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53. Simulated decadal oscillations of the Atlantic meridional overturning circulation in a cold climate state

Author

Yoshimori, Masakazu, Raible, Christoph C., Stocker, Thomas F., Renold, Manuel, Yoshimori, Masakazu, Raible, Christoph C., Stocker, Thomas F., and Renold, Manuel

Abstract

Published Online: 28 February 2009, The significance of the Atlantic meridional overturning circulation (MOC) for regional and hemispheric climate change requires a complete understanding using fully coupled climate models. Here we present a persistent, decadal oscillation in a coupled atmosphere–ocean general circulation model. While the present study is limited by the lack of comparisons with paleo-proxy records, the purpose is to reveal a new theoretically interesting solution found in the fully-coupled climate model. The model exhibits two multi-century-long stable states with one dominated by decadal MOC oscillations. The oscillations involve an interaction between anomalous advective transport of salt and surface density in the North Atlantic subpolar gyre. Their time scale is fundamentally determined by the advection. In addition, there is a link between the MOC oscillations and North Atlantic Oscillation (NAO)-like sea level pressure anomalies. The analysis suggests an interaction between the NAO and an anomalous subpolar gyre circulation in which sea ice near and south of the Labrador Sea plays an important role in generating a large local thermal anomaly and a meridional temperature gradient. The latter induces a positive feedback via synoptic eddy activity in the atmosphere. In addition, the oscillation only appears when the Nordic Sea is completely covered by sea ice in winter, and deep convection is active only near the Irminger Sea. Such conditions are provided by a substantially colder North Atlantic climate than today.

Published
2018

56. マルチ気候モデルおよび物理パラメータアンサンブルの信頼性評価

Author

Yokohata, Tokuta, Annan, James D., [checking], Collins, Matthew, Jackson, Charles S., Watanabe, Masahiro, Shiogama, Hideo, Emori, Seita, Abe, Manabu, Yoshimori, Masakazu, Webb, Mark J., and Hargreaves, Julia C.

Abstract

平成24年度京都大学防災研究所一般研究集会(24K-08)「週間及び1か月予報における顕著現象の予測可能性」, 京都大学防災研究所連携研究棟大セミナー室, 2012/11/20-22

Published
2013

57. The effect of extratropical warming amplification on the future tropical precipitation

Author

Yoshimori, Masakazu, Hamano, Yujin, and Abe-Ouchi, Ayako

Abstract

第7回極域科学シンポジウム/横断セッション:[IA] ニーオルスン観測拠点設立25周年記念横断セッション—北極域の科学(ニーオルスン、GRENE、ArCS)—12月2日(金) 統計数理研究所 3階セミナー室D305

Published
2016

59. Effectiveness and limitations of parameter tuning in reducing biases of top-of-atmosphere radiation and clouds in MIROC version 5

Author

Ogura, Tomoo, primary, Shiogama, Hideo, additional, Watanabe, Masahiro, additional, Yoshimori, Masakazu, additional, Yokohata, Tokuta, additional, Annan, James D., additional, Hargreaves, Julia C., additional, Ushigami, Naoto, additional, Hirota, Kazuya, additional, Someya, Yu, additional, Kamae, Youichi, additional, Tatebe, Hiroaki, additional, and Kimoto, Masahide, additional

Published
2017
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62. State dependence of climatic instability over the past 720,000 years from Antarctic ice cores and climate modeling

Author

10225716, Kawamura, Kenji, Abe-Ouchi, Ayako, Motoyama, Hideaki, Ageta, Yutaka, Aoki, Shuji, Azuma, Nobuhiko, Fujii, Yoshiyuki, Fujita, Koji, Fujita, Shuji, Fukui, Kotaro, Furukawa, Teruo, Furusaki, Atsushi, Goto-Azuma, Kumiko, Greve, Ralf, Hirabayashi, Motohiro, Hondoh, Takeo, Hori, Akira, Horikawa, Shinichiro, Horiuchi, Kazuho, Igarashi, Makoto, Iizuka, Yoshinori, Kameda, Takao, Kanda, Hiroshi, Kohno, Mika, Kuramoto, Takayuki, Matsushi, Yuki, Miyahara, Morihiro, Miyake, Takayuki, Miyamoto, Atsushi, Nagashima, Yasuo, Nakayama, Yoshiki, Nakazawa, Takakiyo, Nakazawa, Fumio, Nishio, Fumihiko, Obinata, Ichio, Ohgaito, Rumi, Oka, Akira, Okuno, Jun’ichi, Okuyama, Junichi, Oyabu, Ikumi, Parrenin, Frédéric, Pattyn, Frank, Saito, Fuyuki, Saito, Takashi, Saito, Takeshi, Sakurai, Toshimitsu, Sasa, Kimikazu, Seddik, Hakime, Shibata, Yasuyuki, Shinbori, Kunio, Suzuki, Keisuke, Suzuki, Toshitaka, Takahashi, Akiyoshi, Takahashi, Kunio, Takahashi, Shuhei, Takata, Morimasa, Tanaka, Yoichi, Uemura, Ryu, Watanabe, Genta, Watanabe, Okitsugu, Yamasaki, Tetsuhide, Yokoyama, Kotaro, Yoshimori, Masakazu, Yoshimoto, Takayasu, 10225716, Kawamura, Kenji, Abe-Ouchi, Ayako, Motoyama, Hideaki, Ageta, Yutaka, Aoki, Shuji, Azuma, Nobuhiko, Fujii, Yoshiyuki, Fujita, Koji, Fujita, Shuji, Fukui, Kotaro, Furukawa, Teruo, Furusaki, Atsushi, Goto-Azuma, Kumiko, Greve, Ralf, Hirabayashi, Motohiro, Hondoh, Takeo, Hori, Akira, Horikawa, Shinichiro, Horiuchi, Kazuho, Igarashi, Makoto, Iizuka, Yoshinori, Kameda, Takao, Kanda, Hiroshi, Kohno, Mika, Kuramoto, Takayuki, Matsushi, Yuki, Miyahara, Morihiro, Miyake, Takayuki, Miyamoto, Atsushi, Nagashima, Yasuo, Nakayama, Yoshiki, Nakazawa, Takakiyo, Nakazawa, Fumio, Nishio, Fumihiko, Obinata, Ichio, Ohgaito, Rumi, Oka, Akira, Okuno, Jun’ichi, Okuyama, Junichi, Oyabu, Ikumi, Parrenin, Frédéric, Pattyn, Frank, Saito, Fuyuki, Saito, Takashi, Saito, Takeshi, Sakurai, Toshimitsu, Sasa, Kimikazu, Seddik, Hakime, Shibata, Yasuyuki, Shinbori, Kunio, Suzuki, Keisuke, Suzuki, Toshitaka, Takahashi, Akiyoshi, Takahashi, Kunio, Takahashi, Shuhei, Takata, Morimasa, Tanaka, Yoichi, Uemura, Ryu, Watanabe, Genta, Watanabe, Okitsugu, Yamasaki, Tetsuhide, Yokoyama, Kotaro, Yoshimori, Masakazu, and Yoshimoto, Takayasu

Abstract

Climatic variabilities on millennial and longer time scales with a bipolar seesaw pattern have been documented in paleoclimatic records, but their frequencies, relationships with mean climatic state, and mechanisms remain unclear. Understanding the processes and sensitivities that underlie these changes will underpin better understanding of the climate system and projections of its future change. We investigate the long-term characteristics of climatic variability using a new ice-core record from Dome Fuji, East Antarctica, combined with an existing long record from the Dome C ice core. Antarctic warming events over the past 720, 000 years are most frequent when the Antarctic temperature is slightly below average on orbital time scales, equivalent to an intermediate climate during glacial periods, whereas interglacial and fully glaciated climates are unfavourable for a millennial-scale bipolar seesaw. Numerical experiments using a fully coupled atmosphere-ocean general circulation model with freshwater hosing in the northern North Atlantic showed that climate becomes most unstable in intermediate glacial conditions associated with large changes in sea ice and the Atlantic Meridional Overturning Circulation. Model sensitivity experiments suggest that the prerequisite for the most frequent climate instability with bipolar seesaw pattern during the late Pleistocene era is associated with reduced atmospheric CO2 concentration via global cooling and sea ice formation in the North Atlantic, in addition to extended Northern Hemisphere ice sheets.

Published
2017

63. State dependence of climatic instability over the past 720,000 years from Antarctic ice cores and climate modeling

Author

Kawamura, Kenji, Abe-Ouchi, Ayako, Motoyama, Hideaki, Ageta, Yutaka, Aoki, Shuji, Azuma, Nobuhiko, Fujii, Yoshiyuki, Fujita, Koji, Fujita, Shuji, Fukui, Kotaro, Furukawa, Teruo, Furusaki, Atsushi, Goto-Azuma, Kumiko, Greve, Ralf, Hirabayashi, Motohiro, Hondoh, Takeo, Hori, Akira, Horikawa, Shinichiro, Horiuchi, Kazuho, Igarashi, Makoto, Iizuka, Yoshinori, Kameda, Takao, Kanda, Hiroshi, Kohno, Mika, Kuramoto, Takayuki, Matsushi, Yuki, Miyahara, Morihiro, Miyake, Takayuki, Miyamoto, Atsushi, Nagashima, Yasuo, Nakayama, Yoshiki, Nakazawa, Takakiyo, Nakazawa, Fumio, Nishio, Fumihiko, Obinata, Ichio, Ohgaito, Rumi, Oka, Akira, Okuno, Jun'ichi, Okuyama, Junichi, Oyabu, Ikumi, Parrenin, Frédéric, Pattyn, Frank, Saito, Fuyuki, Saito, Takashi, Saito, Takeshi, Sakurai, Toshimitsu, Sasa, Kimikazu, Seddik, Hakime, Shibata, Yasuyuki, Shinbori, Kunio, Suzuki, Keisuke, Suzuki, Toshitaka, Takahashi, Akiyoshi, Takahashi, Kunio, Takahashi, Shuhei, Takata, Morimasa, Tanaka, Yoichi, Uemura, Ryu, Watanabe, Genta, Watanabe, Okitsugu, Yamasaki, Tetsuhide, Yokoyama, Kotaro, Yoshimori, Masakazu, Yoshimoto, Takayasu, Kawamura, Kenji, Abe-Ouchi, Ayako, Motoyama, Hideaki, Ageta, Yutaka, Aoki, Shuji, Azuma, Nobuhiko, Fujii, Yoshiyuki, Fujita, Koji, Fujita, Shuji, Fukui, Kotaro, Furukawa, Teruo, Furusaki, Atsushi, Goto-Azuma, Kumiko, Greve, Ralf, Hirabayashi, Motohiro, Hondoh, Takeo, Hori, Akira, Horikawa, Shinichiro, Horiuchi, Kazuho, Igarashi, Makoto, Iizuka, Yoshinori, Kameda, Takao, Kanda, Hiroshi, Kohno, Mika, Kuramoto, Takayuki, Matsushi, Yuki, Miyahara, Morihiro, Miyake, Takayuki, Miyamoto, Atsushi, Nagashima, Yasuo, Nakayama, Yoshiki, Nakazawa, Takakiyo, Nakazawa, Fumio, Nishio, Fumihiko, Obinata, Ichio, Ohgaito, Rumi, Oka, Akira, Okuno, Jun'ichi, Okuyama, Junichi, Oyabu, Ikumi, Parrenin, Frédéric, Pattyn, Frank, Saito, Fuyuki, Saito, Takashi, Saito, Takeshi, Sakurai, Toshimitsu, Sasa, Kimikazu, Seddik, Hakime, Shibata, Yasuyuki, Shinbori, Kunio, Suzuki, Keisuke, Suzuki, Toshitaka, Takahashi, Akiyoshi, Takahashi, Kunio, Takahashi, Shuhei, Takata, Morimasa, Tanaka, Yoichi, Uemura, Ryu, Watanabe, Genta, Watanabe, Okitsugu, Yamasaki, Tetsuhide, Yokoyama, Kotaro, Yoshimori, Masakazu, and Yoshimoto, Takayasu

Abstract

Climatic variabilities on millennial and longer time scales with a bipolar seesaw pattern have been documented in paleoclimatic records, but their frequencies, relationships with mean climatic state, and mechanisms remain unclear. Understanding the processes and sensitivities that underlie these changes will underpin better understanding of the climate system and projections of its future change. We investigate the long-term characteristics of climatic variability using a new ice-core record from Dome Fuji, East Antarctica, combined with an existing long record from the Dome C ice core. Antarctic warming events over the past 720,000 years are most frequent when the Antarctic temperature is slightly below average on orbital time scales, equivalent to an intermediate climate during glacial periods, whereas interglacial and fully glaciated climates are unfavourable for a millennial-scale bipolar seesaw. Numerical experiments using a fully coupled atmosphere-ocean general circulation model with freshwater hosing in the northern North Atlantic showed that climate becomes most unstable in intermediate glacial conditions associated with large changes in sea ice and the Atlantic Meridional Overturning Circulation. Model sensitivity experiments suggest that the prerequisite for the most frequent climate instabilitywith bipolar seesaw pattern during the late Pleistocene era is associated with reduced atmospheric CO2 concentration via global cooling and sea ice formation in the North Atlantic, in addition to extended Northern Hemisphere ice sheets.

Published
2017

65. The tropical rain belts with an annual cycle and a continent model intercomparison project: TRACMIP

Author

Voigt, Aiko, primary, Biasutti, Michela, additional, Scheff, Jacob, additional, Bader, Jürgen, additional, Bordoni, Simona, additional, Codron, Francis, additional, Dixon, Ross D., additional, Jonas, Jeffrey, additional, Kang, Sarah M., additional, Klingaman, Nicholas P., additional, Leung, Ruby, additional, Lu, Jian, additional, Mapes, Brian, additional, Maroon, Elizabeth A., additional, McDermid, Sonali, additional, Park, Jong‐yeon, additional, Roehrig, Romain, additional, Rose, Brian E. J., additional, Russell, Gary L., additional, Seo, Jeongbin, additional, Toniazzo, Thomas, additional, Wei, Ho‐Hsuan, additional, Yoshimori, Masakazu, additional, and Vargas Zeppetello, Lucas R., additional

Published
2016
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66. 氷期に氷床が大気下層循環変化を通して大西洋子午面循環に与える影響

Author

Sherriff-Tadano, Sam, Abe-Ouchi, Ayako, Yoshimori, Masakazu, and Chan, Wing-Le

Abstract

Recently, some studies have revealed that, in glacial period, Atlantic meridional overturning circulation (AMOC) was strongly controlled by the ice sheet and greenhouse gases (Abe-Ouchi et al. in prep; Brady et al. 2013). By comparing the results from a coupled atmosphere and ocean general circulation model (AOGCM) with and without glacial ice sheets, they showed that the ice sheets had large influence on the glacial AMOC. This process is not fully understood, but it may be related to atmospheric circulation change due to the presence of huge ice sheets (Oka et al. 2012; Montoya and Levermann 2008). Some studies have shown that in the Last Glacial Maximum (LGM), the atmospheric circulation differed from that of today mainly due to the presence of the huge ice sheet, especially in the North Atlantic where the AMOC sinks. These atmospheric circulation differences would cause changes in wind stress and therefore may affect AMOC. Thus in this study, we investigate the influence of the ice sheets on glacial AMOC through wind stress. Here we use an atmosphere general circulation model, which is the atmospheric part of MIROC climate model for sensitivity experiments. As ice sheet has two effects (topography effect and albedo effect) on atmospheric circulation, we evaluate each effect separately as well. We conducted 3 experiments. The first experiment, named as NOICE, uses only the modern ice sheet distribution thus does not contain the effect of the glacial ice sheet. Second experiment, which is refferd as FLATICE experiment, contains the flat glacial ice sheet thus inclueds the albedo effect of the glacial ice sheet but not the topography effect. For the third experiment, LGM, we added the whole glacial ice sheets. Therefore, from these experiments, we can determine the total effect of glacial ice sheets as LGM-NOICE, the albedo-only effect as FLATICE-NOICE, the topography-only effect as LGM-FLATICE. Hereafter we will focus in the North Atlantic where the AMOC sinks.In the North Atlantic, consistent with previous studies, the LGM ice sheets, i.e., Laurentide and Fenno-Scandian ice sheets had large impact on the wind stress. Anomalies induced by the ice sheets were a southward wind stress anomaly in Greenland Sea and Baffin Bay, cyclonic anomaly at high latitude, and anti-cyclonic wind stress anomaly at mid and low latitudes. It was found that the topography effect was dominant, though for the eastward wind stress at mid-latitude, albedo effect also played an important role.Using these wind stress as a boundary condition, we conducted several experiments using an ocean general circulation model to investigate the effect of the wind stress altered by the icesheet on the AMOC. All experiments were conducted under glacial cold condition, which we used surface heat flux of the LGM from the model simulation as Oka et al. (2012). As a result, wind stress without glacial ice sheet showed weaker and shallower AMOC compared to the modern AMOC. For the albedoonly effect, the AMOC intensified, though the interface between the North Atlantic Deep Water and the Atlantic Antarctica Bottom Water had only minor change. On the other hand, for the total glacial ice sheet effect and topography-only effect, this interface significantly deepenedin in addition that the circulation itself is intensified, though the strength of the topographyonly effect was weaker than the total glacial ice sheet. These results suggest that the wind stress change due to the ice sheet is crucial to determine the state of the glacial AMOC., 第4回極域科学シンポジウム個別セッション:[OM] 気水圏11月15日(金) 統計数理研究所 3階セミナー室1(D305)

Published
2013

67. 二つのMIROC GCMにおける北極域温暖化増幅プロセスの季節性について

Author

Yoshimori, Masakazu, Watanabe, Masahiro, Abe-Ouchi, Ayako, Ogura, Tomoo, and Shiogama, Hideo

Abstract

第4回極域科学シンポジウム横断セッション:[IA] 「急変する北極気候システム及びその全球的な影響の総合的解明」―GRENE北極気候変動研究事業研究成果報告2013―11月12日(火) 国立極地研究所 2階大会議室

Published
2013

70. Stability of weather regimes during the last millennium from climate simulations

Author

Yiou, Pascal, Servonnat, Jérôme, Yoshimori, Masakazu, Swingedouw, Didier, Khodri, Myriam, Abe-Ouchi, Ayako, Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Extrèmes : Statistiques, Impacts et Régionalisation (ESTIMR), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Laboratoire d'Océanographie et du Climat : Expérimentations et Approches Numériques (LOCEAN), Institut de Recherche pour le Développement (IRD)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Muséum national d'Histoire naturelle (MNHN)-Institut Pierre-Simon-Laplace (IPSL (FR_636)), École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris Diderot - Paris 7 (UPD7)-École polytechnique (X)-Centre National d'Études Spatiales [Toulouse] (CNES)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-École polytechnique (X)-Centre National d'Études Spatiales [Toulouse] (CNES)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Centre Européen de Recherche et de Formation Avancée en Calcul Scientifique (CERFACS), CERFACS, Variabilité climatique tropicale et globale (VARCLIM), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-École polytechnique (X)-Centre National d'Études Spatiales [Toulouse] (CNES)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Muséum national d'Histoire naturelle (MNHN)-Institut Pierre-Simon-Laplace (IPSL (FR_636)), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Muséum national d'Histoire naturelle (MNHN)-Institut de Recherche pour le Développement (IRD)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Institut Pierre-Simon-Laplace (IPSL (FR_636)), École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris Diderot - Paris 7 (UPD7)-École polytechnique (X)-Centre National d'Études Spatiales [Toulouse] (CNES)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-École normale supérieure - Paris (ENS-PSL), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-École polytechnique (X)-Centre National d'Études Spatiales [Toulouse] (CNES)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Muséum national d'Histoire naturelle (MNHN)-Institut de Recherche pour le Développement (IRD)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Institut Pierre-Simon-Laplace (IPSL (FR_636))

Subjects
weather regimes, [SDU.STU.GP]Sciences of the Universe [physics]/Earth Sciences/Geophysics [physics.geo-ph], [SDE.MCG]Environmental Sciences/Global Changes, NAO, [PHYS.PHYS.PHYS-GEO-PH]Physics [physics]/Physics [physics]/Geophysics [physics.geo-ph], climate simulations
Abstract

The variability of the extra-tropical atmospheric circulation and its potential dependence on external forcings have been debated topics in climate modeling and observation communities. A recent reconstruction of the North Atlantic Oscillation Index has argued that the Medieval Warm Period period yielded a persistent positive phase of this index in contrast with an oscillating mode during the Little Ice Age. This paper tests whether this feature can be obtained, in millennium simulations from three different climate models. We examine the daily atmospheric dynamics that drives the main modes of extra-tropical variability. We find that the transition from a Medieval Warm Period to a Little Ice Age in the North Atlantic does not imply changes in patterns or frequency of weather regimes, although the mean surface temperature change is significant. This implies that the interpretation of proxy records in terms of atmospheric variability should be revised in order to take into account the structure of daily meteorological patterns, and/or climate models are too constrained to infer large changes of atmospheric variability. Citation: Yiou, P., J. Servonnat, M. Yoshimori, D. Swingedouw, M. Khodri, and A. Abe-Ouchi (2012), Stability of weather regimes during the last millennium from climate simulations, Geophys. Res. Lett., 39, L08703, doi: 10.1029/2012GL051310.

Published
2012
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74. This title is unavailable for guests, please login to see more information.

Author

Yokohata, Tokuta, [checking], Watanabe, Masahiro, Shiogama, Hideo, Emori, Seita, Abe, Manabu, Yoshimori, Masakazu, Annan, James D., Collins, Matthew, Jackson, Charles S., Webb, Mark J., Hargreaves, Julia C., Yokohata, Tokuta, [checking], Watanabe, Masahiro, Shiogama, Hideo, Emori, Seita, Abe, Manabu, Yoshimori, Masakazu, Annan, James D., Collins, Matthew, Jackson, Charles S., Webb, Mark J., and Hargreaves, Julia C.

Published
2013

75. Long-Term Climate Change Commitment and Reversibility: An EMIC Intercomparison

Author

UCL - SST/ELI/ELIC - Earth & Climate, Zickfeld, Kirsten, Eby, Michael, Weaver, Andrew J., Alexander, Kaitlin, Crespin, Elisabeth, Edwards, Neil R., Eliseev, Alexey V., Feulner, Georg, Fichefet, Thierry, Forest, Chris E., Friedlingstein, Pierre, Goosse, Hugues, Holden, Philip B., Joos, Fortunat, Kawamiya, Michio, Kicklighter, David, Kienert, Hendrik, Matsumoto, Katsumi, Mokhov, Igor I., Monier, Erwan, Olsen, Steffen M., Pedersen, Jens O. P., Perrette, Mahe, Philippon-Berthier, Gwenaëlle, Ridgwell, Andy, Schlosser, Adam, Schneider Von Deimling, Thomas, Shaffer, Gary, Sokolov, Andrei, Spahni, Renato, Steinacher, Marco, Tachiiri, Kaoru, Tokos, Kathy S., Yoshimori, Masakazu, Zeng, Ning, Zhao, Fang, UCL - SST/ELI/ELIC - Earth & Climate, Zickfeld, Kirsten, Eby, Michael, Weaver, Andrew J., Alexander, Kaitlin, Crespin, Elisabeth, Edwards, Neil R., Eliseev, Alexey V., Feulner, Georg, Fichefet, Thierry, Forest, Chris E., Friedlingstein, Pierre, Goosse, Hugues, Holden, Philip B., Joos, Fortunat, Kawamiya, Michio, Kicklighter, David, Kienert, Hendrik, Matsumoto, Katsumi, Mokhov, Igor I., Monier, Erwan, Olsen, Steffen M., Pedersen, Jens O. P., Perrette, Mahe, Philippon-Berthier, Gwenaëlle, Ridgwell, Andy, Schlosser, Adam, Schneider Von Deimling, Thomas, Shaffer, Gary, Sokolov, Andrei, Spahni, Renato, Steinacher, Marco, Tachiiri, Kaoru, Tokos, Kathy S., Yoshimori, Masakazu, Zeng, Ning, and Zhao, Fang

Abstract

This paper summarizes the results of an intercomparison project with Earth System Models of Intermediate Complexity (EMICs) undertaken in support of the Intergovernmental Panel on Climate Change (IPCC) Fifth Assessment Report (AR5). The focus is on long-term climate projections designed to 1) quantify the climate change commitment of different radiative forcing trajectories and 2) explore the extent to which climate change is reversible on human time scales. All commitment simulations follow the four representative concentration pathways (RCPs) and their extensions to year 2300. MostEMICs simulate substantial surface air temperature and thermosteric sea level rise commitment following stabilization of the atmospheric composition at year-2300 levels. The meridional overturning circulation (MOC) is weakened temporarily and recovers to near-preindustrial values in most models for RCPs 2.6–6.0. The MOC weakening is more persistent for RCP8.5. Elimination of anthropogenic CO2 emissions after 2300 results in slowly decreasing atmospheric CO2 concentrations. At year 3000 atmospheric CO2 is still at more than half its year-2300 level in all EMICs forRCPs 4.5–8.5. Surface air temperature remains constant or decreases slightly and thermosteric sea level rise continues for centuries after elimination ofCO2 emissions in allEMICs.Restoration of atmosphericCO2 fromRCPto preindustrial levels over 100–1000 years requires large artificial removal of CO2 from the atmosphere and does not result in the simultaneous return to preindustrial climate conditions, as surface air temperature and sea level response exhibit a substantial time lag relative to atmospheric CO2.

Published
2013

76. Stability of the Atlantic meridional overturning circulation: A model intercomparison

Author

UCL - SST/ELI/ELIC - Earth & Climate, Weaver, A.J., Sedláček, J., Eby, M., Alexander, K., Crespin, Elisabeth, Fichefet, Thierry, Philippon, Gwenaëlle, Joos, F., Kawamiy, M., Matsumoto, K., Steinacher, M., Tachiiri, K., Tokos, K., Yoshimori, Masakazu, Zickfeld, K., UCL - SST/ELI/ELIC - Earth & Climate, Weaver, A.J., Sedláček, J., Eby, M., Alexander, K., Crespin, Elisabeth, Fichefet, Thierry, Philippon, Gwenaëlle, Joos, F., Kawamiy, M., Matsumoto, K., Steinacher, M., Tachiiri, K., Tokos, K., Yoshimori, Masakazu, and Zickfeld, K.

Abstract

The evolution of the Atlantic Meridional Overturning Circulation (MOC) in 30 models of varying complexity is examined under four distinct Representative Concentration Pathways. The models include 25 Atmosphere-Ocean General Circulation Models (AOGCMs) or Earth System Models (ESMs) that submitted simulations in support of the 5th phase of the Coupled Model Intercomparison Project (CMIP5) and 5 Earth System Models of Intermediate Complexity (EMICs). While none of the models incorporated the additional effects of ice sheet melting, they all projected very similar behaviour during the 21st century. Over this period the strength of MOC reduced by a best estimate of 22% (18%-25%; 5%-95% confidence limits) for RCP2.6, 26% (23%-30%) for RCP4.5, 29% (23%-35%) for RCP6.0 and 40% (36%-44%) for RCP8.5. Two of the models eventually realized a slow shutdown of the MOC under RCP8.5, although no model exhibited an abrupt change of the MOC. Through analysis of the freshwater flux across 30°-32°S into the Atlantic, it was found that 40% of the CMIP5 models were in a bistable regime of the MOC for the duration of their RCP integrations. The results support previous assessments that it is very unlikely that the MOC will undergo an abrupt change to an off state as a consequence of global warming. © 2012. American Geophysical Union. All Rights Reserved.

Published
2012

79. Stability of the Atlantic meridional overturning circulation: A model intercomparison

Author

Weaver, Andrew J., primary, Sedláček, Jan, additional, Eby, Michael, additional, Alexander, Kaitlin, additional, Crespin, Elisabeth, additional, Fichefet, Thierry, additional, Philippon‐Berthier, Gwenaëlle, additional, Joos, Fortunat, additional, Kawamiya, Michio, additional, Matsumoto, Katsumi, additional, Steinacher, Marco, additional, Tachiiri, Kaoru, additional, Tokos, Kathy, additional, Yoshimori, Masakazu, additional, and Zickfeld, Kirsten, additional

Published
2012
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85. The cloud radiative effect on the atmospheric energy budget and global mean precipitation.

Author

Lambert, F., Webb, Mark, Yoshimori, Masakazu, and Yokohata, Tokuta

Subjects
METEOROLOGICAL precipitation, ATMOSPHERIC radiation, ENERGY budget (Geophysics), ATMOSPHERIC carbon dioxide, CLOUDS
Abstract

This study seeks to explain the effects of cloud on changes in atmospheric radiative absorption that largely balance changes in global mean precipitation under climate change. The partial radiative perturbations (PRPs) due to changes in cloud and due to the effects of the pre-existing climatological cloud distribution on non-cloud changes, known as 'cloud masking', are calculated when atmospheric CO concentration is doubled for the HadSM3 and MIROC models and for a large ensemble of parameter perturbed models based on HadSM3. Because the effect of cloud on changes in atmospheric shortwave absorption is almost negligible, longwave fluxes are analysed alone. We find that the net effects of cloud masking and cloud PRP on atmospheric absorption are both substantial. For the tropics, our results are reviewed in light of hypotheses put forward to explain cloud and radiative flux changes. We find that the major effects of clouds on radiation change are linked to known physical processes that are quite consistently simulated by models. Cloud top height changes are quite well described by the fixed anvil temperature hypothesis of Hartmann and Larson; cloud base heights change little, remaining near the same pressure. Changes in cloud geographical location and cloud amount are significant, but play a smaller role in driving radiative flux changes. Finally, because clouds are a large source of modelling uncertainty, we consider whether resolving errors in cloud simulation could reconcile modelled global mean precipitation trends of about 1-3 % $$\hbox {K}^{-1}$$ with some estimates of observed trends of 7 % $$\hbox {K}^{-1}$$ or more. This would require the radiative effect of clouds to change from one that increases atmospheric radiative absorption by about $$0.5\,\hbox {Wm}^{-2}\,\hbox {K}^{-1}$$ to one that decreases it by $$-3.5\,\hbox {Wm}^{-2}\,\hbox {K}^{-1}$$ . Based on our results, this seems difficult to achieve within our current rationale for the tropics at least. [ABSTRACT FROM AUTHOR]

Published
2015
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87. Challenges posed by and approaches to the study of seasonal-to-decadal climate variability.

Author

Wanner, Heinz, Grosjean, Martin, Röthlisberger, Regine, Xoplaki, Elena, Schwierz, Cornelia, Davies, Huw C., Appenzeller, Christof, Liniger, Mark A., Müller, Wolfgang, Stocker, Thomas F., and Yoshimori, Masakazu

Abstract

The tasks of providing multi-decadal climate projections and seasonal plus subseasonal climate predictions are of significant societal interest and pose major scientific challenges. An outline is presented of the challenges posed by, and the approaches adopted to, tracing the possible evolution of the climate system on these various time-scales. First an overview is provided of the nature of the climate system's natural internal variations and the uncertainty arising from the complexity and non-linearity of the system. Thereafter consideration is given sequentially to the range of extant approaches adopted to study and derive multi-decadal climate projections, seasonal predictions, and significant sub-seasonal weather phenomena. For each of these three time-scales novel results are presented that indicate the nature (and limitations) of the models used to forecast the evolution, and illustrate the techniques adopted to reduce or cope with the forecast uncertainty. In particular, the contributions (i) appear to exemplify that in simple climate models uncertainties in radiative forcing outweigh uncertainties associated with ocean models, (ii) examine forecast skills for a state-of-the-art seasonal prediction system, and (iii) suggest that long-lived weather phenomena can help shape intra-seasonal climate variability. Finally, it is argued, that co-consideration of all these scales can enhance our understanding of the challenges associated with uncertainties in climate prediction. [ABSTRACT FROM AUTHOR]

Published
2006
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88. The UVic earth system climate model: Model description, climatology, and applications to past, present and future climates

Author

Weaver, Andrew J., primary, Eby, Michael, additional, Wiebe, Edward C., additional, Bitz, Cecilia M., additional, Duffy, Phil B., additional, Ewen, Tracy L., additional, Fanning, Augustus F., additional, Holland, Marika M., additional, MacFadyen, Amy, additional, Matthews, H. Damon, additional, Meissner, Katrin J., additional, Saenko, Oleg, additional, Schmittner, Andreas, additional, Wang, Huaxiao, additional, and Yoshimori, Masakazu, additional

Published
2001
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89. Stability of the Atlantic meridional overturning circulation: A model intercomparison

Author

Weaver, Andrew J., Sedláček, Jan, Eby, Michael, Alexander, Kaitlin, Crespin, Elisabeth, Fichefet, Thierry, Philippon-Berthier, Gwenaëlle, Joos, Fortunat, Kawamiya, Michio, Matsumoto, Katsumi, Steinacher, Marco, Tachiiri, Kaoru, Tokos, Kathy, Yoshimori, Masakazu, and Zickfeld, Kirsten

Subjects
13. Climate action, 530 Physics, 550 Earth sciences & geology
Abstract

The evolution of the Atlantic Meridional Overturning Circulation (MOC) in 30 models of varying complexity is examined under four distinct Representative Concentration Pathways. The models include 25 Atmosphere-Ocean General Circulation Models (AOGCMs) or Earth System Models (ESMs) that submitted simulations in support of the 5th phase of the Coupled Model Intercomparison Project (CMIP5) and 5 Earth System Models of Intermediate Complexity (EMICs). While none of the models incorporated the additional effects of ice sheet melting, they all projected very similar behaviour during the 21st century. Over this period the strength of MOC reduced by a best estimate of 22% (18%–25%; 5%–95% confidence limits) for RCP2.6, 26% (23%–30%) for RCP4.5, 29% (23%–35%) for RCP6.0 and 40% (36%–44%) for RCP8.5. Two of the models eventually realized a slow shutdown of the MOC under RCP8.5, although no model exhibited an abrupt change of the MOC. Through analysis of the freshwater flux across 30°–32°S into the Atlantic, it was found that 40% of the CMIP5 models were in a bistable regime of the MOC for the duration of their RCP integrations. The results support previous assessments that it is very unlikely that the MOC will undergo an abrupt change to an off state as a consequence of global warming.

90. Intensification of tropical Pacific biological productivity due to volcanic eruptions

Author

Joos, Fortunat, Cobb, Kim M., Raible, Christoph C., Laurian, Audine, Lehner, Flavio, Yoshimori, Masakazu, Abe-Ouchi, Ayako, Chikamoto, Megumi O., Mouchet, Anne, and Timmermann, Axel

Subjects
13. Climate action, 530 Physics, 550 Earth sciences & geology, 14. Life underwater, 15. Life on land, 16. Peace & justice
Abstract

Major volcanic eruptions generate widespread ocean cooling, which reduces upper ocean stratification. This effect has the potential to increase nutrient delivery into the euphotic zone and boost biological productivity. Using externally forced last millennium simulations of three climate/Earth System models (Model for Interdisciplinary Research On Climate (MIROC), Community Earth System Model (CESM), and LOch-Vecode-Ecbilt-CLio-agIsm Model (LOVECLIM)), we test the hypothesis that large volcanic eruptions intensify nutrient-driven export production. It is found that strong volcanic radiative forcing enhances the likelihood of eastern Pacific El Niño-like warming in CESM and LOVECLIM. This leads to an initial reduction of nutrients and export production in the eastern equatorial Pacific. However, this initial response reverses after about 3 years in association with La Niña cooling. The resulting delayed enhancement of biological production resembles the multiyear response in MIROC. The model simulations show that volcanic impacts on tropical Pacific dynamics and biogeochemistry persist for several years, thus providing a new source for potential multiyear ecosystem predictability.

91. The tropical rain belts with an annual cycle and a continent model intercomparison project: TRACMIP

Author

Voigt, Aiko, Biasutti, Michela, Scheff, Jacob S., Bader, Jürgen, Bordoni, Simona, Codron, Francis, Dixon, Ross D., Jonas, Jeffrey A., Kang, Sarah M., Klingaman, Nicholas P., Leung, Ruby, Lu, Jian, Mapes, Brian, Maroon, Elizabeth A., McDermid, Sonali, Park, Jong‐Yeon, Roehrig, Romain, Rose, Brian E. J., Russell, Gary L., Seo, Jeongbin, Toniazzo, Thomas, Wei, Ho‐Hsuan, Yoshimori, Masakazu, and Vargas Zeppetello, Lucas R.

Subjects
Climatology, Meteorology, 13. Climate action, Rain and rainfall--Analysis, Atmospheric models, Rain and rainfall--Simulation methods, Climatic changes
Abstract

This paper introduces the Tropical Rain belts with an Annual cycle and a Continent Model Intercomparison Project (TRACMIP). TRACMIP studies the dynamics of tropical rain belts and their response to past and future radiative forcings through simulations with 13 comprehensive and one simplified atmosphere models coupled to a slab ocean and driven by seasonally varying insolation. Five idealized experiments, two with an aquaplanet setup and three with a setup with an idealized tropical continent, fill the space between prescribed‐SST aquaplanet simulations and realistic simulations provided by CMIP5/6. The simulations reproduce key features of present‐day climate and expected future climate change, including an annual‐mean intertropical convergence zone (ITCZ) that is located north of the equator and Hadley cells and eddy‐driven jets that are similar to present‐day climate. Quadrupling CO2 leads to a northward ITCZ shift and preferential warming in Northern high latitudes. The simulations show interesting CO2‐induced changes in the seasonal excursion of the ITCZ and indicate a possible state dependence of climate sensitivity. The inclusion of an idealized continent modulates both the control climate and the response to increased CO2; for example, it reduces the northward ITCZ shift associated with warming and, in some models, climate sensitivity. In response to eccentricity‐driven seasonal insolation changes, seasonal changes in oceanic rainfall are best characterized as a meridional dipole, while seasonal continental rainfall changes tend to be symmetric about the equator. This survey illustrates TRACMIP's potential to engender a deeper understanding of global and regional climate and to address questions on past and future climate change.

92. Strengthening of ocean heat uptake efficiency associated with the recent climate hiatus

Author

Watanabe, Masahiro, 渡部, 雅浩, Kamae, Youichi, Yoshimori, Masakazu, Oka, Akira, Sato, Makiko, Ishii, Masayoshi, MOCHIZUKI, TAKASHI, Kimoto, Masahide, 釜江, 陽一, 吉森, 正和, 岡, 顕, 石井, 正好, 望月, 崇, 木本, 昌秀, Watanabe, Masahiro, 渡部, 雅浩, Kamae, Youichi, Yoshimori, Masakazu, Oka, Akira, Sato, Makiko, Ishii, Masayoshi, MOCHIZUKI, TAKASHI, Kimoto, Masahide, 釜江, 陽一, 吉森, 正和, 岡, 顕, 石井, 正好, 望月, 崇, and 木本, 昌秀

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94. Long-term climate change commitment and reversibility: an EMIC intercomparison

Author

Zickfeld, Kirsten, Eby, Michael, Alexander, Kaitlin, Weaver, Andrew J., Crespin, Elisabeth, Fichefet, Thierry, Goosse, Hugues, Philippon-Berthier, Gwenaëlle, Edwards, Neil R., Holden, Philip B., Eliseev, Alexey V., Mokhov, Igor I., Feulner, Georg, Kienert, Hendrik, Perrette, Mahé, Schneider von Deimling, Thomas, Forest, Chris E., Friedlingstein, Pierre, Joos, Fortunat, Spahni, Renato, Steinacher, Marco, Kawamiya, Michio, Tachiiri, Kaoru, Kicklighter, David, Monier, Erwan, Schlosser, Adam, Sokolov, Andrei, Matsumoto, Katsumi, Tokos, Kathy S., Olsen, Steffen M., Pedersen, Jens O. P., Ridgwell, Andy, Shaffer, Gary, Yoshimori, Masakazu, Zeng, Ning, Zhao, Fang, Zickfeld, Kirsten, Eby, Michael, Alexander, Kaitlin, Weaver, Andrew J., Crespin, Elisabeth, Fichefet, Thierry, Goosse, Hugues, Philippon-Berthier, Gwenaëlle, Edwards, Neil R., Holden, Philip B., Eliseev, Alexey V., Mokhov, Igor I., Feulner, Georg, Kienert, Hendrik, Perrette, Mahé, Schneider von Deimling, Thomas, Forest, Chris E., Friedlingstein, Pierre, Joos, Fortunat, Spahni, Renato, Steinacher, Marco, Kawamiya, Michio, Tachiiri, Kaoru, Kicklighter, David, Monier, Erwan, Schlosser, Adam, Sokolov, Andrei, Matsumoto, Katsumi, Tokos, Kathy S., Olsen, Steffen M., Pedersen, Jens O. P., Ridgwell, Andy, Shaffer, Gary, Yoshimori, Masakazu, Zeng, Ning, and Zhao, Fang

Abstract

This paper summarizes the results of an intercomparison project with Earth System Models of Intermediate Complexity (EMICs) undertaken in support of the Intergovernmental Panel on Climate Change (IPCC) Fifth Assessment Report (AR5). The focus is on long-term climate projections designed to: (i) quantify the climate change commitment of different radiative forcing trajectories, and (ii) explore the extent to which climate change is reversible on human timescales. All commitment simulations follow the four Representative Concentration Pathways (RCPs) and their extensions to 2300. Most EMICs simulate substantial surface air temperature and thermosteric sea level rise commitment following stabilization of the atmospheric composition at year-2300 levels. The meridional overturning circulation (MOC) is weakened temporarily and recovers to near pre-industrial values in most models for RCPs 2.6–6.0. The MOC weakening is more persistent for RCP 8.5. Elimination of anthropogenic CO2 emissions after 2300 results in slowly decreasing atmospheric CO2 concentrations. At year 3000 atmospheric CO2 is still at more than half its year-2300 level in all EMICs for RCPs 4.5–8.5. Surface air temperature remains constant or decreases slightly and thermosteric sea level rise continues for centuries after elimination of CO2 emissions in all EMICs. Restoration of atmospheric CO2 from RCP to pre-industrial levels over 100–1000 years requires large artificial removal of CO2 from the atmosphere and does not result in the simultaneous return to pre-industrial climate conditions, as surface air temperature and sea level response exhibit a substantial time lag relative to atmospheric CO2.

95. Long-term climate change commitment and reversibility: an EMIC intercomparison

Author

Zickfeld, Kirsten, Eby, Michael, Alexander, Kaitlin, Weaver, Andrew J., Crespin, Elisabeth, Fichefet, Thierry, Goosse, Hugues, Philippon-Berthier, Gwenaëlle, Edwards, Neil R., Holden, Philip B., Eliseev, Alexey V., Mokhov, Igor I., Feulner, Georg, Kienert, Hendrik, Perrette, Mahé, Schneider von Deimling, Thomas, Forest, Chris E., Friedlingstein, Pierre, Joos, Fortunat, Spahni, Renato, Steinacher, Marco, Kawamiya, Michio, Tachiiri, Kaoru, Kicklighter, David, Monier, Erwan, Schlosser, Adam, Sokolov, Andrei, Matsumoto, Katsumi, Tokos, Kathy S., Olsen, Steffen M., Pedersen, Jens O. P., Ridgwell, Andy, Shaffer, Gary, Yoshimori, Masakazu, Zeng, Ning, Zhao, Fang, Zickfeld, Kirsten, Eby, Michael, Alexander, Kaitlin, Weaver, Andrew J., Crespin, Elisabeth, Fichefet, Thierry, Goosse, Hugues, Philippon-Berthier, Gwenaëlle, Edwards, Neil R., Holden, Philip B., Eliseev, Alexey V., Mokhov, Igor I., Feulner, Georg, Kienert, Hendrik, Perrette, Mahé, Schneider von Deimling, Thomas, Forest, Chris E., Friedlingstein, Pierre, Joos, Fortunat, Spahni, Renato, Steinacher, Marco, Kawamiya, Michio, Tachiiri, Kaoru, Kicklighter, David, Monier, Erwan, Schlosser, Adam, Sokolov, Andrei, Matsumoto, Katsumi, Tokos, Kathy S., Olsen, Steffen M., Pedersen, Jens O. P., Ridgwell, Andy, Shaffer, Gary, Yoshimori, Masakazu, Zeng, Ning, and Zhao, Fang

Abstract

This paper summarizes the results of an intercomparison project with Earth System Models of Intermediate Complexity (EMICs) undertaken in support of the Intergovernmental Panel on Climate Change (IPCC) Fifth Assessment Report (AR5). The focus is on long-term climate projections designed to: (i) quantify the climate change commitment of different radiative forcing trajectories, and (ii) explore the extent to which climate change is reversible on human timescales. All commitment simulations follow the four Representative Concentration Pathways (RCPs) and their extensions to 2300. Most EMICs simulate substantial surface air temperature and thermosteric sea level rise commitment following stabilization of the atmospheric composition at year-2300 levels. The meridional overturning circulation (MOC) is weakened temporarily and recovers to near pre-industrial values in most models for RCPs 2.6–6.0. The MOC weakening is more persistent for RCP 8.5. Elimination of anthropogenic CO2 emissions after 2300 results in slowly decreasing atmospheric CO2 concentrations. At year 3000 atmospheric CO2 is still at more than half its year-2300 level in all EMICs for RCPs 4.5–8.5. Surface air temperature remains constant or decreases slightly and thermosteric sea level rise continues for centuries after elimination of CO2 emissions in all EMICs. Restoration of atmospheric CO2 from RCP to pre-industrial levels over 100–1000 years requires large artificial removal of CO2 from the atmosphere and does not result in the simultaneous return to pre-industrial climate conditions, as surface air temperature and sea level response exhibit a substantial time lag relative to atmospheric CO2.

96. Simulated decadal oscillations of the Atlantic meridional overturning circulation in a cold climate state

Author

Yoshimori, Masakazu, Raible, Christoph, Stocker, Thomas, Renold, Manuel, Yoshimori, Masakazu, Raible, Christoph, Stocker, Thomas, and Renold, Manuel

Abstract

The significance of the Atlantic meridional overturning circulation (MOC) for regional and hemispheric climate change requires a complete understanding using fully coupled climate models. Here we present a persistent, decadal oscillation in a coupled atmosphere-ocean general circulation model. While the present study is limited by the lack of comparisons with paleo-proxy records, the purpose is to reveal a new theoretically interesting solution found in the fully-coupled climate model. The model exhibits two multi-century-long stable states with one dominated by decadal MOC oscillations. The oscillations involve an interaction between anomalous advective transport of salt and surface density in the North Atlantic subpolar gyre. Their time scale is fundamentally determined by the advection. In addition, there is a link between the MOC oscillations and North Atlantic Oscillation (NAO)-like sea level pressure anomalies. The analysis suggests an interaction between the NAO and an anomalous subpolar gyre circulation in which sea ice near and south of the Labrador Sea plays an important role in generating a large local thermal anomaly and a meridional temperature gradient. The latter induces a positive feedback via synoptic eddy activity in the atmosphere. In addition, the oscillation only appears when the Nordic Sea is completely covered by sea ice in winter, and deep convection is active only near the Irminger Sea. Such conditions are provided by a substantially colder North Atlantic climate than today

97. Challenges posed by and approaches to the study of seasonal-to-decadal climate variability

Author

Schwierz, Cornelia, Appenzeller, Christof, Davies, Huw, Liniger, Mark, Müller, Wolfgang, Stocker, Thomas, Yoshimori, Masakazu, Schwierz, Cornelia, Appenzeller, Christof, Davies, Huw, Liniger, Mark, Müller, Wolfgang, Stocker, Thomas, and Yoshimori, Masakazu

Abstract

The tasks of providing multi-decadal climate projections and seasonal plus sub-seasonal climate predictions are of significant societal interest and pose major scientific challenges. An outline is presented of the challenges posed by, and the approaches adopted to, tracing the possible evolution of the climate system on these various time-scales. First an overview is provided of the nature of the climate system's natural internal variations and the uncertainty arising from the complexity and non-linearity of the system. Thereafter consideration is given sequentially to the range of extant approaches adopted to study and derive multi-decadal climate projections, seasonal predictions, and significant sub-seasonal weather phenomena. For each of these three time-scales novel results are presented that indicate the nature (and limitations) of the models used to forecast the evolution, and illustrate the techniques adopted to reduce or cope with the forecast uncertainty. In particular, the contributions (i) appear to exemplify that in simple climate models uncertainties in radiative forcing outweigh uncertainties associated with ocean models, (ii) examine forecast skills for a state-of-the-art seasonal prediction system, and (iii) suggest that long-lived weather phenomena can help shape intra-seasonal climate variability. Finally, it is argued, that co-consideration of all these scales can enhance our understanding of the challenges associated with uncertainties in climate prediction

98. On the interpretation of low-latitude hydrological proxy records based on Maunder Minimum AOGCM simulations

Author

Yoshimori, Masakazu, Raible, Christoph, Stocker, Thomas, Renold, Manuel, Yoshimori, Masakazu, Raible, Christoph, Stocker, Thomas, and Renold, Manuel

Abstract

An increasing number of proxy records, which are related to changes in the hydrological cycle, have been collected for climate reconstructions of the last millennium. There has been, however, little attempt to test climate models with such proxy records or to interpret proxy records using climate model simulations. In the present study, we analyze the hydrological changes between three different types of experiments: a present-day control, a perpetual AD 1640, and an ensemble of six transient Maunder Minimum (AD 1640-1715) simulations. Atmospheric moisture transport is investigated in terms of contributions of specific humidity and circulation changes. The study points out the importance of the specific humidity contribution to changes in moisture transport reflected in hydrological proxy records. The moisture budget of the western tropical Pacific is also investigated to aid the interpretation of a proxy record in this specific region. The present-day freshening of the western tropical Pacific, compared to the Maunder Minimum, is explained by the increased zonal moisture transport via trade winds, mainly due to the increased amount of atmospheric water vapor content in the warming world. Due to the existence of several uncertainty factors, such as forcing reconstructions, the link between the model simulations and proxy records is, however, not definitive, but the thermal contribution to hydrological proxy records is important and not limited to the Maunder Minimum period

100. State dependence of climatic instability over the past 720,000 years from Antarctic ice cores and climate modeling.

Author

Kawamura K, Abe-Ouchi A, Motoyama H, Ageta Y, Aoki S, Azuma N, Fujii Y, Fujita K, Fujita S, Fukui K, Furukawa T, Furusaki A, Goto-Azuma K, Greve R, Hirabayashi M, Hondoh T, Hori A, Horikawa S, Horiuchi K, Igarashi M, Iizuka Y, Kameda T, Kanda H, Kohno M, Kuramoto T, Matsushi Y, Miyahara M, Miyake T, Miyamoto A, Nagashima Y, Nakayama Y, Nakazawa T, Nakazawa F, Nishio F, Obinata I, Ohgaito R, Oka A, Okuno J, Okuyama J, Oyabu I, Parrenin F, Pattyn F, Saito F, Saito T, Saito T, Sakurai T, Sasa K, Seddik H, Shibata Y, Shinbori K, Suzuki K, Suzuki T, Takahashi A, Takahashi K, Takahashi S, Takata M, Tanaka Y, Uemura R, Watanabe G, Watanabe O, Yamasaki T, Yokoyama K, Yoshimori M, and Yoshimoto T

Abstract

Climatic variabilities on millennial and longer time scales with a bipolar seesaw pattern have been documented in paleoclimatic records, but their frequencies, relationships with mean climatic state, and mechanisms remain unclear. Understanding the processes and sensitivities that underlie these changes will underpin better understanding of the climate system and projections of its future change. We investigate the long-term characteristics of climatic variability using a new ice-core record from Dome Fuji, East Antarctica, combined with an existing long record from the Dome C ice core. Antarctic warming events over the past 720,000 years are most frequent when the Antarctic temperature is slightly below average on orbital time scales, equivalent to an intermediate climate during glacial periods, whereas interglacial and fully glaciated climates are unfavourable for a millennial-scale bipolar seesaw. Numerical experiments using a fully coupled atmosphere-ocean general circulation model with freshwater hosing in the northern North Atlantic showed that climate becomes most unstable in intermediate glacial conditions associated with large changes in sea ice and the Atlantic Meridional Overturning Circulation. Model sensitivity experiments suggest that the prerequisite for the most frequent climate instability with bipolar seesaw pattern during the late Pleistocene era is associated with reduced atmospheric CO 2 concentration via global cooling and sea ice formation in the North Atlantic, in addition to extended Northern Hemisphere ice sheets.

Published
2017
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