regions of qinghai-xizang (tibet) plateau of china. meteorology and atmospheric physics, 2016, 7: 1-11.
17. hu g., zhao l., wu x., et al. comparison of different soil temperature algorithms in permafrost regions of qinghai-xizang (tibet) plateau of china. cold regions science and technology, 2016, 130:1-7.
18. hu g., zhao l., wu x., et al. new fourier-series-based analytical solution to the conduction-convection equation to calculate soil temperature, determine soil thermal properties, or estimate water flux. international journal of heat and mass transfer, 2016,95: 813-823.
19. huang j., kang s., guo j., et al. atmospheric particulate mercury in lhasa city, tibetan plateau. atmo- spheric environment, 2016, 142: 433-441.
20. huang j., kang s., tian l., et al. influence of long-range transboundary transport on atmospheric water vapor mercury collected at the largest city of tibet. science of the total environment, 2016, 566-567: 1215-1222.
21. ji z., kang s., zhang q., et al. investigation of mineral aerosols radiative effects over high mountain asia in 1990-2009 using a regional climate model. atmospheric research, 2016, 178-179: 484-496.
22. kang s., chen p., li c., et al. atmospheric aerosol elements over the inland tibetan plateau: concentra- tion,seasonality, and transport. article in press, 2016, 16(3):789-800.
23. kang s., cong z. atmospheric black carbon and its effects on cryosphere. advances in climate change research, 2016, 7(3): 113-114.
24. kang s., huang j, wang f., et al. atmospheric mercury depositional chronology reconstructed from lake sediments and ice core in the himalayas and tibetan plateau. environmental science & technology, 2016, 50(6):2859-2869.
25. li c., bosch c., kang s., et al. sources of black carbon to the himalayan-tibetan plateau glaciers. nature communications, 2016, 7:1-7.
26. li c., chen p., kang s., et al. carbonaceous matter deposition in the high glacial regions of the tibetan plateau. atmospheric environment, 2016, 141: 203-208.
27. li c., chen p., kang s., et al. concentrations and light absorption characteristics of carbonaceous aerosol in pm 2.5 and pm 10 of lhasa city, the tibetan plateau. atmospheric environment, 2016, 127:340-346.
28. li c., yan f., kang s., et al. light absorption characteristics of carbonaceous aerosols in two remote sta- tions of the southern fringe of the tibetan plateau, china. atmospheric environment, 2016, 143:79-85.
29. li q., kang s., wang n., et al. composition and sources of polycyclic aromatic hydrocarbons in cry- oconites of the tibetan plateau glaciers. science of the total environment, 2016, 574:991-999.
30. li q., yang m., wan g., et al. spatial and temporal precipitation variability in the source region of the yellow river. environal earth sciences, 2016, 75:594.
31. li r., zhao l., wu th., et al. the impacts of net long-wave radiation on the surface soil thermal regimes over the qinghai-tibetan plateau, china. environ earth sci, 2016,75(3):1-12.
32. li x., he x., kang s., et al. diurnal dynamics of minor and trace elements in stream water draining dongkemadi glacier on the tibetan plateau and its environmental implications. journal of hydrology, 2016, 541:1104-1118.
33. lin m., zhang z., su l., et al. resolving the impact of stratosphere-to-troposphere transport on the sulfur cycle and surface ozone over the tibetan plateau using a cosmogenic 35 s tracer. journal of geophysical re- search: atmospheres, 2016, 121(5-6):395-414.
34. liu b., cong z., wang y., et al. background aerosol over the himalayas and tibetan plateau: observed characteristics of aerosol mass loading. atmospheric chemistry and physics, 2016:1-38.
35. liu b., qu j., kang s., et al. response of dune activity on the tibetan plateau to near future climate change. climate research, 2016, 69: 1-8.
36. liu q., guo w., nie y., et al. recent glacier and glacial lake changes and their interactions in the bugyai kangri, southeast tibet.annals of glaciology,2016,57(71): 61-69.
37. liu q., liu s. response of glacier mass balance to climate change in the tianshan mountains during the second half of the twentieth century. climate dynamics, 2016, 46(1-2): 303-316.
38. liu y., xu j., kang s., et al. storage of dissolved organic carbon in chinese glaciers. journal of glaciolo- gy, 2016, 62(232).
39. luo w., gao j., bi x., et al. identification of sources of polycyclic aromatic hydrocarbons based on con- centrations in soils from two sides of the himalayas between china and nepal . environmental pollution, 2016, 212:424-432.
40. matthew j., susan k., kang s., et al. tibetan p p lateau geladaindong black carbon ice core record (1843-1982):recent increases due to higher emissions and lower snow accumulation . advances in climate change research, 2016, 7(3): 132-138.
41. niu h., he y., kang s., et al. chemical compositions of snow from mt. yulong, southeastern tibetan plateau. journal of earth system science, 2016, 125(2):403-416.
42. niu h., kang s., shi x., et al. water-soluble elements in snow and ice on mt. yulong. science of the to- tal environment, 2016, 574: 889-900.
43. niu h.,he y., kang s., et al. chemical compositions of snow from mt. yulong, southeastern tibetan plateau. j. earth syst. sci, 2016, 125(2): 403-416.
44. pang g., wang x., yang m. using the ndvi to identify variations in, and responses of, vegetation to cli- mate change on the tibetan plateau from 1982 to 201. quaternary international, 2016, 1-10.
45. qin y., wu t., li r., et al. using era-interim reanalysis dataset to assess the changes of ground surface freezing and thawing condition on the qinghai-tibet plateau. environmental earth sciences, 2016, 75(9): 1-13.
46. shang w., wu x., zhao l., et al. seasonal variations in labile soil organic matter fractions in permafrost soils with different vegetation types in the central qinghai-tibet plateau. catena, 2016, 137: 670-678.
47. shangguan d., liu s., ding y., et al. characterizing the may 2015 karayaylak glacier surging in the east- ern pamir plateau using remote sensing. journal of glaciology, 2016, 62(235): 944-953.
48. sun s., kang s., huang j., et al. distribution and transportation of mercury from glacier to lake in the qiangyong glacier basin, southern tibetan plateau, china. sciencedirect, 2016, 44(6): 213-223.
49. tripathee l., kang s., rupakheti d., et al. spatial distribution, sources and risk assessment of potentially toxic trace elements and rare earth elements in soils of the langtang himalaya, nepal. environmental earth sciences, 2016, 75(19):1-12.
50. tripathee l., kang s., rupakheti d., et al. water-soluble ionic composition of aerosols at urban loca- tion in the foothills of himalaya,pokhara valley, nepal. atmosphere, 2016, 7(8):1-13.
51. tripathee l.,kang s.,sharma c., et al. preliminary health risk assessment of potentially toxic metals in surface water of the himalayan rivers, nepal. bulletin of environmental contamination and toxicology, 2016, 97(6):855-862.
52. wan x., kang s., xin j., et al. chemical composition of size-segregated aerosols in lhasa city, tibetan plateau. atmospheric research, 2016, 174-175:142-150.
53. wang j., ge x., chen y., et al. highly time-resolved urban aerosol characteristics during springtime in yangtze river delta, china: insights from soot particle aerosol mass spectrometry. atmos. chem. phys, 2016, 9109-9127, doi: 10.5194.
54. wang p., li z., li h., et al. analyses of recent observations of urumqi glacier no. 1, chinese tianshan mountains. environmental earth sciences, 2016, 75: 1-11.
55. wang p., li z., li h., et al. recent evolution in extent, thickness and velocity of haxilegen glacier no. 51, kuytun river basin, eastern tianshan mountains. arctic antarctic and alpine research, 2016, 48 (2): 241-252.
56. wang p., li z., wang w., et al. comparison of changes in glacier area and thickness on the northern and southern slopes of mt. bogda, eastern tianshan mountains. journal of applied geophysics, 2016, 132:164-173.
57. wang p., li z., yu g., et al. glacier shrinkage in the daxue and danghenan ranges of the western qilian mountains, china, from 1957 to 2010. environmental earth sciences, 2016, 75: 127.
58. wang x., luo y.,sun l., et al. attribution of runoff decline in the amu darya river in central asia dur- ing 1951-2007. journal of hydrometeorology, 2016, 17(5): 1543-1560.
59. wang x., pang g., yang m., et al. effects of modified soil water-heat physics on regcm4 simulations of climate over the tibetan plateau. journal of geophysical research:atmospheres, 2016, 121:6692-6712.
60. wu g., cong z., kang s., et al. brown carbon in the cryosphere: current knowledge and perspective. sci- encedirect, 2016, 7:82-89.
61. wu k.,liu s.,guo w., et al. glacier change in the western nyainqentanglha range, tibetan plateau using historical maps and landsat imagery: 1970-2014. journal of mountain science, 2016, 13(8):1358-1374.
62. wu x., zhao l., fang h., et al. environmental controls on soil organic carbon and nitrogen stocks in the high-altitude -arid western qinghai-tibetan plateau permafrost region. journal of geophysical research: biogeo- sciences, 2016, 121(1): 176-187.
63. wu z., liu s., he x. numerical simulation of the flow velocity and temperature of the dongkemadi glacier. environmental earth sciences, 2016, 75(5):394.doi 10.1007/s12665-016-5262-9.
64. wu z., liu s., zhang h. numerical simulation of the flow velocity and change in the future of the sg4. arabian journal of geosciences, 2016, 9(4):269.doi 10.1007/s12517-015-2284-7.
65. xie ai., wang s., xiao c., et al. can temperature extremes in east antarctica be replicated from era in- terim reanalysis. article in arctic antarctic and alpine research, 2016, 48(4): 603-621.
66. xu j., kang s., hou s., et al. characterization of contemporary aeolian dust deposition on mountain glaciers of western china. science cold and arid regions, 2016, 8(1), 9-21.
67. xu j., shi j., zhang q., et al. wintertime organic and inorganic aerosols in lanzhou, china: sources, pro- cesses and comparison with the results during summer. atmos. chem. phys. discuss, 2016, doi: 10.5194/acp-2016-278.
68. xu m., kang s. ,zhao q., et al. terrestrial water storage changes of permafrost in the three-river source region of the tibetan plateau, china. advances in meteorology, 2016, 1-13.
69. yan f., kang s., li c., et al. concentration, sources and light absorption characteristics of dissolved or- ganic carbon on a medium-sized valley glacier, northern tibetan plateau. the cryosphere, 2016, 10:2611-2621.
70. yang j., duan k., kang s., et al. potential feedback between aerosols and meteorological conditions in a heavy pollution event over the tibetan plateau and indo-gangetic plain. climate dynamics, 2016, 18:1-17.
71. yin r., feng x., hurley j., et al. historical records of mercury stable isotopes in sediments of tibetan lakes. scientific reports, 2016, 6: 1-10.
72. you x., li z., ross e., et al. the transport of chemical components in homogeneous snowpacks on u- rumqi glacier no. 1, eastern tianshan mountains, central asia. journal of arid land, 2016, 7(5):612-622.
73. yu w., wu t., wang w., et al. spatiotemporal changes of reference evapotranspiration in mongolia dur- ing 1980-2006. advances in meteorology, 2016, article id 9586896, 14 pages.
74. yue g., zhao l., wang z., et al.spatial variation in biomass and its relationships to soil properties in the permafrost regions along the qinghai-tibet railway. environmental engineering science, 2016, doi: 10.1089/ees.2014.0504.
75. zhang g., kang s., cuo l., et al. modeling hydrological process in a glacier basin on the central tibetan plateau with a distributed hydrologysoil vegetation model. journal of geophysical research: atmospheres, 2016, 121(16): 9521-9539.
76. zhang q., kang s., et al. comment on “ice core perspective on mercury pollution during the past 600 years"". environmental science & technology, 2016, 50 (2): 1065-1067.
77. zhang x., liu s. a framework of numerical simulation onmoraine-dammed glacial lake outburst floods. journal of arid land, 2016, 7(6): 728-740.
78. zhang y., hirabayashi y., fujita k., et al. heterogeneity in supraglacial debris thickness and its role in glacier mass changes of the mount gongga. science china-earth sciences, 2016, 59(1): 170-184.
79. zhang y., kang s., chen p., et al. records of anthropogenic antimony in the glacial snow from the south- eastern tibetan plateau. journal of asian earth sciences, 2016, 131: 62-71.
80. zhang y., kang s., grigholm b., et al. twentieth-century warming preserved in a geladaindong mountain ice core, central tibetan plateau. annals of glaciology, 2016, 57(71): 70-80.
81. zhang y., kang s., zhang q., et al. chemical records in snowpits from high altitude glaciers in the ti- betan plateau and its surroundings. plos one, 2016, 11(5): 1-23.
82. zhang y., luo y., lin sun l., et al. using glacier area ratio to quantify effects of melt water on runoff. journal of hydrology, 2016, 538:269-277.
83. zhang z., liu s., wei j., et al. mass change of glaciers in muztag ata-kongur tagh, eastern pamir, china from 1971/76 to 2013/14 as derived from remote sensing data. plos one, 2016, 11 (1): e0147327.doi:10.1371/journal.pone.0147327.
84. zhang z., xu j., liu s., et al. glacier changes since the early 1960s, eastern pamir, china. journal of mountain science, 2016, 13(2): 276-291.
85. zhong x., zhang t., zheng l., et al. spatiotemporal variability of snow depth across theeurasian conti- nent from 1966 to 2012. the cryosphere discuss, 2016, 182:1-36.
86. zhou s., collier s., xu j., et al. influences of upwind emission sources and atmospheric processing on aerosol chemistry and properties at a rural location in the northeastern us. j. geophys. res. atmos, 2016, 121, 6049 -6065.
87. zhu g., he y., qin d., et al. the impacts of climate change on hydrology in a typical glacier region-a case study in hailuo creek watershed of mt. gongga in china. sciences in cold and arid regions, 2016, 8(3): 227-240.
88. zhu g., li j., shi p., et al. relationship between sub-cloud secondary evaporation and stable isotope in precipitation in different regions of china. environmental earth sciences, 2016, 75(10):1-18.
89. zhu g., ling y., qin d., et al. spatial and temporal variation of drought index in a typical steep alpine terrain in hengduan mountains. journal of mountain science, 2016, 13(7):1186-1199.
90. zhu g., qin d., liu y., et al. accuracy of trmm precipitation data in the southwest monsoon region of china. theoretical and applied climatology, 2016, doi 10.1007/s00704-016-1791-0.
91. zhu g., qin d., tong h., et al. variation of thornthwaite moisture index in hengduan mountains, china. chinese geographical science, 2016, 26(5):1-16.36(5):3186-3193.
92. zhu x., wu t., et al. characteristics of the ratios of snow, rain and sleet to precipitation on the qing- hai-tibet plateau during 1961-2014. quaternary international, 2016, 1-14.
93. 董慧慧,上官冬辉.基于 pls 的石羊河流域降水空间分布研究.山地学报,2016,34(11):591-598.
94. 杜建括,何元庆,李双.横断山区典型海洋型冰川物质平衡研究.地理学报,2016,70(9):1415-1422.
95. 杜文涛,康世昌.巍巍高原话气候.大自然,2016,(1):10-11.
96. 何则,何元庆,王世金,等.中国西北地区 1470~2008 年干湿分异的时空场分解.气候变化研究快报,2016,30(11):154-163.
97. 贺建桥,张伟,周剑,等.山脉走向对降水中δ18o垂直递减率的影响——以黑河流域上游祁连山区为例. 冰川冻土,2016,38(2):359-367.
98. 怀保娟,李忠勤,王飞腾,等.萨吾尔山木斯岛冰川厚度特征及冰储量估算.地球科学,2016,41(5):757-764.
99. 康世昌,张玉兰.翻越世界屋脊—黑碳气溶胶对气候的影响.大自然,2016,1:4-9.
100.李承鼎,康世昌,刘勇勤,等.西藏湖泊水体中主要离子分布特征及其对区域气候变化的响应.湖泊科学,2016,28(4):743-754.
101.李盼盼,何元庆,马健,等.黑河下游灌丛沙丘的地球化学特征及对近代气候变化的指示意义.干旱区资 源与环境,2016,30(11):154-160.
102.李佩霖,傅平青,康世昌,等.大气气溶胶中的氮:化学形态与同位素特征研究进展.环境化学,2016,35(1):1-10.
103.李琼,杨梅学,万国宁,等.trmm3b43 降水数据在黄河源区的适用性评价.冰川冻土,2016,38(3):620-633.
104.李洋,曲斌,康世昌,等.念青唐古拉山扎当冰川雪冰中不溶性有机碳含量及其辐射强迫研究.环境科学学报,2016,36(3):802-811.
105.刘铸,李忠勤.近期冰川表面径流系数变化的影响因素.地球科学进展,2016,31(1):103-112.
106.马健,何元庆,冯起,等.黑河下游地区柽柳沙丘的气候与环境记录.中国沙漠,2016,36(2):319-326.
107.孟先勇,师春香,刘时银,等.cmads数据集及其在流域水文模型中的驱动作用——以黑河流域为例. 人民珠江,2016,37(7):1-19.
108.庞娟,孙金岭.生产性服务业集聚外溢效应的实证检验.统计与决策,2016,(7):141-145.
109.史晓宜,蒲焘,何元庆,等.典型温冰川区湖泊的稳定同位素空间分布特征.环境科学,2016,37(5):1685-1691.
110.孙金岭,何元庆,何则,等.基于 morlet 小波的清代民国河西走廊洪涝灾害与气候变化研究.干旱区资源 与环境,2016,30(1):60-65.
111.孙金岭,何元庆,何则,等.基于随机-模糊耦合的填埋场地下水污染风险评价方法.环境工程学报,2016,10(5):2761-2768.
112.孙金岭,庞娟.基于奇异值分解方法的条件异方差下协整秩检验.统计与决策,2016,(4):21-24.
113.孙金岭,王红彬,庞娟.基于模糊分析法的报刊业发展研究.中国报业,2016,(6):18-20.
114.孙学军,王康,郭军明,等.青藏高原内陆典型冰川区野冰川鄄径流冶汞传输过程.环境科学,2016,37(2):482-489.
115.王田野,吴通华,李韧.两种再分析月平均气温资料在蒙古国的适用性评估.高原气象,2016,35(3):651-661.
116.伍云飞,赵井东,郑辉军,等.东帕米尔高原喀拉库勒湖的成因及其年代.冰川冻土,2016,38:100-106.
117.徐春海,王飞腾,李忠勤,等.1972-2013 年新疆玛纳斯河流域冰川变化.干旱区研究,2016,22(3):628-635.
118.叶琳琳,吴晓东,刘波,等. 巢湖溶解性有机物时空分布规律及其影响因素. 环境科学,2016,36(5):3186-3193.
119.叶琳琳,吴晓东,闫德智,等.太湖西北湖区表层水体颗粒态有机碳含量的季节变化及其来源解析.环境科 学学报,2016,doi:10.1367/j.hjkxxb.2016.0299.
120.叶琳琳,吴晓东,赵冬悦,等.崇明岛河网浮游植物和无机、有机氮的时空分布特征.湖泊科学,2016,28(3):528-536.
121.叶琳琳,吴晓东,赵林,等.青藏高原楚玛尔河碳素赋存形态初探.环境科学与技术,2016,39(7):1-4.
122.殷秀峰,康世昌,张巍,等.大气汞被动采样器研究进展.地球与环境,2016,44(2):270-280.
123.尹振良,冯起,刘时银,等.水文模型在估算冰川径流研究中的应用现状.冰川冻土,2016,38(1):248-258.
124.余光明,徐建中,康世昌,等.祁连山老虎沟 12 号冰川雪冰中不溶性微粒沉积特征.干旱区研究,2016,33(2):320-326.
125.张震,刘时银,魏俊锋,等.新疆帕米尔跃动冰川遥感监测研究.冰川冻土,2016,38(1):11-20.
126.钟少颖,何则.基于dea与esda的中国国家级贫困县发展效率的测度与时空演化研究.中国人口资源与环境,2016,30(11):154-164.
 

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