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发表论著

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2019年发表论著

时间:  2020-02-26 08:30  点击:   次
1.dou t, xiao c, liu j, et al.,a key factor initiating surface ablation of arctic sea ice: earlier and increasing liquid precipitation,the cryosphere,13: 1233-1246
2.wang x, liu s, zhang j.,a new look at roles of the cryosphere in sustainable development,advances in climate change research,10(2): 124-131
3.li c, ren j, xiao c, et al.,accumulation and geochemical evidence for the little ice age episode in eastern antarctica,sciences in cold and arid regions,11(1): 0050-0061
4.huang j, kang s, ma m, et al.,accumulation of atmospheric mercury in glacier cryoconite over western china.,environmental science & technology ,53(12): 6632-6639
5.rupakheti d, kang s, bilal m, et al.,aerosol optical depth climatology over central asian countries based on aqua-modis collection 6.1 data: aerosol variations and sources,atmospheric environment,207: 205-214
6.li c, sun h, wu x, et al.,an approach for improving soil water content for modeling net primary production on the qinghai-tibetan plateau using biome-bgc model,catena,184: 104253
7.xu l, yang d, wu t, et al.,an ecosystem services zoning framework for the permafrost regions of china,advances in climate change research,10(2): 92-98
8.pepin n, deng h, zhang h, et al.,an examination of temperature trends at high elevations across the tibetan plateau: the use of modis lst to understand patterns of elevation-dependent warming,journal of geophysical research: atmospheres,124(11): 5738-5756
9.zhao s,yu y,qin d, et al.,analyses of regional pollution and transportation of pm2.5 and ozone in the city clusters of sichuan basin, china,atmospheric pollution research,10(2): 374-385
10.wan x, kawamura k, ram k, et al.,aromatic acids as biomass-burning tracers in atmospheric aerosols and ice cores: a review,environmental pollution ,247: 216-228
11.anjum m, ahmad i, ding y, et al.,assessment of imerg-v06 precipitation product over different hydro-climatic regimes in the tianshan mountains, north-western china,remote sensing,11(19): 2314
12.wei t, dong z, kang s, et al.,atmospheric deposition and contamination of trace elements in snowpacks of mountain glaciers in the northeastern tibetan plateau,science of the total environment ,689: 754-764
13.kong w, liu j, ji m, et al.,autotrophic microbial community succession from glacier terminus to downstream waters on the tibetan plateau,fems microbiology ecology,95(6): 1-10
14.li q, wang n, barbante c, et al.,biomass burning source identification through molecular markers in cryoconites over the tibetan plateau,environmental pollution,244: 209-217
15.li y, kang s, chen j, et al.,black carbon in a glacier and snow cover on the northeastern tibetan plateau: concentrations, radiative forcing and potential source from local topsoil.,science of the total environment ,686: 1030-1038
16.chen p, kang s, li c, et al.,carbonaceous aerosol characteristics on the third pole: a primary study based on the atmospheric pollution and cryospheric change (apcc) network,environmental pollution,253: 49-60
17.hu z,  kang s, he x, et al.,carbonaceous matter in glacier at the headwaters of the yangtze river: concentration, sources and fractionation during the melting process,journal of environmental science,87: 389-397
18.xiao c,  su b,  wang x, et al.,cascading risks to the deterioration in cryospheric functions and services,chinese science bulletin,64(19): 1975-1984
19.xu g, liu x, zhang q, et al.,century-scale temperature variability and onset of industrial-era warming in the eastern tibetan plateau,climate dynamics,53(7-8): 4569-4590
20.liu l , wang y, you n, et al.,changes in aridity and its driving factors in china during 1961–2016,international journal of climatology,39(1): 50-60
21.cheng l, ma l,yang m, et al.,changes of temperature and precipitation and their impacts on runoff in the upper taohe river in northwest china from 1956 to 2014,environmental earth sciences ,78: 423
22.zhang y, kang s.,characteristics of carbonaceous aerosols analyzed using a multiwavelength thermal/optical carbon analyzer: a case study in lanzhou city,science china earth sciences,62(2): 389-402
23.kang h, liu x, guo j, et al.,characterization of mercury concentration from soils to needle and tree rings of schrenk spruce (picea schrenkiana) of the middle tianshan mountains, northwestern china,ecological indicators,104: 24-31
24.zhang x, xu j, kang s, et al.,chemical characterization and sources of submicron aerosols in the northeastern qinghai–tibet plateau: insights from high-resolution mass spectrometry, atmos,atmospheric chemistry and physics,19(11): 7897-7911
25.du z, xiao c, zhang q.,climatic and environmental signals recorded in the egrip snowpit, greenland,environmental earth sciences,78: 170
26.wang w, liu x, xu g, et al.,co2 fertilization confounds tree ‐ ring recordsof regional hydroclimate at northeastern qinghai ‐ tibetan plateau,earth and space science,6(5): 730-740
27.du z, xiao c, dou t, et al.,comparison of sr–nd–pb isotopes in insoluble dust between northwestern china and high-latitude regions in the northern hemisphere,atmospheric environment,214: 116837
28.tripathee l, guo j, kang s, et al.,concentration and risk assessments of mercury along the elevation gradient in soils of langtang himalayas, nepal,human and ecological risk assessment: an international journal,25(4): 1006-1017
29.paudyal r, kang s, tripathee l, et al.,concentration, spatiotemporal distribution, and sources of mercury in mt. yulong, a remote site in southeastern tibetan plateau,environmental science and pollution research,26(16): 16457-16469
30.zhao s, yu y, yin d, et al.,concentrations, optical and radiative properties of carbonaceous aerosols over urban lanzhou, a typical valley city: results from in-situobservations and numerical model,atmospheric environment,213(15): 470-484
31.zhu g, guo h, qin d, et al.,contribution of recycled moisture to precipitation in the monsoon marginal zone: estimate based on stable isotope data,journal of hydrology,569: 423-435
32.li y, kang s, yan f, et al.,cryoconite on a glacier on the north-eastern tibetan plateau: light-absorbing impurities, albedo and enhanced melting,journal of glaciology,65(252): 633-644
33.su b, xiao c, chen d, et al.,cryosphere services and human well-being,sustainability,11(16): 4365
34.ali b, sajjad w, ghimire ps, et al.,culture-dependent diversity of bacteria from laohugou glacier, qilian mts., china and their resistance against metals,journal of basic microbiology,59(11): 1065-1081
35.li c, sun h, wu x, et al.,dataset of the net primary production on the qinghai-tibetan plateau using a soil water content improved biome-bgc model,data in brief,184: 104253
36.yan f, he c, kang s, et al.,deposition of organic and black carbon: direct measurements at three remote stations in the himalayas and tibetan plateau,journal of geophysical research: atmospheres,124(16): 9702-9715
37.li x, ding y, eran h, et al.,dissolved iron supply from asian glaciers: local controls and a regional perspective,global biogeochemical cycles,33(10): 1223-1237
38.ye l, wu x, yan d, et al.,dissolved organic carbon content is lower in warm seasons and neutral sugar composition indicates its degradation in a large subtropical river (nantong section), china,environmental earth sciences,78(6): 213
39.zhang y, kang s, gao t, et al.,dissolved organic carbon in snow cover of the chinese altai mountains, central asia: concentrations, sources and light-absorption properties,science of the total environment,647: 1385-1397
40.niu h, kang s, shi x, et al.,dissolved organic carbon in summer precipitation and its wet deposition flux in the mt. yulong region, southeastern tibetan plateau,journal of atmospheric chemistry,76(1): 1-20
41.li x, jin h, wang h, et al.,distributive features of soil carbon and nutrients in permafrost regions affected by forest fires in northern da xing’anling (hinggan) mountains, ne china,catena,185: 104304
42.du z, xiao c, wang y, et al.,dust provenance in pan-third pole modern glacierized regions: what is the regional source?,environmental pollution,250: 762-772
43.liu w, xie c, zhao l, et al.,dynamic changes in lakes in the hoh xil region before and after the 2011 outburst of zonag lake,journal of mountain science,16(5): 1098-1110
44.huang j, qin d, jiang t, et al.,effect of fertility policy changes on the population structure and economy of china: from the perspective of the shared socioeconomic pathways,earth's future,7(3): 250-265
45.qin y, yi s, ding y, et al.,effect of plateau pika disturbance and patchiness on ecosystem carbon emissions in alpine meadow in the northeastern part of qinghai–tibetan plateau,biogeosciences,16: 1097-1109
46.zhang l, zhou d, li j, et al.,effects of bone marrow-derived mesenchymal stem cells on hypoxia and the transforming growth factor beta 1 (tgfβ-1) and smads pathway in a mouse model of cirrhosis,medical science monitor: international medical journal of experimental and clinical research,25: 7182-7190
47.liu l, wang y, wang z, et al.,elevation-dependent decline in vegetation greening rate driven by increasing dryness based on three satellite ndvi datasets on the tibetan plateau,ecological indicators,107: 105569
48.weyant cl, chen p, vaidya a, et al.,emission measurements from traditional biomass cookstoves in south asia and tibet,environmental science & technology,53(6): 3306-3314
49.dang j, li c, li j, et al.,emissions from solid fuel cook stoves in the himalayan region,energies,12(6): 1089
50.che y, zhang m, li z, et al.,energy balance model of mass balance and its sensitivity to meteorological variability on urumqi river glacier no.1 in the chinese tien shan,scientific report,9: 13958
51.yang c, wu t, wang j, et al.,estimating surface soil heat flux in permafrost regions using remote sensing-based models on the northern qinghai-tibetan plateau under clear-sky conditions,remote sensing,11(4): 416
52.liu j, shangguan d, liu s, et al. ,evaluation and comparison of chirps and mswep daily-precipitation products in the qinghai-tibet plateau during the period of 1981–2015,atmospheric research,230: 104634
53.hu g, zhao l, wu x, et al.,evaluation of reanalysis air temperature products in permafrost regions on the qinghai-tibetan plateau,theoretical and applied climatology,138: 1457-1470
54. ma l, zhao l, tian l, et al.,evaluation of the integrated multi-satellite retrievals for global precipitation measurement over the tibetan plateau,journal of mountain science,16(7): 1500-1514
55.zhang z, liu l, he x, et al. ,evaluation on glaciers ecological services value in the tianshan mountains, northwest china,journal of geographical sciences,29(1): 101-114
56.zhu x, wu t, zhao l, et al.,exploring the contribution of precipitation to water within the active layer during the thawing period in the permafrost regions of central qinghai-tibet plateau by stable isotopic tracing,science of the total environment,661: 630-644
57. du z , xiao c, handley m, et al.,fe variation characteristics and sources in snow samples along a traverse from zhongshan station to dome a, east antarctica,science of the total environment,675: 380-389
58.lin h, tong y, yin x, et al. ,first measurement of atmospheric mercury species in qomolangma natural nature preserve, tibetan plateau, and evidence oftransboundary pollutant invasion., atmos. chem. phys.,19: 1373-1391
59.yin x, de foy b, wu k, et al.  ,gaseous and particulate pollutants in lhasa, tibet during 2013–2017: spatial variability, temporal variations and implications,environmental pollution,253: 68-77
60.he y, peng s, liu y, et al.  ,global vegetation biomass production efficiency constrained by models and observations,global change biology,00: 1-11
61.ding y, zhang s, zhao l, et al.,global warming weakening the inherent stability of glaciers and permafrost,science bulletin,64: 245-253
62.li c, han x, kang s, et al. ,heavy near-surface pm2.5 pollution in lhasa, china during a relatively static winter period,chemosphere,214: 314-318
63.wei t, dong z, kang s, et al. ,hf-nd-sr isotopic fingerprinting for aeolian dust deposited on glaciers in the northeastern tibetan plateau region,global and planetary change ,177: 69-80
64.neupane b, kang s, chen p, et al. ,historical black carbon reconstruction from the lake sediments of the himalayan–tibetan plateau,environmental science & technology,53: 5641-5651
65.lone a, jeelani g, deshpande rd, et al.  ,hydrochemical assessment (major ions and hg) of meltwater in high altitude glacierized himalayan catchment,environmental monitoring and assessment ,191: 213
66.han t, li y, qin j.,hydrochemical changes and influencing factors in the dongkemadi region, tanggula range, china,water,10(12): 1856
67.rupakheti d, kang s, rupakheti m, et al. ,identification of absorbing aerosol types at a site in the northern edge of indo-gangetic plain and a polluted valley in the foothills of the central himalayas,atmospheric research,223: 15-23
68.zhang y, gao t, kang s, et al.  ,importance of atmospheric transport for microplastics deposited in remote areas,environmental pollution ,254: 112953
69.wang s, zhou l.,integrated impacts of climate change on glacier tourism,advances in climate change research,10(2): 71-79
70.wang s, zhou l, wei y.,integrated risk assessment of snow disaster (sd) over the qinghai-tibetan plateau,geomatics, natural hazards and risk,10(1): 740-757
71.li x, ding y, liu q, et al. ,intense chemical weathering at glacial meltwater-dominated hailuogou basin in the southeastern tibetan plateau.,water,11: 1209
72.hao j, wu t, wu x, et al. ,investigation of a small landslide in the qinghai-tibet plateau by insar and absolute deformation model,remote sensing,11(2126): 1-18
73.chen x, kang s, yang j.,investigation of distribution, transportation, and impact factors of atmospheric black carbon in the arctic region based on a regional climate-chemistry model.,environmental pollution,2019: 113127
74. du z, xiao c, zhang w, et al.,iron record associated with sandstorms in a central asian shallow ice core spanning 1956–2004,atmospheric environment,203: 121-130
75.song m, li z, xia d, et al. ,isotopic evidence for the moisture origin and influencing factors at urumqi glacier no. 1 in upstream urumqi river basin, eastern tianshan mountains,journal of mountain science,16(8): 1802-1815
76.li c , wang b, chen t.,leaf age compared to tree age plays a dominant role in leaf  13c and  15n of qinghai spruce (picea crassifolia kom.),forests,10: 310
77.bhattarai h, saikawa e, wan x, et al.,levoglucosan as a tracer of biomass burning: recent progress and perspectives,atmospheric research,220: 20-33
78.niu h, kang s, wang h, et al.,light-absorbing impurities accelerating glacial melting in southeastern tibetan plateau,environmental pollution,254: 112953
79.zhong x, kang s, zhang w, et al.,light-absorbing impurities in snow cover across northern xinjiang, china,journal of glaciology,65: 940-956
80.kang s, zhang q, qian y, et al. ,linking atmospheric pollution to cryospheric change in the third pole region: current progress and future prospects,national science review,6: 796-809
81.sharma ghimire p, tripathee l, chen p,  et al.  ,linking the conventional and emerging detection techniques for ambient bioaerosols: a review,reviews in environmental science and bio/technology,18: 495-523
82.xu c, li z, li h, et al. ,long-range terrestrial laser scanning measurements of annual and intra-annual mass balances for urumqi glacier no. 1, eastern tien shan, china,the cryosphere,13: 2361-2383
83.zhao s, yu y, yin d, et al.,measurements of submicron particles vertical profiles by means of topographic relief in a typical valley city, china,atmospheric environment,199(15): 102-113
84.huang j, kang s, yin r, et al.,mercury isotopes in frozen soils reveal transboundary atmospheric mercury deposition over the himalayas and tibetan plateau,environmental pollution ,2019: 113432
85.sharma ghimire p, tripathee l, zhang q, et al.,microbial mercury methylation in the cryosphere: progress and prospects,science of the total environment,697: 134150
86.sun z, zhao l, hu g, et al.,modeling permafrost changes on the qinghai-tibetan plateau from 1966 to 2100: a case study from two boreholes along the qinghai-tibet engineering corridor,permafrost and periglacial processes,2019: 1-16
87.yi s , xiang b , meng b, et al.,modeling the carbon dynamics of alpine grassland in the qinghai-tibetan plateau under scenarios of 1.5 and 2°c global warming,advances in climate change research,10(2): 80-91
88.li j, liu s, liu q.,modis observed snow cover variations in the aksu river basin, northwest china,science in cold and arid regions,11(3): 0208-0217
89.an y, xu j, feng l, et al.,molecular characterization of organic aerosol in the himalayas: insight from ultra-high-resolution mass spectrometry, atmos,chem. phys.,19: 1115-1128
90.wan x, kang s, rupakheti m, et al. ,molecular characterization of organic aerosols in the kathmandu valley, nepal: insights into primary and secondary sources,atmos. chem. phys.,19: 2725-2747
91.wei y, wang s, liu j, et al. ,multi-source remote-sensing monitoring of the monsoonal maritime glaciers at mt. dagu, east qinghai-tibetan plateau, china , ieee/access,7: 48307-48317
92.bhattarai h, zhang y, pavuluri cm, et al.  ,nitrogen speciation and isotopic composition of aerosols collected at himalayan forest (3326 m a.s.l.): seasonality, sources, and implications,environmental science & technology ,53: 12247-12256
93.obu, jaroslav w, sebastian b. ,northern hemisphere permafrost map based on ttop modelling for 2000–2016 at 1 km2 scale,earth-science reviews,193: 299-316
94.yang m, li z, anjum m, et al. ,performance evaluation of version 5 (v05) of integrated multi-satellite re-trievals for global precipitaion measurement (imerg) over the tianshan mountains of china,water,11: 1139
95.zhao s, yu y, yin d, et al.,pm1 carbonaceous aerosols during winter in a typical valley city of western china: vertical profiles and the key influencing factors,atmospheric environment,202(1): 75-92
96.wang f, sun y, tao y, et al. ,pollution characteristics in a dusty season based on highly time-resolved online measurements in northwest china,science of the total environment,650: 2545-2558
97.wang p, li z, xu c, et al.,primary investigation of statistical correlation between changes in ice and area of glaciers,sciences in cold and arid regions,11(1): 1-10
98.zhao q, ding y, wang j, et al.,projecting climate change impacts on hydrological processes on the tibetan plateau with model calibration against the glacier inventory data and observed streamflow,journal of hydrology,573: 60-81
99.muhammad n, ding y, shangguan d, et al.,quantification of spatial temporal variability of snow cover and hydro-climatic variables based on multi-source remote sensing data in the swat watershed, hindukush mountains, pakistan,meteorology and atmospheric physics,131(3): 467-486
100.yang j, kang s, chen d, et al.,quantifying the contributions of various emission sources to black carbon and assessment of control strategies in western china,atmospheric research ,215: 178-192
101.wu y, wu r, mandalapu d, et al.,radical sam-dependent adenosylation catalyzed by l-tyrosine lyases,organic & biomolecular chemistry,17(7): 1809-1812
102.xu c, li z ,wang f, et al.,recent geodetic mass balance and extent changes of very small glaciers in the hulugou basin,central qilian mountains, china,journal of earth system science,128(47): 1-12
103.yao t, xue y, chen d,  et al.,recent third pole's rapid warming accompanies cryospheric melt and water cycle intensification and interactions between monsoon and environment: multidisciplinary approach with observations, modeling, and analysis,bulletin of the american meteorological society,100: 423-444
104.xu g, liu x, trouet, et al.,regional drought shifts (1710–2010) in east central asia and linkages with atmospheric circulation recorded in tree-ring δ 18 o,climate dynamics,52(1-2): 713-727
105.du z, xiao c, zhang q, et al.,relationship between the 2014–2015 holuhraun eruption and the iron record in the east grip snow pit,arctic, antarctic, and alpine research,51(1): 290-298
106.you q, wu t, shen l, et al. ,review of snow cover variation over the tibetan plateau and its influence on the broad climate system,earth-science reviews,201: 103043
107. chen r, yang m, wang x, et al. ,review on sumulation of land-surface processes on the tibetan plateau,sciences in cold and arid regions,11(2): 93-1115
108.wang s, chen s, wei y.,risk prevention and control strategies for the severely affected areas of snow disaster in the three rivers source region (trsr), china,sciences in cold and arid regions,11(3): 248-252
109.gao t, kang s, chen r ,et al.  ,riverine dissolved organic carbon and its optical properties in a permafrost region of the upper heihe river basin in the northern tibetan plateau,science of the total environment ,686: 370-381
110.yang j, du z, xiao c.,sea salt sodium record in a shallow ice core from east antarctica as a potential proxy of the antarctic sea ice extent in southern indian ocean,journal of ocean university of china,18(6): 1351-1359
111.liu, g, zhang x, wu t, et al. ,seasonal changes in labile organic matter as a function of environmental factors in a relict permafrost region on the qinghai-tibetan plateau,catena,180: 194-202
112.li x, ding y, han t, et al. ,seasonal controls of meltwater runoff chemistry and chemical weathering at urumqi glacier no.1 in central asia,hydrological processes,33: 3258-3281
113.wang x, ding y, zhao c, et al.,similarities and improvements of gpm imerg upon trmm 3b42 precipitation product under complex topographic and climatic conditions over hexi region, northeastern tibetan plateau,atmospheric research,10(12): 1856
114.adnan m, kang s, zhang g, et al.,simulation and analysis of the water balance of the nam co lake using swat model,water,11: 1383
115.hu g , zhao l, li r,  et al.,simulation of land surface heat fluxes in permafrost regions on the qinghai-tibetan plateau using cmip5 models,atmospheric research,220: 155-168
116.muhammad n, ding y , shangguan d.,simulation of the projected climate change impacts on the river flow regimes under cmip5 rcp scenarios in the westerlies dominated belt, northern pakistan,atmospheric research,227: 233-248
117.li r, zhao l, wu t, et al. ,soil thermal conductivity and its influencing factors at the tanggula permafrost region on the qinghai–tibet plateau,agricultural and forest meteorology,264: 235-246
118.tripathee l, guo j, kang s, et al.,spatial and temporal distribution of total mercury in atmospheric wet precipitation at four sites from the nepal-himalayas,science of the total environment,655: 1207-1217
119.chen p, kang s, yang j, et al.,spatial and temporal variations of gaseous and particulate pollutants in six sites in tibet, china, during 2016-2017,aerosol and air quality research ,19: 516-527
120. wang r, liu s , shangguan d.,spatial heterogeneity in glacier mass-balance sensitivity across high mountain asia,water,11: 176
121.zeng x , michael n,  liu x, et al.,spatial patterns of precipitation-induced moisture availability and their effects on the divergence of conifer stem growth in the western and eastern parts of china’s semi-arid region,forest ecology and management,451: 117524
122.dong z, qin d, li k, et al.,spatial variability, mixing states and composition of various haze particles in atmosphere during winter and summertime in northwest china,environmental pollution,246: 79-88
123.wang w, wu t, chen y, et al. ,spatial variations and controlling factors of ground ice isotopes in permafrost areas of the central qinghai-tibet plateau,science of the total environment,688: 542-554
124.yang j, ji z, kang s, et al.  ,spatiotemporal variations of air pollutants in western china and their relationship to meteorological factors and emission sources,environmental pollution,254: 112952
125.zhang b, tang s, yang r, et al.  ,streptomyces dangxiongensis sp. nov., isolated from soil of qinghai-tibet plateau,international journal of systematic and evolutionary microbiology,69: 2729-2734
126.yang j.,studies on eco-environmental change in source regions of the yangtze and yellow rivers of china: present and future. ,sciences in cold and arid regions,11(3): 173-183
127. wei x, huang c , wei n, et al.   ,the impact of freeze–thaw cycles and soil moisture content at freezing on runoff and soil loss,land degradation and development,30(5): 515-523
128.he j, zhang w, wu y.,the impact of mountain range geographic orientation on the altitude effect of precipitation o-18 in the upper reaches of the heihe river basin in the qilian mountains,water,10(12): 1-12
129.ding j, wang t, piao s, et al. ,the paleoclimatic footprint in the soil carbon stock of the tibetan permafrost region,nature communication,11: 1139
130.du z, xiao c, furdui v, et al.,the perchlorate record during 1956–2004 from tienshan ice core, east asia,science of the total environment,656: 1121-1132
131.yang m, wang x, pang g, et al.,the tibetan plateau cryosphere: observations and model simulations for current status and recent changes,earth-science reviews,190: 353-369
132.neupane b, kang s, li c,  et al.,trace elements analysis in hair strand of cooks chronically exposed to indoor air pollution in restaurants of lhasa, tibet: preliminary results,sn applied sciences,1: 1039
133.liu l,wang z,wang y, et al.,trade-off analyses of multiple mountain ecosystem services along elevation, vegetation cover and precipitation gradients: a case study in the taihang mountains,ecological indicators,103: 94-104
134.xu m, kang s, wang x, et al.,understanding changes in the water budget driven by climate change in cryospheric-dominated watershed of the northeast tibetan plateau, china.,hydrological processes,33: 1040-1058
135.zhang q, sun x, sun s, et al.,understanding mercury cycling in tibetan glacierized mountain environment: recent progress and remaining gaps,bulletin of environmental contamination and toxicology,102: 672-678
136.an w, liu x, hou s, et al.,unstable relationships between tree ring δ 18 o and climate variables over southwestern china: possible impacts from increasing central pacific ssts,theoretical and applied climatology, 136: 391-402
137.yang y, wu x , liu s, et al.,valuating service loss of snow cover in irtysh river basin,advances in climate change research,10(2): 109-114
138.zhang b, wu x,  tai x, et al.,variation in actinobacterial community composition and potential function in different soil ecosystems belonging to the arid heihe river basin of northwest china,frontiers in microbiology,10: 0229
139.tian l, zhao l, wu x, et al.,variations in soil nutrient availability across tibetan grassland from the 1980s to 2010s,geoderma,338: 197-205
140.hu g, zhao l , li r , et al.,variations in soil temperature from 1980 to 2015 in permafrost regions on the qinghai-tibetan plateau based on observed and reanalysis products,geoderma,337: 893-905
141.niu h, kang s, gao w, et al.,vertical distribution of the asian tropopause aerosols detected by calipso,environmental pollution,253: 207-220
142.yang j, kang s, ji z, et al.,vital contribution of residential emissions to atmospheric fine particles (pm2.5) during the severe wintertime pollution episodes in western china,environmental pollution ,245: 519-530
143.zhou x, li z, zhang t.,volatile organic compounds in a typical petrochemical industrialized valley city of northwest china based on high-resolution ptr-ms measurements: characterization, sources and chemical effects,science of the total environment,671: 883-896
144.yang j, li m, tan c, et al. ,vulnerability and adaptation of an oasis social–ecological system affected by glacier change in an arid region of northwestern china. sciences in cold and arid regions,sciences in cold and arid regions,11(1): 29-40
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