引文
[1]Chen W M D,Tanaka H,Huang H J,et al.Fluid infiltration associated with seismic faulting:Examining chemical and mineralogical compositions of fault rocks from the active Chelungpu fault[J].Tectonophysics,2007,443(3/4):243-254
[2]Caine J S,Bruhn R L,Forster C B.Internal structure,fault rocks,and inferences regarding deformation,fluid flow,and mineralization in theseismogenic Stillwater normal fault,Dixie Valley,Nevada[J].Journal of Structural Geology,2010,32(11):1576-1589
[3]Kuo L W,Song S R,Yeh E C,et al.Clay mineral anomalies in the fault zone of the Chelungpu Fault,Taiwan,and their implications[J].Geophysical Research Letters,2009,36,L18306,DOI:10.1029/2009GL039269
[4]Wang H,Li H,Si J,et al.Internal structure of the Wenchuan earthquake fault zone,revealed by surface outcrop and WFSD-1 drilling core investigation[J].Tectonophysics,2014,619-620:101-114,DOI:10.1016/j.tecto.2013.08.029
[5]Si J,Li H,Kuo L,et al.Clay mineral anomalies in the Yingxiu-Beichuan fault zone from the WFSD-1 drilling core and its implication for the faulting mechanism during the 2008 Wenchuan earthquake(Mw 7.9)[J].Tectonophysics,2014,619-620:171-178,DOI:10.1016/j.tecto.2013.09.022
[6]Nemcok M,Henk A,Gayer R A,et al.Strike-slip fault bridge fluid pumping mechanism:insights from field-based palaeostress analysis and numerical modelling[J].Journal of Structural Geology,2002,24(12):1885-1902
[7]Miller S A,Collettini C,Chiaraluce L,et al.Aftershocks driven by a high-pressure CO2source at depth[J].Nature,2004,427(6976):724-727
[8]Liu Y,Chen T,Xie F,et al.Analysis of fluid induced aftershocks following the 2008 Wenchuan Ms 8.0 earthquake[J].Tectonophysics,2014,619-620:149-158,DOI:10.1016/j.tecto.2013.09.010
[9]Ishikawa T,Tanimizu M,Nagaishi K,et al.Coseismic fluid-rock interactions at high temperatures in the Chelungpu fault[J].Nature Geoscience,2008,1(10):679-683
[10]刘耀炜,杨多兴,谢富仁,等.汶川地震断裂带科学钻探WSFD-1井垂直汞剖面特征[C].中国地球物理-中国地球物理学会第二十六届年会,中国地震学会第十三次学术大会论文集.北京:地震出版社,2010:135
[11]Zhang L,Liu Y,Guo L,et al.Isotope geochemistry of mercury and its relation to earthquake in the Wenchuan Earthquake Fault Scientific Drilling Project Hole-1(WFSD-1)[J].Tectonophysics,2014,619-620:79-85,DOI:10.1016/j.tecto.2013.08.025
[12]陈燕,石绍先,刘强.云南水汞群体非均匀度异常与成组强震活动关系[J].西北地震学报,2007,29(2):161-164
[13]孟广魁,何开明.氡、汞测量用于断裂活动性和分段的研究[J].中国地震,1997,13(1):43-51
[14]王传远,杜建国,周晓成.三河-平谷活断层汞地球化学特征[J].地震,2004,24(1):132-136
[15]Yin R,Feng X,Shi W.Application of the stable-isotope system to the study of sources and fate of Hg in the environment:A review[J].Applied Geochemistry,2010,25(10):1467-1477
[16]刘耀炜.我国地震地下流体科学40年探索历程回顾[J].中国地震,2006,22(3):222-235
[17]王翠萍,闫海鱼,刘鸿雁,等.使用Lumex测汞仪快速测定固体样品中总汞的方法[J].地球与环境,2010,38(3):378-382
[18]付学吾,冯新斌,张辉.贵阳市大气气态总汞:Lumex RA-915AM与Tekran 2537A的对比观测[J].生态学杂志,2011,30(5):939-943
[19]康春丽,杜建国.汞的地球化学特征及其映震效能[J].地质地球化学,1999,27(1):79-84
[20]Jin Y,Wu Z,Shen C,et al.Earthquake prediction through the observation and measurement of mercury content variation in water[J].Journal of Geochemical Exploration,1989,33(1):195-202
[21]Varshal G M,Sobolev G A,Barsukov V L,et al.Separation of volatile components from rocks under mechanical loading as the source of hydrogeochemical anomalies preceding earthquakes[J].Pure and Applied Geophysics,1984,122(2/4):463-477
[22]梁收运,谌文武,韩文峰,等.断层泥吸附气体特征与断层活动性关系初步研究[J].兰州大学学报(自然科学版),2006,42(1):23-26
[23]许志琴,李海兵,吴忠良.汶川地震和科学钻探[J].地质学报,2008,82(12):1613-1622
[24]Li H,Wang H,Xu Z,et al.Characteristics of the fault-related rocks,fault zones and the principal slip zone in the Wenchuan Earthquake Fault Scientific Drilling Project Hole-1(WFSD-1)[J].Tectonophysics,2012,584:23-42
[25]程鉴基.汞断层气异常与活断层关系浅析[J].地壳形变与地震,1997,17(2):97-100
[26]迟清华.汞在地壳、岩石和疏松沉积物中的分布[J].地球化学,2004,33(6):641-648
[27]刘英俊,曹励明,李兆麟,等.元素地球化学[M].北京:科学出版社,1984:338
[28]王基华,王亮,孙风民,等.隐伏断层性状的汞地球化学标志研究[J].中国地震,1994,10(2):112-122
[29]金仰芬,伍宗华,黄宏库,等.汞量测量监测预报地震的前景[J].地震,1987,7(5):6-11
[30]魏家珍,申春生.汞测量用于地震预报研究实例剖析[J].物探与化探,1992,16(3):216-222
[31]Fursov V Z,Vol'fson N B,Khvalovskiy A G.Results of a study of mercury vapor in the Tashkent earthquake zone[J].Dokl.Akad.Nauk SSSR,1968,179:208-210
[32]Zhou X,Du J,Chen Z,et al.Geochemistry of soil gas in the seismic fault zone produced by the Wenchuan Ms 8.0 earthquake,southwesternChina[J].Geochemical Transactions,2010,11(1):5,DOI:10.1186/1467-4866-11-5
[33]李营,杜建国,王富宽,等.延怀盆地土壤气体地球化学特征[J].地震学报,2009,31(1):82-91
[34]Klusman R W,Jaacks J A.Environmental influences upon mercury,radon and helium concentrations in soil gases at a site near Denver,Colorado[J].Journal of Geochemical Exploration,1987,27(3):259-280
[35]陶淑芬,王长岭,刘耀炜,等.土壤气干扰因素初步实验研究[J].西北地震学报,1992,14(1):92-95
[36]车用太,鱼金子.地震地下流体学[M].北京:气象出版社,2006:320-321
[37]Bagnato E,Aiuppa A,Parello F,et al.Mercury concentration,speciation and budget in volcanic aquifers:Italy and Guadeloupe(Lesser Antilles)[J].Journal of Volcanology and Geothermal Research,2009,179(1):96-106
[38]Johannesson K H,Neumann K.Geochemical cycling of mercury in a deep,confined aquifer:Insights from biogeochemical reactive transport modeling[J].Geochimica et Cosmochimica Acta,2013,106:25-43
[39]Wiederhold J G,Cramer C J,Daniel K,et al.Equilibrium mercury isotope fractionation between dissolved Hg(Ⅱ)species and thiol-bound Hg[J].Environmental Science&Technology,2010,44(11):4191-4197
[40]Zheng W,Foucher D,Hintelmann H.Mercury isotope fractionation during volatilization of Hg(0)from solution into the gas phase[J].Journal of Analytical Atomic Spectrometry,2007,22(9):1097-1104
[41]Estrade N,Carignan J,Sonke J E,et al.Mercury isotope fractionation during liquid-vapor evaporation experiments[J].Geochimica et Cosmochimica Acta,2009,73(10):2693-2711
[42]Bergquist B A,Blum J D.Mass-dependent and-independent fractionation of Hg isotopes by photoreduction in aquatic systems[J].Science,2007,318(5849):417-420
[43]Kritee K,Blum J D,Johnson M W,et al.Mercury stable isotope fractionation during reduction of Hg(Ⅱ)to Hg(0)by mercury resistant microorganisms[J].Environmental Science&Technology,2007,41(6):1889-1895
[44]RodríGuez-GonzáLez P,Epov V N,Bridou R,et al.Species-specific stable isotope fractionation of mercury during Hg(Ⅱ)methylation by an anaerobic bacteria(Desulfobulbus propionicus)under dark conditions[J].Environmental science&technology,2009,43(24):9183-9188
[45]阴永光,李雁宾,蔡勇,等.汞的环境光化学[J].环境化学,2011,30(1):84-91
[46]Smith C N,Kesler S E,Klaue B,et al.Mercury isotope fractionation in fossil hydrothermal systems[J].Geology,2005,33(10):825-828
[47]Smith C N,Kesler S E,Blum J D,et al.Isotope geochemistry of mercury in source rocks,mineral deposits and spring deposits of the California Coast Ranges,USA[J].Earth and Planetary Science Letters,2008,269(3):399-407
[48]Zambardi T,Sonke J,Toutain J,et al.Mercury emissions and stable isotopic compositions at Vulcano Island(Italy)[J].Earth and Planetary Science Letters,2009,277(1):236-243
[49]Sherman L,Blum J,Nordstrom D,et al.Mercury isotopic composition of hydrothermal systems in the Yellowstone Plateau volcanic field and Guaymas Basin sea-floor rift[J].Earth and Planetary Science Letters,2009,279(1):86-96
[50]尹润生,冯新斌,Delphine F,等.多接收电感耦合等离子体质谱法高精密度测定汞同位素组成[J].分析化学,2010,38(7):929-934
[51]Feng X,Foucher D,Hintelmann H,et al.Tracing mercury contamination sources in sediments using mercury isotope compositions[J].Environmental science&technology,2010,44(9):3363-3368
[52]侍文芳,冯新斌,张干,等.150年以来红原雨养型泥炭中高分辨的汞同位素沉积记录[J].科学通报,2011,56(8):583-588
[53]Foucher D,Hintelmann H.Tracing mercury contamination from the Idrija mining region(Slovenia)to the Gulf of Trieste using Hg isotope ratio measurements[J].Environmental Science&Technology,2008,43(1):33-39
[54]Bergquist B A,Blum J D.The odds and evens of mercury isotopes:Applications of mass-dependent and mass-independent isotope fractionation[J].Elements,2009,5(6):353-357
[55]Estrade N,Carignan J,Donard O F.Tracing and quantifying anthropogenic mercury sources in soils of northern France using isotopic signatures[J].Environmental Science&Technology,2011,45(4):1235-1242
[56]Liu J,Feng X,Yin R,et al.Mercury distributions and mercury isotope signatures in sediments of Dongjiang,the Pearl River Delta,China[J].Chemical Geology,2011,287(1):81-89
[57]Yin R,Feng X,Wang J,et al.Mercury speciation and mercury isotope fractionation during ore roasting process and their implication to source identification of downstream sediment in the Wanshan mercury mining area,SW China[J].Chemical Geology,2013,336:72-79
[58]Yin R,Feng X,Wang J,et al.Mercury isotope variations between bioavailable mercury fractions and total mercury in mercury contaminated soil in Wanshan Mercury Mine,SW China[J].Chemical Geology,2013,336:80-86
[59]Yin R,Feng X,Meng B.Stable mercury isotope variation in rice plants(Oryza sativa L.)from the Wanshan mercury mining district,SW China[J].Environmental Science&Technology,2013,47(5):2238-2245
[60]Yin R,Feng X,Li X,et al.Trends and advances in mercury stable isotopes as a geochemical tracer[J].Trends in Environmental Analytical Chemistry,2014,2:1-10
[61]王柱红,陈玖斌,冯新斌,等.Hg稳定同位素地球化学研究进展[J].地球与环境,2012,40(004):599-610
[62]Blum J D,Sherman L S,Johnson M W.Mercury isotopes in earth and environmental sciences[J].Annual Review of Earth and Planetary Sciences,2014,42:249-269
[63]Nesbitt B E,Muehlenbachs K,Murowchick J B.Genetic implications of stable isotope characteristics of mesothermal Au deposits and related Sb and Hg deposits in the Canadian Cordillera[J].Economic Geology,1989,84(6):1489-1506
[64]中国地震局监测预报司.地震地下流体理论基础与观测技术[M].北京:地震出版社,2007:156
[65]King C Y.Gas geochemistry applied to earthquake prediction:An overview[J].Journal of Geophysical Research,1986,91(B12):12269-12281
[66]魏家珍,申春生.首都圈地区汞测量典型震例剖析及其映震效能评价[J].地震,1994,(3):44-49
[67]张炜,申春生,邢玉安,等.地震短临异常新指标的探索——汞浓度探测[J].中国地震,1989,5(4):13-19
[68]魏柏林,薛佳谋,李富光,等.从测定壤中的气汞量来研究活断层[J].地震地质,1988,10(2):88-92
[69]张建伟,赵全升,郭秀岩,等.聊城-兰考断裂及其土壤汞、氡气异常[J].中国地质,2010,37(5):1419-1425
[70]刘菁华,王祝文,刘树田,等.城市活动断裂带的土壤氡、汞气评价方法[J].吉林大学学报(地球科学版),2006,36(2):295-304
[71]刘树田,邓金宪.活动断裂带的壤中气汞量测量研究[J].地质论评,1998,44(5):547-552
[72]张慧,张新基,苏鹤军,等.金城关活动断裂带土壤气氡、汞地球化学特征[J].西北地震学报,2005,27(2):150-153
[73]Wang G,Liu C,Wang J,et al.The use of soil mercury and radon gas surveys to assist the detection of concealed faults in Fuzhou City,China[J].Environmental Geology,2006,51(1):83-90
[74]陈华静,申春生,来淑琴.水汞测量过程中干扰因素的探讨[J].地震,1999,19(3):291-296
[75]陈玉红,米健秋,张兰.高效液相色谱-电感耦合等离子体质谱联用测定环境水样中的二价汞、甲基汞、乙基汞与苯基汞[J].环境化学,2011,30(4):893-896
[76]王梅,龙军标,杨冰仪,等.微波消解-原子荧光法测定染毒小鼠体内汞的分布[J].环境化学,2013,32(5):893-897
[77]孙阳昭,陈扬,蓝虹,等.中国汞污染的来源、成因及控制技术路径分析[J].环境化学,2013,32(6):937-942