[1] Liu Changming, Chen Zhikai. Assessment of Water Resources Status and Development Trend of Supply and Demand in China[M]. Beijing: China Water Power Press, 2001. [刘昌明, 陈志凯. 中国水资源现状评价和供需发展趋势分析[M]. 北京:中国水利水电出版社,2001.] [2] Wang Chenghai, Wang Zhilan, Cui Yang. Snow cover of China during the last 40 years:Spatial distribution and interannual variation[J]. Journal of Glaciology and Geocryology ,2009, 31(2):301-310. [王澄海, 王芝兰, 崔洋. 40余年来中国地区季节性积雪的空间分布及年际变化特征[J], 冰川冻土, 2009,31(2): 301-310.] [3] Yao Tandong, Liu Shiyin, Pu Jianchen, et al . Recent recession of high Asian glaciers and their impacts on water resources in Northwest China[J]. Science in China ( Series D ), 2004, 34(6):535-543. [姚檀栋,刘时银,蒲健辰,等. 高亚洲冰川的近期退缩及其对西北水资源的影响[J]. 中国科学:D辑, 2004, 34(6): 535-543.] [4] Liu S, Ding Y, Shangguan D, et al . Glacier retreat as a result of climate warming and increased precipitation in the Tarim River Basin, Northwest China[J]. Annals of Glaciology ,2006, 43(1): 91-96. [5] Wang Genxu, Li Yuanshou,Wang Yibo, et al . Impacts of alpine ecosystem and climate changes on surface runoff in the headwaters of the Yangtze River[J]. Journal of Glaciology and Geocryology , 2007, 29(2): 159-168. [王根绪,李元寿,王一博,等.长江源区高寒生态与气候变化对河流径流过程的影响分析[J].冰川冻土,2007,29(2):159-168.] [6] Wu Mousong, Huang Jiesheng, Wu Jingwei, et al . Experimental study on evaporation from seasonally frozen soils under various water, solute and groundwater conditions in Inner Mongolia, China[J]. Journal of Hydrology , 2016, 535: 46-53. [7] Ala Musa, Liu Ya, Wang Anzhi, et al . Characteristics of soil freeze-thaw cycles and their effects on water enrichment in the rhizosphere[J]. Geoderma , 2016, 264: 132-139. [8] Immerzeel W W, Van Beek L P H, Bierkens M F P. Climate change will affect the Asian water towers[J]. Science , 2010,328:1 382-1 385. [9] Viviroli D, Dürr H H, Messerli B, et al . Mountains of the world, water towers for humanity: Typology, mapping, and global significance[J]. Water Resources Research ,2007,43(7),doi:10.1029/2006WR005653. [10] Li Shuxun, Cheng Guodong, Guo Dongxin.Numerical simulation of the future changes of thermal regime in the high temperature permafrost of Qinghai-Xizang Plateau under climate warming[J], Science in China ( Series D ), 1996, 26(4):343-347. [李述训,程国栋,郭东信.气候持续变暖条件下青藏高原多年冻土变化趋势数值模拟[J].中国科学:D辑,1996,26(4):343-347.] [11] Zhou Youwu, Guo Dongxin. Principal characteristics of permafrost in China[J]. Journal of Glaciology and Geocryology ,1982,4(1):1-21. [周幼吾,郭东信.我国多年冻土的主要特征[J].冰川冻土,1982,4(1):1-21.] [12] Xu Xuezu, He Ping, Zhang Jianming. Progresses in the studies of soil freezing and frost heaving[J]. Journal of Glaciology and Geocryology , 1997,19(3):280-283. [徐学祖, 何平,张健明.土体冻结和冻胀研究的新进展[J].冰川冻土,1997,19(3):280-283.] [13] Shi Chunlin,Yu Jingming,Jin Zhiqing. Numerical simulation of water and heat transfer during soil freezing and thawing in the situation of saturated soil[J]. Chinese Agrometeorology , 1998, 19(4):21-26. [石春林,虞静明,金之庆.饱和土壤冻融过程中水热迁移数值模拟[J].中国农业气象,1998,19(4):21-26.] [14] Ding Yongjian, Ye Baisheng, Liu Shiyin, et al . Hydrological monitoring of large-scale frozen soil on the Qinghai Xizang Plateau[J]. Chinese Science Bulletin , 2000,45(2): 208-214. [丁永建,叶柏生,刘时银,等.青藏高原大尺度冻土水文监测研究[J].科学通报,2000,45(2):208-214.] [15] Xu Xuezhu, Wang Jiacheng, Zhang Lixin.Geochryology Physics[M]. Beijing: Science Press, 2001. [徐学祖, 王家澄, 张立新. 冻土物理学[M]. 北京: 科学出版社, 2001.] [16] Yang Meixue, Yao Tandong, He Yuanqing. The role of soil moisture-energy distribution and melting-freezing processes on seasonal shift in Tibetan Plateau[J]. Journal of mountain sciences , 2002,20(5):553-558. [杨梅学,姚檀栋,何元庆.青藏高原土壤水热分布特征及冻融过程在季节转换中的作用[J].山地学报,2002,20(5):553-558.] [17] Iwata Y, Nemoto M, Hasegawa S, et al . Influence of rain, air temperature, and snow cover on subsequent spring-snowmelt infiltration into thin frozen soil layer in northern Japan[J]. Journal of Hydrology , 2011, 401(3): 165-176. [18] Iwata Y, Hirota T, Suzuki T, et al . Comparison of soil frost and thaw depths measured using frost tubes and other methods[J]. Cold Regions Science and Technology , 2012, 71:111-117. [19] Zhou Xiaohai, Zhou Jian. Wolfgang kinzelbach and fritz stauffer,simultaneous measurement of unfrozen water content and ice content in frozen soil using gamma ray attenuation and TDR[J]. Water Resource Research ,2014, 50(12): 9 630-9 655. [20] Butnor J R, Campbell J L, Shanley J B, et al . Measuring soil frost depth in forest ecosystems with ground penetrating radar[J]. Agricultural and Forest Meteorology ,2014,192:121-131. [21] He H, Dyck M F, Si B C, et al . Soil freezing-thawing characteristics and snowmelt infiltration in Cryalfsof Alberta, Canada[J]. Geoderma Regional , 2015, 5:198-208. [22] Cheng Guodong, Zhao Lin.The problems associated with permafrost in the development of the Qinghai-Xizang Plateau[J]. Quaternary Sciences , 2000, 20(6):521-531. [程国栋,赵林.青藏高原开发中的冻土问题[J].第四纪研究,2000,20(6):521-531.] [23] Walker D A, Jia G J, Epstein H E, et al , Vegetation-soil-thaw-depth relationships along a low-arctic bioclimate gradient, Alaska: Synthesis of information from the ATLAS studies[J]. Permafrost and Periglacial Processes , 2003, 14(2):103-123. [24] Wu Qingbai, Shen Yongping, Shi Bin. Relationship between frozen soil together with its water-heat process and ecological environment in the Tibetan Plateau[J]. Journal of Glaciology and Geocryology , 2003,25(3):250-255. [吴青柏,沈永平,施斌.青藏高原冻土及水热过程与寒区生态环境的关系[J].冰川冻土,2003,25(3):250-255.] [25] Wang Genxu, Zhang Yinsheng.Ecohydrologyin Cold Regions: Theory and Practice[M]. Beijing: Science Press, 2016. [王根绪,张寅生,等.寒区生态水文学理论与实践[M],北京:科学出版社,2016.] [26] Wifried H. Climate change and its impacts on glaciers and permafrost in the Alps[J]. AMBIO , 1998, 27(4): 258-265. [27] Shiyin L, Yong Z, Yingsong Z, et al . Estimation of glacier runoff and future trends in the Yangtze River source region, China[J]. Journal of Glaciology , 2009, 55(190): 353-362. [28] Muskett R R, Romanovsky V E. Groundwater storage changes in Arctic permafrost watersheds from GRACE and in situ measurements[J]. Environmental Research Letters , 2009, 4, doi:10.1088/1748-9326/4/4/045009. [29] Luthcke S B, Arendt A A, Rowlands D D, et al . Recent glacier mass changes in the Gulf of Alaska region from GRACE mascon solutions[J]. Journal of Glacial , 2008, 54(188): 767-777. [30] Zhou Youwu, Guo Dongxin, Qiu Guoqing, et al . Geocryology in China[M]. Beijing: Science Press, 2000. [周幼吾, 郭东信, 邱国庆,等. 中国冻土[M]. 北京: 科学出版社, 2000.] [31] Wang Jian, Shen Yongping, Lu Anxin, et al . Impact of climate change on snowmelt runoff in the mountainous regions of Northwest China[J]. Journal of Glaciology and Geocryology , 2001, 23(1):28-32. [王建,沈永平,鲁安新,等.气候变化对中国西北地区山区融雪径流的影响[J].冰川冻土,2001,23(1):28-32.] [32] Wang Genxu, Li Na, Hu Hongchang.Hydrologic effect of ecosystem responses to climatic change in the source regions of Yangtze River and Yellow River[J]. Advances in Climate Change Research , 2009, 5(4): 202-208. [王根绪,李娜,胡宏昌.气候变化对长江黄河源区生态系统的影响及其水文效应[J].气候变化研究进展,2009,5(4):202-208.] [33] Li Zongxing, Feng Qi, Wang Q J, et al . Contribution from frozen soil meltwater to runoff in an in-land river basin under water scarcity by isotopic tracing in northwestern China[J]. Global and Planetary Change , 2016, 136:41-51. [34] Cuo L, Zhang Y, Bohn T J, et al . Frozen soil degradation and its effects on surface hydrology in the northern Tibetan Plateau[J]. Journal of Geophysical Research : Atmospheres , 2015, 120(16): 8 276-8 298. [35] Cheng Q, Sun Y, Jones S B, et al . In situ measured and simulated seasonal freeze-thaw cycle: A 2-year comparative study between layered and homogeneous field soil profiles[J]. Journal of Hydrology , 2014, 519: 1 466-1 473. [36] Chen H, Nan Z, Zhao L, et al . Noah modelling of the permafrost distribution and characteristics in the west Kunlun area, Qinghai-Tibet Plateau, China[J]. Permafrost and Periglacial Processes , 2015, 26(2): 160-174. [37] Li Zongxing, Feng Qi, Wang Q J, et al . Contribution from frozen soil meltwater to runoff in an in-land river basin under water scarcity by isotopic tracing in northwestern China[J]. Global and Planetary Change , 2016, 136: 41-51. [38] Zhao Lin, Ding Yongjian, Liu Guangyue, et al . Estimates of the reserves of ground ice in permafrost regions on the Tibetan Plateau[J]. Journal of Glaciology and Geocryology , 2010,32(1):1-9. [赵林,丁永建,刘广岳,等.青藏高原多年冻土层中地下冰储量估算及评价[J].冰川冻土,2010,32(1):1-9.] [39] Metcalfe R A, Buttle J M. Soil partitioning and surface store controls on spring runoff from a boreal forest peat land basin in north-central Manitoba, Canada[J]. Hydrological Processes , 2001, 15: 2 305-2 324. [40] Yamazaki Y, Kubota J, Ohata T, et al . Seasonal changes in runoff characteristics on a permafrost watershed in the southern mountainous region of eastern Siberia[J]. Hydrological Processes , 2006, 20: 453-467. [41] Wang Genxu, Hu H, Li T. The influence of freeze-thaw cycles of active soil layer on surface runoff in a permafrost watershed[J]. Journal of Hydrology , 2009, 375:438-449. [42] Lin Ling, Liu Baojun. Memorandum on West Route of South to North Water Transfer Project[M]. Beijing: Economic Science Press, 2006. [林凌,刘宝珺.南水北调西线工程备忘录[M].北京:经济科学出版社,2006.] [43] Huber U M. Global Change and Mountain Regions[M]. Netherlands:Springer, 2005. [44] ONERC. Climate Change and Resulting Impacts in the Alps[R]. Paris: ONERC, 2008. [45] EEA. Regional Climate Change and Adaptation: The Alps Facing the Challenge of Changing Water Resources[R]. Denmark:European Environment Agency, 2009. [46] Ye Baisheng,Ding Yongjian,Liu Fengjing, et al . Responses of various sized alpine glaciers and runoff to climate change[J]. Journal of Glaciology , 2003, 49(164): 1-7. [47] Li Y, Li D, Yang S, et al . Characteristics of the precipitation over the eastern edge of the Tibetan Plateau[J]. Meteorology and Atmospheric Physics ,2010, 106(1/2): 49-56. [48] Blyth S, Groombridge B, Lysenko I, et al . Mountain Watch, Environmental Change and Sustainable Development in Mountains[R]. Cambridge:UNEP-WCMC, 2002. [49] UNDP. Human Development Report 2006[R]. UNDP, New York, 2006: 165-166. [50] Ye B, Yang D, Zhang Z, et al . Variation of hydrological regime with permafrost coverage over Lena Basin in Siberia[J]. Journal of Geophysical Research : Atmospheres , 2009, 114(D7), doi:10. 1029/2008JD010537. [51] Woo M K, Kane D L, Carey S K, et al . Progress in permafrost hydrology in the new millennium[J]. Permafrost and Periglacial Processes , 2008, 19(2): 237-254. [52] Li Zongxing, Feng Qi, Wang Q J. et al .Contribution from frozen soil meltwater to runoff in an in-land river basin under water scarcity by isotopic tracing in northwestern China[J]. Global and Planetary Change , 2016, 136: 41-51. [53] Muskett R R, Romanovsky V E. Groundwater storage changes in arctic permafrost watersheds from GRACE and in situ measurements[J]. Environmental Research Letters ,2009, 4, doi:10.1088/1748-9326/4/4/045009. [54] Weber M, Braun L, Mauser W, et al . Contribution of rain, snow-and icemelt in the upper Danube discharge today and in the future[J]. Geografia Fisica E Dinamica Quaternaria , 2010,33: 221-230. [55] Qin Dahe, Zhou Botao, Xiao Cunde. Progress in studies of cryospheric changes and their impacts on climate of China[J]. Acta Meteorogica Sinica ,2014, 72(5):869-879. [秦大河,周波涛,效存德.冰冻圈变化及其对中国气候的影响[J].气象学报, 2014, 72(5): 869-879.] [56] Ma Zhenfeng, Peng Jun, Gao Wenliang, et al . Climate variation of southwest China in recent 40 years[J]. Plateau Meteorology ,2006,25(4):633-642. [马振锋, 彭骏, 高文良,等. 近40年西南地区的气候变化事实[J]. 高原气象, 2006, 25(4): 633-642.] [57] Guo Donglin, Yang Meixue, Wang Huijun. Characteristics of land surface heat and water exchange under different soil freeze/thaw conditions over the central Tibetan Plateau[J]. Hydrological Processes ,2011, 25(16): 2 531-2 541, doi:10.1002/hyp.8025. [58] Zhao Y, Yu B, Yu G J, et al . Study on the water-heat coupled phenomena in thawing frozen soil around a buried oil pipeline[J]. Applied Thermal Engineering , 2014, 73(2): 1 477-1 488. [59] Liu Shiyin, Ding Yongjian, Li Jing, et al . Glaciers in response to recent climate warming in western China[J]. Quaternary Sciences , 2006, 26(5):762-771. [刘时银, 丁永建, 李晶, 等.中国西部冰川对近期气候变暖的响应[J].第四纪研究, 2006, 26(5): 762-771.] [60] Oerlemans J.Extracting a climate signal from 169 glacier records[J]. Science ,2005,308: 675-677, doi:10.1126/science.1107046. [61] Qin Dahe, Ding Yongjian. Cryospheric changes and their impacts:Present, trends and key issues[J]. Advances in Climate Change Research ,2009, 5(4): 187-195. [秦大河, 丁永建. 冰冻圈变化及其影响研究——现状、趋势及关键问题[J]. 气候变化研究进展, 2009, 5(4): 187-195.] [62] Qi Long. Review and prospect of research on disasters from snow,glaciers and debris flow[J]. Journal of Glaciology and Geocryology , 1998, 20(3):249-257. [祁龙. 冰川、积雪及泥石流灾害研究的回顾与设想[J].冰川冻土, 1998, 20(3): 249-257.] [63] Chen Xiaoqing,Cui Peng,Chen Binru, et al .050811 large-scale debris flow in Hailuo Valley and prevement counter measures[J]. Bulletin of Soil and Water Conservation ,2006,26(3):122-126. [陈晓清, 崔鹏, 陈斌如, 等.海螺沟 050811 特大泥石流灾害及减灾对策[J], 水土保持通报, 2006, 26(3): 122-126.] [64] Cheng Zunlan,Zhu Pingyi,Dang Chao, et al . Hazards of debris flow due to glacier-lake outburst in Southeastern Tibet[J]. Journal of Glaciology and Geocryology , 2008, 30(6): 954-959. [程尊兰, 朱平一, 党超, 等. 藏东南冰湖溃决泥石流灾害及其发展趋势[J], 冰川冻土, 2008, 30(6): 954-959.] [65] Liu Jiankang,Cheng Zunlan,Guo Fenfen. Analysis on risk of glacier-lake outburst in Southeastern Tibet[J]. Journal of Catastrophology , 2011, 26(2): 45-49. [刘建康, 程尊兰, 郭芬芬, 等.藏东南典型冰湖溃决危险性分析[J].灾害学, 2011, 26(2): 45-49.] [66] Cheng Genwei, Wang Xiaodan, et al . The Hydrological Features and their Dynamic Simulation in Tibet Plateau[M]. Beijing: Science Press, 2016. [程根伟,王小丹,等.西藏高原水文特征及其数学模拟[M].北京:科学出版社,2016.] [67] Wu S H, Jansson P E, Zhang X Y. Modelling temperature, moisture and surface heat balance in bare soil under seasonal frost conditions in China[J]. European Journal of Soil Science , 2011, 62(6): 780-796. [68] Bronfenbrener L, Bronfenbrener R. A temperature behavior of frozen soils: Field experiments and numerical solution[J]. Cold Regions Science and Technology , 2012, 79: 84-91. [69] Koren V, Smith M, Cui Z. Physically-based modifications to the sacramento soil moisture accounting model. Part A: Modeling the effects of frozen ground on the runoff generation process[J]. Journal of Hydrology , 2014, 519: 3 475-3 491. [70] Kozlowski T. A simple method of obtaining the soil freezing point depression, the unfrozen water content and the pore size distribution curves from the DSC peak maximum temperature[J]. Cold Regions Science and Technology , 2016, 122: 18-25. [71] Kang Ersi, Cheng Guodong, Lan Yongchao, et al . Runoff change trend model in response to climate change in northwest arid inland basin[J]. Science in China ( Series D ), 1999,29(1): 47-54. [康尔泗,程国栋,蓝永超,等.西北干旱区内陆河流域出山径流变化趋势对气候变化响应模型[J],中国科学:D辑,1999, 29(1):47-54.] [72] Ding Yongjian, Ye Baisheng, Liu Shiyin, et al . Monitoring of frozen soil hydrology in macro-scale in the Qinghai-Xizang Plateau[J]. Chinese Science Bulletin ,2000,45(12):1 143-1 149. [73] Yang Zhenniang, Zeng Qunzhu. Glacier Hydrology[M]. Chongqing: Chongqing Press, 2001. [杨针娘,曾群柱.冰川水文学[M].重庆:重庆出版社,2001.] [74] Zhang Yanwu,Lü Shihua,Li Dongliang, et al . Numerical simulation of freezing soil process on Qinghai-Xizang Plateau in early winter[J]. Plateau Meteorology , 2003, 22(5): 471-477. [张艳武, 吕世华, 李栋梁,等.初冬青藏高原冻土过程的数值模拟[J].高原气象,2003,22(5):471-477.] [75] Chen Rensheng, Lü Shihua, Kang Ersi. A Distributed Water-Heat Coupled (DWHC)model for mountainous watershed of an inland river basin(Ⅰ):Model structure and equations[J]. Advances in Earth Science ,2006, 21(8): 806-818. [陈仁升,吕世华,康尔泗,等.内陆河高寒山区流域分布式水热耦合模型(Ⅰ): 模型原理[J].地球科学进展,2006, 21(8):806-818.] [76] Yang Yong, Chen Rensheng, Ye Baisheng, et al . Heat and water transfer processes on the typical underliing surfaces of forozen soil in cold regions(II): Water and heat transfer[J]. Journal of Glaciology and Geocryology , 2013, 35(6): 1 545-1 554. [阳勇,陈仁升,叶柏生,等.寒区典型下垫面冻土水热过程对比研究(I):模型对比[J].冰川冻土,2013,35(6):1 545-1 554.] [77] Hu Hongchang, Wang Genxu, Wang Yibo, et al . Response of soil heat-water processes to vegetation cover on the typical permafrost and seasonally frozen soil in the headwaters of the Yangtze and Yellow Rivers[J]. Chinese Science Bulletin , 2009, 54(7), 1 225-1 233. [胡宏昌, 王根绪, 王一博, 等. 江河源区典型多年冻土和季节冻土区水热过程对植被盖度的响应[J].科学通报,2009,54(2): 242-250.] [78] Wu Xiaoling,Xiang Xiaohua,Wang Chuanhai, et al . Numerical modeling for voupled dnowmelt and grozen soil in seasonally frozen foil region[J]. Hydrology , 2012, 32(5):12-16. [吴晓玲,向小华,王船海,等.季节冻土区融雪冻土水热耦合模型研究[J].水文,2012,32(5):12-16.] [79] Feng Ming, Li Dongqing.A model of migration potential for moisture migration during soil freezing[J]. Cold Regions Science and Technology , 2016, 124: 87-94. [80] Wang Zilong, Fu Qiang, Jiang Qiuxiang, et al .Numerical simulation of water-heat coupled movements in seasonal frozen soil[J]. Mathematical and Computer Modelling , 2011, 54(3): 970-975. [81] Lan Yongchao,Ding Yongjian,Kang Ersi, et al . Change trends of the annual tunoff in the upper Yellow River and time series Markov-Chain forecast model[J]. Journal of Glaciology and Geocryology , 2003, 25(3):321-326. [蓝永超,丁永建,康尔泗,等. 黄河上游径流长期变化及趋势预测模型[J].冰川冻土,2003,25(3):321-326.] [82] Zhang Fei, Liu Jingshi, Gong Tongliang. Winter runoff in a typical alpine permafrost region Tibet Himalayas[J]. Advances in Earth Science , 2006,21(16): 1 333-1 338. [张菲,刘景时,巩同梁. 喜马拉雅山北坡典型高山冻土区冬季径流过程[J].地球科学进展,2006,21(16):1 333-1 338.] [83] Wang Genxu, Liu Guangsheng, Liu Lin’an. Spatial scale effect on seasonal stream flows in permafrost catchments on the Qinghai-Tibet Plateau[J]. Hydrological Processes , 2012, 26(7): 973-984. |