Araie H, Nakamura H, Toney JL, Haig HA, Plancq J, Shiratori T, Leavitt PR, Seki O, Ishida K, Sawada K, Suzuki I, Shiraiwa Y (2018) Novel alkenone-producing strains of genus Isochrysis (Haptophyta) isolated from Canadian saline lakes show temperature sensitivity of alkenones and alkenoates. Org Geochem 121:89–103
Candy I, Schreve DC, Sherriff J, Tye GJ (2014) Marine Isotope Stage 11: Palaeoclimates, palaeoenvironments and its role as an analogue for the current interglacial. Earth Sci Rev 128:18–51
Droxler AW, Alley RB, Howard WR, Poore RZ, Burckle LH (2003) Unique and exceptionally long interglacial Marine Isotope Stage 11: window into Earth warm future climate. Geophys Monogr Ser 137:1–14
Dutton A, Lambeck K (2012) Ice volume and sea level during the last interglacial. Science 337(6091):216–219
Geological Survey of Japan, AIST (ed.) (2020) Seamless digital geological map of Japan 1: 200,000. June 9, 2020 version. Geological Survey of Japan, National Institute of Advanced Industrial Science and Technology
Haneda Y, Okada M, Kubota Y, Suganuma Y (2020) Millennial-scale hydrographic changes in the northwestern Pacific during marine isotope stage 19: teleconnections with ice melt in the North Atlantic. Earth Planetary Science Letters 531:115936
Hasegawa S (1993) Distribution of recent benthic foraminifers as an indicator of thermal conditions of the seas around the Japanese Islands –An approach to reconstruction of Cenozoic oceanic condition–. Fossils 55:17–33
Hoffman JS, Clark PU, Parnell AC, He F (2017) Regional and global sea-surface temperatures during the last interglaciation. Science 355(6322):276–279
Igarashi Y, Yamamoto M, Noda A, Ikehara K, Katayama H (2015) Deposition pattern and sources of palynomorphs on the continental margin off Hokkaido Island, northwest Pacific. Mar Geol 368:58–65
Ishiwada Y (1964) Benthonic foraminifera off the Pacific coast of Japan referred to biostratigraphy of the Kazusa Group. Reports Geological Survey of Japan 205:1–45
Kajita H, Kawahata H, Wang K, Zheng H, Yang S, Ohkouchi N, Utsunomiya M, Zhou B, Zheng B (2018) Extraordinary cold episodes during the mid-Holocene in the Yangtze delta: Interruption of the earliest rice cultivating civilization. Quatern Sci Rev 201:418–428
Kajita H, Nakamura H, Ohkouchi N, Harada N, Sato M, Tokioka S, Kawahata H (2020a) Genomic and geochemical identification of the long-chain alkenone producers in the estuarine Lake Takahoko, Japan: Implications for temperature reconstructions. Org Geochem 142:103980
Kajita H, Harada N, Yokoyama Y, Sato M, Ogawa N, Miyairi Y, Sawada C, Suzuki A, Kawahata H (2020b) High time-resolution alkenone paleotemperature variations in Tokyo Bay during the Meghalayan: Implications for cold climates and social unrest in Japan. Quatern Sci Rev 230:106160
Kajita H, Maeda A, Utsunomiya M, Yoshimura T, Ohkouchi N, Suzuki A, Kawahata H (2021) Biomarkers in the rock outcrop of the Kazusa Group reveal palaeoenvironments of the Kuroshio region. Communications Earth Environment 2(1):1–9
Kameo K, Okada M, El-Masry M, Hisamitsu T, Saito S, Nakazato H, Ohkouchi N, Ikehara M, Yasuda H, Kitazato H, Taira A (2006) Age model, physical properties and paleoceanographic implications of the middle Pleistocene core sediments in the Choshi area, central Japan. Isl Arc 15(3):366–377
Kaneko M, Ishikawa H, Nomura M, Nakazawa T (2018) Fossil foraminiferal assemblages from the Pleistocene Shimosa Group in core GS-UR-1, Urawa, Saitama City, central Japan. Bulletin of the Geological Survey of Japan 69(4):211–232
Kariya C, Hyodo M, Tanigawa K, Sato H (2010) Sea-level variation during MIS 11 constrained by stepwise Osaka Bay extensions and its relation with climatic evolution. Quatern Sci Rev 29(15–16):1863–1879
Kida S, Mitsudera H, Aoki S, Guo X, Ito SI, Kobashi F, Komori N, Kubokawa A, Miyama T, Morie R, Nakamura H, Nakamura T, Nakano H, Nishigaki H, Nonaka M, Sasaki H, Sasaki YN, Suga T, Sugimoto S, Taguchi B, Takaya K, Tozuka T, Tsujimoto H, Usui N (2016) Oceanic fronts and jets around Japan: a review. “Hot Spots” in the Climate System: 1–30
Kitaba I, Hyodo M, Katoh S, Dettman DL, Sato H (2013) Midlatitude cooling caused by geomagnetic field minimum during polarity reversal. Proceedings of the National Academy of Sciences 110(4): 1215–1220
Kosugi M, Kataoka H, Hasegawa S (1991) Classification of foraminifer communities as indicators of environments in an inner bay and its application to reconstruction of paleoenvironments. Fossils 50:37–55
Lang N, Wolff EW (2011) Interglacial and glacial variability from the last 800 ka in marine, ice and terrestrial archives. Clim Past 7(2):361–380
Lisiecki LE, Raymo ME (2005) A Pliocene-Pleistocene stack of 57 globally distributed benthic δ18O records. Paleoceanography 20(1): PA2003
Longo WM, Dillon JT, Tarozo R, Salacup JM, Huang Y (2013) Unprecedented separation of long chain alkenones from gas chromatography with a poly (trifluoropropylmethylsiloxane) stationary phase. Org Geochem 65:94–102
Lüthi D, Le Floch M, Bereiter B, Blunier T, Barnola JM, Siegenthaler U, Raynaud D, Jouzel J, Fischer H, Kawamura K, Stocker TF (2008) High-resolution carbon dioxide concentration record 650,000–800,000 years before present. Nature 453(7193):379–382
Matsushima Y, Ohshima K (1974) Littoral Molluscan Fauna of the Holocene Climatic Optimum (5, 000–6, 000y. BP) in Japan. The Quaternary Research 13(3): 135–159
Matsushima Y (1979) Littoral molluscan assemblages during the post-glacial Jomon transgression in the southern Kanto, Japan. The Quaternary Research 17:243–265
Marlowe IT, Brassell SC, Eglinton G, Green JC (1984) Long chain unsaturated ketones and esters in living algae and marine sediments. Org Geochem 6:135–141
Masuda F (2007) Paleoclimate of Interglacial Marine Isotope Stage 11 (MIS 11) from Strata in the Japanese Islands. The Quaternary Research 46(3):235–240
Melles M, Brigham-Grette J, Minyuk PS, Nowaczyk NR, Wennrich V, DeConto RM, Anderson PM, Andreev AA, Coletti A, Cook TL, Haltia-Hovi E, Kukkonen M, Lozhkin AV, Rosén P, Tarasov P, Vogel H, Wagner B (2012) 2.8 million years of Arctic climate change from Lake El’gygytgyn, NE Russia. Science 337(6092):315–320
Milker Y, Rachmayani R, Weinkauf MFG, Prange M, Raitzsch M, Schulz M, Kučera M (2013) Global and regional sea surface temperature trends during Marine Isotope Stage 11. Clim Past 9(5):2231–2252
Murray JW (2001) The niche of benthic foraminifera, critical thresholds, and proxies. Mar Micropaleontol 41(1–2):1–7
Nakagawa T, Okuda M, Yonenobu H, Miyoshi N, Fujiki T, Gotanda K, Tarasov PE, Morita Y, Takemura K, Horie S (2008) Regulation of the monsoon climate by two different orbital rhythms and forcing mechanisms. Geology 36(6):491–494
Nakazawa T, Nakasato Y (2005) Depositional cycles and tephrochronology of Pleistocene Shimosa Group in central Kanto Plain, central Japan. Journal of Geological Society of Japan 111(2):87–93
Nakazawa T, Nakashima R, Ueki T, Tanabe S, Oshima H, Horiuchi S (2006) Sequence stratigraphy of the Pleistocene Kioroshi Formation, Shimosa Group beneath the Omiya Upland, central Kanto Plain, central Japan. Journal of Geological Society of Japan 112(5):349–368
Nakazawa T, Nakasato Y (2007) Pleistocene Shimosa Group in central part of Kanto Plain
central Japan: Overview. Chishitsu News 634: 50–59
Nakazawa T, Nakasato Y, Oshima H, Horiuchi S (2009) Boundary between the Kazusa and Shimosa groups beneath the central Kanto Plain: Reconstruction of MIS 12 in the GS-KS-1 core (Koshigaya, Saitama Prefecture, central Japan). Journal of Geological Society of Japan 115(2):49–63
Nakazawa T, Tanabe S (2011) Geology of the Noda District. Quadrangle Series 1:50,000, Geological Survey of Japan
Nakazawa T, Sakata K, Hongo M, Nakazato H (2017) Transition from incised valley to barrier island systems during MIS 5e in the northern Chiba area, Kanto Plain, central Japan. Quatern Int 456:85–101
Nagashima K, Tada R, Toyoda S (2013) Westerly jet-East Asian summer monsoon connection during the Holocene. Geochem Geophys Geosyst 14(12):5041–5053
Okuda M, Okazaki H, Sato H (2002) Middle Pleistocene Pollen Assemblages and their Implications for the Yabu Formation, Boso Peninsula, Central Japan. The Quaternary Research 41(5):403–412
Ohkouchi N, Xu L, Reddy CM, Montluçon D, Eglinton TI (2005) Radiocarbon dating of alkenones from marine sediments: I. Isolation protocol. Radiocarbon 47(3):401–412
Otto-Bliesner BL, Rosenbloom N, Stone EJ, McKay NP, Lunt DJ, Brady EC, Overpeck JT (2013) How warm was the last interglacial? New model–data comparisons. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 371(2001): 20130097
Plancq J, Couto JM, Ijaz UZ, Leavitt PR, Toney JL (2019) Next-generation sequencing to identify lacustrine haptophytes in the Canadian Prairies: Significance for temperature proxy applications. Journal of Geophysical Research: Biogeosciences 124(7):2144–2158
Prahl FG, Muehlhausen LA, Zahnle DL (1988) Further evaluation of long-chain alkenones as indicators of paleoceanographic conditions. Geochim Cosmochim Acta 52(9):2303–2310
Raymo ME, Mitrovica JX (2012) Collapse of polar ice sheets during the stage 11 interglacial. Nature 483(7390):453–456
Rontani JF, Volkman JK, Prahl FG, Wakeham SG (2013) Biotic and abiotic degradation of alkenones and implications for U37K′ paleoproxy applications: A review. Org Geochem 59:95–113
Sagawa T, Nagahashi Y, Satoguchi Y, Holbourn A, Itaki T, Gallagher SJ, Saavedra-Pellitero M, Ikehara K, Irino T, Tada R (2018) Integrated tephrostratigraphy and stable isotope stratigraphy in the Japan Sea and East China Sea using IODP Sites U1426, U1427, and U1429, Expedition 346 Asian Monsoon. Progress in Earth Planetary Science 5(1):1–24
Salacup JM, Farmer JR, Herbert TD, Prell WL (2019) Alkenone paleothermometry in coastal settings: evaluating the potential for highly resolved time series of sea surface temperature. Paleoceanography Paleoclimatology 34(2):164–181
Sawada K, Handa N, Shiraiwa Y, Danbara A, Montani S (1996) Long-chain alkenones and alkyl alkenoates in the coastal and pelagic sediments of the northwest North Pacific, with special reference to the reconstruction of Emiliania huxleyi and Gephyrocapsa oceanica ratios. Org Geochem 24(8–9):751–764
Sampe T, Xie SP (2010) Large-scale dynamics of the meiyu-baiu rainband: Environmental forcing by the westerly jet. J Clim 23(1):113–134
Six Assessment Report (2021) The Intergovernmental Panel on Climate Change (IPCC)
Suzuki H (2002) Underground Geological Structure beneath the Kanto Plain, Japan. Report of the national Research. Institute for Earth Science Disaster Resilience 63:1–19
Tada R, Murray RW (2016) Preface for the article collection “Land–Ocean Linkages under the Influence of the Asian Monsoon”. Progress in Earth Planetary Science 3(1):1–5
Tada R, Irino T, Ikehara K, Karasuda A, Sugisaki S, Xuan C, Sagawa T, Itaki T, Kubota Y, Lu S, Seki A, Murray RW, Alvarez-Zarikian C, Anderson WT Jr, Bassetti M, Brace BJ, Clemens SC, da Costa Gurgel MH, Dickens GR, Dunlea AG, Gallagher SJ, Giosan L, Henderson ACG, Holbourn AE, Kinsley CW, Lee GS, Lee KE, Lofi J, Lopes CIDD, Saavedra-Pellitero M,,et al (2018) High-resolution and high-precision correlation of dark and light layers in the Quaternary hemipelagic sediments of the Japan Sea recovered during IODP Expedition 346. Progress in Earth Planetary Science 5(1):1–10
Tarasov PE, Nakagawa T, Demske D, Österle H, Igarashi Y, Kitagawa J, Mokhova L, Bazarova V, Okuda M, Gotanda K, Miyoshi N, Fujiki T, Takemura K, Yonenobu H, Fleck A (2011) Progress in the reconstruction of Quaternary climate dynamics in the Northwest Pacific: A new modern analogue reference dataset and its application to the 430-kyr pollen record from Lake Biwa. Earth Sci Rev 108(1–2):64–79
Tokuhashi S, Endo S (1984) Geology of the Anesaki District. Quadrangle Series 1:50,000, Geological Survey of Japan
Tokuhashi S, Kondo Y (1989) Sedimentary cycles and environments in the middle-late Pleistocene Shimosa Group, Boso Peninsula, central Japan. Journal of Geological Society of Japan 95(12):933–951
Turney CS, Jones RT, McKay NP, Van Sebille E, Thomas ZA, Hillenbrand CD, Fogwill CJ (2020) A global mean sea surface temperature dataset for the Last Interglacial (129–116 ka) and contribution of thermal expansion to sea level change. Earth System Science Data 12(4):3341–3356
Tzedakis PC, Raynaud D, McManus JF, Berger A, Brovkin V, Kiefer T (2009) Interglacial diversity. Nat Geosci 2(11):751–755
Tzedakis PC, Wolff EW, Skinner LC, Brovkin V, Hodell DA, McManus JF, Raynaud D (2012) Can we predict the duration of an interglacial? Clim Past 8(5):1473–1485
Uemura R, Motoyama H, Masson-Delmotte V, Jouzel J, Kawamura K, Goto-Azuma K, Fujita S, Kuramoto T, Hirabayashi M, Miyake T, Ohno H, Fujita K, Abe-Ouchi A, Iizuka Y, Horikawa S, Igarashi M, Suzuki K, Suzuki T, Fujii Y (2018) Asynchrony between Antarctic temperature and CO2 associated with obliquity over the past 720,000 years. Nature communications 9(1):1–11
Yin QZ, Berger A (2010) Insolation and CO2 contribution to the interglacial climate before and after the Mid-Brunhes Event. Nat Geosci 3(4):243–246