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发表论著

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2017年发表论著

时间:  2018-02-13 08:00  点击:   次
1.adnan m., ghulam nabi, shichang kang, et al. snowmelt runoff modelling under projected climate change patterns in the gilgit river basin, northern pakistan.polish journal of environmental studies, 2017, 26(2):525-542.
2.ayaz fateh ali, cunde xiao, muhammad naveed anjum, et al. evaluation and comparison of trmm multi-satellite precipitation products with reference to rain gauge observations in hunza river basin, karakoram range, northern pakistansustainability, 2017, 9(11): 1954.
3.baohong ding, kun yang1, wei yang, et al. development of a water and enthalpy budget-based glacier mass balance model (web-gm) and its preliminary validation. water resources research, 2017, 53(4):3146-3178.
4.chaomin wang, shugui hou, hongxi pang, ,et al. 239,240 pu and 236 u records of an ice core from the eastern tien shan (central asia). journal of glaciology, 2017, 63(241):929-935.
5.chen anan, wang ninglian, li zhen, et al. region-wide glacier mass budgets for the tanggula mountains between ∼1969 and ∼2015 derived from remote sensing data. arctic, antarctic, and alpine research, 2017, 49(4):551-568.
6.chen, p. f., li, c. l., kang. s. c.,et al. characteristics of particulate-phase polycyclic aromatic hydrocarbons (pahs) in the atmospheri over the central himalayas. aerosol and air quality research, 2017.
7.chunhai xu,zhongqin li,feiteng wang,et al. using an ultra-long-range terrestrial laser scanner to monitor the net mass balance of urumqi glacier no. 1, eastern tien shan,china, at the monthly scale. journal of glaciology, 2017,63(241):792-802.
8.dahe qin,yongjian ding,cunde xiao,et al. cryospheric science: research framework and disciplinary system.national science review, 2017,0: 1–14.
9.defu zou, lin zhao, yu sheng, et al. a new map of permafrost distribution on the tibetan plateau. the cryosphere, 2017,11:2527-2542.
10.ding minghu, zhang tong, xiao cunde, et al. snowdrift effect on snow deposition: insights from a comparison of a snow pit profile and meteorological observations in east antarctica. science china earth sciences,2017,60(4): 672–685.
11.dong z., qin d., qin x., et al. changes in precipitating snow chemistry with seasonality in the remote laohugou glacier basin, western qilian mountains. environ sci pollut res, 2017,24:11404–11414.
12.dong z., s. kang, j. guo a, et al. composition and mixing states of brown haze particle over the himalayas along two transboundary south-north transects. atmospheric environment, 2017, 156: 24-35. 
13.dong, z., kang, s., qin, d., et al. temporal and diurnal analysis of trace elements in the cryospheric water at remote laohugou basin in northeast tibetan plateau.chemosphere, 2017, 171: 386-398.
14.g. yang, s. hou, r. baoge, et al. differences in bacterial diversity and communities between glacial snow and glacial soil on the chongce ice cap, west kunlun mountains. scientific reports,2016, 6:36548:1-8.
15.gao tg, kang sc, zhang tj, et al. stream temperature dynamics in nam co basin, southern tibetan plateau. journal of mountain science,2017.
16.grigholm, b., p. a. mayewski, v. aizen, et al.a twentieth century major soluble ion record of dust and anthropogenic pollutants from inilchek glacier, tien shan. journal of geophysical research- atmosphere, 2017,122: 1884-1900. 
17.guangyang yue, lin zhao, zhiwei wang, et al. spatial variation in biomass and its relationships to soil properties in the permafrost regions along the qinghai-tibet railway. environmental engineering science,2017,34(2).
18.guangyue liu, lin zhao, ren li, et al. permafrost warming in the context of step-wise climate change in the tien shan mountains, china. permafrost and periglac. process,201728: 130-139.
19.gul c., s. kang, b m. ghauri, et al. using landsat images to monitor changes in the snow-covered area of selected glaciers in northern pakistan. journal of mountain science, 2017.
20.guo j., s. kang, j. huang, m. sillanpää, h. 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,2017.
21.guo j., s. kang, j. huang, et al. characterizations of atmospheric particulate-bound mercury in the kathmandu valley of nepal, south asiascience of the total environment,2017,579: 1240-1248.
22.guojie hu, lin zhao, xiaodong wu, et al. comparison of the thermal conductivity parameterizations for a freeze-thaw algorithm with a multi-layered soil in permafrost regions. catena,2017, 156: 244-251.
23.guojie hu, lin zhao, xiaodong wu, et al. a mathematical investigation of the air-ground temperature relationship in permafrost regions on the tibetan plateau.geoderma,2017, 306: 244-251.
24.guojie hu, xiaodong wu, lin zhao,et al. an improved model for soil surface temperature from air temperature in permafrost regions of qinghai-xizang (tibet) plateau of china. meteorol atmos phys,2017, 129: 441-451.
25.guoning wan, meixue yang, zhaochen liu, et al. the precipitation variations in the qinghai-xizang (tibetan) plateau during 1961–2015.atmosphere, 2017.
26.jianjun chen , shuhua yi , yu qin.the contribution of plateau pika disturbance and erosion on patchy alpine grassland soil on the qinghai-tibetan plateau: implications for grassland restoration. geoderma,2017.
27.jianmin ma,jianzhong xu . environment: china's energy rush harming ecosystem. nature, 2017:541(30).
28.jianzhong xu, qi zhang, jinsen shi, et al. chemical characteristics of submicron particles at the central tibet plateau: influence of long-range transport. atmospheric chemistry and physics,2017.
29.jiao yang, cunde xiao. the evolution and volcanic forcing of t he southern annular mode during t he past 300 years. international journal of climatology,2017.
30.ju huang, yuefang , zhen li,et al. spatial variations and sources of trace elements in recent snow from glaciers at the tibetan plateau. environmental science and pollution research.
31.junfeng wang, qi zhang, mindong chen, et al. first chemical characterization of refractory black carbon aerosols and associated coatings over the tibetan plateau (4730 m a.s.l). environmental science & technology,2017.
32.kang s., y. xu, y. yi,et al. water isotope framework for lake water balance monitoring and modelling in the nam co basin, tibetan plateau.journal of hydrology: regional studies,2017,12: 289-302.
33.li c, f. yan, s. kang, et al. deposition and light absorption characteristics of precipitation dissolved organic carbon (doc) at three remote stations in the himalayas and tibetan plateau, china.science of the total environment,2017,605–606: 1039-1046.
34.li c, yan f, kang s, et al. re-evaluation black carbon in the himalayas and the tibetan plateau: concentrations and deposition. atmospheric chemistry and physics,2017,17: 11899-11912. 
35.li xiao fei, s. kang, g. zhang, et al. light-absorbing impurities in a southern tibetan plateau glacier: variations and potential impact on snow albedo and radiative forcing.atmospheric research, 2018, 200:77-87.
36.li xiao fei, s. kang, x. he, et al. light-absorbing impurities accelerate glacier melt in the central tibetan plateau,science of the total environment,2017587-588: 482-490.
37.lianglei gu, zeyong hu, jimin yao, et al. actual and reference evapotranspiration in a cornfield in the zhangye oasis.northwestern china,water,2017,2017,9(7),no:499:1-16.
38.liming tian, lin zhao, xiaodong wu, et al. vertical patterns and controls of soil nutrients in alpine grassland: implications for nutrient uptake. science of the total environment,2017, 607-608: 855-864.
39.lin, m., wang, k., kang, et al. simple method for high-sensitivity determination of cosmogenic 35s in snow and water samples collected from remote regions.analytical chemistry ,2017,89.7 (2017): 4116-4123.
40.liu y., vick-majors t., priscu j., et al. biogeography of cryoconite bacterial communities on glaciers of the tibetan plateau.fems microbiology ecology,2017,93.
41.liu, b., z. cong, y. wang, et al. background aerosol over the himalayas and tibetan plateau: observed characteristics of aerosol mass loading. atmospheric chemistry and physics,2017,17, 449-463. 
42.ma m., h. du, d. wang, s. kang, t. sun.biotically mediated mercury methylation in the soils and sediments of nam co lake, tibetan plateau.environmental pollution,2017, 227: 243-251. 
43.min xu. study on water storage change and its consideration in water balance in the mountain regions over arid northwest china. advances in meteorology,2017,2017 (7),1-10.
44.min xu, haidong han, shichang kang.the temporal and spatial variation of positive degree-day factors on the koxkar glacier over the south slope of the tianshan mountains, china, from 2005 to 2010.sciences in cold and arid regions,2017,9(5),425–431.
45.minna ma, wenping yuan, jie dong, et al. large-scale estimates of gross primary production on the qinghai-tibet plateau based on remote sensing data. international journal of digital earth,2017,2017:1-28.
46.mu, c. c., abbott, b. w., wu, x. d.,et al. thaw depth determines dissolved organic carbon concentration and biodegradability on the northern qinghai-tibetan plateau. geophysical research letters,2017, 44(18): 9389-9399.
47.mu, c. c., abbott, b. w., zhao, q., et al. permafrost collapse shifts alpine tundra to a carbon source but reduces n2o and ch4 release on the northern qinghai-tibetan plateau.geophysical research letters,2017,44(17): 8945-8952.
48.mu, c., wu, x., zhao, q., et al. relict mountain permafrost area (loess plateau, china) exhibits high ecosystem respiration rates and accelerating rates in response to warming. journal of geophysical research: biogeosciences,2017.
49.mu, c., zhang, t., zhao, q., et al. permafrost affects carbon exchange and its response to experimental warming on the northern qinghai-tibetan plateau.agricultural and forest meteorology,2017,247(12):252-259.
50.niu h., s. kang, x. shi, et al. water-soluble elements in snow and ice on mt. yulong.science of the total environment,2017,574: 889-900. 
51.niu h., s. kang, y. zhang, x. y. shi, et al. distribution of light-absorbing impurities in snow of glacier on mt. yulong, southeastern tibetan plateau. atmospheric research,2017, 197, 474-484.
52.niu h., s. kang, x. shi, et al. in-situ measurements of light-absorbing impurities in snow of glacier on mt. yulong and implications for radiative forcing estimates.science of the total environment,2017,581-582: 848-856. 
53.niu h.w., kang s.c., shi x.f. in-situ measurements of light-absorbing impurities in snow of glacier on mt. yulong and implications for radiative forcing estimates.science of the total environment(sci) ,2017, 581-582, 848-856.
54.pandey, a., c.m. sharma, s. kang, q. et al. mercury concentrations in the fish community from indrawati river, nepal.bulletin of environmental contamination and toxicology,2017,99: 500. 
55.pang guojin, wang xuejia,  yang meixue. using the ndvi to identify variations in, and responses of, vegetation to climate change on the tibetan plateau from 1982 to 2012.quaternary international ,2017,444:87-96.
56.paudyal r., s. kang, j. huang, et al. insights into mercury deposition and spatiotemporal variation in the glacier and melt water from the central tibetan plateau. science of the total environment,2017,599-600: 2046–2053. 
57.pu t., qin d., kang s., niu h., et al. water isotopes and hydrograph separation in different glacial catchments in the southeast margin of the tibetan plateau.hydrological processes,2017,31:3810–3826.
58.puyu wang, zhongqin li, huilin li, et al. characteristics of a partially debris-covered glacier and its response to atmospheric warming in mt. tomor, tien shan, china. global and planetary change,2017,159:11-24.
59.qu b., m. sillanpää, s. kang, et al. raymond,aged dissolved organic carbon exported from rivers of the third pole.plos one,2017,e0178166.
60.qu b., zhang y., kang s., et al. water chemistry of the southern tibetan plateau: an assessment of the yarlung tsangpo river basin,environ earth sci,2017,76:74 doi 10.1007/s12665-017-6393-3
61.qu bin, aho ks, li cl, kang sc, sillanpaa m, yan f, raymond pa,greenhouse gases emissions in rivers of the tibetan plateau. scientific reports,2017,7: 16573.
62.quanlian li, ninglianwang, carlo barbante , et al. levels and spatial distributions of levoglucosan and dissolved organic carbon in snowpits over the tibetan plateau glaciers.science of the total environment ,2018,612,1340-1347.
63.raut, r., r.m. bajracharya, s. sharma, et al. dongol,potentially toxic trace metals in water and lake-bed sediment of panchpokhari, an alpine lake series in the central himalayan region of nepal. water, air, & soil pollution,2017,228:303. 
64.roberts, j., moy, a., plummer, c., et al. a revised law dome age model (ld2017) and implications for last glacial climate.climate of the past discussions,2017,1-22.
65.rupakheti, d., adhikary, b., praveen, et al. pre-monsoon air quality over lumbini, a?world heritage site along the himalayan foothills.atmospheric chemistry and physics,2017,17 (18), 11041-11063.
66.rupakheti, d., tripathee, l., kang, s., et al. assessment of water quality and health risks for toxic trace elements in urban phewa and remote gosainkunda lakes, nepal.human and ecological risk assessment: an international journal,2017,23 (5): 959-973. 
67.schmale j., m. flanner, s. kang, et al. farinotti,modulation of snow reflectance and snowmelt from central asian glaciers by anthropogenic black carbon. scientific reports,2017,7: 40501. 
68.shangguan donghui,ding yongjian,liu shiyin,et al. moldobekov bolot,quick release of internal water storage in a glacier leads to underestimation of the hazard potential of glacial lake outburst floods from lake merzbacher in central tian shan mountains. geophysical research letters,2017,44(19):9786-9795.
69.shi x.y., pu t., he y.q,et al. variability of stable isotope in lake water and its hydrological processes identification in mt. yulong region.water (sci),2017,9(9): 1-15.
70.shuhua yi . fragmap: a tool for long-term and cooperative monitoring and analysis of small-scale habitat fragmentation using an unmanned aerial vehicle. international journal of remote sensing,2017,vol.38,nos.8-10,2686-2697.
71.shuhua yi ,jianjun chen, yu qin. reply to li’s comments on “plateau pikas burrowing activity accelerates ecosystem carbon emission from alpine grassland on the qinghai-tibetan plateau”.ecological engineering,2017,108 (2017)330.
72.shu-ping zhao, zhuo-tong nan, ying-bing huang et al. the application and evaluation of simple permafrost distribution models on the qinghai-tibet plateau.permafrost and periglac. process,2017.
73.sun s., s. kang, j. huang, et al. distribution and transportation of mercury from glacier to lake in the qiangyong glacier basin, southern tibetan plateau, china. journal of environmental sciences,2016,44(6), 213-223. 
74.sun s., s. kang, j. huang, et al. distribution and variation of mercury in frozen soils of a high-altitude permafrost region on the northeastern margin of the tibetan plateau. environmental science and pollution research,2017,24:15078-15088.
75.sun x., k. wang, s. kang, j, et al. the role of melting alpine glaciers in mercury export and transport: an intensive sampling campaign in the qugaqie basin, inland tibetan plateau. environmental pollution,2017.
76.tengfei xia, shengyun chen,lei wang, et al. the genetic structure of six-rowed naked barley landraces from the qinghai-tibetan plateau is correlated with variation for ecogeographical factors. canadian journal of plant science,2017.
77.tong zhang, minghu ding, cunde xiao,et al. temperate ice layer found in the upper area of jima yangzong glacier, the headstream of yarlung zangbo river. sci. bull,2016,61(8):619–621.
78.tong zhang, stephen price, lili ju, et al. a comparison of two stokes ice sheet models applied to the marine ice sheet model intercomparison project for plan view models (mismip3d).the cryosphere,2017,vol.11, 179–190.
79.tonghua wu, yanhui qin, xiaodong wu, et al. spatiotemporal changes of freezing/thawing indices and their response to recent climate change on the qinghai-tibet plateau from 1980 to 2013.theor appl climatol,2017,2017.
80.tripathee, l., s. kang, d. rupakheti, et al. chemical characteristics of soluble aerosols over the central himalayas: insights into spatiotemporal variations and sources. environmental science and pollution research,2017,24: 24454. 
81.wan x., s. kang, q. li, et al. organic molecular tracers in the atmospheric aerosols from lumbini, nepal, in the northern indo-gangetic plain: influence of biomass burning. atmospheric chemistry and physics,2017,17: 8867-8885. 
82.wand s.j., zhou l.y. glacial lake outburst flood disasters and integrated risk management in china. international journal of disaster risk science (sci),2017.
83.wang puyu, li zhongqin, xu chunhai, et al. multi-decadal variations in glacier flow velocity and the influencing factors of urumqi glacier no.1 in tianshan mountains, northwest china.journal of arid land,2017,9(6):900-910.
84.wang s.j. and ding b.h.the active-layer ice temperature (alit) increases more obvious on a cold glacier than a temperate glacier during the past 30 years. international journal of global warming (sci),2017,13(1): 103-111.
85.wang s.j., yang c.l., zhou l.y.planting structure adjustment and food security in major food production district: a case study on 10 main food production counties in gansu province, china. iop conf. ser.: earth environ. sci.(ei),2017,77: 012017.
86.wang xuejia, pang guojin, yang meixue. precipitation over the tibetan plateau during recent decades: a review based on observations and simulations. international journal of climatology,2017.
87.wang xuejia, pang guojin, yang meixue, et al. evaluation of climate on the tibetan plateau using era-interim reanalysis and gridded observations during the period 1979–2012. quaternary international ,2017,444: 76-86.
88.wangbin zhang, shugui hou, yaping liu,et al. a high-resolution atmospheric dust record for 1810–2004 a.d. derived from an ice core in eastern tien shan, central asia. journal of geophysical research,2017,122:1-14.
89.wei t., z. dong, s. kang, x. qin, et al. geochemical evidence for sources of surface dust deposited on the laohugou glacier, qilian mountains. applied geochemistry,2017,79: 1-8. 
90.wei y.q., wang s.j., fang y.p., et al. integrated assessment of the vulnerability of animal husbandry from sd perspective under climate change on the qinghai -tibetan plateau. global and planetary change(sci),2017,157: 139-152.
91.weijun sun, xiang qin,yetang wang,et al. the response of surface mass and energy balance of a continental glacier to climate variability, western qilian mountains, china. climate dynamics,2017.
92.wenfang xu, hanqing ma, donghai wu, et al. assessment of the daily cloud-free modis snow cover product for monitoring the snow cover phenology over the qinghai-tibetan plateau.remote sensing,2017,9(6): 585.
93.wenfang xu, lijuan ma, wenping yuan, et al. spatial–temporal variability of snow cover and depth in the qinghai–tibetan plateau.journal of climate,2017,30(4): 1521-1533.
94.wenfang xu, wenping yuan. responses of microbial biomass carbon and nitrogen to experimental warming: a meta-analysis. soil biology and biochemistry,2017,15:265-274.
95.wenfang xu, wenping yuan. spatial patterns of soil and ecosystem respiration regulated by biological and environmental variables along a precipitation gradient in semi-arid grasslands in china. ecological research,2016,31(4): 505-513.
96.wenping yuan, wenfang xu, minna ma, et al. improved snow cover model in terrestrial ecosystem modelsover the qinghai–tibetan plateau. agricultural and forest meteorology,2016,218–219 (2016) :161–170.
97.wu kunpeng,liu shiyin, jiang zongli,et al. recent glacier mass balance and area changes in the kangri karpo mountain derived from multi-sources of dems and glacier inventories.the cryosphere discuss,2017:1-31.
98.wu,x.d., zhao,l., hu,g., et al. permafrost and land cover as controlling factors for light fraction organic matter on the southern qinghai-tibetan plateau.science of the total environment,2018,613-614: 1165-1174.
99.xiaodong wu, haiyan xu, guimin liu, et al. bacterial communities in the upper soil layers in the permafrost regions on the qinghai-tibetan plateau.applied soil ecology,2017,120: 81-88.
100.xiaodong wu, hongbing fang, yonghua zhao, j,et al. a conceptual model of the controlling factors of soil organic carbon and nitrogen densities in a permafrost-affected region on the eastern qinghai-tibetan plateau,j.geophys. res. biogeosci.,2017,122(7): 1705-1717.
101.xiaofan zhu, tonghua wu, ren li, et al. impacts of summer extreme precipitation events on the hydrothermal dynamics of the active layer in the tanggula permafrost region on the qinghai-tibet plateau. journal of geophysical research - atmospheres,,2017.
102.xiaofan zhu, tonghua wu, ren li, et al. characteristics of the ratios of snow, rain and sleet to precipitation on the qinghai-tibet plateau during 1961-2014.quaternary international,2017, 444: 137-150.
103.xiaowen wang, lin liu,  lin zhao, et al. mapping and inventory active rock glaciers in the northern tien shan of china using satellite sar interferometry. the cryosphere,2017,11, 997-1014.
104.xiaoyu zhang, zhongqin li, nozomu takeuchi,et al. heavy metal-polluted aerosols collected at a rural site, northwest china. journal of earth science,2017, 28 (3): 535-544.
105.xin wang, kaiguo chai, shiyin liu, et al. changes of glaciers and lacial lakes implying corridor-barrier effects and climate change in the hengduan shan, southeastern tibetan plateau. journal of glaciology,2017,(2017), page 1 of 8.
106.xu, h.y.,liu, g.m.,wu, x.d.,et al. soil enzyme response to permafrost collapse in the northern qinghai-tibetan plateau,ecological indicators, 201885:585-593.
107.xu, m., h. han, s. kang. modeling glacier mass balance and runoff in the koxkar river basin on the south slope of the tianshan mountains, china, from 1959 to 2009. water,2017,9(5):425-431.
108.yang j., k. duan, s. kang, et al. potential feedback between aerosols and meteorological conditions in a heavy pollution event over the tibetan plateau and indo?gangetic plain. climate dynamic,2017, 48(9): 2901-2917. 
109.yange zhang,jianzhong xu*,jinsen shi,conghui xie,xinlei ge,junfeng wang,shichang kang,qi zhang,light absorption by water-soluble organic carbon in atmospheric fine particles in the central tibetan plateau,environmental science and pollution research,2017,24,(26),21386–21397
110.yanhui qin, tonghua wu, lin zhao, et al. numerical modeling of the active layer thickness and permafrost thermal state across qinghai-tibetan plateau. journal of geophysical research - atmospheres,2017.
111.yanhui qin, tonghua wu, xiaodong wu, et al. assessment of reanalysis soil moisture products in the permafrost regions of the central of the qinghai-tibet plateau. hydrological precesses,2017.
112.yin xf, kang sc, benjamin de foy, et al. surface ozone at nam co in the inland tibetan plateau: variation, synthesis comparison and regional representativeness. atmospheric chemistry and physics,2017.
113.yong nie, yongwei sheng, qiao liu,et al. a regional-scale assessment of himalayan glacial lake changes using satellite observations from 1990 to 2015. remote sensing of environment,2017,189 (2017) 1-13.
114.you q., d. wang, z. jiang, s. kang. diurnal temperature range in cmip5 models and observations in the tibetan plateau. quarterly journal of the royal meteorological society,2017.
115.yuefang li, zhen li, ju huang,et al. variations in the trace elements and rare earth elements (rees) treated by 2 different methods for snow pit samples on the qinghai-tibetan plateau and their implications. sciences in cold and arid regions,2017.
116.yushuo liu , xiang qin, wentao du. changes of glacier area in the xiying river basin,east qilian mountain, china. sciences in cold and arid egions,2017,9(5): 432–437.
117.zhang q., f. zhang, s. kang, z. cong. melting glaciers: hidden hazards. science,2017, 356 (6337): 495. 
118.zhang qb.,  shichang kang. glacier snowline altitude variations in the pamirs, tajikistan, 1998-2013: insights from remote sensing images. remote sensing letters,2017,8(12):1220–1229.
119.zhang wei, shichang kang, yongping shen, et al. response of snow hydrological processes to a changing climate during 1961 to 2016 in the headwater of irtysh river basin, chinese altai mountains. journal of mountain science,2017,14(11): 2295-2310.
120.zhang y. l., s. kang, c. li, et al. characteristics of black carbon in snow from laohugou no. 12 glacier on the northern tibetan plateau. science of the total environment,2017,607-608: 1237-1249. 
121.zhang y., s. kang, z. cong, j., et al. light-absorbing impurities enhance glacier albedo reduction in the southeastern tibetan plateau. journal of geophysical research - atmosphere,2017,122.
122.zhang y.l., s. kang, m. xu., et al. light-absorbing impurities on keqikaer glacier in western tien shan: concentrations and potential impact on albedo reduction. sciences in cold and arid regions,2017, 9(2): 97-111. 
123.zhang yujin, qin dahe, yuan wenping. historical trends of forest fires and carbon emissions in china from 1988 to 2012. journal of geophysical research: biogeosciences,2016,121(9):2506-2517.
124.zhaochen liu,  meixue yang, guoning wan, et al. the spatial and temporal variation of temperature in the qinghai-xizang (tibetan) plateau during 1971-2015. atmosphere,2017.
125.zhenliang yin, qi feng, shiyin liu, et al. the spatial and temporal contribution of glacier runoff to watershed discharge in the yarkant river basin, northwest china. water,2017,9(159):1-20.
126.zhiheng du,cunde xiao, yaping liu,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,2017,vol. 430, part b,12 :60-70.
127.zhiwei wang, qian wang, xiaodong wu,et al. vegetation changes in the permafrost regions of the qinghai-tibetan plateau from 1982-2012: different responses related to geographical locations and vegetation types in high-altitude areas. plos one,2017, 12(1): e0169732. 
128.zhiwen dong,  shichang kang,dahe qin. temporal and diurnal analysis of trace elements in the cryospheric water at remote laohugou basin in northeast tibetan plateau.chemosphere ,2017,171:386-398.
129.zhiwen dong, shichang kang, junming guo. composition and mixing states of brown haze particle over the himalayas along two transboundary south-north transects . atmospheric environment ,2017,156:24-35.
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