[1] Currie L A.The remarkable metrological history of radiocarbon dating[J].Journal of Research of the National Institute of Standards and Technology,2004,109:185-217.
[2] Hajdas I,Lowe D J,Newnham R M,et al.Timing of the late-glacial climate reversal in the southern hemisphere using high-resolution radiocarbon chronology for Kaipo bog,New Zealand[J].Quaternary Research,2006,65(2):340-345.
[3] Harkness D D,Walton A.Further investigations of transfer of bomb 14C to man[J].Nature,1972,240(5379):302-303.
[4] Levin I,Kromer B.The tropospheric 14CO2 level in mid-latitudes of the northern hemisphere (1959-2003)[J].Radiocarbon,2004,46(3):1261-72.
[5] 李育,周雪花,李卓仑,等.潴野泽沉积物有机地球化学指标与花粉组合的关系及其对环境变化的响应[J].中国沙漠,2013,33(1):87-93.
[6] 薛积彬,钟巍,赵引娟,等.东疆北部全新世气候不稳定性的湖泊沉积记录[J].中国沙漠,2008,28(4):648-656.
[7] 刘宇航,夏敦胜,金明,等.阿拉善地区湖泊岩芯磁性特征记录的全新世环境变化[J].中国沙漠,2012,32(4):929-937.
[8] Christine H,Luiz C P,Andreas L,et al.Development of accurate and reliable 14C chronologies for loess deposits:application to the loess sequence of nussloch (Rhine valley,Germany)[J].Radiocarbon,2001,43(2B):611-618.
[9] Olaaon I U.Radiocarbon dating history:early days,questions,and problems met[J].Radiocarbon,2009,51:1-43.
[10] Deevey E S,Gross M S,Huntchinson G E,et al.The natural 14C contents of materials from hard-water lakes[J].Proceeding of the National Academy of Sciences of the United States of America,1954,40:285-288.
[11] Geyh M A,Merkt J,Muller H.Sediment,Pollen,and Isotopenanalysen an jahreszeitlich geschichteten Ablagerungen im zentralen Teil des Schleinsees[J].Archiv Hydrobiologie,1971,69:366-399.
[12] Geyh M A,Schoeeerer U,Grosjean M.Temporal changes of the 14C reservoir effect in lakes[J].Radiocarbon,1998,40:921-932.
[13] Geyh M A,Grosjean M,Nunez L,et al.Radiocarbon reservoir effect and the timing of the Late-Glacial/Early Holocene Humid Phase in the Atacama Desert (Northern Chile)[J].Quaternary Research,1999,52:143-153.
[14] Benson L.Factors affecting 14C ages of lacustrine carbonates:Timing and duration of the last highstand lake in the Lahontan basin[J].Quaternary Research,1993,39:163-174.
[15] Olsson I U.14C dates and the reservoir effect[C]//van der Plicht J.Proceedings International Workshop on Isotope-geochemical Research in the Baltic Region,Lohusalu,Estonia,March 14-16 1996,Centre for Isotope Research,Groningen,the Netherlands,1999:5-23.
[16] Bartllett H H.Radiocarbon datability of peat,marl,caliche,and archaeological materials[J].Science,1951,114(2951):55-56.
[17] Stein M,Lazar B,Goldstein S L.Radiocarbon reservoir ages as freshwater-brine monitors in lake Lisan,dead sea system[J].Radiocarbon,2013,55(2/3):1050-1057.
[18] Fernandes R,Dreves A,Nadeau M J,et al.A freshwater lake saga:carbon routing within the aquatic food web of lake Schwerin[J].Radiocarbon,2013,55(2/3):1102-1103.
[19] Keaveney E M,Reimer P J.Understanding the variability in freshwater radiocarbon reservoir offsets:a cautionary tale[J].Journal of Archaeological Science,2012,39:1306-1316.
[20] Ascough P L,Church M J,Cook G T,et al.Radiocarbon reservoir effects in human bone collagen from northern Iceland[J].Journal of Archaeological Science,2012,39(7):2261-2271.
[21] Alix G C,Jan H,William E A.Marin radiocarbon reservoir ages in Scottish coastal and Fjordic waters[J].Radiocarbon,2006,48(1):33-43.
[22] Olsson I U.Accuracy and precision in sediment chronology[J].Hydrobiologia,1991,214:25-34.
[23] Hakansson S.Radiocarbon activity in submerged plants from various south Swedish lakes[C]//Berger R,Suess H E.Radiocarbon Dating.Proceedings of the Ninth International Conference.Los Angeles and La Jolla,USA:University of California Press,1979:433-443.
[24] Bondevik S,Mangerud J,Hilary H,et al.Changes in North Atlantic radiocarbon reservoir ages during the Allerd and Younger Dryas[J].Science,2006,312:1514-1517.
[25] Hendy C H,Hall B L.The radiocarbon reservoir effect in proglacial lakes:examples from antarctica[J].Earth and Planetary Science Letters,2006,241:413-421.
[26] Moreton S G,Rosqvist G C,Davies S J,et al.Radicarbon reservoir ages from freshwater lakes,South Georgia,sub-Antarctic:modern analogues from particulate organic matter and surface sediments[J].Radiocarbon,2004,46(2):621-626.
[27] Zoppi U,Albani A,Ammerman A J,et al.Oreliminary estimate of the reservoir age in the Lagoon of Venice[J].Radiocarbon,2001,43(2A):489-494.
[28] Olsson I U.The varying radiocarbon activity of some recent submerged estonian plants grown in the early 1990s[J].Radiocarbon,2010,43(2B):809-820.
[29] Brook G A,Cherkinsky A,Railsback L B,et al.~+~{14~}C dating of organic residue and carbonate from stromatolites in Etosha pan,Namibia:14C reservoir effect,correction of published ages,and evidence of >8-m-deep lake during the late Pleistocene[J].Radiocarbon,2013,55(2/3):1156-1163.
[30] 吴艳宏,王苏民,侯新花.青藏高原中部错鄂全新世湖泊沉积物年代学研究[J].中国科学(D辑),2006,36(8):713-722.
[31] 吴艳宏,王苏民,周力平,等.岱海14C测年的现代碳库效应研究[J].第四纪研究,2007,27(4):507-510.
[32] Fontes J C,Gasse F,Gibert E.Hollocene environmental changes in Lake Bangong basin (West Tibet),Part 1:chronology and stable isotope of carbonates of a Holocene lacustrine core[J].Palaeogeography,Palaeoclimatology,Palaeoecology,1996,120:25-47.
[33] Shen J,Liu X,Wang S et al.Palaeoclimatic changes in the Qinghai Lake area during the last 18000 years[J].Quaternary International,2005,136:131-140.
[34] Watanabe T,Matsunaka T,Nakamura T,et al.Last glacial-Holocene geochronology of sediment cores from a high-altitude Tibetan lake based on AMS 14C dating of plant fossils:Implications for paleoenvironmental reconstructions[J].Chemical Geology,2010,277:21-29.
[35] Hua Q.Radiocarbon:a chronological tool for the recent past[J].Quaternary Geochronology,2009,(4):378-390.
[36] Suiver M,Braziunas T F.Sun,ocean,climate and atmospheric 14CO2:an evaluation of causal and spectral relationships[J].The Holocene,1993,34:289-305.
[37] Hutchinson I,James T S,Reimer PJ,et al.Marine and limnic radiocarbon reservoir corrections for studies of late- and postglacial environments in Georgia Basin and Puget Lowland,British Columbia,Canada and Washington,USA[J].Quaternary Research,2004,61:193-203.
[38] 沈吉.湖泊沉积研究的历史进展与展望[J].湖泊科学,2009,21(3):307-313.
[39] Feng Z D,Wang W G,Guo L L,et al.Lacustrine and eolian records of Holocene climate changes in the Mongolian Plateau:preliminary results[J].Quaternary International,2005,136:25-32.
[40] 郑同明,赵家驹,安成邦,等.巴里坤湖孢粉浓缩物14C测年可行性研究[J].海洋地质与第四纪地质,2010,30(1):83-86.
[41] 孙千里,肖举乐.岱海沉积记录的季风/干旱过渡区全新世适宜期特征[J].第四纪研究,2006,26(5):781-790.
[42] Xiao J L,Xu Q H,Nakamura T,et al.Holocene vegetation variation in the Daihai Lake region of north-central China:a direct indication of the Asian monsoon climatic history[J].Quaternary Science Reviews,2004,23:1669-1679.
[43] Grimm E C,Maher L G,Nelson D M.The magnitude of error in conventional bulk-sediment radiocarbon dates from central North America[J].Quaternary Research,2009,72:301-308.
[44] Zhang J F,Liu C L,Wu X H,et al.Optically stimulated luminescence and radiocarbon dating of sediments from Lop Nur (Lop Nor),China[J].Quaternary Geochronology,2012,10:150-155.
[45] Long H, Lai Z P,Wang N A,et al.A combined luminescence and radiocarbon dating study of Holocene lacustrine sediments from arid northern China[J].Quaternary Geochronology,2011,6(1):1-9.
[46] Srdoc D,Horvatincic N,Obelic B,et al.The effects of contamination of calcareous sediments on their radiocarbon ages[J].Radiocarbon,1986,28(2A):510-514.
[47] Bard E,Arnold M,Fairbanks R G,et al.230Th-234U and 14C ages obtained by mass spectrometry on corals[J].Radiocarbon,35(1):191-199.
[48] Hall B L,Henderson G M.Use of uranium-thorium dating to determine past 14C reservoir effects in lakes:examples from Antarctica[J].Earth and Planetary Science Letters,2001,193:565-577.
[49] Borg K,Stein M,Jong AFM,et al.Near-Zero Δ14C Values at 32 Kyr Cal BP observed in the high-resolution 14C Record From U-Th Dated Sediment of lake Lisan[J].Radiocarbon,2004,46(2):785-795.
