Holocene centennial variability of sea surface temperature and relationship to solar irradiance


  • Augustine, L. et al. Eight glacial cycles from an Antarctic ice core. Nature 429623–628 (2004).

    ADS CAS PubMed Google Scholar Article

  • Lisiecki, LE & Raymo, ME A Pliocene-Pleistocene stack of 57 δ benthics distributed worldwide18Oh recordings. Paleooceanography 20PA1003 (2005).

    Google Scholar announcements

  • Masson-Delmotte, V. et al. Information from paleoclimatic archives. In Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (eds. Stocker, T. et al.) (Cambridge University Press, 2013).

  • Dansgaard, W. et al. Evidence of general past climate instability from a 250 kyr ice core record. Nature 364218-220 (1993).

    Article on Google Scholar Ads

  • Henry, LG et al. North Atlantic ocean circulation and abrupt climate change during the last glaciation. Science 353470–474 (2016).

    ADS CAS PubMed Google Scholar Article

  • Mantua, NJ & Hare, SR The Pacific Decadal Oscillation. J. Oceanogr. 5835–44 (2002).

    Google Scholar article

  • Hurrell, JW, Kushnir, Y., Ottersen, G. & Visbeck, M. An Overview of the North Atlantic Oscillation. Geophys. Mongr. 1341–36 (2003).

    Google Scholar announcements

  • Wang, J. et al. Internal and external forcing of the multidecadal variability of the Atlantic climate over the last 1200 years. Nat. Geosci. ten512-517 (2017).

    ADS CAS Article Google Scholar

  • Timmerman, A. et al. El Niño–complexity of the Southern Oscillation. Nature 559535–545 (2018).

    ADS CAS PubMed Google Scholar Article

  • Wander, H. et al. Mid-to-late Holocene climate change: an overview. four. Science. Round. 271791–1828 (2008).

    Article on Google Scholar Ads

  • Turner, ET et al. Solar cycles or random processes? Assessment of solar variability in Holocene climate records. Science. representing 623961 (2016).

    CAS PubMed PubMed Central Google Scholar Article

  • Usoskin, IG A history of solar activity over millennia. Live Rev. Floor. Phys. 141–97 (2017).

    Article on Google Scholar Ads

  • Schwabe, H. Sonnen-Beobachtungen im Jahre 1843. Star. Nachr. 21234–235 (1844).

    Article on Google Scholar Ads

  • Hale, GE, Ellerman, F., Nicholson, SB & Joy, AH The magnetic polarity of sunspots. Astrophysic. J 49153–178 (1919).

    Article on Google Scholar Ads

  • Gleissberg, W. A long-term fluctuation in sunspot number. Observatory 62158-159 (1939).

    Google Scholar announcements

  • Suess, HE The record for radiocarbon in tree rings for the last 8000 years. Radiocarbon 22200-209 (1980).

    CAS Google Scholar Article

  • Eddy, JA The maunder minimum. Science 1921189-1202 (1976).

    ADS CAS PubMed Google Scholar Article

  • Vasiliev, SS & Dergachev, VA The approximately 2400-year cycle of atmospheric radiocarbon concentration: bispectrum of 14C data for the last 8000 years. Anne. Geophys. 20115–120 (2002).

    ADS CAS Article Google Scholar

  • Steinhilber, F. et al. 9,400 years of cosmic radiation and solar activity from ice cores and tree rings. proc. Natl. Acad. Science. UNITED STATES 1095967 (2012).

    ADS CAS PubMed PubMed Central Article Google Scholar

  • Wang, Y. et al. The Holocene Asian Monsoon: Links to Solar Changes and North Atlantic Climate. Science 308854–857 (2005).

    ADS CAS PubMed Google Scholar Article

  • Savava, T. et al. Solar forcing of centennial-scale East Asian winter monsoon variability in the mid-to-late Holocene. Earth. Science. Lett. 395124–135 (2014).

    ADS CAS Article Google Scholar

  • Xu, D. et al. 500-year climate cycles stacking recent centennial warming documented in pollen record from East Asia. Science. representing 43611 (2014).

    PubMed PubMed Central ArticleGoogle Scholar

  • Park, J. Solar and tropical ocean forcing of late Holocene climate change in coastal East Asia. Palaeogeogr. Paleoclimatol. Paleoeco. 46974–83 (2017).

    Google Scholar article

  • Bae, SW, Lee, KE & Chang, TS Two long and pronounced cold periods 3000–5000 and 6600–8400 years BP in East Asia and the southward migration of the West Jet. Palaeogeogr. Paleoclimatol. Paleoeco. 537109402 (2020).

    Google Scholar article

  • Schiemann, R., Lüthi, D. & Schär, C. Seasonality and interannual variability of the westerly jet in the Tibetan Plateau region. J.Clim. 222940-2957 (2009).

    Article on Google Scholar Ads

  • Chiang, JCH et al. Role of seasonal transitions and westerly jets in the paleoclimate of East Asia. four. Science. Round. 108111-129 (2015).

    Article on Google Scholar Ads

  • Ha, K.-J., Heo, K.-Y., Lee, S.-S., Yun, K.-S. & Jhun, J.-G. East Asian Monsoon Variability: A Review. Meteorol. Appl. 19200-215 (2012).

    Article on Google Scholar Ads

  • Yeah, S.-W. & Kim, C.-H. Recent warming in the Yellow/East China Sea during winter and associated atmospheric circulation. Shelf Suite Res. 301428-1434 (2010).

    Article on Google Scholar Ads

  • Sim, J.-E., Shin, H.-R. & Hirose, N. Comparative analysis of surface heat fluxes in East Asian marginal seas and its acquired combined data. J. Korean Land. Soc. 391–22 (2018).

    Article on Google Scholar Ads

  • Chan, D., Zhang, Y., Wu, Q. & Dai, X. Quantification of the interannual variability dynamics of the East Asian winter Jet Core. Air conditioning dyn. 542447-2463 (2020).

    Google Scholar article

  • Chang, TS & Ha, HJ The Heuksan mud belt on the tidal dominated Korean shelf: A supply-driven depositional system?. Geo-Mar. Lett. 35447–460 (2015).

    Article on Google Scholar Ads

  • Blaauw, M. & Christen, JW Flexible age-depth models of paleoclimate using an autoregressive gamma process. Bayesian anal. 6457–474 (2011).

    MathSciNet MATH Google Scholar Article

  • Park, South Carolina et al. Evolution of Late Quaternary mud deposits and recent sediment budget in the southeastern Yellow Sea. Mar. Geol. 170271–288 (2000).

    ADS CAS Article Google Scholar

  • Meehl, GA, Arblaster, JM, Matthes, K., Sassi, F. & van Loon, H. Amplification of the response of the Pacific climate system to a small forcing of the 11-year solar cycle. Science 3251114-1118 (2009).

    ADS CAS PubMed Google Scholar Article

  • Khider, D., Jackson, CS & Stott, LD Assessing millennial-scale variability during the Holocene: a perspective from the western tropical Pacific. Paleooceanography 29143–159 (2014).

    Article on Google Scholar Ads

  • Shindell, D., Rind, D., Balachandran, N., Lean, J. & Lonergan, P. Solar cycle variability, ozone and climate. Science 284305–308 (1999).

    ADS CAS PubMed Google Scholar Article

  • Gleisner, H. & Thejll, P. Models of tropospheric response to solar variability. Geophys. Res. Lett. 301711 (2003).

    Article on Google Scholar Ads

  • Haigh, JD, Blackburn, M. & Day, R. The tropospheric circulation response to lower stratospheric temperature perturbations. J.Clim. 183672–3685 (2005).

    Article on Google Scholar Ads

  • Haigh, JD The impact of solar variability on climate. Science 272981–984 (1996).

    ADS CAS PubMed Google Scholar Article

  • Pak, G. Correlation between the Pacific Decadal Oscillation and the East Sea/Japan Fall SST. J. Korean Soc. Oceanogr. 24509–518 (2019).

    Google Scholar

  • One, Z… et al. Interaction between westerly winds and Asian monsoon recorded in the sediments of Qinghai Lake since 32 ka. Science. representing 2619 (2012).

    PubMed PubMed Central CAS Article Google Scholar

  • Herzchuh, U. et al. The position and orientation of the westerly jet determined the Holocene precipitation patterns in China. Nat. Common. ten2376 (2019).

    ADS PubMed PubMed Central CAS Article Google Scholar

  • Nagashima, K., Tada, R. & Toyoda, S. Summer monsoon connection between the West Jet and East Asia during the Holocene. Geochemistry. Geophys. Geosystems 145041-5053 (2013).

    Article on Google Scholar Ads

  • Prahl, FG & Wakeham, SG Calibration of unsaturation patterns in long-chain ketone compositions for paleotemperature assessment. Nature 330367–369 (1987).

    ADS CAS Article Google Scholar

  • Prahl, FG, Muehlhausen, LA & Zahnle, DL Further evaluation of long-chain alkenones as indicators of paleoceanographic conditions. Geochem. Cosmochim. Deed 522303–2310 (1988).

    ADS CAS Article Google Scholar

  • Heaton et al. Marine20 – the marine radiocarbon age calibration curve (0-55,000 CAL BP). Radiocarbon 62779–820 (2020).

  • Reimer, PJ & Reimer, RW A marine tank correction database and online interface. Radiocarbon 43461–463 (2001).

    Google Scholar article

  • Schulz, M. & Mudelsee, M. REDFIT: Estimating red noise spectra directly from unevenly spaced paleoclimate time series. Comp. Geosci. 28421–426 (2002).

    Google Scholar article

  • Ólafsdóttir, KB, Schulz, M. & Mudelsee, M. REDFIT-X: Interspectral analysis of unevenly spaced paleoclimate time series. Comp. Geosci. 9111-18 (2016).

    Google Scholar article

  • Grinsted, A., Moore, JC & Jevrejeva, S. Application of Crossed Wavelet Transform and Wavelet Coherence to Geophysical Time Series. Nonlinear process. Geophys. 11561-566 (2004).

    Article on Google Scholar Ads

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