教授

当前您的位置: 集团首页 - 团队队伍 - 专任教师 - 教授 - 正文

金会军

时间:2024-10-28点击数:

  个人简介:

金会军(hjjin@nefu.edu.cn),教授,博士生导师。bevictor伟德成栋领军人才、冻土研究所所长;中国科学院西北生态环境资源研究院冰冻圈科学与冻土工程全国重点实验室研究员(百人计划—海外引进杰出人才)、中国科学院大学资源环境学院二级教授博导(兼)。主要从事雪冰冻土生态学与碳中和、土木/岩土工程、寒区工程与环境专业相关教研工作。获2017年国家科技进步一等奖(冻土工程国家创新团队),共15人,7th)、2020年中国石油和化学工业联合会科技进步一等奖(高寒冻土中俄原油管道关键技术)(共15人,8th)和2024年甘肃省自然科学二等奖(气候暖湿化驱动下江河源区冻土的响应机制及其环境效应)(共5人,2nd)。主持国家自然科学基金、科技部和中科院项目等30余项。发表论文400余篇,其中第一作者论文70余篇、通讯100余篇;SCI论文150+、EI 30+;H指数59,SCI总被引12000余次,单篇最高SCI被引>390。

教育经历

1999/09-2003/12,美国Alaska大学土木工程、工程管理和工商管理硕士。

1993/09-1998/05,中科院冰川所,自然地理/冻土学理学博士。

1988/09-1991/06,中科院冰川所,自然地理/冻土学理学硕士。

1984/09-1988/06,长春地质学院水文地质工程地质系,水文地质学工学士

工作经历

2024.07至今,东北林业老员工态学院教授、博导;

2022.12至今,自然资源部大兴安岭冻土与寒区环境野外科学观测研究站副站长、学委会副主任;

2020.10 -2024.06,bevictor伟德 土木工程学院 教授/研究员、博导;

2016.10-2020.09,哈尔滨工业大学 土木工程学院 岩土工程学科教授、博导

2016.06-2020.10,中科院西北生态环境资源研究院与冻土工程国家重点实验室 研究员、副主任

2014.10-2020.10,中国科学院大学冻土与寒区工程、冻土学、冻土工程减防灾 教授、博导

2012.12-2016.06,中国科学院寒区旱区环境与工程研究所 冻土与寒区工程室 副主任 及 冻土工程国家重点实验室 副主任,研究员

2004.10-2014.10,中科院“百人计划”(海外引进杰出人才)研究员、中科院研究生院教授、博导

2001.09-2003.12,Alaska大学(Anchorage)商业与公共管理学院,助教和EPSCoR Res Fellow

1999.09-2001.05,Alaska大学(Fairbanks)土木与环境工程系,助教

1991.06-1999.08,中国科学院兰州冰川冻土研究所,研实员、助研和副研

主要研究方向

1)北方、北极与泛第三极冰冻圈/雪冰冻土生态学、冻土工程与环境;

2)多年冻土区的水文地质、工程地质、环境地质与生态地质;

3)欧亚大陆和中国冰冻圈水与生态系统形成演化与第四纪冰缘地貌。

期刊编辑

1) 《Frontiers in Earth Science》 副主编(Associate Editor)(2022-);

2) 《Permafrost and Periglacial Processes》 编委(2012-);《Advances in Climate Change Research》 编委(2019-);《水利科学与寒区工程》 编委(2018-)

3) 《Sciences in Cold and Arid Regions》 执行主编(2008-2020年)、编委;《气候变化研究进展》 编委(2006-);《冰川冻土》 编委(2004-)。

社会任职

2024年9月6-7日,东北亚寒区工程与环境研讨会(Symp Cold Reg Eng & Environ in NE Asia (CREENA))共同主席

2024年7月起,俄罗斯科学院Melnikov冻土研究所荣誉教授

2024年4月起,冰冻圈科学与冻土工程全国重点实验室 学术委员会 委员

2023年11月起,自然资源部大兴安岭漠河冻土与寒区环境野外科学观测研究站学委会副主任、副站长;

2023年9月起,中国科学院中蒙俄寒旱区环境与工程国际研究中心学术委员会 委员

2023年9月起,俄罗斯矿业科学院(地下水与水文地质专业委员会) 外籍院士;

2022年7月起,bevictor伟德 冻土研究所所长;

2016年起,IPA/GTN-P,Senior Advisor and National Correspondent of China

2019年12月9-12日,首届南半球多年冻土大会(新西兰皇后镇) 科学指导委员

2018年起,亚洲寒区工程与环境国际研究中心(兰州/Yakutsk) 副主任

2017年7月4-6日,第2届亚洲冻土大会(2ndAsia Conf on Permafr, SACoP;日本札幌,)科学指导委员、野外考察组委;

2017年9月2-6日,第11届国际冻土工程大会(俄罗斯马加丹)科学指导委员;

2016-,中国第四纪科学研究会(CHIQUA)应用第四纪专业委员会 委员;

2012-2016,第11届国际冻土大会(ICOP 2016,德国波茨坦)学术指导委员;

2015-,全球陆地监测系统-多年冻土部分(GTN-P)专家指导委员;

2014-2016,IPA行动小组“欧亚大陆末次冻土最大期和最小期”负责人;

2012-2014,IPA行动小组“北半球末次盛冰期多年冻土范围”亚洲负责人;

2008-2012,第10届国际冻土大会(TICOP,俄罗斯秋明)学术指导委员;

2010-,国际冰冻圈科学委员会(IACS)/中国国家委员会冰冻圈气候与环境记录 共同主席;

2008-,全球陆地监测系统-多年冻土部分(GTN-P)中国国家代表;

2007-,世界气候研究项目/冰冻圈计划(WCRP/CliC)/国际大地测量与地球物理联合会/国际冰冻圈科学协会(IUGG/IACS)中国国家委员;

2006年7月,第1届亚洲冻土大会(1stAsia Conf on Permafrost, FACoP;中国兰州,)组委委员、野外考察指导、讲解;

2004-,美国冻土协会 海外会员 (USPA Member at Large);

2002-,Alaska州见习工程师(EIT)和项目管理研究院(PMI),会员;

1998-2016,国际冻土协会(IPA)中国国家代表(Representative of China);

1998-,土木工程师学会(ASCE)、地球物理联合会(AGU),会员;

1997-,美国冻土协会(USPA)、美国极地学会(APS)会员;

1994-,中国地理学会(GSC);1994-,中国青藏高原研究会(CSTP),会员。

研究成果和学术奖励情况(按时间倒序排序,不完全统计)

发表论文450+篇,其中一作73、通讯120+;SCI 150+、EI 30+;SCI被引12,112次(单篇最高390次). Google学术h指数59, i10指数214 (RG h-index 54;https://www.researchgate.net/profile/Huijun-jin).‬‬

一、专业论文

1.第一作者论文

1)Jin H, Fedorov AN, Bertoldi G, Luo D*, Feng M, Ran Y, Iwahana G, 2023. Editorial: Cloud-platform-aided mapping, monitoring, and model-prediction of cryospheric changes in the Eurasia Water Towers.Front Earth Sci–Cryos Sci,11. DOI: 10.3389/feart.2023.1320278

2)Jin H, Yang D, Makarieva O*, Tang L, 2023. Changes in permafrost and snow cover in the Boreal and Arctic zones (BAZ) and their impacts.Adv Clim Change Res,14(2): 157-163.

3)Jin H, Huang Y*, Bense VF, Ma Q*, Marchenko SS, Shepelev VV, Liang S, Jin X, et al., 2022. Permafrost degradation and its hydrogeological impacts.Water,14(3): 372. DOI: 10.3390/w14030372.

4)Jin H, Ma Q*, 2021. Impacts of permafrost degradation on carbon stocks and emissions under a warming climate: A review.Atmosphere12(11): 1425. DOI:10.3390/atmos12111425

5)Jin H, Wu Q, Romanovsky VE, 2021. Editorial: Impacts from degrading permafrost.Adv Clim Change Res,12(1): 1-5. DOI: 10.1016/j.accre.2021.01.007.

6)Jin H, Vandenberghe JY(equivalent contributor), Luo D*, Harris SAY, He R, Chen X, Jin X, Wang Q, Zhang Z, Spektor V, Wu Q, Wang S, 2020. Quaternary permafrost in China: A preliminary framework and some discussions.Quaternary,3: 32. DOI: 10.3390/quat3040032.

7)金会军,金晓颖*,何瑞霞,罗栋梁,常晓丽,王绍令, Sergey S Marchenko,杨思忠,易朝路,李世杰, Harris SA, 2019.两万年来中国多年冻土演化.中国科学,D辑:地球科学,49(8): 1197-1212.

8)Jin H, Jin X*, He R, Luo D*, Chang X, Wang S, Marchenko SS, Yang S, Yi C, Li S, Harris SA, 2019. Evolution of permafrost in China during the last 20 ka.Sci China, Series D: Earth Sci,62(8): 1207-1223. https://doi.org/10.1007/s11430-018-9272-0

9)Jin H, Chang X, Luo D, He R, Lü L, Yang S, Guo D, Chen X, Harris SA, 2016. Evolution of permafrost and periglacial environments in Northeast China since the Last Glaciation Maximum.Sci Cold Arid Regions,8(4): 269-296

10)金会军,吕兰芝,何瑞霞,王绍令,2014.基于气候干燥度的青藏高原多年冻土区分类新方案.冰川冻土,36(5): 1049-1057

11)Jin H, Luo D, Wang S,et al., 2011. Spatiotemporal variability of permafrost degradation on the Qinghai-Tibet Plateau.Sci Cold Arid Regions,3(4): 281-305.

12)金会军,常晓丽,郭东信,等, 2011.呼伦贝尔高平原全新世早晚期砂、土楔及其古气候意义.第四纪研究,31(5): 765-779.

13)Jin H, 2010. Design and construction of a large-diameter crude oil pipeline in Northeastern China.Cold Reg Sci Technol,64(3): 209-212.

14)Jin H, Hao J, Chang X,et al., 2010. Zonation and assessment of frozen-ground conditions for engineering geology along the China-Russia Crude Oil Pipeline route from Mo’he to Daqing, Northeastern China.Cold Reg Sci Technol,64(3): 213-225.

15)Jin H, He R, Cheng G,et al., 2009. Change in frozen ground and eco-environmental impacts in the Sources Area of the Yellow River (SAYR) on the northeastern Qinghai-Tibet Plateau, China.Environ Res Lett,4: 045206.

16)Jin H, Yu Q, Wang S,et al., 2008. Changes in permafrost environments along the Qinghai–Tibet engineering corridor induced by anthropogenic activities and climate warming.Cold Reg Sci Technol,53(3): 317-333

17)Jin H, Sun G, Yu S,et al., 2008. Symbiosis of marshes and permafrost in the Da and Xiao Hinggan Mountains in Northeastern China.Chinese Geogr Sci,18(1): 62-69

18)Jin H, Wei Z, Wang S,et al., 2008. Assessment of frozen-ground conditions for engineering geology conditions along the Qinghai-Tibet highway and railway, China.Eng Geol,101: 96-109. DOI: 10.1016/j.enggeo.2008.04.001.

19)Jin H, Yu Q, Lü L,et al., 2007. Degradation of permafrost in the Xing'anling Mountains, Northeastern China.Permafr Periglac Process,18(2): 245-258

20)Jin H, Chang X, Wang S, 2007. Evolution of permafrost on the Qinghai-Tibet Plateau since the end of the Pleistocene.J Geophys Res,112: F02S09. DOI: 10.1029/2006JF000521.

21)Jin H, Zhao L, Wang S,et al., 2006. Thermal regimes and degradation modes of permafrost along the Qinghai-Tibet Highway.Sci China,49(D11): 1170-1183.

22)金会军,赵林,王绍令,晋锐, 2006.青藏公路沿线冻土温度曲线和退化方式.中国科学,49(D11): 1009-1019.

23)Jin H, Li S, Cheng G, Wang S, Li X, 2000. Permafrost and climatic change in China.Glob Planet Chan,26: 387-404.

24)Jin H, Cheng G, Li X,et al., 2000. Geocryology in China in the turn of the 21stcentury.Permafr Periglac Process,11(1): 23-33

25)金会军,李述训,王绍令,等, 2000.气候变化对中国多年冻土和寒区环境的影响.地理学报,55(2): 161-173.

26)Jin H, Cheng G, Li X,et al., 1999. Permafrost on the Qinghai-Tibet Plateau under a warming climate.Chin Sci Bull,44(S1): 152-158.

27)金会军,吴杰,程国栋,中野智子, 1999.青藏高原冷湿地生态系统甲烷排放研究.科学通报,44(16): 1758-1762.

28)Jin H, Wu J, Cheng G,et al., 1999. Methane emissions from the cold wetlands ecosystems on the Qinghai-Tibet Plateau.Chin Sci Bull,44(24): 2282-2286

2.通讯作者论文

29)Jin X, Huang S, Wang H, Wang W, Li X, He R, Yang S, Yang X, Li SZ, Zhang SR, Zhang Z, Yang L,Jin H*, 2024. Quantifying the influencing factors of the thermal state of latitudinal permafrost in Northeast China.Geoderma, DOI: 10.1016/j.geoderma.2024.117003.

30) Li X*,Jin H*, Feng Q, Wu Q, HeR, Wang H, Chang X, Raul-David Șerban R-D, Gagarin L, and Zhan T, 2024. An integrated dataset of ground hydrothermal regimes and soil nutrients monitored during 2016-2022 in some previously burned areas in hemiboreal forests in Northeast China.Earth Sys Sci Data, https://doi.org/10.5194/essd-2024-187

31)王娇娇,张虎*,金晓颖,黄帅,王宏伟,王文辉,詹涛,周刚义,车富强,李艳,李新宇,何瑞霞,张泽,张圣嵘,李国玉,童长江,王逊,金会军*, 2024.气候变暖背景下砾石换填对多年冻土区机场跑道下地温场的影响.气候变化研究进展,doi: 10.12006/j.issn.1673-1719.2023.216.

32) 朱美全,金晓颖*,车富强,王宏伟,王文辉,李善珍,周刚义,李国玉,李新宇,何瑞霞,杨如轩,张泽,金会军*, 2024.基于DSR理论-综合云理论的中俄冻土区管道 保温层效果失效类型研究.冰川冻土,46(2): 625-636.

33) ChangXY, JinH*, ZhangYY, Li X, He R, Li Y, Lü L, Wang H, 2024. Major features of latitudinal permafrost in northern Da Xing’anling (Hinggan) Mountains, Northeast China and their changes.Environ Res Lett,19: 064014. DOI: 10.1088/1748-9326/ad42b6

34) Wang H,Jin H*, Che T, Li X*, Dai L, Qi Y, Huang C, He R, Zhang J, Yang R, Luo D, Jin X, 2024. Influences of snow cover on the thermal regimes of Xing'an permafrost in Northeast China in 1960s–2010s.Permafr. Periglac. Process.,35: 188-201. DOI: 10.1002/ppp.2223.

35) Zhang SY,Jin DY,Jin H*, Li C, Zhang H, Jin X, Cui J, 2024. Changing soil radon in regions of degrading permafrost and its impacts to public health security: A review.Earth-Sci Rev, DOI: 10.1016/j.earscirev.2024.104684.

36) Li X*,Jin H*, 2024. An integrated dataset of ground hydrothermal regimes and soil nutrients monitored during 2016-2022 in some burned areas in Northeast China.National Tibetan Plateau/Third Pole Environment Data Center.https://doi.org/10.11888/Cryos.tpdc.300933

37) 周宇*,李国玉*,马巍,金会军*,陈敦,毛云程,杜青松, 2023.石冰川形成机制、运动特征及水文效应研究进展.冰川冻土,45(2): 409-422.

38) Șerban R-D,Jin H*, Șerban M, Bertoldi G, Luo D, Wang Q, Ma Q, He R, Jin X, Li X, Tang J, Wang H, 2023. An observational network of ground surface temperature under different land-cover types on the northeastern Qinghai-Tibet Plateau.Earth Syst Sci Data,16(3): 1425-1446. DOI: 10.5194/essd-2023-108.

39) Yang X, Jin X*, Yang S,Jin H*, Wang H, Li X, He R, Wang J, Sun Z, Yuan H, 2023. Changes in soil substrate and microbial properties associated with permafrost thaw reduce net nitrogen mineralization.Forests, 14: 2060. DOI: 10.3390/f14102060.

40) Wang W, Jin X*,Jin H*, Wang X, He R, Li XYu, Li Y, Li XYg, Wang W, Wang L, Wei C, Zhou G, Spektor VV, Șerban D-R, Șerban M, Zhang Z, 2023. Evaluation of ground deformation at the segment of Xiufeng-Jinsong in northern Heilongjiang Province along the China-Russia Crude Oil Pipeline, Northeast China using InSAR and ground survey.Eng Geol,323(8). DOI: 10.1016/j.enggeo.2023.107227.

41) Wang H,Jin H*, Li Xyg*, Zhou L, Huang C, Qi Y, He R, Ma Q, Șerban DR, Yang S, Wang W, 2023. Impacts of degrading Xing’an permafrost in Northeast China on carbon storage.GISci Remote Sens,60(1): 2217578. https://doi.org/10.1080/15481603.2023.2217578

42) Wang Q,Jin H*,Mu C, Wu X, Zhao L, Wu Q, 2023. Non-climate environmental factors matter to Holocene dynamics of soil organic carbon and nitrogen in an alpine permafrost wetland, Southwest China.Adv Clim Change Res,14(2): 213-225.DOI: 10.1016/j.accre.2023.04.001.

43) Ma Q,Jin H*, Wu Q*, Liang S, Șerban R.-D., Lan Y, 2023.Changes in hydrological processes in the Headwater Area of Yellow River on NE Qinghai-Tibet Plateau, SW China during 1956-2019.Adv Clim Change Res,14(2): 237-247.DOI: 10.1016/j.accre.2023.03.006.

44) Jin X, Tang J†, Luo D, Wang Q, He R, Raul-D. Șerban R-D, Li Y, Șerban M, Li XZ, Wang H, Li XYg, Wang W, Wu Q,Jin H*, 2023. Impacts of National Highway G214 on vegetation in the Source Area of Yellow and Yangtze rivers on the Southern Qinghai Plateau, West China.Remote Sens,15(6): 1547. DOI: 10.3390/rs15061547.

45) Wang W,Jin H*, Zhang Z#, Zhelezniak MN#, Spektor VV, Șerban DR, Li A, Dumskoy V, Jin X, Yang S, Zhang S, Șerban M, Wu Q, 2023. Monitoring ground surface deformation of ice-wedge polygon and its influencing factors in Saskylakh, Northwest Yakutia, Russia using the Interferometric Synthetic Aperture Radar (InSAR) and Google Earth Engine (GEE).Remote Sens,15: 1335. DOI: 10.3390/rs15051335.

46)Li XYg,Jin H*, Sun L*, He RY, Wang HY, Li Y, Huang Y, Yang X, Jin X, Chang X, Li X, Wang L, Wei C, Zhang Z. 2023.Influence of wildfire on the rapidly changing features of patchy permafrost, Northeast China.Land Degrad Dev,34(9): 2652-2667. DOI: 10.1002/ldr.4637.

47)Șerban R-D, Bertoldi G,Jin H*, Șerban M, Luo D, Li X, 2023. Spatial variations in ground surface temperature at various scales on northeastern Qinghai-Tibet Plateau, Southwest China.Catena,222: 106811. DOI: 10.1016/j.catena.2022.106811.

48) Gao S,Jin H*, Wu Q*, Bense VF, Wang Q, Yang Y, Wang X, Chen X, 2023. Analysis of groundwater flow through low-latitude alpine permafrost by model simulation: a case study in the headwater area of Yellow River on the Qinghai-Tibet Plateau, China.Hydrogeol J,31: 789-811. DOI:10.1007/s10040-023-02597-7.

49) Li XYg,Jin H*, Sun L*, He R#, Wang H, Li Y, Huang Y, Yang X, Jin X, Chang X, Li X, Wang L, Wei C, Zhang Z, 2023. Changes in soil carbon and nitrogen storage and vegetation succession after fire in the Nanweng'he National Natural Wetlands Reserve in the Yile’huli mountain-knots in the patchy latitudinal permafrost zone of Northeast China.Catena,221: 106797. DOI:10.1016/j.catena.2022.106797

50) Șerban R-D,Jin H*, 2022. Multiscale observation of topsoil temperature below different landcover types on northeastern Qinghai-Tibet Plateau (2019-2020).National Tibetan Plateau/Third Pole Environment Data Center,https://doi.org/10.11888/Cryos.tpdc.272945.

51) Li Xyg,Jin H*, 2022. Observational data sets of ground hydrothermal regimes and soil nutrients at burned areas in the Da Xing'anling Mountains (2017-2019).National Tibetan Plateau/Third Pole Environment Data Center.DOI: 10.11888/Cryos.tpdc.300042

52) He R,Jin H*, Harris SA, Luo D, Chen X, Jin X, Wang Q, Lü L, Wang S, 2022. Permafrost and paleoenvironment on the northeastern Qinghai-Tibet Plateau and the Last Permafrost Maximum (LPM).Int Geol Rev,65(15): 2332-2347. DOI: 10.1080/00206814.2022.2137860.

53) Li G, Ma W, Wang F*,Jin H*, Fedorov MN, Chen D, Wu G, Cao Y, Zhou Y, Mao Y, Zhang J, Gao K, Jin X, He R, Li X, Li Y, 2022. A newly integrated ground temperature dataset of permafrost along the China-Russia crude oil pipeline route in Northeast China.Earth Syst Sci Data,14(11): 5093-5110. DOI: 10.5194/essd-14-5093-2022

54) Chang X,Jin H*, He R, Zhang Y, Li X,Jin X, 2022. Permafrost changes in the northwestern Da Xing’anling Mountains, Northeast China in the past decade.Earth Syst Sci Data,14: 3947-3959. DOI: 10.5194/essd-2022-85.

55) Jin X,Jin H*, 2022. Shrubification along pipeline corridor in permafrost regions: A review.Forests,13(7): 1093. DOI: 10.3390/0/f13071093.

56) Zhou Y, Li G*,Jin H*, Marchenko SS, Ma W, Du Q, Li J, Chen D, 2022.Transformation from glacier to rock glacier:In situobservational evidence from the eastern Tianshan Mountains, China.Adv Clim Change Res,13(4): 540-553. DOI: 10.1016/j.accre.2022.05.005.

57) Ma Q,Jin H*, Wu Q*, Yang Y, Wang Q, Luo D, Huang Y, Li Y, Li Xyg, Șerban DR, Liang S, Gao S, Marchenko SS, 2022. Distributive features of dissolved organic carbon (DOC) in aquatic systems in the Source Area of Yellow River, northeastern Qinghai-Tibet Plateau, SW China.Front Earth Sci,10: 892524. DOI: 10.3389/feart.2022.892524.

58) Wang H,Jin H*, Li, X, He R, Șerban RD, Jin X, et al., 2022. Land use and cover change in Northeast China and its impacts on the Xing'an permafrost in 1980-2020.Land Degrad Dev,33(2): LDR4377. DOI: 10.1002/ldr.4377

59)Li XYg*,Jin H*, Sun L, Wang Hψ, Huang Yψ, He R, Chang X, Yu S, Zang S, 2022. TTOP-model-based maps of permafrost distribution in Northeast China for 1961–2020.Permafr Periglac Process,33(4): 425-435. DOI: 10.1002/PPP.2157

60) Jin X,Jin H*, Luo D, Sheng Y, Wu Q, Wu J, Wang W, Shuang S, Li X, Liang S, Wang Q, He R, Șerban DR, Ma Q, Gao S, Li Y, 2022. Impacts of permafrost degradation on hydrology and vegetation in the Source Area of the Yellow River on northeastern Qinghai-Tibet Plateau, Southwest China.Front Earth Sci,10. DOI:10.3389/feart.2022.845824.

61) Wang Q,Jin H*, Wu Q, Zhang T, Yuan Z, Li X, Ming J, Huang Y, Yang C, Șerban DR, 2022. Vertical distribution of soil organic carbon and nitrogen in a permafrost-affected wetlands on Qinghai-Tibet Plateau and its implications in the mid-to Late Holocene.Permafr Periglac Process,33(3): 286-297. DOI: 10.1002/ppp.2146

62) He R, Li Y*,Jin H*, Jin X, Zhu M, Li X, Zhang Z, Huang Y, Jin D, Ma F, 2022. Thermal recovery of backfilled pit in the Gulianhe Strip Coalmine in the Hola Basin in northern Da Xing’anling Mountains, NE China.Front Earth Sci,10: 806022. DOI:10.3389/feart.2022.806022.

63) He R,Jin H*, Luo D, Ma F, Li X, Wang H, Huang Y, Șerban DS, Șerban M, Zhou C, Liang Z, Sun Y, 2022. Changes in the permafrost environment under dual impacts of climate change and human activities in the Hola Basin, northern Da Xing’anling Mountains, Northeast China.Land Degrad Dev,33(8): 1219-1234. DOI:10.1002/ldr.4212

64) He R,Jin H*, Jia N, Wang H, Jin X, Li X, 2022. Thermal semiconductor effect of organic soils and its engineering and environmental implications.Cold Reg Sci Technol,196:103485. DOI:10.1016/j.coldregions.2022.103485

65) 李艳,金会军*,温智,李新宇,张思凡,李圣旭,2022.多年冻土区斜坡稳定性研究综述.冰川冻土,44(1): 203-216.

66) Li XYg,Jin H*, Wang H, Jin X, Bense VF, Marchenko SS, He R, Huang Y, Luo D, 2022. Effects of fire history on thermal regimes of permafrost in the northern Da Xing’anling Mountains, NE China.Geoderma,410(1-2): 115670. DOI:10.1016/j.geoderma.2021.115670

67) Li XYg,Jin H*, Wang H, Chang X, He R, Huang Y, 2021. Climate warming and its possible impacts on the permafrost zoning in Northeast China.J For Res,33, 767- 788. DOI: 10.1007/s11676-021-01403-y.

68) Li Y,Jin H*, Wen Z, Li XZ, Zhang Q, 2021. Stability of the foundation of buried energy pipeline in permafrost region.Geofluids,2021: 3066553.DOI: 10.1155/2021/3066553

69) He R, Jia N,Jin H*, Wang H, Li X, 2021. Experimental study on thermal conductivity of organic-rich soils under thawed and frozen states.Geofluids,2021: 7566669. DOI:10.1155/2021/7566669

70) Wang Q,Jin H*, Yuan Z, Yang C, 2021. Synergetic variations of active layer soil water and salt in a permafrost-affected meadow in the Headwater Area of the Yellow River, northeastern Qinghai-Tibet Plateau.Int Soil Water Conserv Res,10(2): 284-292.DOI: 10.1016/j.iswcr.2021.08.004.

71) Șerban R-D,Jin H*, Șerban M, Luo D, 2021. Shrinking thermokarst lakes and ponds in the Headwater Area of Yellow River on the northeastern Qinghai-Tibet Plateau, Southwest China over the last three decades.Permafr Periglac Process,32(4): 601-617. DOI: 10.1002/ppp.2127

72)He R,Jin H*, Li X, Zhou C, Jia N, Jin X, Wang L, Li W, Wei C, Chang X, Yu S, 2021. Permafrost features in the Nanweng’he Wetlands Reserve on southern slope of the Da Xing’anling-Yile’huli Mountains in Northeast China and their recent changes.Adv Clim Change Res,12(5): 696-709. DOI: 10.1016/j.accre.2021.06.007

73) Li XY, Jin X, Wang X,Jin H*, Tang L*, Li X, He R, Li Y, Huang C, Zhang S, 2021. Changes in engineering geological environment of permafrost zones along the China-Russia Crude Oil Pipelines in the Da Xing’anling Mountains in Northeast China.Eng Geol,291(1): 106237.DOI:10.1016/j.enggeo.2021.106237

74) Ma Q,Jin H*, Liang S, Bense VF, Lan Y, Marchenko SS, 2021. Streamflow changes in the Headwater Area of Yellow River, NE Qinghai-Tibet Plateau during 1955–2040 and their implications.Water,13(10): 1360.DOI: 10.3390/w13101360

75) 何瑞霞,金会军*,蒋观利,陈雪梅,张泽, Șerban RD, Șerban M, Vandenberghe J, 2021.鄂尔多斯高原古冰缘遗迹科学考察研究新进展.冰川冻土,43(1): 1-11.

76) 李欣泽,金会军*,吴青柏,魏彦京,温智,2021 .北极多年冻土区埋地输气管道周边温度场数值分析.地球科学进展,36(1): 69-82.

77) French HM, Vandenberghe J*,Jin H*, He R, 2021. Possible initial factors in the development of seasonal sand-wedge on the Ordos Plateau, North China.Sci Cold Arid Regions,13(2): 167-176. DOI: 10.3724/SP.J.1226.2021.20095.

78) 李欣泽、金会军*2021.多年冻土区天然气管道建设关键技术。冰川冻土,43(2): 628-637. [DOI:10. 7522/j. issn. 1000-0240. 2020. 0093. Li XZ,Jin H*, 2021. Key techniques for design and building of natural gas pipelines in permafrost regions.J Glaciol Geocryol,43(2): 628-637.]

79)Li X,Jin H*, Wang H, Marchenko SS, Shan W, Luo D, He R, Spektor VV, Huang Y, L XYu, Jia N, 2021. Influences of wildfires on the permafrost environment: A review.Adv Clim Change Res,12(1):48-65. DOI: 10.1016/j.accre.2021.01.001.

80)Jin X,Jin H*,Iwahana G, et al., 2021. Impacts of climate-induced permafrost degradation on vegetation: A review.Adv Clim Change Res,12(1): 29-47. DOI:10.1016/j.accre.2020.07.002.

81) 李欣泽,金会军*,吴青柏, 2020.多年冻土区天然气管道压气站失效情境下应对方案研究.地球科学进展,35(11): 1127-1136.

82) Jin X,Jin H*, Wu X, Luo D, Sheng Y, Li X, He R, Wang Q, Knops JMH, 2020. Permafrost degradation leads to decrease in biomass and species richness on the northeastern Qinghai-Tibet Plateau.Plants,9: 1453.DOI: 10.3390/plants9111453.

83) Li XZ,Jin H*, Wen Z, Wei Y, Li Y, Li X, 2020. Numerical analysis of temperature fields around the buried arctic gas pipeline in permafrost regions.Therm Sci,25: 248. DOI: 10.2298/TSCI200521248L.

84) 李晓英,金会军*,何瑞霞,黄亚冬,2020.多年冻土区森林大火对生态服务功能的影响研究。气候变化研究进展,16(5): 545-554.

85) Wang Q,Jin H*, Wu Q, Liu B, 2020.A 7-ka climatic variability record inferred from peat bog sediments in the north of Bayan Har Mountains, northeastern Tibetan Plateau.Environ Earth Sci,79: 156. DOI: 10.1007/s12665-020-8897-5

86) He R,JinH*, French HM, Vandenberghe J, Li X, Jiang G, Zhang Z, Chen X, Șerban DR, Wang S, Guo D, 2020. Cryogenic wedges and cryoturbations on the Ordos Plateau in North China since 50 ka BP and their paleo-environmental implications.Permafr Periglac Process,32(1): 231-247. DOI: 10.1002/ppp.2084.

87)Luo D,Jin H*, Bense VF, Jin X, Li X, 2020. Hydrothermal processes of near-surface warm permafrost in response to strong precipitation events in the Headwater Area of the Yellow River, Tibetan Plateau.Geoderma,376: 14531. DOI: 10.1016/j.geoderma.2020.114531

88)马蔷、金会军*2020.气候变暖对多年冻土有机碳库的影响.冰川冻土,42(1): 91-103. DOI: 10.7522/j.issn.1000-0240.2020.0017

89) Luo D,Jin H*, Du H, Li C, Ma Q, Duan S, Li G, 2020. Variation of alpine lakes from 1986 to 2019 in the Headwater Area of the Yellow River, Tibetan Plateau using Google Earth Engine.Adv Clim Change Res,11(1): 11-21. DOI: 10.1016/j.accre.2020.05.007

90)Yuan Z,Jin H*, Wang Q, Wu Q, Li G, Jin X, Ma Q, 2020. Profile distributions of soil organic carbon fractions in a permafrost region of the Qinghai-Tibet Plateau.Permafr Periglac Process,13(4): 538-547.https://doi.org/10.1002/ppp.2055

91) Luo D, Liu L,Jin H*, Liang S, Wang X, Chen F, 2020. Characteristics of ground surface temperature at Chalaping in the source area of the Yellow River, northeastern Tibetan Plateau.Agr For Meteorol,281: 10819. DOI: 10.1016/j.agrformet.2019.107819

92)Șerban DR,Jin H*, Șerban M, Luo D, Wang Q, Jin X, Ma Q, 2020. Mapping thermokarst lakes/ponds across permafrost landscapes in the Headwater Area of Yellow River on NE Qinghai-Tibet Plateau.Int J Remote Sens.41(18): 7042-7067.DOI:10.1080/01431161.2020.1752954

93)Li X,Jin H*, Wang H,et al., 2020.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. DOI: 10.1016/j.catena.2019.104304.

94)Ma Q,Jin H*, Bense VF, Luo D, Marchenko SS, Harris SA, Lan Y, 2019.Impacts of degrading permafrost on streamflow in the source area of Yellow River on the Qinghai-Tibet Plateau, China.Adv Clim Change Res,10(4): 225-239. DOI: 10.1016/j.accre.2020.02.001

95) Li X,Jin H*, Wang H,et al., 2019.Effects of forest fires on the permafrost environment innorthern Da Xing’anling (Hinggan) Mountains, NE China.Permafr Periglac Process,30: 163-177.

96)李欣泽、金会军*2019.多年冻土区天然气管道工程:技术挑战和应对方案.地球科学进展,34(11): 1131-1140.

97) Gao S,Jin H*, Bense VF, Wang X, Chai X, 2019. Application of electrical resistivity tomography for delineating permafrost hydrogeology in the headwater area of Yellow River on Qinghai-Tibet Plateau, SW China.Hydrogeol J,27: 1725-1737. DOI: 10.1007/s10040-019-01942-z.

98)Ma Q,Jin H*, Yu C, Bense VF, 2019. Dissolved organic carbon (DOC) in permafrost regions: A review.Sci China, Ser D: Earth Sci,62: 349-364.DOI:10.1007/s11430-018-9309-6.

99) He R,Jin H*, Chen X, Lü L, 2018.Sand wedges and cryoturbations on the Ordos Plateau since 50 ka BP and their paleo-environmental implications.AGU Fall Meeting Abstracts 2018,C51C-1054.

100) He R,Jin H*, Chang XL, et al., 2018. Freeze-thaw processes of active-layer soils in the Nanweng'he River National Natural Reserve in the Da Xing'anling Mountains, northern Northeast China.Sci Cold Arid Reg,10(2): 104-113.

101) Yi P, Luo H, Chen L, Yu Z*,H Jin*, Chen X, Wan C, … , 2018.Evaluation of groundwater discharge into surface water by using Radon-222 in the Source Area of the Yellow River, Qinghai-Tibet Plateau.J Environ Radioact,192: 257-266.

102) 李晓英,金会军*,何瑞霞,等, 2017.森林大火对冻土环境影响的研究进展.冰川冻土,39(2): 317-327.

103) WangQ,Jin H*, Huang Y, 2017.Mid-late Holocene Asian monsoonevolution indicated by peat deposits in the source area of the Yellow River, northeastern Tibetan Plateau.Theoret Appl Climatol,doi:10.1007/s00704-017-2289-0

104) Wang Q,JinH*, Zhang T*,et al., 2017. Hydro-thermal processes and thermal offsets of peat soils in the active layer in an alpine permafrost region, NE Qinghai-Tibet plateau.Glob Planet Change,156: 1–12. doi: 10.1016/j.gloplacha.2017.07.011

105) Gao S, He R,Jin H*,et al., 2017. Thermal recovery process of a backfilled open-pit in permafrost area at the Gulian Strip Coal-mine in Northeast China.J Mount Sci,14(11): 2012-2229.

106) Wang Q, Zhang T,Jin H*,et al., 2017. Observational study on the active layer freeze–thaw cycle in the upper reaches of the Heihe River of the north-eastern Qinghai-Tibet Plateau.Quat Int,440: 13-22.

107) 高淑会,金会军*,何瑞霞, 2017.东北多年冻土区露天煤矿回填后地温恢复影响因素分析.水文地质工程地质,44(1): 137-143.

108) 王庆锋,金会军*,吴青柏,张廷军,黄亚冬, 2017.距今约6000年以来青藏高原东北部黄河源区冻结泥炭沉积记录的气候演化.第四纪研究,37(2): 402–415.

109) Chang X,Jin H*, He R, Lü L, Harris SA, 2017. Evolution and changes of permafrost on the Qinghai-Tibet Plateau during the Late Quaternary.Sci Cold Arid Reg,9(1): 1-19.

110) 王庆锋,金会军*,张廷军*,吴青柏,曹斌,彭小清,王康,李丽丽, 2016.祁连山区黑河上游高山多年冻土区活动层季节冻融过程及其影响因素.科学通报,61(24): 2742–2756.

111) Yang S, Shi Y, Zhao L,Jin H*, Perfumo A, 2016. Hydrocarbon degraders establish at the costs of microbial richness, abundance and keystone taxa after crude oil contamination in permafrost environments.Sci Rep,6: 37473. doi:10.1038/srep37473

112) Wang Y,Jin H*, Li G, 2016. Investigation of the freeze-thaw states of foundation soils in permafrost areas along the China-Russia Crude Oil Pipeline (CRCOP) route using the ground penetrating radar.Cold Reg Sci Technol,126: 10-21

113) Luo D,Jin H*, Lü L, Zhou J, 2016. Spatiotemporal changes in extreme ground surface temperatures and the relationship with air temperatures in the Three-River Source Regions during 1980-2013.Theoret Appl Climatol,123: 885-897

114) Wang Y, Li G,Jin H*, Lü L, He R, 2016. Thermal state of soils in the active layer and underlying permafrost at the kilometer post 304 site along the China-Russia Crude Oil Pipeline.J Mount Sci,13(11): 1984-1994

115) Yang S,Jin H*, Meyer H, 2015. Validation of ice-wedge isotopes at Yituli'he, northeastern China as climate proxy.Boreas,44(3): 502-510

116) Chang X,Jin H*, Zhang Y, He R, Luo D, Wang Y, and Lü L, 2015. Thermal impacts of boreal forest vegetation on active layer and permafrost soils in northern Da Xing'anling (Hinggan) Mountains, Northeast China.Arct, Antarct Alp Res,47(2): 267-279

117) Chang X,Jin H*, Zhang Y, Sun H, 2015.Study of seasonal snow cover influencing the ground thermal regime on western flank of Da Xing'anling Mountains, northeastern China.Sci Cold Arid Reg,7(6): 666-674.

118) 刘敏,金会军*,罗栋梁,等,2015.青藏高原土壤碳排放研究进展.冰川冻土,37(6): 1544-1554.

119) 罗栋梁,金会军*,何瑞霞,杨思忠, 2014.黄河源区植被对活动层温度和水分的影响.地球科学,39(4): 421-430 (EI)

120) 罗栋梁,金会军*,吕兰芝,吴青柏, 2014.黄河源区多年冻土活动层和季节冻土冻融过程时空特征.科学通报,59(14): 1327-1336

121) 林琳,金会军*,罗栋梁,吕兰芝,何瑞霞, 2014.黄河源区高寒植被主要特征初探. 冰川冻土,36(1): 230-236.

122) Luo D,Jin H*, Lü L, Wu Q, 2014. Spatiotemporal characteristics of freezing/thawing Processes of active layer in the Source Areas of the Yellow River.Chinese Sci Bull,59(24): 3034–3045. DOI: 10.1007/s11434-014-0189-6

123) 程国栋,金会军*2013,青藏高原多年冻土区地下水及其变化.水文地质工程地质,40(1): 1–11

124) Cheng G,Jin H*, 2013. Permafrost and groundwater on the Qinghai-Tibet Plateau and in northeast China.Hydrogeol J,21(1): 5-23

125)Zhao L,Jin H*, Li C, Cui Z, Chang X, Marchenko SS, Vandenberghe, Zhang T, Luo D, Guo D, Liu G, Yi C, 2013. The extent of permafrost in China during the local Last Glacial Maximum (LLGM).Boreas,43(3): 688-698.

126) Wei Z,Jin H*, Zhang J,et al., 2011. Prediction of permafrost changes in Northeastern China under a changing climate.Sci China (Ser D: Earth Sci),54(6): 924-935

127)魏智,金会军*,张建明,等, 2011.气候变化条件下中国东北多年冻土环境的变化预测.中国科学(D辑:地球科学),41(2): 74-84.

128) Wen Z,Jin H*, Qi J, Brewer MC, 2011.A stress-based design for the construction of the Russia-China Crude Oil Pipeline in frozen ground from Mo’he to Daqing, northeast China.Pipeline Int Digest: featured article in Subarctic Engineering, 17 Feb 2011, 17-24

129) Wen Z, Sheng Y,Jin H*,et al., 2010. Thermal elasto-plastic computation model for a buried oil pipeline subject to frost heave and thaw settlement.Cold Reg Sci Technol,64(3): 248-255.

130) Yang S,Jin H*, 2010. Isotopic records of oxygen and deuterium in ice wedges from Yituli'he, Northeast China and their paleoclimatic indications.Sci China (Ser D: Earth Sci),54(1): 119-126

131) 杨思忠,金会军*, 2010.大兴安岭伊图里河地区的冰楔冰氢、氧同位素记录及其反映的古温度变化.中国科学(D辑:地球科学),40(2): 1710-1717.

132) He R,Jin H*, 2010. Permafrost and cold-region environmental problems of the oil product pipeline from Golmud to Lhasa on the Qinghai–Tibet Plateau and their mitigation.Cold Reg Sci Technol,64(3): 279-288

133) Yang S,Jin H*, Yu S,et al., 2010. Environmental hazards and contingency plans along the Chinese-Russian Oil Pipeline route, NE China.Cold Reg Sci Technol,64(3): 271-278

134) Li G, Sheng Y,Jin H*, Ma W, Qi J, Wen Z, 2010. Forecasting the oil temperatures along the proposed Chinese-Russian Crude Oil Pipeline using Quasi 3-D transient heat conduction model.Cold Reg Sci Technol,64:235-242. DOI: 10.1016/j.coldregions.2009.08.003.

135)He R,Jin H*, Lü L, Wang S, 2010. Cold-region environments along the China-Russia Crude Oil Pipeline and their management.Sci Cold Arid Reg,2(2): 129-136.

136) Yang S,Jin H*, Wei Z, He R, Ji Y, Li X, 2009. Bioremediation of oil contaminants spilled in frozen soils environments: a review.Pedosphere,19(3): 371-381

137) Brewer MC,Jin H*, 2009.Warming, but not thawing, of the cold permafrost has occurred in Northern Alaska during the last 50 years.Sci Cold Arid Reg,1(1): 1-13

138) 吕兰芝,金会军*,王绍令,等, 2008.青藏高原局地因素对地温的双重影响2I):水被和砂层.冰川冻土,30(4): 546-555.

139) Brewer MC,Jin H*, Hu W, et al., 2006. The change of design of the Alyeska Pipeline and construction modes in permafrost areas, and their reasons and the philosophy behind it.冰川冻土,28(6): 809-817.

140) Wang S,Jin H*, Li S,et al., 2000. Permafrost degradation on the Qinghai-Tibet Plateau and its environmental impacts.Permafr Periglac Process,11(1): 43-53.

141) 韩建康,金会军*,许晨海,康建成,温家洪, 1995.南极南设德兰群岛上一世纪年平均气温变化.冰川冻土,17(3): 268-273.

142) Han JK,Jin HJ*, Wen JH, Shang XC, 1995. Temperature distribution of Collins Ice Cap, King George Islands, Antarctica.Antarct Res,6(2):57-65.

143) 韩建康,温家洪,尚新春,金会军*, 1995.南极洲乔治王岛冰帽温度研究.南极研究,6(1): 62-69.

3,既非第一作者又非通讯作者论文

144)Zhang ZQ, Li M, Wu Q, Wang X,Jin H, Chen H, Ma D, Zhang Z, 2024. Degradation and local growth of “Xing'an-Baikal” permafrost responding to climate warming and the consequences.Earth-Sci Rev,255: 104865. DOI: 10.1016/j.earscirev.2024.104865.

145) Guo L, Ran Y, Li X,Jin H, Cheng G, 2024. Numerical simulation of the sensitivity of permafrost degradation to climate warming at different geology, climate, and ecosystem conditions.Permafr Periglac Process, DOI:10.1002/ppp.2245

146) 周传芳、邢卫国、梁中恺、孙彦峰、张立、刘智杰、魏小勇、聂洪峰、肖春蕾、刘立芬、郑吉林、张玉敏、徐立明、佟智强、赵文志、胡宸、王恩宝、张起鹏、张璇璞、杜海双、姜平、贾立明、符安宗、王立佳、张欣然、金会军、何瑞霞,等, 2024.森林沼泽多年冻土区生态地质调查技术要求(1∶50 000).黑龙江省地方标准DB23/T 3710—2024, 1-25页.

147) Zhao Y, Ming J, He H,Jin H, Gao L, 2024. The lower water release capacity of biocrusts under higher water suction is beneficial for drylands.J Hydrol, 130760.

148) Zhong Z, Tao P, Zhang H,Jin H, Lou R, Cui Y, Huang Q, Liu J*, 2023. Research progress and future prospective of soundless chemical demolition agents (SCDAs) and associated applications.Constr Build Matl,409: 134209. DOI: 10.1016/j.conbuildmat.2023.134209

149) Li X, Zhang Z*, Zheleznyak M, Jin H, Zhang S, Wei H, Zhai J, Melnikov A, Gagarin L, 2023.Time‐series InSAR monitoring of surface deformation in Yakutsk, a city located on continuous permafrost.Earth Surf Process Landf,49(1). DOI:10.1002/esp.5736

150) 李世珍,袁自强,林 琳,陈方方,王金牛,高怡婷,雷汶杰,刘 佳,彭贻菲,沈 琦,金会军,罗栋梁*, 2024.江河源冻土区土壤碳氮空间分布特征及其影响因素。生态学报,44(12): 5246-5258.

151) 罗栋梁,金会军,吴青柏,等,2023.保护多年冻土,主力双碳目标的实现.西藏科技,45(11): 82-87.

152) Cheng Y, Sun L*, Li Y, Jin X, Liu M, He R, Jin X*,Jin H, 2023. Damage model of steel-fiber-reinforced coal gangue concrete under freeze-thaw cycles based on Weibull distribution.Materials,16(20): 6775.DOI: 10.3390/ma16206775.

153) Zhang Z, Li X, Jin D,Jin H, et al., 2022. Time-series InSAR monitoring of surface deformation in Yakutsk, a city located on continuous permafrost.Earth Surf Proc Landf, ESP5736. DOI: 10.1002/esp.5736.

154) Wang T, Yang D*, Yang Y, Zheng G,Jin H, Li X, Yao T, Cheng G. (2023). Pervasive permafrost thaw exacerbates future risk of water shortage across the Tibetan Plateau.Earth's Future,11: e2022EF003463.DOI: 10.1029/2022EF003463

155) Chen L, Sun Y, Wang C, Sha P,Jin H, Liu M, Li A*, 2023. Study on the characteristics of pore change of tuff under the frost and salt action using high-precision CT scanning equipment.Appl Sci,13(18): 10483 x. DOI:10.3390/app131810483

156) Zhong Z, Tao P,Jin H, Lou R, Cui Y, Liu J, 2023. A quantitative investigation on the fragmentation performance of SCDA in cracking steel fiber reinforced concrete.Constr Build Matl,403(2023): 133133. DOI: 10.1016/j.conbuildmat.2023.133133

157) Wang T, Yang D, Yang Y, Zheng G,Jin H, Li X, Yao T, Cheng G, 2023. Unsustainable water supply from thawing permafrost on the Tibetan Plateau in a changing climate.Sci Bull,68(11): 1105-1108. DOI:10.1016/j.scib.2023.04.037.

158) Yang SQ, Zhang H, Yang H,Jin H, Hu Y, Hu J, Li H, Lu M, 2023. Experimental study on remediation of petroleum-contaminated soil by combination of freeze-thaw and electro-osmosis.Env Pollut,333: 121989.DOI: 10.1016/j.envpol.2023.121989

159) Yang L, Zhang Q*, Ma Z,Jin H, Jin X, Marchenko SS, He R, Spektor VS, Chang X, 2022. CO2and CH4fluxes from forest soil in the northern Da Xing’anling Mountains in Northeast China during the freezing and thawing periods of near-surface soil in 2018-2019.Scandn J For Res,38(4): 275-185. DOI: 10.1080/02827581.2023.2208874.

160) Li W, Knops JMH, Zhou X,Jin H, Xiang Z, Kazhuo C, Jin X, Zhou H, Dong S, 2023. Anchoring alpine grassland sustainability on the Qinghai-Tibet Plateau with a nature-based rodent control strategy.J Anim Ecol,92(7): 13938, doi.10.1111/1365-2656.13938.

161) Hou B,Jin H, Flerchinger G, Dyck M, Lv J, He H, 2023. Canopy effect: Vapor transmission in frozen soils with impermeable surface.Acta Geotech,18: 5385-5401. DOI:10.1007/s11440-023-01845-0

162) Zhang Y, Li X, Chang X,Jin H, Huang A, Liang J, Cheng G, Wang X, 2023. Sensitivity of simulated frozen ground temperatures to different solar radiation and air temperature products -- A case study in the Qilian Mountains on northeastern Qinghai-Tibet Plateau in West China.Permafr Periglac Process,34(4): 513-529. DOI:10.1002/ppp.2187.

163) 罗栋梁,金会军,吴青柏, Olga Makarieva,田世民,康建芳,王金牛,彭小清, Wojciech Dobiňski, 2023.多年冻土区的活动层厚度研究进展与展望.冰川冻土,45(2): 558-574.

164) 高怡婷,罗栋梁,陈方方,雷汶杰,金会军, 2023.黄河源头区地面热状态及冻融特征.地理学报,78(3): 604-619.

165) Zhao Y, Yao Y*,Jin H, Cao B, Hu Y, Ran Y, Zhang Y, 2022. Characterizing the changes in permafrost thickness across Tibetan Plateau.Remote Sens,15(1): 206. DOI: 10.3390/rs15010206

166) Yang SQ, Zhang H,Jin H, Hu Y, 2022. Influence of freezing directionality on the permeability of silty clay.Cold Regions Sci Technol,207: 103756. DOI:10.1016/j.coldregions.2022.103756

167) Yang Y, Wu Q,Jin H, 2022. High‐resolution stable isotopic signals of ground ice indicate freeze–thaw history in permafrost on the northeastern Qinghai–Tibet Plateau.Permafr Periglac Process,34(1): 68-80. DOI:10.1002/ppp.2172

168) Zhang H, Yang SQ*,Jin H, 2022. Measurement of excess pore-water pressure in frozen soil at subfreezing temperatures close to 0°C.Geofluid, Special Issue for 2022 Int Conf Geosci Remote Sens (GeoRS 2022),2022(2): 8990214. DOI:10.1155/2022/8990214

169) Li Xz, Wu Q,Jin H, Wei K, 2022. A new stress monitoring method for mechanical state of buried steel pipelines under geological hazards.Adv Matl Sci Eng,2022(6): 4498458. DOI:10.1155/2022/4498458

170) Li Xz, Wu Q,JinH, 2022. New methods for predicting strain demand of arctic gas pipelines across permafrost under frost heave displacement.Geofluids,2022: 9094890. DOI:10.1155/2022/9094890

171) Li Xz, Wu Q*,Jin H, Cao Y, 2022. Numerical evaluation of the effectiveness of frost heave mitigation strategies for chilled arctic gas pipelines.Res Cold Arid Regions,14(5): 338-345. DOI:10.1016/j.rcar.2022.12.002

172) Li Xz, Wu Q,Jin H, 2022. Mitigation strategies and measures for frost heave hazards of chilled gas pipeline in permafrost regions: A review.Transport Geotech,36: 100786.https://doi.org/10.1016/j.trgeo.2022.100786.

173) Yang Y, Guo X, Wu Q,Jin H, Liu F, 2022. Formation processes of shallow ground ice in permafrost in the Northeastern Qinghai-Tibet Plateau: A stable isotope perspective.Sci Total Environ,863(3): 160967. DOI:10.1016/j.scitotenv.2022.160967.

174) Kut AA, Spector VV, Woronko B,Jin H, 2022. Micromorphological investigations into periglacial deposits of the Abalakh Accumulative Plain (Central Yakutia).Geogr Nat Resour2: 114-122. DOI: 10.15372/GIPR20220212 (in Russian)

175) Shi Y, Niu F,Jin H, You X, Lin Z, Wang D, Wang R, Wu C, 2022. Evaluation and prediction of engineering construction suitability in the China-Mongolia-Russia Economic Corridor.Adv Clim Change Res,372. DOI: 10.1016/ j.accre.2022.09.006.

176) 李欣泽,吴青柏,金会军, 2022.管道运行温度和埋深对北极输气管道周围温度场的影响[J].油气与新能源, 34(4): 58–67.

177) Yu C, Hua K, Huang C,Jin H, Sun Y, Yu Z, 2022. Spatiotemporal characteristics of arsenic and lead with seasonal freeze-thaw cycles in the source area of the Yellow River Tibet Plateau, China.J Hydrol: Reg Stud,44: 101210. DOI:10.1016/j.ejrh.2022.101210

178) Luo D, Guo D,Jin H, Yang S, Phillips MK and Frey B, 2022. Editorial: Ecological impacts of degrading permafrost.Front Earth Sci,10:967530. doi: 10.3389/feart.2022.967530

179) Li Xyg, Huang C,Jin H, Han Y, Kang S, Liu J, Sun L, 2022. Spatiotemporal patterns of carbon storage derived using the InVEST Model in Heilongjiang Province, Northeast China.Front Earth Sci,10: 846456. DOI: 10.3389/feart.2022.846456

180) Yang Y*, Guo X, Wang Q,Jin H, Yun H, Wu Q, 2022. Dissolved organic carbon (DOC) in ground ice from two permafrost profiles on Northeast Tibetan Plateau.Front Earth Sci,10: 782013. DOI:10.3389/feart.2022.782013

181) Yang Y, Wu Q, Liu F,Jin H, 2021.Spatial-temporal trends of hydrological transitions in thermokarst lakes on Northeast Qinghai-Tibet Plateau based on stable isotopes.J Hydrol,597: 126314.DOI: 10.1016/j.jhydrol.2021.126314

182) Zhang Z, Huang C,Jin H, Feng W, Jin D, 2021. A creep model for frozen soil based on the fractional Kelvin–Voigt's model.Acta Geotech,17: 4377-4393.

183) Yu C, Li Y,Jin H, Ma Q, Yu Z, Shi K, Li X, Chen G, 2021. Organic versus inorganic carbon exports from glacier and permafrost watersheds in Qinghai–Tibet Plateau.Aquat Geochem,27: 283-296. DOI:10.1007/s10498-021-09399-x.

184) Ran Y, Jorgenson MT, Li X,Jin H, Wu T, Li R, Cheng G, 2021. Biophysical permafrost map indicates ecosystem processes dominate permafrost stability in the Northern Hemisphere.Environ Res Lett,16: 095010. DOI:10.1088/1748-9326/ac20f3.

185) Peng X, Frauenfeld OW,Jin H, Du R, Qiao L, Zhao Y, Mu C, Zhang T, 2021. Assessment of temperature changes on the Tibetan Plateau during 1980-2018.Earth Space Sci,8: e2020EA001609.

186) 李国玉、曹亚鹏、马巍、金晓颖、成品仓、陈鹏超、张中琼、穆彦虎、金会军, 2021.冻土灾害问题及防控对策研究,中国科学院院刊,36(2): 150-159.

187) 陈方方、罗栋梁、刘磊、金会军、李超,2021.基于CRU资料的三江源区1901-2018年冻融指数变化.冰川冻土,43(2): 417-426.

188)Șerban R-D, Șerban M, He R*,Jin H, Li Y, Li X, Wang X, Li G, 2021. 46-year (1973-2019) permafrost landscape changes in the Ho’la Basin, Northeast China using machine learning and object-oriented classification.Remot Sens,13(10): 1910. DOI: 10.3390/rs13101910.

189) Yang L, Zhang Q, Ma Z,Jin H, Chang X, Marchenko SS, V Spektor VS, 2021.Seasonal variations in temperature sensitivity of soil respiration (Q10) in a larch forest in the northern Da Xing'an Mountains in Northeast China.J For Res,33: 1061-1070. DOI: 10.1007/s11676-021-01346-4.

190)明姣,盛煜,金会军,张泽,杜玉霞, 2021.高寒冻土区生物结皮对土壤理化属性的影响.冰川冻土,43(2): 601-609.

191) Ran Y, Li X, Cheng G, Che J, Aalto J, Karjalainen O, Hjort J, Luoto M,Jin H, Obu J, Hori M, Yu Q, Chang X, 2021. New high-resolution estimates of the permafrost thermal state and hydrothermal conditions over the Northern Hemisphere.Earth Sys Sci Data,14(2): 865-884. https://doi.org/10.5194/essd-14-865-2022.

192) He H, Ao G, Li M, Xu J, Sheng W, Jones SB, Teruel JDG, Robinson DA, Horton R, Bristow K, Dyck M, Filipović V, Noborio K, Wu Q,Jin H, Feng H, Si B, Lv J, 2021. Review of time domain reflectometry (TDR) applications in porous media.Adv Agron,168: 83-155.

193) Hou X, Chen J,Jin H, Rui P, Zhao J, Mei Q, 2020. Thermal characteristics of cast-in-place pile foundations in warm permafrost at Beiluhe on interior Qinghai-Tibet Plateau: Field observations and numerical simulations.Soils Found, DOI: 10.1016/j.sandf.2020.01.008(16).

194) Chen P, Yu Z, Czymzik M, Aldahan A, Wang J, Yi P, Possnert G, Chen X, Zheng M,Jin H, Luo D, Wu Q, 2021. Holocene monsoon dynamics at Kunlun Pass on the northeastern Qinghai-Tibet Plateau.Sci Tot Environ,771: 145369.doi: 10.1016/j.scitotenv.2021.145369

195) 冉有华,李新,程国栋,南卓铜,车金星,盛煜,吴青柏,金会军,罗栋梁,唐志光,吴小波, 2020. 2005-2015年青藏高原多年冻土稳定性制图.中国科学:地球科学,51(2): 183-200. doi: 10.1360/N072020-0074.

196) Ran Y, Li X, Cheng G, Nan Z, Che J, Sheng Y, Wu Q,Jin H, Luo D, Tang Z, Wu X, 2020. Mapping the permafrost stability on the Tibetan Plateau for 2005–2015. Science China Earth Sciences,64: 62-79.

197) 常晓丽,帖利民,金会军,何瑞霞,李晓英,王永平, 2020.大兴安岭东坡新林林区冻土变化特征.冰川冻土,42(3): 823-833.

198) 徐玲玲*,高彩虹,王佳铭,金会军,吴青柏,何海龙*, 2020.时域反射仪(TDR)测定土壤含水量标定曲线的评价与方案推荐.冰川冻土,42(1): 265-275.

199)SongL,WangL,LiX, Zhou J, Luo D,Jin H, Qi J, Zeng T, Yin Y, 2020. Improving permafrost physics in a distributed cryosphere-hydrology model and its evaluations at the upper Yellow River Basin.J Geophys Res-Atmos,125(18): e2020JD032916. DOI: 10.1029/2020JD032916

200) Spektor VV,Jin H, Torgovkin NV, Maksimov GT, Spektor VB, Syromyatnikov II, 2020. Structural features of Pleistocene cryogenic deposits in the Lena and Amga Rivers Plain (Central Yakutia).Arct Subarct Nat Resour,25(3): 49-62. DOI: 10.31242/2618-9712-2020-25-3-5

201) Gagarin L, Wu Q*, Melnikov A, Volgusheva N, Tananaev N,Jin H, Zhang Z, Zhizhin V, 2020. Morphometric analysis of groundwater icings: Intercomparison of estimation techniques.Remote Sens,12(4): 692. DOI:10.3390/rs12040692.

202) Holloway JE*, Lewkowicz AG, Douglas TA,Li XY, Turetsky MR, Baltzer JL,Jin H, 2020. Impact of wildfire on permafrost landscapes: a review of recent advances and future prospects.Permafr Periglac Process,31(3): 371-382.DOI: 10.1002/ppp.2048

203) Chen X, Brenner M, Wu D, Huang X,Jin H, Chen F, Lü F, 2020. Vegetation response in subtropical southwest China to rapid climate change during the Younger Dryas.Earth-Sci Rev,201: 103080. DOI:10.1016/j.earscirev.2020.10308

204) 黄灿杰,张泽,金会军,冯文杰,金豆豆, Melnikov A, 2020.球模仪测试冻土松弛模量的非线性Kelvin解答及其试验研究.冰川冻土,42(2): 550-561.

205) Huang C, Zhang Z,Jin H, Li X, Chen X, Feng W, 2020. Comparison of modulus equations of frozen soil based on spherical template indenter.Cold Regions Sci Technol,170: 102911.

206) 王愿斌,王佳铭,樊媛媛,陈娟, Miles Dyck,金会军,何海龙*, 2020.土壤水分特征曲线模型模拟性能评价.冰川冻土,41(6): 1448-1455.

207) Vandenberghe J, French HM,Jin H, Wang X, Yi S, He R, 2020. The impact of latitude and altitude on the extent of permafrost during the Last Permafrost Maximum (LPM) in North China.Geomorphology,350: 106909. DOI: 10.1016/j.geomorph.2019.106909

208) Hou X, Chen J,Jin H, Rui P, Zhao J, Mei Q, 2020. Thermal characteristics of cast-in-place pile foundations in warm permafrost at Beiluhe on interior Qinghai-Tibet Plateau: Field observations and numerical simulations.Soils Found,60(1): 90-102. DOI: 10.1016/j.sandf.2020.01.008.

209) 李芳,靳少波,邹松兵,陆志翔,曹光明,沈延青,张俊才,蓝永超,金会军,阮宏威, 2020.黄河源区白河基流分割方法适用性分析.冰川冻土,42(2): 587-597.

210) 李新,勾晓华,王宁练,盛煜,金会军,祁元,宋晓喻,侯扶江,李育,赵长明,邹松兵,王宏伟,郑东海,陈莹莹,牛晓蕾, 2019.祁连山绿色发展:从生态治理到生态恢复.科学通报,64: 2928-2937

211) 程国栋, 赵林, 李韧, 吴晓东, 盛煜, 胡国杰, 邹德富,金会军, 李新, 吴青柏, 2019.青藏高原多年冻土特征、变化及影响.科学通报,64(27): 2783-2795. DOI:10.1360/TB-2019-0191

212) Yuan Z, Jiang X, Liu G,Jin H, Chen J, Wu Q, 2019. Responses of soil organic carbon and nutrient stocks to human-induced grassland degradation in a Tibetan alpine meadow.Catena,178: 40-48.

213) Sun A, Zhou J, Yu Z,Jin H,Sheng Y, Yang C, 2019. Three-dimensional distribution of permafrost and responses to increasing air temperatures in the head waters of the Yellow River in High Asia.Sci Total Environ,666: 321-336. DOI: 10.1016/j.scitotenv.2019.02.110

214) Vandenberghe J, French HM,Jin H, Wang X, Yi S, He R, 2019. The extent of permafrost during the Last Permafrost Maximum (LPM) on the Ordos Plateau, north China.Quat Sci Rev,214: 87-97.

215) Luo D,Jin H, Bense VF, 2019. Ground surface temperature and the detection of permafrost in the rugged topography on NE Qinghai-Tibet Plateau.Geoderma,333: 57-68.

216) Yang Y, Wu Q,Jin H, Wang Q, Huang Y, Luo D, Gao S, Jin X, 2019. Delineating the hydrological processes and hydraulic connectivities under permafrost degradation on Northeastern Qinghai-Tibet Plateau, China.J Hydrol,569: 359-372.

217) Sun A, Zhou J, Yu Z,Jin H, Sheng Y, Yang C, 2019. Three-dimensional distribution of permafrost and responses to increasing air temperatures in the head waters of the Yellow River in High Asia.Sci Total Environ,666: 321–336.

218) Yan H, He H*, Dyck M,Jin H, Li M, Si B, 2019. A generalized model for estimating effective soil thermal conductivity based on the Kasubuchi algorithm.Geoderma,353: 227-242.

219) Yang Y, Wu Q, Hou Y, Zhang P, Yun H,Jin H, Xu Xiao, Jiang G, 2019. Using stable isotopes to illuminate thermokarst lake hydrology in permafrost regions on Qinghai-Tibet Plateau, China.Permafr Periglac Process,30: 58-71.

220) He H, Dyck MF, Horton R, Li M,Jin H, Si B, 2018. Distributed temperature sensing for soil physical measurements and its similarity to heat pulse method.Adv Agron,148: 173-230.

221) Luo D,Jin H, Jin X, He R, Li X, Muskett RR, Marchenko SS, Romanovsky VE, 2018. Elevation-dependent thermal regime and dynamics of frozen ground in the Bayan Har Mountains, Qinghai-Tibet Plateau.Permafr Periglac Process,29(4): 257-270.

222) WangQ, Yang Q, Guo H, Xiao X,Jin H, Li L, Zhang T, Wu Q, 2018. Hydrothermal variations in soils resulting from the freezing and thawing processes in the active layer of an alpine grassland in the Qilian Mountains, northeastern Tibetan Plateau.Theoret Appl Climatol,136: 929-941.

223) Luo D,Jin H, He R, Wang X, Muskett RR, Marchenko SS, Romanovsky VE, 2018. Characteristics of water-heat exchanges and inconsistent surface temperature changes at an elevational permafrost site on the Qinghai-Tibet Plateau.J Geophys Res: Atmospheres,123(18): 10057-10075.

224) Yun H, Wu Q, Zhuang Q, Chen A, Yu T, Lyu Z, Yang Y,Jin H, Liu G, Qu Y, ..., 2018.Consumption of atmospheric methane by the Qinghai–Tibet Plateau alpine steppe ecosystem.Cryosphere,12(9): 2803-2819.

225) Luo D,Jin H, Wu Q, Bense VF, et al., 2018. Thermal regime of warm-dry permafrost in relation to ground surface temperature in the Source Areas of the Yangtze and Yellow rivers on the Qinghai-Tibet Plateau, SW China.Sci Tot Environ,618: 1033-1045.

226) Luo D,Jin H, Marchenko SS, Romanovsky VE, 2018. Difference between near-surface air, land surface and ground surface temperatures and their influences on the frozen ground on the Qinghai-Tibet Plateau.Geoderma,312: 74-85.

227) Yi P, Wan C,Jin H, Luo D, Yang Y, Wang Q, Yu Z, Aldahan A, 2018. Hydrological insights from hydrogen and oxygen isotopes in Source Area of the Yellow River, east-northern part of Qinghai-Tibet Plateau.J Radioanalyt Nucl Chem,317(1): 131-144.

228) Wu X, Zhang X, Xiang X, Zhang K,Jin H, Chen X, Wang C, Shao Q, Hua W, 2018. Changing runoff generation in the source area of the Yellow River: Mechanisms, seasonal patterns and trends.Cold Regions Sci Technol,155: 58-68.

229) Peng X, Zhang T, Frauenfeld OW, Wang K, Luo D, Cao B, Su H,Jin H, Wu Q, 2018. Spatiotemporal changes in active layer thickness under contemporary and projected climate in the Northern Hemisphere.J Clim,31(1): 251–266.

230) He H*, Dyck MF, Horton R, Li M,Jin H, Si B*, 2018. Distributed temperature sensing for soil physical measurements and its similarity to heat pulse method.Adv Agronom,148: 173-230. doi: 10.1016/bs.agron.2017.11.003.(

231) Zhang Y, Li X, Cheng G,Jin H, Yang D, Flerchinger GN, Chang X, Wang X, Liang J, 2018. Influences of topographic shadows on the thermal and hydrological processes in a cold region mountainous watershed in Northwest China.J Adv Model Earth Syst,10(7): 1439-1457.

232) Harris SA,Jin H, He R, Yang S, 2018. Tessellons, topography, and glaciations on the Qinghai-Tibet Plateau.Sci Cold Arid Reg,10(3): 187-206.

233) Abbas T, Nabi G, Boota MW, Hussain F, Azam MI,Jin H, Faisal M, 2018.Uncertainty analysis of runoff and sedimentation in a forested watershed using sequential uncertainty fitting method.Sci Cold Arid Reg,8(4): 297-310.

234) Wu Q, Yu W,Jin H, 2018. No protection of permafrost due to desertification on the Qinghai-Tibet Plateau.Sci Rep,7: 1544. DOI: 10.1038/s41598-017-01787-0.

235) Boota MW, Nabi G, Abbas T,Jin H, Yousaf A, Boota MA, 2018.Comparative study of probable maximum precipitation and isohyetal maps for mountainous regions, Pakistan.Sci Cold Arid Regions,10(1): 55-68.

236) He H, Zhao Y, Dyck M,Jin H, Si B, Lü J*, Wang J*, 2017. A modified normalized model for predicting effective soil thermal conductivity.Acta Geotech,12(6): 1281-1300.

237) 吉延峻,贾昆,俞祁浩,金会军,郭磊,罗晓晓, 2017.现浇混凝土-冻土接触面冻结强度直剪试验研究.冰川冻土,39(1): 86-91.

238) 张泽,吴青柏, Mikhai N. Zhelezniak,金会军,2017.多年冻土区第一井–舍尔金井.冰川冻土,39(5): 1084-1088.

239) Yang Y, Wu Q, Hou Y, Zhang Z, Zhan J, Gao S,Jin H, 2017.Unraveling of permafrost hydrological variabilities on Central Qinghai-Tibet Plateau using stable isotopic technique.Sci Tot Environ,605: 199-210.

240)HuG,YuL, Dong Z,Jin H, Luo D, Wang Y, Lai Z, 2017.Holocene aeolian activity in the Headwater Region of the Yellow River, Northeast Tibet Plateau, China: A first approach by using OSL-dating.Catena,149: 150-157

241)Harris SA,Jin H, He R, 2017. Very large cryoturbation structures of last Permafrost Maximum age at the foot of Qilian Mountains (NE Tibet Plateau, China): A discussion.Permafr Periglac Process,28(4): 757-762. DOI: 10.1002/ppp.1942

242) Yang S, Liebner S, Winkel M, Alawi M, Horn F, Dörfer C, Ollivier J, He J‐s,Jin H,Kühn P, Scholten T, Wagner D, 2017. In‐depth analysis of core methanogenic communities from high elevation permafrost‐affected wetlands.Soil Biol Biochem,111: 66-77.

243) Yang Y, Wu Q,Jin H,et al., 2017. δ18O, δD and d-excess signatures of ground ice in permafrost in the Beiluhe Basin on the Qinghai-Tibet Plateau, China.Sci Cold Arid Reg,9(1): 1-8.

244) Wang Q, Zhang T,Jin H, Cao L, 2017. Observational study on the active layer freeze–thaw cycle in the upper reaches of the Hei'he River of the north-eastern Qinghai-Tibet Plateau.Quat Int,440(Part B): 13-22. DOI: 10.1016/j.quaint.2016.08.027

245) Luo D,Jin H, Lü L, Zhou J, 2016. Spatiotemporal variations of extreme ground surface temperature in the Three-Rivers Headwaters Region during 1980-2013.Theoret Appl Climatol,123: 885–897.

246) Luo D, Wu Q,Jin H, Marchenko SS, Lü L, Gao S, 2016. Recent Changes in Active Layer Thickness across the Northern Hemisphere.Env Earth Sci,75: 555. DOI: 10.1007/s12665-015-5229-2.

247) Zheng M, Wan C, Du M, Zhou X, Yi P *, Aldahan A,Jin H, Luo D, Yu Z, 2016. Application of Rn-222 isotope for the interaction between surface water and groundwater in the source area of the Yellow River.Hydrol Res,47(6): 1253-1262. DOI: 10.2166/nh.2016.070

248) Zhang Y, Cheng G, Li X,Jin H, Yang D, Flerchinger GN, Chang X,BenseVF, Han X, Liang J, 2016. Influences offrozen ground and climate change on hydrological processes in an alpine watershed: A case study in the upstream area of the Hei’he River, Northwest China.Permafr Periglac Process,28(2): 420-432.

249) He H, Dyck M, Zhao Y, Si B,Jin H, Zhang T, Lü J, Wang J, 2016. Evaluation of five composite dielectric mixing models for understanding relationships between effective permittivity and unfrozen water content.Cold Reg Sci Technol,130: 33–42

250) Yang Y, Wu Q, Yun H,Jin H, Zhang Z, 2016. Evaluation of the hydrological contributions of permafrost to the thermokarst lakes on the Qinghai-Tibet Plateau using stable isotopes.Environ Earth Sci,140: 1-8

251) Yang Y, Wu Q,Jin H, 2016. Evolutions of water stable isotopes and hydrological separation in the alpine river at Kunlun Mountain on the Qinghai-Tibet Plateau.Environ Earth Sci,76(87): 1-11.

252) 李国玉,马巍,周志伟,金会军,张鹏, 2016.寒区输油管道基于应变设计的极限状态研究.冰川冻土,38(4): 1099-1105.

253) Tian H, Lan Y, Wen J,Jin H,Wang C, Wang X, Kang Y, 2015. Evidence for a recent warming and wetting in the source area of the Yellow River (SAYR) and its hydrological impacts.J Geogr Sci,25: 643-668.

254) 王永平,金会军,李国玉,童长江, 2015.漠河-加格达奇段多年冻土区中俄原油管道运营以来的次生地质灾害研究——以MDX364处的季节性冻胀丘为例.冰川冻土,37(3): 731-739.

255) Chang X*, Jin H, Zhang Y, Sun H, 2015. Study of seasonal snow cover influencing the ground thermal regime on western flank of Da Xing'anling Mountains, Northeastern China.Sci Cold Arid Reg,7(6): 0666–0674. DOI: 10.3724/SP.J.1226.2015.00666.

256) 李国玉,马巍,王学力,金会军,王永平,赵迎波,蔡永军,2015.中俄原油管道漠大线运营后面临一些冻害问题及防治措施建议.岩土力学,36(10): 2963-2973

257) Luo D,Jin H, Marchenko SS, Romanovsky VE, 2014. Distribution and changes of the active layer thickness and temperature in the Sources Areas of the Yellow River using the GIPL model.Sci China, Ser D: Earth Sci,57(8): 1834-1845.

258) 常晓丽,金会军,王永平,张艳林,周刚义,车富强,赵玉梅,2014.植被对多年冻土的影响研究进展.生态学报,32(24): 7981-7990

259) Lan Y,Jin H, La C, Wen J, Song J, Liu J, 2014. Climate transformation to warm-humid and its effect on river runoff in the source region of the Yellow River.Sci Cold Arid Reg,6(3): 257-265

260) Vandenberghe J, French HM, Gorbunov AP, Marchenko SS, Velichko AA,Jin H, Cui Z, Zhang T, and Wan X, 2014. The Last Permafrost Maximum (LPM) map of the Northern Hemisphere: permafrost extent and mean annual air temperatures, 25-17 ka BP.Boreas,43(3): 652-666

261)YangS,WenX,ZhaoL,ShiY,JinH, 2014.Crude oil treatment leads to shift of bacterial communities in soils from the deep active layer and upper permafrost along the China-Russia Crude Oil Pipeline route.PLoS One,29(5): e96552

262) Chang X, Yu S,Jin H, Zhang Y, 2014. Vegetation impact on the thermal regimes of the active layer and near-surface permafrost in the Greater Hinggan Mountains, Northeastern China.Sci Cold Arid Reg,6(5): 504-510

263) 罗栋梁,金会军, 2014.黄河源区玛多县1953~2012年气温和降水特征及突变分析.干旱区资源与环境,28(11): 185–192

264) 胡光印,金会军,董治宝,颜长珍,逯军峰, 2014.黄河源区土地利用/覆盖变化(LUCC)研究. 冰川冻土,36(3): 573-581.

265) Hu G,Jin H, Dong Z, Lu J, and Yan C, 2013. Driving forces of aeolian desertification in the source region of the Yellow River: 1975–2005.Environ Earth Sci,70: 3245-3254. DOI 10.1007/s12665-013-2389-9.

266) 常晓丽,金会军, 何瑞霞, 荆宏远, 李国玉, 王永平, 罗栋梁, 于少鹏, 孙海滨. 2013.大兴安岭北部冻土监测进展. 冰川冻土,35(1): 93-100.

267) 罗栋梁,金会军, 林琳, 游艳辉, 杨思忠, 王永平, 2013.巴颜喀拉山青康公路沿线多年冻土和活动层分布特征及影响因素.地理科学,33(5): 635-640.

268) Dietze E, Wünnemann B, Hartmann K, Diekmann B,Jin H, Stauch G, ..., 2013.Early to mid-Holocene lake high-stand sediments at Lake Donggi Cona, northeastern Tibetan Plateau, China.Quat Res,79(3): 325-336.

269) Yang S, Wen X,Jin H, Wu Q, 2013. Correction: Pyrosequencing investigation into the bacterial community in permafrost soils along the China-Russia Crude Oil Pipeline.PLoS ONE,8(11): doi: 10.1371/annotation/622db7c2-5ca8-402a-b4f2-666dc31172ab.

270) Yang S, Wen X,Jin H,WuQ, 2012.Pyrosequencing investigation into the bacterial community in permafrost soils along the China-Russia Crude Oil Pipeline (CRCOP).PLoS One,7(12): e52730. DOI: 10.1371/journal.pone.0052730.

271) 罗栋梁,金会军,林琳,何瑞霞,杨思忠,常晓丽, 2012.黄河源区多年冻土温度及厚度研究新进展.地理科学,32(7): 898-904.

272) 罗栋梁,金会军,林琳,何瑞霞,杨思忠,常晓丽, 2012.青海高原中、东部多年冻土及寒区环境退化.冰川冻土,34(3): 538-546.

273) 蓝永超,鲁承阳,喇承芳,沈永平,金会军,宋洁,文军,刘金鹏,2013.黄河源区气候向暖湿转变的观测事实及其水文响应.冰川冻土,35(4): 920-928

274) Ran Y, Li X, Cheng G, Zhang T, Wu Q,Jin H, Jin R, 2012. Distribution of permafrost in China: An overview of existing permafrost maps.Permafr Periglac Process,23(4): 322-333. DOI: 10.1002/ppp.1756.

275) Harris SA,Jin H, 2012. Tessellons and sand wedges on the Qinghai-Tibet Plateau and their palaeo-environmental implications.Proc, 10th Int Conf on Permafr, Salehard, Russia, 26-29 June 2012, Vol. 1, 149–154.

276) 常晓丽,金会军,于少鹏,孙海滨,何瑞霞,罗栋梁,孙广友,吕兰芝, 2011.大兴安岭林区不同植被对冻土地温的影响.生态学报,31(18): 5138-5147.

277) 何瑞霞,金会军,王绍令,郝加前,常晓丽,罗栋梁, 2011.中俄原油管道沿线多年冻土环境评价方法探讨.冰川冻土,33(5): 1098-1105.

278) 孙广友,金会军,常晓丽,于少鹏,何瑞霞,杨思忠,吕兰芝,姚允龙,闫修民,范宇, 2011.大兴安岭北部宽谷地貌对沼泽湿地形成的控制.冰川冻土,33(5): 991-998.

279) 常晓丽,金会军,何瑞霞,2011.西昆仑山甜水海北湖砂楔的形成与环境演变.第四纪研究,31(1): 112-119.

280) Luo D,Jin H, Jin R, Lin L, He R, Chang X, 2011. The extraction of watershed characteristics of the Source Area of Yellow River based on SRTM DEM with ArcGIS.Int Conf onRemote Sens, Environ Transp Eng (RSETE), Nanjing, China, 24-26 June 2011, pp. 1799 - 1802. DOI:10.1109/RSETE.2011.5964645.(EI)

281) Xu G, Qi J,Jin H, 2010. Model test study on the influences of freezing and thawing on the crude oil pipeline in cold regions.Cold Reg Sci Technol,64(3): 262-270. DOI: 10.1016/j.coldregions.2010.04.010.

282) Zhang J, Qu G,Jin H, 2010. Estimates on thermal effects of the China–Russia crude oil pipeline in permafrost regions.Cold Reg Sci Technol,64(3): 262-270. DOI: 10.1016/j.coldregions.2010.04.010.

283) Wu Y, Sheng Y, Wang Y,Jin H, Chen W, 2010. Stresses and deformations in a buried oil pipelines subject to differential frost heave in permafrost regions.Cold Regions Sci Technol,64:256-261. DOI: 10.1016/j.coldregions.2010.07.004.

284) 吕兰芝,金会军,常晓丽,等, 2010.中俄原油管道工程(漠河-大庆段)沿线气温、地表和浅层地温年际变化特征.冰川冻土,32(4): 794-801.

285) 何瑞霞,金会军,吕兰芝,等, 2010.格尔木-拉萨成品油管道沿线冻土工程和环境问题及其防治对策.冰川冻土,32(1): 18-27.

286) 杨思忠,金会军,于少鹏,等, 2010.中俄输油管道(漠河-大庆段)主要冻土环境问题探析.冰川冻土,32(2): 358-366.

287) 魏智,金会军,韩旭军.国内外冻土区路基地温控制措施.路基工程. 2010 (S2) :128-134.

288) 常晓丽,金会军,孙海滨,等, 2010.积雪底部温度(BTS)方法在冻土分布调查和模型研究中的应用:研究进展.冰川冻土,32(4): 803-809.

289) Niu F, Li G, Zhao S, Zhang S, Zhao Y,Jin H,2010.Current developments of research on permafrost engineering and cold region environment: a report of the 8th International Symposium on Permafrost Engineering.Sci Cold Arid Reg,2(2): 93-103.

290) Gu W, Yu Q, Qian J,Jin H, Zhang J, 2010.Qinghai-Tibet expressway experimental research.Sci Cold Arid Regions,2(5): 396-404

291) 罗栋梁,金会军,杨思忠,等, 2010.青藏高原东北部冬给措纳湖湖区冰缘环境探讨.冰川冻土,32(5): 935-940.

292) Li G, Sheng Y,Jin H, Ma W, Qi J, Wen Z, Zhang B, Mu Y, Bi G, 2010. Development of Freezing-thawing processes of foundation soils surrounding the China-Russia Crude Oil Pipeline under climate change.Cold Reg Sci Technol,64:226-234. DOI: 10.1016/j.coldregions.2009.08.006.

293) Zhang J, Qu G,Jin H, 2010.Estimates on thermal effects of the Chinese-Russian crude oil pipeline in permafrost Regions.Cold Reg Sci Technol,64:243-247.DOI: 10.1016/j.coldregions.2009.10.001.

294) 赵林,丁永建,刘广岳,王绍令,金会军,2010.青藏高原多年冻土层中地下冰储量估算及评价.冰川冻土,32(1): 1-9.

295) 吉延峻,金会军,王国尚,张建明, 2010.中俄原油管道(漠河—大庆段)地基土融沉稳定性评价研究.工程地质学报,18(2): 241-251.

296)He R,Hao Y,Jin H,Tong C, 2010. Engineering problems of airport construction in the permafrost regions in China - take Mo-he airport as an example.Int Conf Mech Automat Control Eng (MACE), Wuhan, China, on 26-28 June 2010, pp. 4911-4917. DOI:10.1109/MACE.2010.5536174. (EI)

297) Dietze E,Wünnemann B,Diekmann B,Aichner B,Hartmann K,Herzschuh U,JmkerdJ,Jin H,Kopsch C,LehmkuhldF,Li S,Mischke S,Niessen F,Opitz S,StauchdG andYang S, 2010. Basin morphology and seismic stratigraphy of Lake Donggi Cona, north-eastern Tibetan Plateau, China.Quat Int,218(1-2): 131-142.DOI: 10.1016/j.quaint.2009.11.035.

298) Mischke S, Bößneck U, Diekmann B, Herzschuh U,Jin H, Kramer A, Wünnemann B, Zhang C, 2010. Quantitative relationship between water-depth and sub-fossil ostracod assemblages in Lake Donggi Cona, Qinghai Province, China.J Paleolimnol,43: 589-608. DOI: 10.1007/s10933-009-9355-2.

299) Sheng Y, Li J,Jin H, Wu J, Ye B, Wang J, 2010.Primary analysis on distribution characteristics of permafrost in the upper area of the Shule River Watershed, on the northeastern edge of the Qinghai-Tibetan Plateau.2010 IEEE Int Geosci Remote Sens Symp,4518-4521

300) 杨思忠,金会军,文茜,等, 2009.伊图里河冰楔温度变化与微生物数量的相关性初探.应用生态学报,20(11): 2785-2789.

301) 何瑞霞,金会军,吕兰芝,等, 2009.东北北部冻土与寒区生态环境变化.冰川冻土,31(3): 525-531.

302) 何瑞霞,金会军,常晓丽,罗栋梁, 2009.格拉管道环境变化与管道工程问题的防治措施.油气储运,28(9): 75-79.

303) 何瑞霞,金会军,常晓丽,等, 2009.东北北部多年冻土的退化现状及原因分析.冰川冻土,31(5): 829-834.

304) Opitz S, Aichner B, Dietze E, Hartmann K, Herzschuh U, IJmker J,Jin H, Lehmkuhl F, Li S, Mischke S, Plotzki A, Stauch G, Wünnemann B, Yang S, Diekmann B, 2009.Late Quaternary Lake Dynamics on the Northeastern Tibetan Plateau.ORCID: https://orcid.org/0000-0003-0999-1261

305) Li X, Cheng G,Jin H,et al., 2008. Cryospheric change in China.Glob Planet Change,62(3-4): 210-218. doi: 10.1016/j.gloplacha.2008.02.001.

306) 杨思忠,金会军, 2008.冻融作用对冻土区微生物生理和生态的影响.生态学报(Act Ecol Sin),28(10): 5065-5074.

307) 杨思忠,金会军,吉延峻,等, 2008.寒区线性工程沿线冻土区的植被恢复.冰川冻土,30(5): 875-882.

308) 俞祁浩,白旸,金会军,等, 2008.应用探地雷达研究中国小兴安岭地区黑河-北安公路沿线岛状多年冻土的分布及其变化.冰川冻土,30(3): 461-468.

309) Wu Q, Dong X, Liu Y,Jin H, 2007. Responses of permafrost on the Qinghai-Tibet Plateau, China, to climate change and engineering construction.Arct, Antarct, Alp Res,39(4): 682-687.

310) 杨思忠,金会军,魏智, 2007.微生物对冻土生境的适应以及对全球变化和寒区工程扰动的响应:进展与展望.冰川冻土,29(2): 279-285.

311) 俞祁浩, Roth K,金会军,潘喜才, Martin SP,盛煜,魏智,吴吉春, 2006.中德合作三江源区和甜水海地区多年冻土退化过程科学考察和研究进展.冰川冻土,28(6): 844-849.

312) 杨思忠,金会军, Diekmann B, Wünnemann B, Mischke S,吉延峻,陈建辉,杨奇丽, 2006.冬给措纳湖地区寒区环境变迁研究进展.冰川冻土,28(6): 850-853.

313) Zhang X,Jin H, Sun W, 2006. Stable isotopic variations in precipitation in Southwest China.Adv Atmos Sci,23(4): 649-658. DOI: 10.1007/s00376-006-0649-2

314) Yu W, Lai Y, Sun Z,Jin H, Zhang X, 2006. Experimental studies on the ripped-rock revetment embankment in permafrost regions of the Qinghai-Tibet Railroad.Cold Reg Sci Technol,45(1): 1-7.

315) Kang E, Cheng G, Lan Y,Jin H, 1999.A model for simulating the response of runoff from the mountainous watersheds of inland river basins in the arid area of northwest China to climatic changes.Sci China,42(DS1), 52-63.

316) 康尔泗,程国栋,蓝永超,金会军, 1999.中国西北干旱地区内陆河流出山口径流变化模拟研究.中国科学,29(DS1), 47-54.

317) 冯起,苏志珠,金会军, 1999. 12000年来塔里木河流域沙漠演化和气候变化.中国科学,29(DS1), 87-96.

318) Feng, Q, Su Z,JinH, 1999. Studies on the desert evolution and climatic changes in the Tarim River basin during the past 12,000 years.Sci China,D(S1), 101-112.

二、译著/专著

319) 姚檀栋、王宁练主编, 2022.冰冻圈气候环境记录。金会军参编第一、二章(姚檀栋、王宁练和金会军,绪论)和第二章(姚檀栋、王宁练、金会军、刘晓宏和赵井东冰冻圈气候环境记录研究的方法)。北京:科学出版社。

320)金会军(冻土学与冰缘环境编写专家),2015.冰冻圈科学概论(秦大河、姚檀栋总主编).

321)金会军(冻土学和冰缘地貌环境编写专家), 2014.冰冻圈科学词典(Glossary of Cryosphere Science)(秦大河、姚檀栋、丁永建和任贾文主编), 1-215.

322)金会军,朱诚,欧阳杰,黄少敏,黄进,王绍令, 2013.第六章(冻土和冰缘地貌)。孙鸿烈、郑度总主编,《中国自然地理系列专著》的(尤连元、杨景春主编)《中国地貌》,科学出版社,北京:275-317.

323) Romanovsky VE, Gruber S, Instanes A,Jin H, Marchenko SS, Smith SL, Trombotto D, Walter KM, 2017.Global outlook for ice and snow: Chapter 7, Frozen Ground, pp. 181-200. http://www.unep.org/geo/geo_ice/PDF/GEO_C7_LowRes.pdf

324) 邱国庆,赵林,王绍令,张希林,盛文坤,岳汉森,金会军, 1996.中国甘肃河西走廊盐渍土的季节冻结作用及其改良利用.兰州:兰州大学出版社, 1-115.

325) Qiu GQ, SJ Li,HJ Jin, L Zhao, 1993.Handbook for the A-2 Trip After the 6thInt Conf on Permafr.Lanzhou: Lanzhou University Press, 1-120.

四、授权发明专利

326) 李欣泽,吴青柏,金会军,李艳等.“非连续多年冻土区埋地冷输天然气管道管基土冻胀防治装置及方法”,发明专利,CN202111394936.3

327) 罗栋梁,李新宇,金会军,何瑞霞.伸缩式钢钎钎探及多年冻土活动层厚度测量系统.专利号:ZL201920194892.1.申请日:2019.02.12;授权公告日:2019.08.02

328) 李国玉,马巍,金会军,穆彦虎,王飞,范善举,吴亚虎,一种高温输油管道的放热结构,2015.12.15,中国,ZL 2015 2 0625 756.5