[1] BHATTACHARYA S K,SARKAR A,LIANG M C.Vapor Isotope Probing of Typhoons Invading the Taiwan Region in 2016[J].Journal of Geophysical Research:Atmospheres,2022,127(21):e2022JD036578.
[2] KNUTSON T R,MCBRIDE J L,CHAN J,et al.Tro-pical Cyclones and Climate Change[J].Nature Geoscience,2010,3(3):157-163.
[3] EMANUEL K A.Downscaling CMIP5 Climate Mo-dels Shows Increased Tropical Cyclone Activity over the 21st Century[J].PNAS,2013,110(30):12219-12224.
[4] BHATIA K T,VECCHI G A,KNUTSON T R,et al.Recent Increases in Tropical Cyclone Intensification Rates[J].Nature Communications,2019,10:635.
[5] WEBSTER P J,HOLLAND G J,CURRY J A,et al.Changes in Tropical Cyclone Number,Duration,and Intensity in a Warming Environment[J].Science,2005,309:1844-1846.
[6] BENDER M A,KNUTSON T R,TULEYA R E,et al.Modeled Impact of Anthropogenic Warming on the Frequency of Intense Atlantic Hurricanes[J].Science,2010,327:454-458.
[7] CHAND S S,WALSH K J E,CAMARGO S J,et al.Declining Tropical Cyclone Frequency Under Global Warming[J].Nature Climate Change,2022,12(7):655-661.
[8] LANDSEA C W,HARPER B A,HOARAU K,et al.Can We Detect Trends in Extreme Tropical Cyclones?[J].Science,2006,313:452-454.
[9] YANG Y,PIPER D J W,XU M,et al.Northwestern Pacific Tropical Cyclone Activity Enhanced by Increased Asian Dust Emissions During the Little Ice Age[J].Nature Communications,2022,13:1712.
[10] LIU K B,范代读.全球变暖是否导致台风增强:古风暴学研究进展与启示[J].科学通报,2008,53(13):1489-1502.
LIU K B,FAN Dai-du.Whether Global Warming Leads to Enhanced Typhoons:Progress and Insights of Paleotempestology Research[J].Chinese Science Bulletin,2008,53(13):1489-1502.
[11] FRAPPIER A B,SAHAGIAN D,CARPENTER S J,et al.Stalagmite Stable Isotope Record of Recent Tro-pical Cyclone Events[J].Geology,2007,35(2):111-114.
[12] LI Z H,LABBÉ N,DRIESE S G,et al.Micro-scale Analysis of Tree-ring δ18O and δ13C on α-cellulose Spline Reveals High-resolution Intra-annual Climate Variability and Tropical Cyclone Activity[J].Chemical Geology,2011,284(1/2):138-147.
[13] DENNISTON R F,UMMENHOFER C C,EMANUEL K,et al.Sensitivity of Northwest Australian Tropical Cyclone Activity to ITCZ Migration Since 500 CE[J].Science Advances,2023,9(2):eadd9832.
[14] 马 乐,肖海燕,张 鑫,等.福建仙云洞石笋记录的Termination I事件缓变特征[J].地球科学与环境学报,2019,41(5):604-612.
MA Le,XIAO Hai-yan,ZHANG Xin,et al.Gradual Changes of the Termination I Inferred from Stalagmite Records in Xianyun Cave of Fujian,China[J].Journal of Earth Sciences and Environment,2019,41(5):604-612.
[15] 郑林晔,谌 芸,冯 恬,等.登陆华东台风降水分布特征[J].干旱气象,2022,40(3):424-435.
ZHENG Lin-ye,CHEN Yun,FENG Tian,et al.Precipitation Characteristics of Typhoons Landfall in Ea-st China[J].Journal of Arid Meteorology,2022,40(3):424-435.
[16] TANG Y,PANG H,ZHANG W,et al.Effects of Changes in Moisture Source and the Upstream Rainout on Stable Isotopes in Precipitation:A Case Study in Nanjing,Eastern China[J].Hydrology and Earth System Sciences,2015,19(10):4293-4306.
[17] GOU J F,QU S M,GUAN H D,et al.Relationship Between Precipitation Isotopic Compositions and Synoptic Atmospheric Circulation Patterns in the Lower Reach of the Yangtze River[J].Journal of Hydrology,2022,605:127289.
[18] 王海平,董 林,许映龙,等.台风“烟花”的主要特点和路径预报难点分析[J].海洋气象学报,2022,42(1):83-91.
WANG Hai-ping,DONG Lin,XU Ying-long,et al.Analysis on Main Characteristics of Typhoon In-Fa and Difficulties in Its Track Forecast[J].Journal of Marine Meteorology,2022,42(1):83-91.
[19] YANG S N,CHEN B Y,ZHANG F H,et al.Characteristics and Causes of Extremely Persistent Heavy Rainfall of Tropical Cyclone In-Fa(2021)[J].Atmosphere,2022,13(3):398.
[20] 唐 飞,陈凤娇,诸葛小勇,等.利用卫星遥感资料分析台风“烟花”(202106)的影响过程[J].大气科学学报,2021,44(5):703-716.
TANG Fei,CHEN Feng-jiao,ZHUGE Xiao-yong,et al.Analysis of Influence Process of Typhoon In-Fa(202106)Based on Satellite Remote Sensing Data[J].Transactions of Atmospheric Sciences,2021,44(5):703-716.
[21] NIE Y B,SUN J Q.Moisture Sources and Transport for Extreme Precipitation over Henan in July 2021[J].Geophysical Research Letters,2022,49(4):e2021GL097446.
[22] 孙晓双,崔梦月,洪 晖,等.台风“灿鸿”期间中国东部沿海城市降水中稳定同位素的变化及影响因素[J].热带地理,2018,38(5):651-659.
SUN Xiao-shuang,CUI Meng-yue,HONG Hui,et al.Change and Influencing Factors of δ18O in the Precipitation of Typhoon “Chan-Hom” at Eastern Coastal Cities in China[J].Tropical Geography,2018,38(5):651-659.
[23] XU T,SUN X S,HONG H,et al.Stable Isotope Ratios of Typhoon Rains in Fuzhou,Southeast China,During 2013-2017[J].Journal of Hydrology,2019,570:445-453.
[24] 杨云月,许 涛,罗翠榆,等.典型厄尔尼诺期间台风降水δ18O变化分析:以2018年22号台风“山竹”为例[J].热带海洋学报,2020,39(4):34-41.
YANG Yun-yue,XU Tao,LUO Cui-yu,et al.Analysis on the Variation of Typhoon Precipitation δ18O During Typical El Niño Event:A Case Study of Typhoon Mangkhut(2018)[J].Journal of Tropical Oceanography,2020,39(4):34-41.
[25] 蔡健榕,许 涛,杨云月,等.台风“玛莉亚”期间福州、将乐降水δ18O变化特征及影响因素[J].地球环境学报,2021,12(1):93-103.
CAI Jian-rong,XU Tao,YANG Yun-yue,et al.The Characteristics and Influence Factors of Typhoon “Maria” Induced Rainfall δ18O at Fuzhou and Jiangle[J].Journal of Earth Environment,2021,12(1):93-103.
[26] JACKISCH D,YEO B X,SWITZER A D,et al.Precipitation Stable Isotopic Signatures of Tropical Cyclones in Metropolitan Manila,Philippines,Show Significant Negative Isotopic Excursions[J].Natural Hazards and Earth System Sciences,2022,22(1):213-226.
[27] SUN C J,TIAN L J,SHANAHAN T M,et al.Isotopic Variability in Tropical Cyclone Precipitation Is Controlled by Rayleigh Distillation and Cloud Micro-physics[J].Communications Earth & Environment,2022,3(1):50.
[28] YANG Y Y,JIANG X Y,CAI J R,et al.Variations of Stable Isotope in Typhoon Lupit(2021)Rainfall and Its Response to Upstream Convective Processes[J].Hydrological Processes,2023,37(3):e14851.
[29] LAWRENCE R J,GEDZELMAN D S.Low Stable Isotope Ratios of Tropical Cyclone Rains[J].Geophysical Research Letters,1996,23(5):527-530.
[30] FUDEYASU H,ICHIYANAGI K,SUGIMOTO A,et al.Isotope Ratios of Precipitation and Water Vapor Observed in Typhoon Shanshan[J].Journal of Geophysical Research:Atmospheres,2008,113(D12):D12113.
[31] TREMOY G,VIMEUX F,SOUMANA S,et al.Clustering Mesoscale Convective Systems with Laser-ba-sed Water Vapor δ18O Monitoring in Niamey(Niger)[J].Journal of Geophysical Research:Atmospheres,2014,119(9):5079-5103.
[32] MASSON-DELMOTTE V,JOUZEL J,LANDAIS A,et al.GRIP Deuterium Excess Reveals Rapid and Orbital-scale Changes in Greenland Moisture Origin[J].Science,2005,309:118-121.
[33] GUAN H D,ZHANG X P,SKRZYPEK G,et al.Deuterium Excess Variations of Rainfall Events in a Coastal Area of South Australia and Its Relationship with Synoptic Weather Systems and Atmospheric Moisture Sources[J].Journal of Geophysical Research:Atmospheres,2013,118(2):1123-1138.
[34] CRAIG H.Isotopic Variations in Meteoric Waters[J].Science,1961,133:1702-1703.
[35] PENG H D,MAYER B,HARRIS S,et al.The Influence of Below-cloud Secondary Effects on the Stable Isotope Composition of Hydrogen and Oxygen in Precipitation at Calgary,Alberta,Canada[J].Tellus Series B:Chemical and Physical Meteorology,2007,59(4):698-704.
[36] RISI C,BONY S,VIMEUX F,et al.What Controls the Isotopic Composition of the African Monsoon Precipitation?Insights from Event-based Precipitation Collected During the 2006 Amma Field Campaign[J].Geophysical Research Letters,2008,35(24):2008GL-035920.
[37] RISI C,BONY S,VIMEUX F,et al.Evolution of the Stable Water Isotopic Composition of the Rain Sampled Along Sahelian Squall Lines[J].Quarterly Journal of the Royal Meteorological Society,2010,136(S1):227-242.
[38] FIELD R D,JONES D B A,BROWN D P.Effects of Postcondensation Exchange on the Isotopic Composition of Water in the Atmosphere[J].Journal of Geophysical Research:Atmosphere,2010,115(D24):D24-305.
[39] LEKSHMY P R,MIDHUN M,RAMESH R,et al.δ18O Depletion in Monsoon Rain Relates to Large Sca-le Organized Convection Rather Than the Amount of Rainfall[J].Scientific Reports,2014,4:5661.
[40] LACOUR J L,RISI C,WORDEN J,et al.Importance of Depth and Intensity of Convection on the Isotopic Composition of Water Vapor as Seen from IASI and TES δD Observations[J].Earth and Planetary Science Letters,2018,481:387-394.
[41] WANG G Y,LAN H M,LIU Z F.Stable Isotope Record of Super Typhoon Lekima(2019)[J].Atmosphe-ric Research,2021,264:105822.
[42] VIMEUX F,TREMOY G,RISI C,et al.A Strong Control of the South American Seesaw on the Intra-seasonal Variability of the Isotopic Composition of Precipitation in the Bolivian Andes[J].Earth and Planetary Science Letters,2011,307(1/2):47-58.
[43] KURITA N.Water Isotopic Variability in Response to Mesoscale Convective System over the Tropical Ocean[J].Journal of Geophysical Research:Atmospheres,2013,118(18):10376-310390.
[44] CAI Z Y,TIAN L D,BOWEN G J.ENSO Variability Reflected in Precipitation Oxygen Isotopes Across the Asian Summer Monsoon Region[J].Earth and Planetary Science Letters,2017,475:25-33.
[45] ZHAN Z J,PANG H X,WU S Y,et al.Determining Key Upstream Convection and Rainout Zones Affecting δ18O in Water Vapor and Precipitation Based on 10-year Continuous Observations in the East Asian Monsoon Region[J].Earth and Planetary Science Letters,2023,601:117912.
[46] QIU W Y,YANG Y Y,JIANG X Y,et al.Oxygen Isotope Variability in Precipitation,Dripwater,and Modern Calcite Responding to ENSO Based on 11 Years' Monitoring in Yuhua Cave,Southeast China[J].Journal of Hydrology,2023,624:129937.
[47] COLE J E,RIND D,WEBB R S,et al.Climatic Controls on Interannual Variability of Precipitation δ18O:Simulated Influence of Temperature,Precipitation Amount,and Vapor Source Region[J].Journal of Geophysical Research:Atmospheres,1999,104(D12):14223-14235.
[48] VUILLE M,BRADLEY R S,WERNER M,et al.Mo-deling δ18O in Precipitation over the Tropical Americas:1.Interannual Variability and Climatic Controls[J].Journal of Geophysical Research:Atmospheres,2003,108(D6):2001JD002038.
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SHEN Hua-dong,YU Ge.Simulation Study on Hydrological Response of Water Quantity to Climate Change in Zigetang Lake of Tibetan Plateau During the Past 50 Years[J].Journal of Earth Sciences and Environment,2011,33(02):282.
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