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发表论著

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2015年发表论著

时间:  2015-12-18 09:58  点击:   次
2015年发表论著清单:
 
1.     丁永建主编,李新荣、李忠勤、张宇等副主编,《中国寒旱区地表关键要素监测科学报告》,北京:气象出版社,2015 年,438 页.
2.     王世金编. 《中国冰川旅游资源空间开发与规划》,北京:科学出版社,2015 年,256 页;
3.     赵林、盛煜主编,南卓铜、吴通华、周国英副主编,《多年冻土调查手册》,北京:科学出版社,2015 年,195 页;
4.     andrew t., william a., xie c. an assessment of potential permafrost along a north-south transect incanada under projected climate warming scenarios from 2011 to 2100. the international journal of climate change: impacts and responses,2015,doi:10.1155.
5.     bajracharya s., maharjana s., shresth f., guo w.,et al. the glaciers of the hindu kush himalayas: current status and observed changes from the 1980s to 2010. international journal of water resources development,2015,31(2): 161-173.
6.     baow., lius., weij., et al. glacier changes during the past 40 years in the west kunlun shan. journal of mountain science,2015,12(2):344-357.
7.     chen p., kang s., bai j., et al. yak dung combustion aerosols in the tibetan plateau:chemical characteristics and influence on the localatmospheric environment.atmospheric research,2015,156: 58-66.
8.     chen p., kang s., li c., et al. characteristics and sources of polycyclic aromatic hydrocarbons in atmospheric aerosols in the kathmandu valley, nepal. science of the total environment,2015,538:
86–92.
9.     cong z., kang s., kawamurak., et al. carbonaceous aerosols on the south edge of the tibetan plateau:concentrations, seasonality and sources. atmos. chem. phys,2015,15: 1573-1584.
10.   congz., kangs., zhang y., et al. new insights into trace element wet deposition in the himalayas: amounts, seasonal patterns, and implications. environ scipollut res,2015,22: 2735-2744.
11.   congz., kawamurak., kangs., et al. penetration of biomass-burningemissions from south asia through the himalayas: new insights fromatmospheric organic acids. scientific reports,2015,5: 1-7.
12.   cuo l., zhang y., bohn t., zhao l., et al. frozen soil degradation and its effects on surface hydrology in the northern tibetan plateau. journal of geophysical research: atmospheres,2015,47(4): 719–728.
13.   ding m, xiao c., li c., et al. surface mass balance and its climate significance from the coast to dome a, east antarctica. science china earth sciences,2015,58(10): 1787-1797.
14.   dong z., kangs., qinx., et al. new insights into trace elements deposition in the snow packs at remote alpine glaciers in the northern tibetan plateau, china. science of the total environment,2015,529: 101-113.
15.   du z., xiao c., liu y., et al. geochemical characteristics of insoluble dustas a tracer in an ice corefrom miaoergou glacier, east tien shan. global and planetary change,2015,127 (2015): 12-21.
16.   du z., xiao c., liu y., et al. natural vs. anthropogenic sources supply aeolian dust to the miaoergou glacier: evidence from sr-pb isotopes in the eastern tienshan ice core.quaternary international,2015,doi: 10.1016/ji.quaint.2015.11.069.
17.   gao s., liu d., kang s., et al. a new isolation method for biomass-burning tracers in snow:measurements of p-hydroxybenzoic, vanillic, and dehydroabietic acids. atmospheric environment,2015,122: 142-147.
18.   gao t., kang s., cuo l., et al.a new isolation method for biomass-burning tracers in snow: measurements of p-hydroxybenzoic, vanillic, and dehydroabietic acids. journal of glaciology,2015,61(227):447-460.
19.   gao t., kang s., zhang t., et al.summer hydrological characteristics in glacier and non-glaciercatchments in the nam co basin, southern tibetan plateau. environ earth sci,2015,74:2019– 2028.
20.   grigholmb., mayewskip., kang s., et al. twentieth century dust lows and the weakening of the westerly winds over the tibetan plateau. geophysical research letters,2015, 42:2434-2441.
21.   gu l., yao j., hu z., et al.comparison of the surface energy budget between regions of seasonallyfrozen ground and permafrost on the tibetan plateau. atmospheric research,2015,34 (3): 666-675.
22.   guoz., wangn., kehrwaldn., et al.temporal and spatial changes inwestern himalayan firn line altitudes from 1998 to 2009. global and planetary change,2014,118: 97-105.
23.   guoz., wangn., wuh., et al.variations in firn line altitude and firn zone area on qiyi glacier, qilianmountains, over the period of 1990 to 2011.arctic, antarctic, and alpine research,2015,47(2): 1-8.
24.   guoz., wangn., wux., et al.estimate the influence of snow grain size and black carbon on albedo.sciences in cold and arid regions,2015,7(2): 0111-0120.
25.   han h., ding y., liu s., et al. regimes of runoff components on the debris-covered koxkar glacier in western china. journal of mountain science,2015,12(2): 313-329.
26.   han t., li x., gao m, et al. electrical conductivity during the ablation process of the glacier no.1 atthe headwater of the urumqi river in the tianshan mountains. arctic, antarctic, and alpine research,2015,47(2): 327-334.
27.   hu g., zhao l., li r., et al. modeling hydrothermal transfer processes in permafrost regions ofqinghai-tibet plateau in china. chin. geogra. sci,2015,doi: 10.1007/s11769-015-0733-6.
28.   hu g., zhao l., wu x., et al.   an analytical model for estimating soil temperature profile on the qinghai-tibet plateau of china.journal of arid land,2015,doi: 10.1007/s40333-015-0058-4.
29.   hu g., zhao l., wu x., et al.   modeling permafrost properties in the qinghai-xizang(tibet) plateau. science china, earth sciences,2015,doi: 10.1007/s11769-015-0000-0.
30.   huai b., li z., sun m., et al. change in glacier area and thickness in the tomur peak, western chinese tien shan over the past four decades. journal of earth system science,2015,124 (2):
353-363.
31.   huai b., li z., wang f., et al. glacier volume estimation from ice-thickness data, applied to the muz taw glacier, sawir mountains, china. environmental earth science,2015,74: 1861-1870.
32.   huang j., kang s., zhang q., et al. characterizations of wet mercury deposition on a remotehigh-elevation site in the southeastern tibetan plateau.environmental pollution,2015,206: 518-526.
33.   iturrizaga l., kreutzmann h., hewitt k., liu s., et al. in memoriam: matthias kuhle.journal of mountainscience,2015,12(5): 1065-1067.
34.   jiz., kangs. evaluation of extreme climate events using a regional climate model for china.international journal of climatology,2015,35: 888-902.
35.   jiz., kangs., congz., et al. simulation of carbonaceous aerosols over the third pole and adjacentregions: distribution, transportation, deposition,and climatic effects. climdyn,2015,45:2831-2846.
36.   jingz., wangk., liul. movement and variation of four typical glaciers in the qilian mountains, northwestern china. sciences in cold and arid regions,2015,7(3): 206-211.
37.   kang s., wang f., morgenstern u., et al.dramatic loss of glacier accumulation area on the tibetanplateau revealed by ice core tritium and mercury records. the cryosphere,2015,9: 1213-1222.
38.   kononova n., pimankina n., yeriskovskaya l., li j., et al.effects of atmospheric circulation on summertimeprecipitation variability and glacier mass balanceover the tuyuksu glacier in tianshan mountains, kazakhstan.journal of arid land,2015,7(5): 687-695.
39.   li c., xiao c., shi g. et al. spatial and temporal variability of marine-origin matter along a transectfrom zhongshan station to dome a, eastern antarctica.journal of environmental science,2015,jes-00506; no of pages 13.
40.   li c., xiao c., shi g., et al. spatiotemporal variations of monocarboxylic acids in snow layers along atransect from zhongshan station to dome a, eastern antarctica. atmospheric research,2015,158-159: 79-87.
41.   li c., zhang q., kang s., et al. distribution and enrichment of mercury in tibetan lake waters and their relations with the natural environment. environ scipollut res,2015,22: 12490-12500.
42.   li r., wu t., zhao l., et al. investigation on the soil thermal conductivity of different land surface patterns in the north qinghai-tibetan plateau, china. 7th?canadian permafrost conference, quebec city, canada,2015,153: 553-564.
43.   liw., zhaol., wux., et al.soil distribution modeling using inductive learning in the eastern part of permafrost regions in qinghai-xizang (tibetan) plateau. catena,2015,126: 98-104.
44.   liu b., kang s., sun j., et al. wet precipitation chemistry at a high-altitude site(3,326 ma.s.l.) in the southeastern tibetan plateau. environ scipollut res,2013,20: 5013-5027.
45.   liu j., xiao c., ding m., et al. variations in atmospheric water vapor stable hydrogen and oxygen isotopes in the marine boundary layer across a wide latitude range. journal of environmental science,2014,26: 2266-2276.
46.   liu q., guo w., nie y., et al. recent glacier and glacial lake changes and their interactions in the bugyaikangri, southeast tibet. annals of glaciology,2016,57(71): 61-69.
47.   liu q., liu s.response of glacier mass balance to climate changein the tianshan mountains duringthe second half of the twentieth century. climate dynamics,doi: 10.1007/s00382-015-2585-2.
48.   liu q., liu s., guo w., et al. glacier changes in the lancang river basin, china, between 1968-1975 and 2005-2010. arctic, antarctic, and alpine research,2015,47(2): 335-344.
49.   liuw., chens., zhao q., et al. variation and control of soil organic carbon and other nutrients in permafrost regions on central qinghai-tibetan plateau. environmental research letters, 2014, 9 (11403): 1-9.
50.   liux., anw., treydtek., et al.pooled versus separate tree-ring δd measurements, and implicationsforreconstruction of the arctic oscillation in northwestern china. science of total environment, 2015, 511: 584-594.
51.   liuy., guoz., zhouq., et al. the climate characteristics of the first date of ≤0°c temperature in east china. arctic, antarctic, and alpine research,2015 47(2): 243-253.
52.   liuy., john c.,yaot., et al. bacterial responses to environmental change on the tibetan plateau overthe past half century accepted article,2015,doi: 10.1111/1462-2920.13115.
53.   lüthiz., kerlakb.,kims., lauera., muesa., rupakhetim., kangs. atmospheric brown clouds reach the tibetan plateau by crossing the himalayas.atmos. chem. phys,2015,15: 6007-6021.
54.   ma c., sun el., liu s., et al.   impact of climate change on the streamflow in theglacierized chu river basin, central asia. journal of arid land,2015,7(4): 501-513.
55.   ming j., wang y., du z., et al. widespread albedo decreasing and induced melting of himalayansnow and ice in the early 21st century. plos one,2015,doi:10.1371/journal.pone.0126235.
56.   niu h., he y., kang s. chemical compositions of snow from mt. yulong, southeastern tibetan plateau. journal of earth system science,2015,accepted.
57.   pan j., liu y., he x., et al. arbuscularmycorrhizal and dark septateendophytic fungi at 5,500 m on aglacier forefront in the qinghai-tibet plateau, china.symbiosis,2013,60:101-105.
58.   qiao l., mayer c., liu s. distribution and interannual variability of supraglacial lakes on debris-covered glaciers in the khan tengri-tumor mountains,central asia. environmental research letters,2015,10(1): 014014.
59.   qinx., chenj., wangs., et al. reconstruction of surface air temperature in a glaciated region in thewestern qilian mountains, tibetan plateau, 1957-2013 and its variation characteristics.quaternary international, 2015, 371: 22-30.
60.   qinx., cuix., duw., et al. variations of the alpine precipitation from an ice core record of the laohugou glacier basin during 1960 – 2006 in western qilian mountains. j. geogr. sci, 2015, 25 (2): 165-176.
61.   qiny., chenj., yis.plateau pikas burrowing activity accelerates ecosystem carbon emission from alpine grassland on the qinghai-tibetan plateau.ecological engineering,2015,84: 287-291.
62.   qin y., yi s., chenj., et al. responses of ecosystem respiration to short-term experimental warmingin the alpine meadow ecosystem of a permafrost site on the qinghai–tibetan plateau.cold regions science and technology,2015,115: 77-84.
63.   qu b., sillanpam., zhang y., et al.water chemistry of the headwaters of the yangtze river. environ earth sci,2015,74: 6443-6458.
64.   shangw., wux., zhaol., et al.seasonal variations in labile soil organic matter fractions in permafrostsoils with different vegetation types in the central qinghai-tibet plateau. catena,2015,doi: 10.1007/s40333-015-0058-4.
65.   shangw., zhaol., wux., et al.soil organic matter fractions under different vegetation types in permafrost regions along the qinghai-xizang road, north of kunlun mountains, china. journal of mountain science,2015,12(4): 1010-1024.
66.   shangguan d., bolch t., ding y., et al.mass changes of southern and northern inylchek glacier,
central tian shan, kyrgyzstan during ~1975 and 2007 derived from remote sensing data. the cryosphere,2015,9(2): 703-717.
67.   sharma c., kang s., sillanp m., et al. mercury and selected trace elements from a remote (gosainkunda) and an urban (phewa) lake waters of nepal.water air soil pollut,2015,doi: 10.1007/s11270-014-2276-3.
68.   shenx., sunj., zhangx., et al.characterization of submicron aerosols and effect on visibility duringsevere haze-fog episode in yangtze river delta, china.atmospheric environment,2015,120, 307-316.
69.   songs., selinn, soerensena., angoth., artzr., brookss., brunkee., conleyg., dommergue a., s. kang, et al. top-down constraints on atmospheric mercury emissions and implications for global biogeochemical cycling. atmos. chem. phys. discuss,2015,15: 5269-5325.
70.   tan c., yang j., li m. temporal-spatial variation of drought indicated by spi and spei in ningxiahui autonomous region, china. atmosphere,2015,6: 1399-1421.
71.   tripathee l., kang s., huang j., et al. ionic composition of wet precipitation over the southern slope of central himalayas, nepal.environ scipollut res,2014,21:2677–2687.
72.   wanx., kangs., wangy., et al.size distribution of carbonaceous aerosols at a high-altitude site onthe central tibetan plateau (nam co station, 4730 m a.s.l.). atmospheric research,2015,153: 155-164.
73.   wang l., wang f., li z., et al.glacier changes in the sikeshu river basin, tienshan mountain. quaternary international,2015,358: 153-159.
74.   wang n., wu h., yuwei wu, et al. variations of the glacier mass balance and lake water storage in the tarim basin, northwest china, over the period of 2003-2009 estimated by the icesat-glas data. environmental earth sciences,2015,74(3): 1997-2008.
75.   wang n.,wu x.,kehrwald n., et al. fukushima nuclear accident recorded in tibetan plateau snow pits.plos one,2015,doi: 10.1371/journal.pone.0116580.
76.   wang p., li z., huai b., et al. spatial variability of glacier changes and their effects on water resources in the chinese tianshan mountains during the last five decades journal of arid land,2015,7(6): 717-727.
77.   wang p., li z., luo s., et al. five decades of changes in the glaciers on the friendship peak in the altai mountains, china: changes in area and ice surface elevation. cold regions science and technology,2015,116: 24-31.
78.   wang p., li z., zhou p., et al. recent changes of two selected glaciers in hami prefecture of eastern xinjiang and their impact on water resources.quaternary international,2015,358: 146-152.
79.   wang s., cao w. climate change perspectives in an alpine area, southwest china: a case analysisof local residents' views.ecological indicators,2015,53: 211-219.
80.   wang s., jiao s. evolution and outburst risk analysis of moraine-dammed lakes in the central chinese himalaya.journal of earth system science,2015,124(3): 567-576.
81.   wang s., qin d., xiao c. moraine-dammed lake distribution and outburst flood risk in the chinese himalaya. journal of glaciology,2015,61(225): 115-126.
82.   wangw.,liux., shaox., et al. differential response of qilian juniper radial growthto climate variations in the middle of qilian mountains and the northeastern qaidam basin.climatic change,2015,133 (2): 237-251.
83.   wangx., liz., rosse., et al.characteristics of water isotopes and hydrographseparation during thespring flood period in yushugou river basin, eastern tianshans, china.journal of earth system science,2015,124(1):115-124.
84.   wangx., liz., tayierr., et al. characteristics of atmospheric precipitation isotopes and isotopicevidence for the moisture origin in yushugou river basin, easterntianshan mountains, china.quaternary international,2015,380-381: 106-115.
85.   wangx., yangm., pangg.influences of two land-surface schemes on regcm4 precipitation simulations over the tibetan plateau. advance in meteorology,2015,2015:1-12.
86.   wangx., yangm., pangg.,et al. simulation and improvement of land surface processes in nameqie,central tibetan plateau, using the community land model (clm3.5).environmental earth sciences,2015,73(1):7343-7357.
87.   wei j., liu s., guo w., et al. changes in glacier volume in the north bank of the bangong co basinfrom 1968 to 2007 based on historical topographic maps, srtm, and aster stereo images,2015b. arctic antarctic and alpine research,2015,47(2): 301-311.
88.   wei j., liu s., xu j., et al.mass loss from glaciers in the chinese altai mountains between 1959 and
2008 revealedbased on historical maps, srtm, and aster images,2015a. journal of mountain science,2015,12(2): 330-343.
89.   weit., dingm.,wub.,et al. variations in temperature-related extreme events (1975–2014) in nylesund, svalbard. atmospheric science letters,2015, doi: 10.1002/asl.632.
90.   wu c., zhang x., fang f., shi j., liu s.an accurate and fast forward model of three-dimensionalelectromagnetic wave scattering in a layered structure with multilayer rough interfaces. radio science,2015,doi: 10.1002/2014rs005637:211-228.
91.   wu g., liu x., chen t., et al. elevation-dependent variations of tree growth and intrinsic water-use efficiency in schrenkspruce(piceaschrenkiana) in the western tianshan mountains,china. frontiers in plant science,2015,doi: 10.3389/fpls.2015.00309.
92.   wu g., liu x., chen t., et al.   long-term variation of tree growth and intrinsic water-use efficiency in
schrenk spruce with increasing co2 concentration and climate warming in the western tianshan mountains, china. actaphysiol plant,2015,doi: 10.1007/s11738-015-1903-y.
93.   wu j., zhang s., wu h., et al. actual evapotranspiration in suli alpine meadow in northeastern edgeof qinghai-tibet plateau, china. advances in meteorology, 2015, http://dx.doi.org/10.1155/2015/ 593649.
94.   wux., wangn., lua., et al.variations in albedo on dongkemadi glacier in tanggula range on the tibetan plateau during 2002–2012 and its linkage with mass balance.arctic, antarctic, and alpine research,2015,47(2):281-292.
95.   wux., wangn., sheny.,et al. in-situ observations and modeling of spring snowmelt processes in an altay mountains river basin.journal of applied remote sensing,2014,8: (084697).
96.   wuy, wangn, he j., et al. estimating mountain glacier surface temperatures from landsat-etm thermal infrared data: a case study of qiyi glacier, china. remote sensing of environment,2015,163: 286-295.
97.   xiao c., dou t., sneed s., et al. an ice-core record of antarctic sea-ice extent in the southern indianocean for the past 300 years. annuals of glaciology,2015,doi: 10.3189/2015aog69a719.
98.   xiao c., wang s., qin d. a preliminary study of cryosphere service function and value evaluation,advances in climate change research, 2015,dx.doi.org/10.1016/j.accre.2015.11.004.
99.   xiao q., saikawa e.,yokelson r., chen p.,li c., kang s.indoor air pollution from burning yak dung asa household fuel in tibet. atmospheric environment,2015,102: 406-412.
100. xie c., gough w., zhao l., et al. temperature-dependent adjustments of the permafrost thermalprofiles on the qinghai-tibet plateau, china. arctic antarctic and apline research,2015,doi: 10.1007/s11629-014-3372-y.
101. xie c., gough w., zhao xl., et al. estimating annual apparent thermal diffusivity in permafrost usingtemperature time series on the qinghai-tibet plateau, china. 7th canadian permafrost conference, quebec city, canada,2015,catena-02554; no of pages 9.
102. xu b., lu z., liu s., et al. glacier changes and their impacts on the discharge in the past half-century in tekes watershed, central asia.physics and chemistry of the earth,2015,doi: 10.1016/j. pce.2015.03.003.
103. xu g., liu x., wu g., et al. tree ring δ18o indication of a shift to a wetter climate since the 1880s in the western tianshan mountains of northwestern china. journal of geophysical research: atmospheres,2015,120(13): 6409-6425.
104. xu j., liu s., guo w., et al.glacial area changes in the ili river catchment (northeasterntian shan) in xinjiang, china, from the 1960s to 2009.advances in meteorology,2015,2015,1-12.
105. xu j., zhang q., wang z., et al. chemical composition and size distribution of summertime pm2:5 ata high altitude remote location in the northeast of the qinghai–xizang (tibet) plateau: insights into aerosol sources and processing in free troposphere. atmosphric chemistry and physics, 2015, 15: 5069-5081.
106. xu m., kang s., li j. evaluation of water storage change of inland cryosphere in northwestern china. advances in meteorology,2015,http://dx.doi.org/10.1155/2015/681634.
107. yang j., duan k., wu j., et al. effect of data assimilation using wrf-3dvar for heavy rain prediction on the northeastern edge of the tibetan plateau. advances in meteorology, 2015, http://dx.doi. org/10.1155/2015/ 294589.
108. yang j., tan c., wang s., et al.drought adaptation in the ningxia hui autonomous region, china: actions, planning, pathways and barriers.sustainability,2015,7: 15029-15056.
109. ye q.,bolch t.,naruse r., wang y., et al. glacier mass changes in rongbuk catchment on mt. qomolangma from 1974 to 2006 based on topographic maps and alos prism data.journal of hydrology,2015,530: 273-280.
110. you q., min j., jiao y.,sillanp m., kang s. observed trend of diurnal temperature range in the tibetan plateau in recent decades. international journal of climatology,2015,doi:
10.1002/joc.4517.
111. you q., min j., kang s. rapid warming in the tibetan plateau from observations and cmip5 modelsin recent decades.international journal of climatology,2015,doi: 10.1002/joc.4520.
112. you q., min j., lin h., pepin n., sillanp m., kang s. observed climatology and trend in relative humidity in the central and eastern tibetan plateau. journal of geophysical research: atmospheres,2014,120(9): 3610-3621.
113. you q., min j., zhang w., pepin n., kang s. comparison of multiple datasets with gridded precipitation observations over the tibetan plateau. climdyn,2015,45:791–806.
114. yuan n., ding m., huang y., et al. on the long-term climate memory in the surface air temperature records over antarctica: a nonnegligible factor for trend evaluation. journal of climate,2015,doi: 10.1175/jcli-d-14-00733.1.
115. yuan s., zhang y., chen j., et al. large variation of mercury isotope composition during a single precipitation event at lhasa city, tibetan plateau, china. procedia earth and planetary science,2015,13: 282 - 286.
116. zhang b., chen b., zhang j., et al. depth-related response of soil microbial communities to experimental warming in an alpine meadow on the qinghai-tibet plateau. european journal of soil science, 2015, 66: 496-504.
117. zhang l., sun j., shen x., et al. observations of relative humidity effects on aerosol light scattering in the yangtze river delta of china. atmos. chem. phy,2015,15, 8439-8454.
118. zhang l., zhao l., xie c., et al.intercomparison of solid precipitation derived from the weightingrain gauge and optical instruments in the interior qinghai-tibetan plateau. advances in meteorology,2015,http://dx.doi.org/10.1155/2015/936724.
119. zhang q., kang s., gabriellim p., loewen m., et al.      vanishing high mountain         glacial archives: challenges and perspectives. environmental science & technology,2015,49 (16): 9499-9500.
120. zhang s., gao x., zhang x. glacial runoff likely reached peak in the mountainous areas of the shiyang river basin, china. journal of mountain science,2015,12(2): 382-395.
121. zhangx., lius. a framework of numerical simulation onmoraine-dammed glacial lake outburst floods. journal of arid land,2016,7(6): 728–740.
122. zhangx., lius., liul. moraine-dammed glacial lake changes during the recent 40 years in the poiqu river basin, himalayas. sciences in cold and arid regions,2015,7(6):654-665.
123. zhangy., hirrabayashy. liuq.,et al. glacier runoff and its impact in a highly glacierized catchment in the southeastern tibetan plateau: past and future trends.journal of glaciology,2015,61(228): 713-730.
124. zhangy., hirrabayashy., fujitak., et al. heterogeneity in supraglacial debris thickness and its role inglacier mass changes of the mount gongga. science china earth sciences,2016,59 (1): 170-184.
125. zhangy., kangs., grigholmb., et al. twentieth-century warming preserved in a geladaindong mountain ice core, central tibetan plateau.annals of glaciology,2016,57(71): 1-11.
126. zhangy., kangs., zhangq., et al.a 500 year atmospheric dust deposition retrieved from a mt. geladaindong ice core in the central tibetan plateau.atmospheric research,2015,166: 1-9.
127. zhangy., sillanpam., lic., et al.river water quality across the himalayan regions: elemental concentrations in headwaters of yarlungtsangbo, indus and ganges river. environ earth sci,2015,73: 4151–4163.
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