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发表论著

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2018年发表论著

时间:  2019-02-20 08:30  点击:   次
1.dahe qin,yongjian ding,cunde xiao, shichang kang, jianwen ren, jianping yang,shiqiang zhang.cryospheric science: research framework and disciplinary system,national science review,2018,5: 255–268
2.wenjie liu, shengyun chen, junyi liang, et al.the effect of decreasing permafrost stability on ecosystem carbon in the northeastern margin of the qinghai-tibet plateau,scientific reports,2018,8: 4172
3.shuhua yi, yujie he, yongjian ding, et al.the physical properties of coarse-fragment soils and their effects on permafrost dynamics: a case study on the central qinghai–tibetan plateau,the cryosphere,2018,12: 3067–3083
4.xiuna wang, yongjian ding , chuancheng zhao, et al.validation of trmm 3b42v7 rainfall product under complex topographic and climatic conditions over hexi region in the northwest arid region of china,water,"2018, 10(8):1006"
5.yaping chang, dahe qin, yongjian ding, et al."a modified mod16 algorithm to estimate evapotranspiration over alpine meadow on the tibetan plateau, china.journal of hydrology,"2018, 561:16-30"
6.xiangying li,yongjian ding, jianzhong xu, et al.importance of mountain glaciers as a source of dissolved organic carbon,journal of geophysical research:earth surface,"2018, 123: 2123-2134"
7.hongzheng pu ,yongjian ding, tianding han, et al."spatiotemporal variation of nutrient concentrations in the upper shule river basin, the qinghai-tibetan plateau, china.water,"2018, 10: 366"
8.zhiwen dong, yaping shao, dahe qin, et al."insight into radio-isotope 129i deposition in fresh snow at a remote glacier basin of northeast tibetan plateau, china"".geophysical research letters,"2018, 45: 6726–6733"
9.zhiwen dong, yaping shao, dahe qin, et al.hf-nd-sr isotopic composition as fingerprint for long-range transported eolian dust deposition in glacier snowpack of eastern tibetan plateau,journal of geophysical research: atmospheres,"2018, 123: 7013–7023.
10.guojie hu, lin zhao, ren li, 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,"2019, 337: 893-905"
11.guojie hu, liming tian, lin zhao, et al.soil infiltration processes of different underlying surfaces in the permafrost region on the tibetan plateau,hydrological sciences journal,"2018, 63(11): 1733-1744"
12.yixuan wang, tianyuan chen, chongyi e, et al."quartz osl and k-feldspar post-ir irsl dating of loess in the huangshui river valley, northeastern tibetan plateau.aeolian research,"2018, 33: 23-32"
13.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,"2018, 85: 585-593"
14.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"
15.wu xiaodong, zhao lin,liu guimin, et al.effects of permafrost thaw-subsidence on soil bacterial communities in the southern qinghai-tibetan plateau,applied soil ecology,"2018, 128: 81-88"
16.wu xiaodong, xu haiyan, liu guimin.effects of permafrost collapse on soil bacterial communities in a wet meadow on the northern qinghai-tibetan plateau,bmc ecology,"2018, 18(1): 27"
17.mu cuicui, li lili, wu xiaodong, et al.greenhouse gas released from the deep permafrost in the northern qinghai-tibetan plateau,scientific reports,"2018, 8(1): 4205"
18.ma xiaoliang, liu guimin, wu xiaodong, et al.influence of land cover on riverine dissolved organic carbon concentrations and export in the three rivers headwater region of the qinghai-tibetan plateau,science of the total environment,"2018, 630: 314-322"
19.zhao, l, wu, xd, wang, zw, et al.soil organic carbon and total nitrogen pools in permafrost zones of the qinghai-tibetan plateau,scientific reports,"2018,  8: 1-9"
20.zhenming wu, lin zhao, lin liu, et al."surface-deformation monitoring in the permafrost regions over the tibetan plateau, using sentinel-1 data.sciences in cold and arid regions,"2018, 10(2): 114-125"
21.wang w, wu t, zhao l.exploring the ground ice recharge near permafrost table on the central qinghai-tibet plateau using chemical and isotopic data,journal of hydrology,"2018, 560: 220-229"
22.wang w, wu t, zhao l.hydrochemical characteristics of ground ice in permafrost regions of the qinghai-tibet plateau,science of the total environment,"2018, 626: 366-376"
23.wang t, wu t, wang p. li, et al.spatial distribution and changes of permafrost on the qinghai-tibet plateau revealed by statistical models during the period of 1980 to 2010,science of the total environment,"2019, 650: 661-670"
24.li r, zhao l, wu th, ding yj, et al.soil thermal conductivity and its influencing factors at the tanggula permafrost region on the qinghai–tibet plateau,agricultural and forest meteorology,"2019, 264:235-246"
25.bigyan neupane, pengfei chen, shichang kang, et al.health risk assessment of atmospheric polycyclic aromatic hydrocarbons over the central himalayas,human and ecological risk assessment: an international journal,"2018, 24 (7): 1969-1982"
26.bu, x., zhang, h., lv, g., et al.comparison of reactive gaseous mercury collection by different sampling methods in a laboratory test and field monitoring,environmental science & technology letters,"2018, 5(10): 600-607"
27.chaman gul, siva praveen puppala, shichang kang, et al.concentrations and source regions of light-absorbing particles in snow/ice in northern pakistan and their impact on snow albedo,atmospheric chemistry and physics (acp),"2018, 18(7): 4981–5000"
28.chen jizu, qin xiang, kang shichang, et al."effects of clouds on surface melting of laohugou glacier no. 12, variables of laohugou glacier no. 12, western qilian mountains, china.journal of glaciology,"2018, 64: 1-11"
29.cong zhiyuan, gao shaopeng, zhao wancang, et al."iron oxides in the cryoconite of glaciers on the tibetan plateau: abundance, speciation and implications.the cryosphere,"2018, 12: 3177–3186"
30.chen xintong, shichang kang, zhiyuan cong, et al."concentration, temporal variation, and sources of black carbon in the mt. everest region retrieved by real-time observation and simulation.atmospheric chemistry and physics,"2018, 18(17): 12859-12875"
31.d. rupakheti, s. kang, m. rupakheti."long-term trends in the total columns of ozone and its precursor gases derived from satellite measurements during 2004–2015 over three different regions in south asia: indo-gangetic plain, himalayas and tibetan plateau.international journal of remote sensing,"2018, 39 (21): 7404-7424"
32.d. rupakheti, s. kang, m. rupakheti."observation of optical properties and sources of aerosols at buddha’s birthplace, lumbini, nepal: environmental implications.environmental science and pollution research,"2018, 25(15): 14868–14881"
33.dong zhiwen, yaping shao, dahe qin, et al.insight into radio-isotope 129i deposition in fresh snow at a,geophysical research letters,"2018, 45: 6726–6733"
34.du wentao, shichang kang, xiang qin, et al.review of pre-processing technologies for ice cores,journal of mountain sciences,"2018, 15 (9): 1950-1960"
35.gao tanguang, zhang tingjun, guo hong, et al."impacts of the active layer on runoff in an upland permafrost basin, northern tibetan plateau.plos one,"2018, 13(2)"
36.he cenlin, mg flanner, f chen, et al.black carbon -induced snow albedo reduction over the tibetan plateau: uncertainties from snow grain shape and aerosol-snow mixing state based on an updated snicar model,atmospheric chemistry and physics,"2018, 18: 11507-11527"
37.hu zhaofu, shichang kang, fangping yan, et al.dissolved organic carbon fractionation accelerates glacier-melting: a case study in the northern tibetan plateau,science of the total environment,"2018, 627: 579-585"
38.l tripathee, junming guo, shichang kang, 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,"2018, 1-12 doi:10.1080/10807039.2018.1459180"
39.li chaoliu, xiaowen, h., shichang, k."heavy near-surface pm2.5 pollution in lhasa, china during a relatively static winter period.chemosphere,"2019 , 214: 314-318"
40.li chaoliu., pengfei, c., shichang kang.fossil fuel combustion emission from south asia influences precipitation dissolved organic carbon reaching the remote tibetan plateau: isotopic and molecular evidence.,journal of geophysical research: atmospheres,"2018, 10.1029/2017jd028181"
41.li xiaofei, shichang kang, guoshuai zhang, et al.light-absorbing impurities in a southern tibetan plateau glacier: variationsand potential impact on snow albedo and radiative forcing,atmospheric research,"2018,  200: 77-87"
42.lin mang, kang shichang, r shaheen, et al.atmospheric sulfur isotopic anomalies recorded at mt.,pnas,"2018, 115(27): 6964-6969"
43.liu jingshi, kang shichang, kenneth hewitt, et al.large observational bias on discharge in the indus river since 1970s,scientific report,"2018, 8: 17291 doi:10.1038/s41598-018-35600-3"
44.niu hewen, kang s.c., lu x.x., et al."distributions and light absorption property of water soluble organic carbon in a typical temperate glacier, southeastern tibetan plateau.tellus b: chemical and physical meteorology,"2018, 70:1, 1-15"
45.niu hewen, kang shichang, wang hailong, et al.seasonal variation and light absorption property of carbonaceous aerosol in a typical glacier region of the southeastern tibetan plateau,atmos. chem. phys,"2018, 18: 6441-6460.
46.niu hewen, shi xiaofei, li gang, et al."characteristics of total suspended particulates in the atmosphere of yulong snow mountain, southwestern of china.science in cold and arid region,"2018, 10(3): 0207-0218.
47.qu bin, zhang yulan, kang shichang, et al.water quality in the tibetan plateau: major ions and trace elements in rivers of the water tower of asia,science of the total environment,"2018, 649: 571-581"
48.sun shiwei, shichang kang et al.,insights into mercury in glacier snow and its incorporation into meltwater runoff based on observations in the southern tibetan plateau.,journal of environmental sciences,"2018, 68(6): 130-142"
49.wang haipeng, chen jianhui, zhang shengda, et al.a chironomid-based record of temperature variability during the past 4000 years in northern china and its possible societal implications,climate of the past,"2018, 14: 383–396"
50.yan fangping, mike, s., shichang kang.lakes on the tibetan plateau as conduits of greenhouse gases to the atmosphere,journal of geophysical research: biogeosciences,"2018, 10.1029/2017jg004379"
51.yang junhua, shichang kang , zhenming ji, et al.modeling the origin of anthrop ogenic black carbonand its climatic effect over the tibetan plateauand surrounding regions,journal of geophysical research: atmosphere,"2018, 123(2): 671-692"
52.yang junhua, shichang kang, zhenming ji.sensitivity analysis of chemical mechanisms in the wrf-chem model in reconstructing aerosol concentrations and optical properties in the tibetan plateau,aerosol and air quality research,"2018, 18: 505-521"
53.yang junhua, zhenming ji, deliang chen, et al.improved land use and leaf area index enhances wrf-3dvar satellite radiance assimilation: a case study focusing on rainfall simulation in,advances in atmospheric sciences,"2018, 35(6): 628-644"
54.yin xiufeng, shichang kang, benjamin de foy, et al."multi-year monitoring of atmospheric total gaseous mercury at a remote high-altitude site (nam co, 4730?m?a.s.l.) in the inland tibetan plateau region.atmospheric chemistry and physics,"2018, 18(14), 10557-10574"
55.zhang yulan, shichang kang.characteristics of carbonaceous aerosols analyzed using a multiwavelentgh thermal/optical carbon analyzer: a case study in lanzhou city,science china-earth sciences,"2018, 61, doi: 10. 1007/s11430-017-9245-9"
56.zhang yulan, shichang kang, michael sprenger, et al.black carbon and mineral dust in snow cover on the tibetan plateau,the cryosphere,"2018,12: 413-431"
57.zhang yulan, shichang kang, tanguang gao, 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,"2018: 647, 1385-1397"
58.zhang yulan, shichang kang, gang li, et al.dissolved organic carbon in glaciers of the southeastern tibetan plateau: insights into concentrations and possible sources,plos one,"2018, 13(10): e0205414"
59.zhong x., zhang t., kang s., et al.spatiotemporal variability of snow depth across the eurasian continent from 1966 to 2012,the cryosphere,"2018, 12: 227-245"
60.quanlian li,biomass burning source identification through molecular markers in cryoconites over the tibetan plateau,environmental pollution,"2018, 244: 209-217"
61.quanlian li,levels and spatial distributions of levoglucosan and dissolved organiccarbon in snowpits over the tibetan plateau glaciers,science of the total environment,"2018, 612: 1340-1347"
62.wenling an, xiaohong liu, shugui hou, et al.unstable relationships of tree ring δ18o and climate variables over southwestern china: possible impacts from increasing central pacific ssts,theoretical and applied climatology,"2018, doi: 10.1007/s00704-018-2483-8"
63.huhu kang, xiaohong liu, junming guo, et al.increased mercury pollution revealed by tree rings from the china’s tianshan mountains,science bulletin,"2018, 63: 1328-1331"
64.xiaohong liu, liangju zhao, steven voelker, et al.warming and co2 enrichment modify the ecophysiological responses of dahurian larch and mongolia pine during the past century in the permafrost northeastern china.,tree physiology,"2018, doi:10.1093/treephys/tpy060"
65.guoju wu, xiaohong liu, shichang kang et al."age-dependent impacts of climate change and intrinsic water-use efficiency on the growth of schrenk spruce (picea schrenkiana) in the western tianshan mountains, china.,forest ecology management,"2018, 414: 1-14"
66.guobao xu, xiaohong liu, weizhen sun, et al.application and verification of simultaneous determination of cellulose δ13c and δ18o in picea shrenkiana tree rings from northwestern china using the high-temperature pyrolysis method,journal of arid land,"2018, 16(6): 864-876"
67.guobao xu, xiaohong liu, soumaya belmecheri et al."contribution transition of co2 concentration and climates to intrinsic water-use efficiency in the arid boreal forest, northwestern china.forests,"2018, 9(10): 642"
68.guobao xu, xiaohong liu, trouet v, et al.regional drought shifts (1710-2010) in east central asia and linkages 1 with atmospheric circulation recorded in tree-ring δ18o.,climatic dynamics,"2018, doi.org/10.1007/s00382-018-4215-2.
69.xuanwen zhang, xiaohong liu, wenzhi wang, et al."spatiotemporal variability of drought in the northern part of northeast, china.hydrological processes,"2018, 32: 1449-1460"
70.wang y. hou s. huai b. et al,"glacier anomaly over the western kunlun mountains, northwestern tibetan plateau, since the 1970s.journal of glaciology,"2018, 64(246):624-636"
71.wenjie liu, shengyun chen, junyi liang.the effect of decreasing permafrost stability on ecosystem carbon in the northeastern margin of the qinghai-tibet plateau,scientific reports,"2018, 8: 417"
72.chen shengyun; zhao qian; liu wenjie,effects of freeze-thaw cycles on soil n2o concentration and flux in the permafrost regions of the qinghai-tibetan plateau,sciences in cold and arid regions,"2018, 10(1): 1-12"
73.tengfei xia, shengyun chen, lei wang.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,"2018, 98: 1-12"
74.jianzhong xu, qi zhang, jinsen shi, et al.chemical characteristics of submicron particles at the centraltibetan plateau: insights from aerosol mass spectrometry,atmospheric chemistry and physics,"2018, 18, 427–443"
75.dong, z., shao, y., qin, d., et al.insight into radio-isotope 129ideposition in fresh snow at a remote glacier basin of northeast tibetan plateau,geophysical reaearch letters,"2018, 45(13):6726-6733"
76.dong, z., shao, y., qin, d., et al.hf-nd-srisotopic composition as fingerprint for long-range transported eolian dust deposition in glacier snowpack of eastern tibetan plateau.,journal of geophysical research-atmospheres,"2018, 123(13):7013-7023"
77.yuzhe wang, tong zhang, jiawen ren, et al."an investigation of the thermomechanical features of laohugou glacier no. 12 on qilian shan, western china, using a two-dimensional first-order flow-band ice flow model.the cryosphere,"2018, 12, 851–866"
78.liu yu-shuoqin xiangchen ji-zuli et al,"variations of laohugou glacier no.12 in the western qilian mountains, china, from 1957 to 2015.journal of mountain science,"2018, 15(1): 25-32"
79.du wentao, kang shichang, qin xiang.review of pre-processing technologies for ice cores,journal of mountain science,"2018, 15(9): 1950-1960"
80.chen, j., x. qin, s. kang, et al."effects of clouds on surface melting of laohugou glacier no. 12, western qilian mountains, china.journal of glaciology,"2018, 64(243) : 89–99"
81.yu qin, shuhua yi, yongjian ding, et al.effects of small-scale patchiness of alpine grassland on ecosystem carbon and nitrogen accumulation and estimation in northeastern qinghai-tibetan plateau,geoderma,"2018, 318: 52-63"
82.shuhua yi, yujie he, xinlei guo, et al.the physical properties of coarse-fragment soils and their effects on permafrost dynamics: a case study on the central qinghai–tibetan plateau,the cryosphere,"2018, 12: 3067–3083"
83.anjum, m. n., y. ding."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,2018
84.anjum, m. n., y. ding.performance evaluation of latest integrated multi-satellite retrievals for global precipitation measurement(imerg)over the northern highlands of pakistan,atmospheric?research,"2018, 205"
85.liu, j., d. shanguan.evaluation and hydrological simulation of cmads and cfsr reanalysis datasets in the qinghai-tibet plateau,water,"2018, 10(4)"
86.weizhen sun,source and environmental significane of oxalate in laohugou glacier no.12 qilian mountains western chian.,sciences in cold and arid regions(scar),"2018,  10(2)126-133"
87.wang puyu, li zhongqin, zhou ping."long-term change in ice velocity of urumqi glacier no. 1, tian shan, china.cold regions science and technology,"2018, 145: 177-184"
88.chunhai xu, zhongqin li, puyu wang, et al.detailed comparison of glaciological and geodetic mass balances for urumqi,cold regions science and technology,"2018, 155: 137–148"
89.hui zhang. zhongqin li. ping zhou, et al."mass-balance observations and reconstruction for haxilegen glacier no.51, eastern tien shan, from 1999 to 2015.journal of glaciology,"2018, 64(247): 689-699"
90.feiteng wang, chunhai xu, zhongqin li.applicability of an ultra-long-range terrestrial laser scanner to monitor the mass balance of,sciences in cold and arid regions,"2018, 10(1): 0047–0054"
91.xu min; wu hao; kang shichang,impacts of climate change on the discharge and glacier,hydrological processes,"2018, 32:126-145"
92.xu min; kang shichang;wu hao; yuan xu,detection of spatio-temporal variability of air temperature and precipitation,atmospheric research,"2018, 203:141-163"
93.xu min; kang shichang; chen xuelong; wu hao; wang xiaoyun; su zhongbo,detection of hydrological variations and their impacts on vegetation from,science of the total environment,"2018, 639:1220-1232"
94.xuejiao wu , tao che, xin li, et al.slower snowmelt in spring along with climate warming across the northern hemisphere,geophysical research letters,"2018, 45:1-9"
95.xie aihong, wang shimeng, wang yicheng, li et al.comparison of temperature extremes between zhongshan station and great wall station in antarctica,sciences in cold and arid regions,"2018, 10(5): 0369-0378"
96.xu, j., zhang, q., shi, j., et al.chemical characteristics of submicron particles at the central tibetan plateau: insights from aerosol mass spectrometry,atmospheric chemistry and physics,"2018,18: 427-443"
97.lin feng,yanqing an,jianzhong xu,shichang kang,characteristics and sources of dissolved organic matter in a glacier in the northern tibetan plateau: differences between different snow categories,annals of glaciology,2018
98.xinghua zhang, jianzhong xu, shichang et al.chemical characterization of long-range transport biomass burning emissions to the himalayas: insights from high-resolution aerosol mass spectrometry,atmospheric chemistry and physics,2018,18: 4617-4638
99.xiangying li  yongjian ding  jianzhong xu, et al.importance of mountain glaciers as a source of dissolved organic carbon,journal of geophysical research:earth surface,"2018,123: 2123-2134"
100.xuejia wang, guojin pang, meixue yang, et al.precipitation changes in the qilian mountains associated with the shifts of regional atmospheric water vapour during 1960-2014,international journal of climatology,"2018, 38:4355–4368"
101.wenhuo liu, xiaohua gou, jinbao li, et al."separating temperature from precipitation signals encoded in tree-ring widths over the past millennium on the northeastern tibetan plateau, china.quaternary science reviews,"2018, 193: 159-169"
102.wang s.j., shi x.y., cao w.h., pu t.,seasonal variability and evolution of glacio-chemistry at an alpine temperate glacier on the southeastern tibetan plateau,water,"2018, 114(10): 1-14"
103.wang s.j., zhou l.y., wei y.q.,integrated risk assessment of snow disaster (sd) over the qinghai-tibetan plateau (qtp),"geomatics, natural hazards and risk."2018, 9(6): doi: 10.1080/19475705.2018.1543211"
104.yuan l.l. and wang s.j.,recreational value of glacier tourism resources:a travel cost analysis for yulong snow mountain,journal of mountain science,"2018, 15(7):1446-1459"
105.niu hewen, kang shichang, wang hailong, et al.seasonal variation and light absorption property of carbonaceous aerosol in a typical glacier region of the southeastern tibetan plateau,atmos. chem. phys,"2018, 18, 6441-6460.
106.niu h.w, kang s.c., lu x.x., et al."distributions and light absorption property of water soluble organic carbon in a typical temperate glacier, southeastern tibetan plateau.tellus b: chemical and physical meteorology,"2018, 70: 1-15"
107.niu hewen, shi xiaofei, li gang, et al."characteristics of total suspended particulates in the atmosphere of yulong snow mountain, southwestern of china.science in cold and arid region,"2018, 10(3): 0207-0218.
108.蒲红铮,韩添丁,丁永建,等,唐古拉山冬克玛底冰川流域河水总溶解固体和悬移质的变化特征,冰川冻土,"2018, 40 (5): 993-1003"
109.杜宜臻,李韧,吴通华,等,青藏公路沿线多年冻土区土壤热通量参数化方案的优化和检验,冰川冻土,"2018, 40(2): 314-321"
110.马小亮,刘桂民,吴晓东,等,青藏高原多年冻土区典型植被下河流溶解性有机碳的生物可利用性研究,环境科学,"2018, 39(5): 2086-2094"
111.马小亮, 刘桂民, 吴晓东.三江源高寒草甸下溪流溶解性有机碳的季节性输移特征,长江流域资源与环境,"2018, 27(10):2387-2394"
112.李玉,韩添丁,沈永平。蒲红铮,天山南坡清水河与阿拉沟流域径流变化特征及其对气候变化的响应,冰川冻土,"2018, 40(1): 127-135"
113.张玉兰 康世昌,利用多波段热光碳分析仪解析碳质气溶胶特征:以兰州市为例,中国科学,"2018, 48: 1-14"
114.张玉兰 康世昌,从阿拉斯加北极地区出发探索气候变化,大自然,"2018, 53-57"
115.李振林,秦翔,王晶,等,2004-2015年祁连山脉东部冷龙岭冰川遥感监测,测绘科学,"2018, 43(6): 45-51"
116.王一丞,谢爱红,丁明虎,等,基于polar wrf研究分析南极dome a极端低温事件,冰川冻土,"2018, 40(3): 643-649"
117.王世金, 丁永建, 效存德.冰冻圈变化对经济社会系统的综合影响及其适应性管理策略,冰川冻土,"2018, 40(5): 1005-1019"
118.齐翠姗, 何元庆, 王世金.玉龙雪山国家地质公园地质遗迹资源类型划分及其综合评价,冰川冻土,"2018, 40 (1): 186-196"
 

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