SEARCH

SEARCH BY CITATION

References

  • Alley, R. B., S. Anandakrishnan, and P. Jung (2001a), Stochastic resonance in the North Atlantic, Paleoceanography, 16, 190198.
  • Alley, R. B., S. Anandakrishnan, P. Jung, and A. Clough (2001b), Stochastic resonance in the North Atlantic: Further insights, in The Oceans and Rapid Climate Change: Past, Present and Future, Geophys. Monogr. Ser., vol. 126, edited by D. Seidov, M. Maslin, and B. J. Haupt pp. 57-68, AGU, Washington, D. C.
  • Andersen, C., N. Koç, and M. Moros (2004a), A highly unstable Holocene climate in the subpolar North Atlantic: Evidence from diatoms, Quat. Sci. Rev., 23, 21552166.
  • Andersen, C., N. Koç, A. Jennings, and J. T. Andrews (2004b), Nonuniform response to the major surface currents in the Nordic Seas to insolation forcing: Implications for the Holocene climate variability, Paleoceanography, 19, PA2003, doi:10.1029/2002PA000873.
  • Bakke, J., Ø. Lie, A. Nesje, S. O. Dahl, and Ø. Paasche (2005), A high-resolution glacial reconstruction based on physical sediment parameters from proglacial lakes at northern Folgefonna, western Norway, Holocene, 15, 161176.
  • Bendat, J. S., and A. G. Piersol (1986), Random Data, 2nd ed., 566 pp., John Wiley, Hoboken, N. J.
  • Bianchi, G. G., and I. N. McCave (1999), Holocene periodicity in North Atlantic climate and deep-ocean flow south of Iceland, Nature, 397, 515517.
  • Birks, H. J. B. (1995), Quantitative paleoenvironmental reconstructions, in Statistical Modelling of Quaternary Science Data, Tech. Guide, vol. 5, edited by D. Maddy, and J. S. Brew, pp. 116254, Quat. Res. Assoc., Cambridge, U. K.
  • Björck, S., R. Muscheler, B. Kromer, C. S. Andresen, J. Heinemeier, S. J. Johnsen, D. Conley, N. Koç, M. Spurk, and S. Veski (2001), High-resolution on analyses of an early Holocene climate event may imply decreased solar forcing as an important climate trigger, Geology, 29, 11071110.
  • Bond, G., W. Broecker, S. Johnsen, J. McManus, L. Labeyrie, J. Jouzel, and G. Bonani (1993), Correlations between climate records from North Atlantic sediments and Greenland ice, Nature, 365, 143147.
  • Bond, G., W. Showers, M. Cheseby, R. Lotti, P. Almasi, P. deMenocal, P. Priore, H. Cullen, I. Hajdas, and G. Bonani (1997), A pervasive millennial-scale cycle in North Atlantic Holocene and glacial climates, Science, 278, 12571266.
  • Bond, G. C., et al. (1999), Mechanisms of global climate change at millennial time scale, in Mechanisms of GlobalClimate Change at Millennial Time Scales, Geophys. Monogr. Ser, ., vol. 112, edited by P. Clark, R. Webb, and L. D. Keigwin, pp. 3558, AGU, Washington, D. C.
  • Bond, G., B. Kromer, J. Beer, R. Muscheler, M. N. Evans, W. Shower, S. Hoffmann, R. LottiBond, I. Hajdas, and G. Bonani (2001), Persistent solar influence on North Atlantic climate during the Holocene, Science, 294, 21302135.
  • Broecker, W. S. (2000), Abrupt climate change: Causal constrains provided by the paleoclimate record, Earth Sci. Rev., 51, 137154.
  • Broecker, W. S. and T.-H. Peng (1982), Tracers in the Sea, Lamont-Doherty Geol. Observ., Palisades, N. Y.
  • Bronk Ramsey, C. (1995), Radiocarbon calibration and analysis of stratigraphy: The OxCal program, Radiocarbon, 37, 425430.
  • Bronk Ramsey, C. (2001), Development of the radiocarbon program OxCal, Radiocarbon, 43, 355363.
  • Campbell, I. D., C. Campbell, M. J. Apps, M. W. Rutter, and A. B. G. Bush (1998), Late Holocene ∼1500 year climatic periodicities and their implications, Geology, 26, 471473.
  • Chapman, M. R., and N. J. Shackleton (2000), Evidence of 550-year and 1000-year cyclicities in North Atlantic circulation patterns during the Holocene, Holocene, 10, 287291.
  • Chardhuri, P., and J. S. Marron (1999), SiZer for exploration of structures in curves, J. Am. Stat. Assoc., 94, 807823.
  • Dahl, S. O., and A. Nesje (1996), A new approach to calculating Holocene winter precipitation by combining glacier equilibrium-line altitude and pine-tree limits: A case study from Hardangerjøkulen, central southern Norway, Holocene, 6, 381398.
  • Dietrich, G. (1969), Atlas for the Hydrography of the North Atlantic Ocean, Based upon the Polar Survey of the International Geophysical Year, Winter and Summer 1995, ICES Outside Ser., Int. Counc. for the Explor. of the Sea, Copenhagen.
  • Dyke, A. S., and V. K. Prest (1987), Late Wisconsinan and Holocene history of the Laurentide Ice Sheet, Geogr. Phys. Quat., 41, 237263.
  • Fan, J. (1992), Design-adaptive nonparametric regression, J. Am. Stat. Assoc., 87, 9981004.
  • Finkel, R. C., and K. Nishiizumi (1997), Beryllium 10 concentration in the Greenland Ice Sheet Project 2 ice core from 3-40 ka, J. Geophys. Res., 102(C12), 26,69926,706.
  • Giraudeau, J., M. Cremer, S. Manthe, L. Labeyrie, and G. Bond (2000), Coccolith evidence for instabilities in surface circulation south of Iceland during Holocene times, Earth Planet. Sci. Lett., 179, 257268.
  • Grootes, P., and M. Stuiver (1997), Oxygen 18/16 variability in Greenland snow and ice with 10−3-105 year time resolution, J. Geophys. Res., 102(C12), 26,45526,470.
  • Haigh, J. D. (1996), The impact of solar variability on climate, Science, 272, 981984.
  • Hall, I. R., G. G. Bianchi, and J. R. Evans (2004), Centennial to millennial scale Holocene climate-deep water linkage in the North Atlantic, Quat. Sci. Rev., 23, 12361529.
  • Hopkins, T. S. (1991), The GIN-Sea—A synthesis of its physical oceanography and literature review 1972−1985, Earth Sci. Rev., 30, 175318.
  • Hurdle, B. J. (1986), The Nordic Seas, 777 pp., Springer, New York.
  • Imbrie, J., and N.G. Kipp (1971), A new micropaleontological method for quantitative micropaleontology: Application to late Pleistocene Caribbean core, in Late Cenozoic Glacial Ages, edited by K. Turekian, pp. 71181, Yale Univ. Press, New York.
  • Johannessen, O.M. (1986), Brief overview of the physical oceanography, in The Nordic Seas, edited by B. G. Hurdle, pp 103127, Springer, New York.
  • Kemp, A. E., and J. G. Baldauf (1993), Vast Neogene lamination diatom mat deposits from the eastern equatorial Pacific Ocean, Nature, 362, 141144.
  • Kemp, A. E. S., R. B. Pearce, I. Koizumit, J. Pike, and S. J. Rance (1999), The role of mat-forming diatoms in the formation of Mediterranean Sapropels, Nature, 398, 5761.
  • Kim, J.-H., N. Rimbu, S. J. Lorenz, G. Lohmann, S.-I. Nam, S. Schouten, C. Rühlemann, and R. R. Schneider (2004), Opposite SST trends in North Pacific and northeastern Atlantic based on alkenone records for the past 7,000 years suggested teleconnections—Pacific North America (PNA) and NAO opposite trends, Quat. Sci. Rev., 23, 21412154.
  • Knight, J. R., R. J. Allan, C. K. Folland, M. Vellinga, and M. E. Mann (2005), A signature of persistent natural thermohaline circulation cycles in observed climate, Geophys. Res. Lett., 32, L20708, doi:10.1029/2005GL024233.
  • Koç, N., and E. Jansen (1994), Response of the high-latitude Northern Hemisphere to orbital climate forcing: Evidence from the Nordic Seas, Geology, 22, 523526.
  • Koç, N., E. Jansen, and H. Haflidason (1993), Paleoceanographic reconstruction of surface ocean conditions in the Greenland, Iceland and Norwegian Seas through the last 14 ka based on diatoms, Quat. Sci. Rev., 12, 115140.
  • Koç-Karpuz, N., and H. Schrader (1990), Surface sediment diatom distribution and Holocene paleo-temperature variations in the Greenland, Iceland and Norwegian Seas through the last 14 ka based on diatoms, Paleoceanography, 5, 557580.
  • Krauss, W. (1986), The North Atlantic Current, J. Geophys. Res., 91, 50615074.
  • Lenderink, G., and R. J. Haarsma (1994), Variability and multiple equilibria of the thermohaline circulation, associated with deep water formation, J. Phys. Oceanogr., 24, 14801493.
  • Levitus, S., and T. Boyer (1994), World Ocean Atlas 1994, vol. 4, Temperature, NOAA Atlas NESDIS 4, NOAA, Silver Spring, Md.
  • Lindberg, T. (1994), Scale-space theory in Computer Vision, Kluwer, Dordrecht.
  • Maraun, D., and J. Kurths (2004), Cross wavelet analysis: Significance testing and pitfalls, Nonlinear Process Geophys., 11, 505514.
  • Moros, M., K. Emeis, B. Risebrobakken, I. Snowball, A. Kuijpers, J. McManus, and E. Jansen (2004), Sea surface temperatures and ice rafting in the Holocene North Atlantic: Climate influences on northern Europe and Greenland, Quat. Sci. Rev., 23, 21132126.
  • Mudelsee, M. (2002), TAUEST: A computer program for estimating persistence in unevenly spaced weather/climate time series, Comput. Geosci., 28(1), 6972.
  • O'Brien, S. R., P. A. Mayewski, L. D. Meeker, D. A. Meese, M. S. Twickler, and S. I. Whitlow (1995), Complexity of Holocene climate as reconstructed from Greenland ice core, Science, 270, 19621964.
  • Oppo, D. W., J. F. McManus, and J. R. Cullen (2003), Palaeo-oceanography: Deepwater variability in the Holocene epoch, Nature, 422, 277.
  • Percival, D. B., and A.T. Walden, (2000), Wavelet Methods for Time-Series Analysis, Cambridge Univ. Press, Cambridge, U. K.
  • Pokras, E. M., and B. Molfino (1986), Oceanographic control of diatom abundances and species distributions in surface sediments of the tropical and southeast Atlantic, Mar. Micropaleontol., 10, 165188.
  • Prins, M. A., S. R. Troelstra, R. W. Kruk, K. Van Der Borg, A. F. M. De Jong, and G. J. Weltje (2001), The late Quaternary sedimentary record of Reykjanes ridge, North Atlantic, Radiocarbon, 43, 887895.
  • Rahmstorf, S. (1994), On the freshwater forcing and transport of the Atlantic thermohaline circulation, Clim. Dyn., 12, 799811.
  • Rahmstorf, S. (2003), Timing of abrupt climate change: A precise clock, Geophys. Res. Lett., 30(10), 1510, doi:10.1029/2003GL017115.
  • Rasmussen, T. L., E. Thomsen, S. R. Troelstra, A. Kuijpers, and M. A. Prins (2002), Millennial-scale glacial variability and benthic foraminifera faunas and ocean circulation in the North Atlantic during the last 60 000 years, Mar. Micropaleontol., 47, 143176.
  • Renssen, H., H. Goosse, T. Fichefet, V. Brovkin, E. Driesschaert, and F. Wolk (2005), Simulating the Holocene climate evolution at northern high latitudes using a coupled atmosphere-sea ice-ocean-vegetation model, Clim. Dyn., 24, 2343.
  • Rimbu, N., G. Lohmann, J. H. Kim, H. W. Arz, and R. Schneider (2003), Arctic/North Atlantic Oscillation signature in Holocene sea surface temperature trends as obtained from alkenone data, Geophys. Res. Lett., 30(6), 1280, doi:10.1029/2002GL016570.
  • Risebrobakken, B., E. Jansen, C. Andersson, E. Mjelde, and K. Hervøy (2003), A high-resolution study of Holocene paleoclimatic and paleoceanographic changes in the Nordic Seas, Paleoceanography, 18(1), 1017, doi:10.1029/2002PA000764.
  • Ruppert, D., S. J. Sheather, and M. P. Wand (1995), An effective bandwidth selector for local least squares regression, J. Am. Stat. Assoc., 90, 12571270.
  • Schrader, H. J., and R. Gersonde (1978), Diatoms and silicoflaggelates in the eight metres section of the lower Pliocene of Capo Rossello, Utrecht Micropaleontol. Bull., 17, 129176.
  • Schulz, M. (2002), On the 1470-year pacing of Dansgaard-Oeschger warm events, Paleoceanography, 17(2), 1014, doi:10.1029/2000PA000571.
  • Schulz, M., and M. Mudelsee (2002), REDFIT: Estimating red-noise spectra directly from unevenly spaced paleoclimatic time series, Comput. Geosci., 28, 421426.
  • Schulz, M., and A. Paul (2002), Holocene climate variability on centennial-to-millennial time scales: 1. Climate records from the North Atlantic realm, in Climate Development and History of the North Atlantic Realm, edited by G. E. A.|Wever, pp. 4154, Springer, New York.
  • Schulz, M., M. Prange, and A. Klocker (2007), Low-frequency oscillations of the Atlantic Ocean meridional overturning circulation in a coupled climate model, Clim. Past, 3, 97107.
  • Solignac, S., A. de Vernal, and C. Hillaire-Marcel (2004), Holocene sea-surface conditions in the North Atlantic—Contrasted trend and regimes in the western and eastern sectors (Labrador Sea vs. Icelandic Basin), Quat. Sci. Rev., 23, 319334.
  • Stuiver, M., and T. F. Braziunas (1989), Atmospheric 14C and century-scale solar oscillations, Nature, 338, 404408.
  • Stuiver, M., P. J. Reimer, E. Bard, J. W. Beck, G. S. Burr, K. A. Hughen, B. Kromer, F. G. McCormac, J. van der Plicht, and M. Spurk (1998), INTCAL98 radiocarbon age calibration, 24000-0 cal BP, Radiocarbon, 40, 10411083.
  • Telford, R. J., and H. J. B. Birks (2005), The secret assumption of transfer functions: Problems with spatial autocorrelation in evaluating model performance, Quat. Sci. Rev., 24, 21732179.
  • ter Braak, C. J. F. (1995), Non-linear methods for multivariate statistical calibration and their use in paleoecology—A comparison of inverse (k-nearest neighbors, partial least-squares and weighted averaging partial least-squares) and classical approaches, Chemometrics Intell. Lab. Syst., 28, 165180.
  • ter Braak, C. J. F., and S. Juggins (1993), Weighted averaging partial least squares regression (WA-PLS): An improved method for reconstructing environmental variables from species assemblages, Hydrobiologica, 269/270, 485502.
  • Torrence, C., and G. P. Compo (1998), A practical guide to wavelet analysis, Bull. Am. Meteorol. Soc., 79, 6178.
  • Upton, G., and I. Cook, (2002), Oxford Dictionary of Statistics, 420 pp., Oxford Univ. Press, Oxford, U. K.
  • van Geel, B., J. Buurman, and H. T. Waterblok (1996), Archaeological and palaeoecological indications of an abrupt climate change in the Netherlands, and evidence for climatological teleconnections around 2650 BP, J. Quat. Sci., 11, 451460.
  • van Geel, B., O. M. Raspopov, H. Renssen, and C. J. E. Schuurmans (2000), Climate change in Chile at around 2700 BP and global evidence for solar forcing: A hypothesis, Holocene, 10, 659664.
  • Weaver, A., and T. Hughes (1994), Rapid interglacial climate fluctuations driven by North Atlantic circulation, Nature, 367, 447450.
  • Yiou, F., K. Fuhrer, L. D. Meeker, J. Jouzel, S. Johnsen, and P. A. Mayewski (1997), Paleoclimatic variability inferred from the spectral analyses of Greenland and Antarctic ice-core data, J. Geophys. Res., 102(C12), 26,44126,454.
  • Yoder, J. A., S. G. Ackleson, R. T. Barber, P. Flament, and W. M. Balch (1994), A line in the Sea, Nature, 371, 689692.