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金会军

1.主要学术论文:

第一作者论文(52篇)

  1. 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): 1181-1192. https://doi.org/10.1007/s11430-018-9272-0

  2. 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. 两万年来的中国多年冻土形成演化. 中国科学D辑:地球科学,49(8): 1197-1212.

  3. 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

  4. 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

  5. 金会军, 程国栋, 吴青柏, 等, 2012. 黄河源区冻土退化及其生态水文(地质)环境效应:现状、问题与展望. 程国栋院士七十华诞学术研讨会文集. 兰州大学出版社, 205 -220.

  6. 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

  7. 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.

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

  9. 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.

  10. 金会军, 王绍令, 吕兰芝, 等, 2010. 黄河源区冻土特征及退化趋势. 冰川冻土, 32(1): 10-17.

  11. 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.

  12. 金会军, 王绍令, 何瑞霞,  2009. 兴安岭多年冻土退化特征. 地理科学, 29(2), 223-228.

  13. 金会军, 王绍令, 吕兰芝, 等, 2009. 中俄管道(漠河-乌尔其段)冻土环境工程地质区划和评价. 水文地质工程地质, 36(228): 102-107.

  14. 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

  15. 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

  16. 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. Engineering Geology, 101: 96-109. DOI: 10.1016/j.enggeo.2008.04.001.

  17. Jin H, Brewer MC, 2008. Highway roadway stability influenced by warm permafrost and seasonal frost action. Scie Cold Arid Reg, Initial Issue: 26-41

  18. 金会军, 孙立平, 王绍令, 等, 2008. 青藏高原局地因素对地温的双重影响 (I): 积雪和植被. 冰川冻土, 30(4): 535-545.

  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, and Brown J, 2007. Great challenges of and innovative solutions to the unstable permafrost in Central and High Asia under a warming climate—the first Asian Conference on Permafrost and Post- Conference Field Excursion across the Qinghai-Tibet Plateau. Episodes, 30(1): 54-55.

  22. 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.

  23. 金会军, 王绍令, 俞祁浩, 吴青柏, 魏智, 2006. 青藏工程走廊冻土环境工程地质区划及评价. 水文地质工程地质, 33(212):66-71, 封底彩图.

  24. 金会军, 于少鹏, 吕兰芝, 郭东信, 李英武, 2006. 大小兴安岭多年冻土退化及其趋势初步评估. 冰川冻土, 28(4): 467-476.

  25. 金会军, 赵林, 王绍令, 郭东信, 2006. 青藏高原中、东部全新世以来多年冻土演化及寒区环境变化. 第四纪研究, 26(2): 198-210.

  26. 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.

  27. 金会军, 马巍, 赖远明, 吴青柏, 王贵荣, 牛富俊, 沈永平, 赵淑萍, Brown J, Brewer MC, 2006. 冰川冻土, 28(6): 838-843.

  28. 金会军, 喻文兵, 高晓飞, 陈友昌, 姚志祥, 2006. 多年冻土区输油管道基础稳定性. 油气储运, 25(2): 13-18.

  29. Jin H, Cheng G, Ma W, et al., 2005. Design and construction of the Qinghai-Tibet Railway. Journal of Glaciology and Geocryology, 27(1): 33-40.

  30. 金会军, 喻文兵, 陈友昌, 等, 2005. 多年冻土区输油管道工程的差异性融沉和冻胀问题. 冰川冻土, 27(3): 454-464.

  31. 金会军, Brewer MC, 2005. 阿拉斯加北极地区的工程设计和施工经验及教训. 冰川冻土, 27(1): 140-146.

  32. Jin H, Cheng G, Ma W, et al., 2005. Design and construction of the Qinghai-Tibet Railway. Journal of Glaciology and Geocryology, 27(1): 33-40.

  33. 金会军, 喻文兵, 陈友昌, 等, 2005. 多年冻土区输油管道工程的差异性融沉和冻胀问题. 冰川冻土, 27(3): 454-464.

  34. 金会军, Brewer MC, 2005. 阿拉斯加北极地区的工程设计和施工经验及教训. 冰川冻土, 27(1): 140-146.

  35. Jin H, Brewer MC, Perkins RA, 2002. Ground temperatures across the Old and New Roads at Mile 130, Richardson Highway during 1954-1962. Proceedings, 11th International Conference on Cold Regions Engineering, Cold Regions Impacts on Transportation and Infrastructure, ASCE, 724-735.

  36. Jin H, Cheng G, Li S, et al., 2000. Permafrost and climatic change in China. Glob Planet Chan, 26: 387-404.

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

  38. 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.

  39. 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.

  40. 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.

  41. 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

  42. Jin H, Wu J, Cheng G, Song G, 1999. Estimation of methane emissions from alpine wetlands on the Qinghai-Tibet Plateau. Cryosphere, 1999 (4), 26-43.

  43. Jin H, Cheng G, 1998. Variations of methane fluxes in Qingshuihe River area on Qinghai-Tibet Plateau in early winter. Cryosphere, 1998 (4), 339-350.

  44. 金会军, 中野智子, 程国栋, 等, 1998. 青藏高原东北地区高海拔湿地表面甲烷通量. 冰川冻土, 20(1): 339-350.

  45. 会军, 曾根敏雄, 刘宗香, 1998. 天山乌鲁木齐河源冰达坂冻岩温度变化. 冰川冻土, 20(4): 25-29.

  46. Jin H, Cheng G, Xu B, Nakano T, 1998. Study on CH4 fluxes from alpine wetlands at the Huashixia Permafrost Station, Tibetan Plateau. 冰川冻土, 20(2): 36-37.

  47. 金会军, 程国栋, 1997. 冻土区甲烷排放研究综述. 地球科学进展, 12(3): 276-283.

  48. 金会军, 程国栋, 1997. 甲烷水合物和全球变化. 冰川冻土, 19(3): 272-279

  49. Jin H, Wang G, Cheng G, Lin Q, 1997. Deterioration of the cold region environments on the Qinghai-Tibet Plateau. In: ISCORD'97, Proceedings of the 5th International Symposium on Cold Region Development, Sponsored by the ASCE, Anchorage, Alaska, May 4-10, 309-312.

  50. 金会军, 邱国庆, 赵林, 曾仲巩, 王淑娟, 1993. 乌鲁木齐河源多年冻土温度. 冰川冻土, 15(1): 110-114.

  51. Jin H, Qiu G, Zhao L, Wang S, 1993. Thermal regime of alpine permafrost in the upper reaches of Urumqi River, Xinjiang, China. In: Proceedings, the 6th International Conference on permafrost (ICOP'93), Vol. 1, 1993, 307-311.

  52. Jin H, Qiu G, Zhao L, Zeng Z, Wang S, 1993. Distribution and thermal regime of alpine permafrost in the middle section of East Tianshan, China. In: Studies of Alpine Permafrost in Central Asia, Vol. 1, Yakutsk, 1993, 24-30.

2. 通讯作者论文(72篇)

  1. Li X, Jin H*, Wang H, Chang X, He R, Huang Y, 2020. Climate warming and its possible impacts on the permafrost zoning in Northeast China. Permafr Periglac Process, submitted

  2. Jin X, Jin H*, Knops JMH, et al., 2020. Permafrost degradation leads to decrease in biomass and species richness on the northeastern Qinghai-Tibet Plateau. Plants, submitted.

  3. Serban R-D, Jin H*, Serban M, Luo D, 2020. 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, submitted

  4. Li X, Jin H*, Jin X, et al., 2020. Effects of fire history on thermal regimes of soils in the active layer and near-surface permafrost. Geoderma, under review.

  5. He R, Jin H*, Harris SA, Luo D, Chen X, Jin X, Wang Q, Lu L, Wang S, 2020. Permafrost and paleoenvironment on the northeastern Qinghai-Tibet Plateau and the Last Permafrost Maximum (LPM). J Quat Sci, re-submitted.

  6. French HM, Vandenberghe J*, Jin H*, He R, 2020. Possible initial factors in the development of seasonal sand-wedge on the Ordos Plateau, North China. Sci Cold Arid Regions, accepted.

  7. 李欣泽、金会军*2020. 多年冻土区天然气管道建设关键技术。冰川冻土,待刊。

  8. 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). DOI: 10.12006/j.issn.1673-1719.2020.019

  9. 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: DOI: 10.1007/s12665-020-8897-5

  10. He R, Jin H*, French HM, Vandenberghe J, Li X, Jiang G, Zhang Z, Chen X, Serban 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, DOI: 10.1002/ppp.2084.

  11. Jin X, Jin H*, Iwahana G, et al., 2020. Impacts of climate-induced permafrost degradation on vegetation: A review. Adv Clim Change Res, DOI: 10.1016/j.accre.2020.07.002.

  12. 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

  13. 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

  14. 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, DOI: 10.1016/j.accre.2020.05.007

  15. 李欣泽、金会军*2020. 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。DOI: 10.11867/j.issn.1001-8166.2019.11.1131

  16. 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, https://doi.org/10.1002/ppp.2055

  17. Ma Q, Jin H*, Bense VF, Luo D, Marchenko SS, Harris SA, Lan Y, 2020. Impacts of degrading permafrost on streamflow in the source area of Yellow River on the Qinghai-Tibet Plateau, China. Adv Clim Change Res, DOI: 10.1016/j.accre.2020.02.001

  18. 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, DOI: 10. 1016/ j. agrformet. 2019. 107819

  19. Serban DR, Jin H*, Serban 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

  20. Li X, Jin H*, Wang H, et al., 2019. Effects of forest fires on the permafrost environment in northern Da Xing’anling (Hinggan) Mountains, NE China. Permafr Periglac Process, 30: 163-177. DOI: 10.1002/ppp.2001

  21. Li X, Jin H*, Wang H, et al., 2019. 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.

  22. 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.

  23. 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. DOI: 10.1016/j.geoderma.2018.07.011

  24. 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.

  25. 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 Regions, 10(2): 104-113.

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

  27. Wang Q, Jin H*, Huang Y, 2017. Mid-late Holocene Asian monsoon evolution 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

  28. Wang Q, Jin H*, 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

  29. 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. doi: 10.1007/s11629-017-4439-3

  30. 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. doi:10.1016/j.quaint.2016.08.027

  31. 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.

  32. 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.

  33. 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. DOI: 10.3724/SP.J.1226.2017.00xxx.

  34. 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. doi:10.1360/N97201501237

  35. Yang S, Shi Y, Zhao L, Jin H*, Perfumo A, 2016. Shaping the communities of hydrocarbon degraders along the CRCOP pipeline: environmental versus anthropogenic factors. Sci Rep, 6: 37473.  doi:  10.1038/srep37473

  36. 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

  37. 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

  38. 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

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

  40. 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

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

  42. Wan C, Zheng M, Jin H*, Yi P, Aldahan A, Luo D, Yang Y, Wang Q, Yu Z, Wang J, 2015. Hydrologic connections in the Source Area of the Yellow River as inferred by hydrogen and oxygen isotopes. Proc GeoQuebec 2015 Conf, Quebec, Can, Sep 20-23, 2015. Paper No. 140, p. 1-8.

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

  44. 罗栋梁, 金会军*, 何瑞霞, 杨思忠. 黄河源区地表植被对活动层温度和水分的影响. 地球科学—中国地质大学学报, 2014, 39(4): 421-430 (EI)

  45. 罗栋梁, 金会军*, 吕兰芝, 吴青柏. 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, 2014, 59(14): 1327-1336

  46. 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.

  47. Luo D, Jin H*, Jin R, Yang X, Lü L, 2014. Spatiotemporal variations of climate warming in northern Northeast China as indicated by freezing and thawing indices. Quat Int, 349: 187-195. DOI: /10.1016/j.quaint.2014.06.064.

  48. 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

  49. Zhao L, Jin H*, Li C, Cui Z, Chang X, Marchenko SS, Vandenberghe J, 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

  50. 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

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

  52. 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

  53. 魏智, 金会军*, 张建明, , 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.

  54. Wen Z, Jin H*, Qi J, et al., 2011. Strain and stress analysis for the China-Russia Crude Oil Pipeline from Mo’he to Daqing in Northeastern China, Pipeline Int Digest: featured article in Subarctic Engineering, 17 February 2011, 17-24

  55. 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. DOI: 10.1016/j.coldregions.2010.01.009.

  56. 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(D1): 119-126

  57. 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.

  58. 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

  59. 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

  60. 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.

  61. He R, Jin H*, Lű 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.

  62. 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

  63. 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

  64. Wei Z, Jin H*, Zhang J, et al., 2008. Predictions on changes of permafrost in northeastern China during the 21st century using the equivalent latitude and finite element models. Proc, IEEE Geosci Remote Sens Symp (IGARSS) 2008, Boston, USA, 6-11 July 2008.

  65. Brewer MC, Jin HJ*, 2008. Warming of cold permafrost in northern Alaska During the Last Half-Century. In: NICoP, Fairbanks, Alaska, USA, 29 June to 3 July 2008, Institute of Northern Engineering, University of Alaska Fairbanks, Alaska, USA, Vol. I, pp.189-194.

  66. 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 (II): 水被和砂层. 冰川冻土, 30(4): 546-555.

  67. He R, Jin H*, 2008. Changes of permafrost and the cold-region environment in northeastern China. In: NICoP, Vol. I, pp. 693-698.

  68. 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.

  69. 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.

  70. 韩建康, 金会军*, 许晨海, 康建成, 温家洪, 1995. 南极洲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.

  71. 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.

  72. 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.

     

       2.指导博士生、硕士生发表学术论文50余篇。
       3.授权实用新型专利3项。
       4.副主编、参编专著和译著9部。

 



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