There are references for the following articles:
K.Hughen:
Adkins, J.F., McIntyre, K., Schrag, D.P., 2002. The salinity, temperature, and d18O of the glacial deep ocean. Science 298, 1769-1773.
Bard, E., Guillemette, M.-C., Frauke, R., 2004. Present status of radiocarbon calibration and comparison records based on Polynesian corals and Iberian margin sediments. Radiocarbon 46, 1189-1201.
Cutler, K.B., Gray S.C., Burr, G.S., Edwards, R.L., Taylor, F.W., Cabioch, G., Beck, J.W., Cheng, H., Moore, J., 2004. Radiocarbon calibration and comparison to 50 kyr BP with paired 14C and 230Th dating of corals from Vanuatu and Papua New Guinea. Radiocarbon 46, 1127-1160.
Fairbanks, R.G., Mortlock, R.A., Chiu, T.-C., Cao, L., Kaplan, A., Guilderson, T.P., Fairbanks, T.W., Bloom, A., Grootes, P.M., Nadeau, M.-J., 2005. Radiocarbon calibration curve spanning 0 to 50,000 years BP based on paired 230Th/234U/238U and 14C dates on pristine corals. Quaternary Science Reviews 24, 1781-1796.
Hughen, K.A., Lehman, S.J. Southon, J., Overpeck, J.T., Marchal, O., Herring, C. and Turnbull, J., 2004. 14C Activity and Global Carbon Cycle Changes Over the Past 50,000 years, Science 303, 202-207.
Hajdas et al.:
Denton, G.H. and Hendy, C.H., 1994: Younger Dryas Age Advance of Franz-Josef Glacier in the Southern Alps of New-Zealand. Science, 264: 1434-1437.
Hajdas, I., Ivy, S.D., Beer, J., Bonani, G., Imboden, D., Lotter, A.F., Sturm, M. and Suter, M., 1993:AMS Radiocarbon Dating and Varve Chronology of Lake Soppensee - 6000 to 12000 C-14 Years BP. Climate Dynamics, 9: 107-116.
Hajdas, I., Zolitschka, B., Ivy Ochs, S.D., Beer, J., Bonani, G., Leroy, S.A.G., Negendank, J.W., Ramrath, M. and Suter, M., 1995: AMS Radiocarbon Dating of Annually Laminated Sediments from Lake Holzmaar, Germany. Quaternary Science Reviews, 14: 137-143.
Hajdas, I., Bonani, G., Boden, P., Peteet, D.M. and Mann, D.H., 1998: Cold reversal on Kodiak Island, Alaska, correlated with the European Younger Dryas by using variations of atmospheric C-14 content. Geology, 26: 1047-1050.
Hajdas, I., Bonani, G., Moreno, P.I. and Ariztegui, D., 2003: Precise radiocarbon dating of late-glacial cooling in mid-latitude South America. Quaternary Research, 59: 70-78.
Hajdas, I., Bonani, G., Slusarenko, I.Y. and Seifert, M., 2004. Chronology of Pazyryk 2 and Ulandryk 4 Kurgans based on high resolution radiocarbon dating and dendrochronology -a step towards precise dating of Scythian Burials. In: E.M. Scott (Editor), Impact of the Environment on the Human Migration in Eurasia. Kluwer Academic Publishers.
Kilian, M.R., van Geel, B. and van der Plicht, J., 2000: C-14 AMS wiggle matching of raised bog deposits and models of peat accumulation. Quaternary Science Reviews, 19: 1011-1033.
Reimer, P.J., Baillie, M.G.L., Bard, E., Bayliss, A., Beck, J.W., Bertrand, C.J.H., Blackwell, P.G. and Buck, C.E., 2004: IntCal04 Terrestrial Radiocarbon Age Calibration, 0-26 Cal Kyr BP. Radiocarbon, 46: 1029-1058.
Stuiver, M., Reimer, P.J., Bard, E., Beck, J.W., Burr, G.S., Hughen, K.A., Kromer, B., McCormac, G., van der Plicht, J. and Spurk, M., 1998: INTCAL98 radiocarbon age calibration, 24,000-0 cal BP. Radiocarbon, 40: 1041-1083.
Grootes and Sarnthein:
Beck J.W. et al., 2001: Extremely large variations of atmospheric 14C concentrations during the last glacial period, Science, 292: 2453-2458.
Hughen, K., Lehman, S., Southon, J., Overpeck, J., Marchal, O., Herring, C. and Turnbull, J., 2004a: 14C activity and global carbon cycle changes over the past 50,000 years, Science, 303: 202-207.
Hughen, K.A. et al., 2004b: Marine04 marine radiocarbon age calibration, 0-26 cal kyr BP, Radiocarbon 46: 1059-1086.
Köhler, P., Fischer, H., Munhoven, G. and Zeebe, R.E., 2005: Quantitative interpretation of atmospheric carbon records over the last glacial termination, Global Biogeochemical Cycles, 19: GB4020, doi: 10.1029/2004GB002345.
Kromer, B. et al., 2004: Late glacial 14C ages from a floating, 1382-ring pine chronology. Radiocarbon, 46: 1203-1209.
Reimer, P. et al., 2004: INTCAL04 terrestrial radiocarbon age calibration, 0-26 cal kyr BP, Radiocarbon, 46: 1029-1058.
Voelker, A.H.L., Grootes, P.M., Nadeau, M.-J. and Sarnthein, M., 2000: Radiocarbon levels in the Iceland Sea from 25-53 kyr and their link to the earth’s magnetic field intensity, Radiocarbon, 42: 437-452.
Wang Y.J., Cheng, H., Edwards, R.L., An, Z.S., Wu, J.Y., Shen, C.-C. and Doralee, J.A., 2001: High-resolution absolute-dated late Pleistocene monsoon record from Hulu Cave, China, Science, 294: 2345-2348.
Koch and Clague:
Bakke, J., Lie, O., Nesje, A., Dahl, S.O., and Paasche, O., 2005: Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructions during the Holocene, northern Folgefonna, western Norway. The Holocene, 15: 161-176.
Bond, G., Kromer, B., Beer, J., Muscheler, R., Evans, M.N., Showers, W., Hoffmann, S., Lotti-Bond, R., Hajdas, I., and Bonani, G., 2001: Persistent solar influence on North Atlantic climate during the Holocene. Science, 294: 2130-2136.
Calkin, P.E., 1988: Holocene glaciation of Alaska (and adjoining Yukon Territory, Canada). Quaternary Science Reviews, 7: 159-184.
Calkin, P.E., Wiles, G.C., and Barclay, D.J., 2001: Holocene coastal glaciation of Alaska. Quaternary Science Reviews, 20: 449-461.
Clapperton, C.M., and Sugden, D.E., 1988: Holocene glacier fluctuations in South America and Antarctica. Quaternary Science Reviews, 7: 185-198.
Davis, P.T., 1988: Holocene glacier fluctuations in the American cordillera. Quaternary Science Reviews, 7: 129-158.
Denton, G.H., and Porter, S.C., 1970: Neoglaciation. Scientific American, 222: 100-110.
Douglass, D.C., Singer, B.S., Kaplan, M.R., Ackert, R.P., Mickelson, D.M., and Caffee, M.W., 2005: Evidence of early Holocene glacial advances in southern South America from cosmogenic surface-exposure dating. Geology, 33: 237-240
Gellatly, A.F., Chinn, T.J.H., and Röthlisberger, F., 1988: Holocene glacier variations in New Zealand: a review. Quaternary Science Reviews, 7: 227-242.
Glasser, N.F., Harrison, S., Winchester, V., and Aniya, M., 2004: Late Pleistocene and Holocene palaeoclimate and glacier fluctuations in Patagonia. Global and Planetary Change, 43: 79-101.
Harper, J.T., 1993: Glacier terminus fluctuations on Mount Baker, Washington, U.S.A., 1940-1990, and climatic variations. Arctic and Alpine Research, 25: 332-340.
Holzhauser, H., Magny, M., and Zumbühl, H.J., 2005: Glacier and lake-level variations in west-central Europe over the last 3500 years. The Holocene, 15: 789-801.
Hormes, A., Müller, B.U., and Schlüchter, C., 2001: The Alps with little ice: evidence for eight Holocene phases of reduced glacier extent in the Central Swiss Alps. The Holocene, 11: 255-265.
Jackson, M.G., Oskarsson, N., Trønnes, R.G., McManus, J.F., Oppo, D.W., Grönvold, K., Hart, S.R., and Sachs, J.P., 2005: Holocene loess deposition in Iceland: evidence for millennial-scale atmosphere-ocean coupling in the North Atlantic. Geology, 33: 509-512.
Joerin, U.E., Stocker, T.F., and Schlüchter, C., 2006: Multicentury glacier fluctuations in the Swiss Alps during the Alps. The Holocene, 16: 697-704.
Karlén, W., 1988: Scandinavian glacial and climate fluctuations during the Holocene. Quaternary Science Reviews, 7: 199-209.
Koch, J., and Kilian, R., 2005: Little Ice Age glacier fluctuations at Gran Campo Nevado, southernmost Chile. The Holocene, 15: 20-28.
Koch, J., Menounos, B.P., Clague, J.J., and Osborn, G.D., 2004: Environmental change in Garibaldi Provinical Park, southern Coast Mountains, British Columbia. Geoscience Canada, 31: 127-135.
Koch, J., Osborn, G., and Clague, J.J., in press. Pre-Little Ice Age glacier fluctuations in Garibaldi Provincial Park, southern Coast Mountains, British Columbia. The Holocene.
Larocque, S.J., and Smith, D.J., 2003: Little Ice Age glacial activity in the Mt. Waddington area, British Columbia Coast Mountains, Canada. Canadian Journal of Earth Sciences, 40: 1413-1436.
Lawrence, D.B., 1950: Glacier fluctuations for six centuries in southeastern Alaska and its relation to solar activity. Geographical Review, 40: 191-222.
Lewis, D.H., and Smith, D.J., 2004: Little Ice Age glacial activity in Strathcona Provincial Park, Vancouver Island, British Columbia, Canada. Canadian Journal of Earth Sciences, 41: 285-297.
Luckman, B.H., 1977: Lichenometric dating of Holocene moraines at Mount Edith Cavell, Jasper, Alberta. Canadian Journal of Earth Sciences, 14: 1809-1822.
Luckman, B.H., 1995: Calendar-dated, early ‘Little Ice Age’ glacier advance at Robson Glacier, British Columbia, Canada. The Holocene, 5: 149-159.
Luckman, B.H., 1996: Dendroglaciology at Peyto Glacier, Alberta, Canada. In: Dean, J.S., Meko, D.M., and Swetnam, T.W. (Eds). Tree Rings, Environment and Humanity, Radiocarbon, 679-688.
Luckman, B.H., 2000: Little Ice Age in the Canadian Rockies. Geomorphology, 32: 357-384.
Luckman, B.H., and Wilson, R.J.S., 2005: Summer temperatures in the Canadian Rockies during the last millennium: a revised record. Climate Dynamics, 24: 131-144.
Luckman, B.H., Holdsworth, G., and Osborn, G.D., 1993: Neoglacial glacier fluctuations in the Canadian Rockies. Quaternary Research, 39: 144-153.
Masson, V., Vimeux, F., Jouzel, J., Morgan, V., Delmotte, M., Ciais, P., Hammer, C., Johnsen, S., Lipenkov, V.Y., Mosley-Thompson, E., Petit, J.-R., Steig, E.J., Stievenard, M., and Vaikmae, R., 2000: Holocene climate variability in Antarctica based on 11 ice-core isotopic records. Quaternary Research, 54: 348-358.
Nicolussi, K., and Patzelt, G., 2000: Untersuchungen zur holozänen Gletscherentwicklung von Pasterze und Gepatschferner (Ostalpen). Zeitschrift für Gletscherkunde und Glazialgeologie, 36: 1-87.
Osborn, G.D., Robinson, B.J., and Luckman, B.H., 2001. Holocene and latest Pleistocene fluctuations of Stutfield Glacier, Canadian Rockies. Canadian Journal of Earth Sciences, 38: 1141-1155.
Osborn, G.D., Menounos, B.P., Koch, J., Clague, J.J., and Vallis, V., in press: Multi-proxy record of Holocene glacial history: Spearhead and Fitzsimmons Ranges, southern Coast Mountains, British Columbia. Quaternary Science Reviews.
Porter, S.C., 1986: Pattern and forcing of Northern Hemisphere glacier variations during the last millennium. Quaternary Research, 26: 27-48.
Porter, S.C., 2000: Onset of Neoglaciation in the Southern Hemisphere. Journal of Quaternary Science, 15: 395-408.
Reyes, A.V., and Clague, J.J., 2004: Stratigraphic evidence for multiple Holocene advances of Lillooet Glacier, southern Coast Mountains, British Columbia. Canadian Journal of Earth Sciences, 41: 903-918.
Röthlisberger, F., 1986: 10 000 Jahre Gletschergeschichte der Erde. Verlag Sauerländer, Aarau.
Shakesby, R.A., Matthews, J.A., and Winkler, S., 2004: Glacier variations in Breheimen, southern Norway: relative-age dating of Holocene moraine complexes at six high-altitude glaciers. The Holocene, 14: 899-910.
Smith, D.J., and Desloges, J.R., 2000: Little Ice Age history of Tzeetsaytsul Glacier, Tweedsmuir Provincial Park, British Columbia. Géographie physique et Quaternaire, 54: 131-137.
Warren, C., and Aniya, M., 1999: The calving glaciers of southern South America. Global and Planetary Change, 22: 59-77.
Wenzens, G., 1999: Fluctuations of outlet and valley glaciers in the southern Andes (Argentina) during the past 13,000 years. Quaternary Research, 51: 238-247.
Wiles, G.C., Jacoby, G.C., Davi, N.K., and McAllister, R.P., 2002: Late Holocene glacier fluctuations in the Wrangell Mountains, Alaska. Geological Society of America Bulletin, 114: 896-908.
Wiles, G.C., D’Arrigo, R.D., Villalba, R., Calkin, P.E., and Barclay, D.J., 2004: Century-scale solar variability and Alaskan temperature change over the past millennium. Geophysical Research Letters, 31: L15203.
Willard, D.A., Bernhardt, C.E., Korejwo, D.A., and Meyers, S.R., 2005: Impact of millennial-scale Holocene climate variability on eastern North American terrestrial ecosystems: pollen-based climatic reconstruction. Global and Planetary Change, 47: 17-35.
Winkler, S., 2003: A new interpretation of the date of the ‘Little Ice Age’ glacier maximum at Svartisen and Okstinaden, northern Norway. The Holocene, 13: 83-95.
Winkler, S., 2004: Lichenometric dating of the Little Ice Age maximum in Mt Cook National Park, southern Alps, New Zealand. The Holocene, 14: 911-920.
Winkler, S., Matthews, J.A., Shakesby, R.A., and Dresser, P.Q., 2003: Glacier variations in Breheimen, southern Norway: Dating Little Ice Age moraine sequences at seven low-altitude glaciers. Journal of Quaternary Science, 18: 395-413.
Reimer et al
Balter, M., 2006: Geochemistry - Radiocarbon dating's final frontier. Science, 313(5793): 1560-1563.
Bard, E., Menot-Combes, G. and Rostek, F., 2004: Present status of radiocarbon calibration and comparison records based on Polynesian corals and Iberian Margin sediments. Radiocarbon, 46(3): 1189-1202.
Bjorck, S., Koc, N. and Skog, G., 2003: Consistently large marine reservoir ages in the Norwegian Sea during the Last Deglaciation. Quaternary Science Reviews, 22(5-7): 429-435.
Bronk Ramsey, C., Manning, S.W., Reimer, P.J. and van der Plicht, H., in press: Developments in radiocarbon calibration for archaeology. Antiquity.
Buck, C.E. and Blackwell, P.G., 2004: Formal statistical models for estimating radiocarbon calibration curves. Radiocarbon, 46(3): 1093-1102.
Butzin, M., Prange, M. and Lohmann, G., 2005: Radiocarbon simulations for the glacial ocean: The effects of wind stress, Southern Ocean sea ice and Heinrich events. Earth And Planetary Science Letters, 235(1-2): 45-61.
Cutler, K.B. et al., 2004: Radiocarbon calibration to 50 kyr BP with paired 14C and 230Th dating of corals from Vanuatu and Papua New Guinea. Radiocarbon, 46(3): 1127-1160.
Doney, S.C. et al., 2004: Evaluating global ocean carbon models: The importance of realistic physics. Global Biogeochemical Cycles, 18(3).
Fairbanks, R.G. et al., 2005: Radiocarbon Calibration Curve Spanning 0 to 50,000 Years B.P. Based on Paired 230Th/234U/238U and 14C Dates on Pristine Corals. Quaternary Science Reviews, 24(16-17): 1781-1796.
Guilderson, T.P., Caldeira, K. and Duffy, P.B., 2000: Radiocarbon as a diagnostic tracer in ocean and carbon cycle modeling. Global Biogeochemical Cycles, 14(3): 887-902.
Hughen, K., Southon, J., Lehman, S., Bertrand, C. and Turnbull, J., 2006: Marine-derived 14C calibration and activity record for the past 50,000 years updated from the Cariaco Basin. Quaternary Science Reviews, (in press).
Hughen, K.A. et al., 2004a: Marine04 marine radiocarbon age calibration, 0-26 cal kyr BP. Radiocarbon, 46(3): 1059-1086.
Hughen, K.A., Southon, J.R., Bertrand, C.J.H., Frantz, B. and Zermeno, P., 2004b: Cariaco basin calibration update: Revisions to calendar and C-14 chronologies for core PL07-58PC. Radiocarbon, 46(3): 1161-1187.
Jöris, O. and Weninger, B., 2000: 14C-Alterskalibrationen und die absolute Chronologie des Spätglazials. Archäologisches Korrespondenzblatt, 30: 461-471.
Kitagawa, H. and van der Plicht, J., 2000: Atmospheric radiocarbon calibration beyond 11,900 cal BP from Lake Suigetsu laminated sediments. Radiocarbon, 42(3): 369-380.
Kromer, B. et al., 2004: Late Glacial 14C ages from a floating 1382-ring pine chronology. Radiocarbon, 46(3): 1203-1209.
Matsumoto, K. et al., 2004: Evaluation of ocean carbon cycle models with data-based metrics. Geophysical Research Letters, 31(7).
McCormac, F.G. et al., 2004: SHCal04 Southern Hemisphere calibration, 0-11.0 cal kyr BP. Radiocarbon, 46(3): 1087-1092.
Mellars, P., 2006: Archaeology: Progress and pitfalls in radiocarbon dating - Reply. Nature, 443(7108): E4-E4.
Reimer, P.J. et al., 2004: IntCal04 terrestrial radiocarbon age calibration, 0-26 cal kyr BP. Radiocarbon, 46(3): 1029-1058.
Reimer, P.J. et al., 2002: Preliminary report of the first workshop of the IntCal04 radiocarbon calibration/comparison working group. Radiocarbon, 44(3): 653-661.
Stuiver, M. and Braziunas, T.F., 1993: Modeling Atmospheric C-14 Influences and C-14 Ages of Marine Samples to 10,000 Bc. Radiocarbon, 35(1): 137-189.
Stuiver, M. and Pearson, G.W., 1986: High-Precision Calibration of the Radiocarbon Time Scale, Ad 1950-500 Bc. Radiocarbon, 28(2B): 805-838.
Stuiver, M. and Reimer, P.J., 1993: Extended C-14 Data-Base and Revised Calib 3.0 C-14 Age Calibration Program. Radiocarbon, 35(1): 215-230.
Stuiver, M. et al., 1998a: INTCAL98 radiocarbon age calibration, 24,000-0 cal BP. Radiocarbon, 40(3): 1041-1083.
Stuiver, M., Reimer, P.J. and Braziunas, T.F., 1998b: High-precision radiocarbon age calibration for terrestrial and marine samples. Radiocarbon, 40: 1127-1151.
Turney, C.S.M., Roberts, R.G. and Jacobs, Z., 2006: Archaeology: Progress and pitfalls in radiocarbon dating. Nature, 443(7108): E3-E3.
van der Plicht, J. et al., 2004: NOTCAL04 - Comparison / Calibration 14C records 26-50 ka cal BP. Radiocarbon, 46(3): 1225-1238.
Weyhenmeyer, C.E. et al., 2003: Changes in atmospheric 14C between 55 and 42 ky BP recorded in a stalagmite from Socotra Island, Indian Ocean. EOS Transactions, 84 (46): Fall Meet. Suppl. Abstract PP32B-0298.
