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| Fudan University · Dept. Atmospheric
& Oceanic Sciences | | Peking University
· Dept. Atmospheric & Oceanic Sciences |
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Latest Reading | 最新文献阅读
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Prange et
al., Science Advances, 2023: A
multicentennial mode of North Atlantic climate variability throughout the
LGM. New
Mehling et
al., CD, 2023: High‑latitude precipitation as a driver of multicentennial
variability of the AMOC in a climate model of intermediate complexity. New
Li et al., Nature, 2023: Abyssal ocean
overturning slowdown and warming driven by Antarctic meltwater. New
Wei and Zhang, GRL, 2022: A simple
conceptual model for the self-sustained multidecadal AMOC variability.
New
Li et al., GRL, 2023: 550-Year climate periodicity in the Yunnan-Guizhou
Plateau during the late mid-Holocene: insights and implications.
New
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Liu et al., GRL, 2022: Freshwater flux variability lengthens the period of the
low-frequency AMOC variability. New
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Thomas et al., GRL, 2019: Mechanisms
and impacts of a partial AMOC recovery under enhanced freshwater forcing.
New
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Gritsun, Russian J. NAMM, 2018: Low
frequency variability and sensitivity of the AMOC in selected IPCC cimate
model. New
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钱颖一, 知识分子, 2022: 中国大学教育缺位的第三维 (College education in China: the
missing dimension).
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Jiang et al., JAMES, 2021: Multicentennial variability driven by salinity
exchanges between the Atlantic and the Arctic Ocean in a coupled climate
model.
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Kug et
al., Nature Climate Change, 2021: Hysteresis of the intertropical convergence zone to
CO2 forcing.
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朱日祥等, 科学通报, 2021: 宜居地球的过去现在与未来:地球科学发展战略概要 (Summary
of the past, present and future of the habitable Earth: Development strategy
of Earth science).
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Zhang et al., Nature
Geoscience, 2021: Direct astronomical influence on abrupt climate
variability.
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Zhu and Liu, Nature
Climate Change, 2020: Weakening Atlantic
overturning circulation causes South Atlantic salinity pile-up.
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作者未知, 环球地理志, 2020: 气候如何影响人类文明兴衰 (How the Earth climate affects the
evolution of human civilization). Dynamic link
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Classical Reading | 经典文献阅读
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竺可桢, 地理知识, 1922: 地理对于人生之影响 (Geography and Human Civilazition).
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Stommel, Tellus, 1961: Thermohaline
convection with two stable regimes of flow. 2-Box model.
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Welander, Dyn. Atmos. Oceans, 1982: A
simple heat-salt oscillator. 1-D model.
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Ruddiman and Kutzbach, J. Geophys. Res., 1989: Forcing of late Cenozoic Northern Hemisphere climate by
plateau uplift in Southern Asia and the American West. 3-D GCM w/o dynamical
ocean. New
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Raymo and Ruddiman, Nature,
1992: Tectonic
forcing of late Cenozoic climate. Review article. New
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S. George Philander, 2004: Our Affair with El Nino: How We
Transformed an Enchanting Peruvian Current into a Global Climate Hazard. 中文版前言 中文版第18节 中文版最终章(附有往期链接)
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Advanced Reading | 进阶文献阅读
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Howard, L. N., 1971: ABC’s of convection. Geophysical Fluid Dynamics Summer
Program. Tech. Rep., 71-63, 102-105, WHOI
internal report. (N/A now)
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Malkus, W. V. R., 1972: Non-periodic convection at high and low Prandtl number. Mémoires Société Royale des Sciences de Liège, 6e Serie,
Tome IV, 125–128. (N/A now)
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Wright and Stocker, J.
Phys. Oceanogr., 1991: A zonally averaged ocean model for the thermohaline
circulation. Part I: model development and flow dynamics.
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Stocker and Wright, J.
Phys. Oceanogr., 1991: A zonally averaged ocean model for the thermohaline
circulation. Part II: interocean circulation in the Pacific-Atlantic basin
system.
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Stocker and Mysak, Climate Change, 1992: Climatic
fluctuations on the century time scale: A review of high-resolution proxy
data and possible mechanisms.
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Thual and
McWilliams, Geophys. Astrophys.
Fluid Dyn., 1992: The catastrophe structure
of thermohaline convection in a 2-D fluid model and a comparison with
low-order box model. 2-D and 2,3-Box model.
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Mysak et al., Climate Dynamics, 1993: Century-scale
variability in a randomly forced, 2-D thermohaline ocean circulation model.
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Huang, J. Geophys. Res., 1994: Thermohaline
circulation: Energetics and variability in a single-hemisphere basin model.
One of earliest OGCM studies on THC millennial variability and regime shifts.
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Schmidt and Mysak, Tellus A, 1996: The stability of a zonally averaged thermohaline
circulation model. New
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Sakai and Peltier, J.
Climate, 1999: A dynamical systems
model of the Dansgaard-Oeschger oscillation and the origin of the Bond cycle.
New
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Paola Cessi, Lecture 5, 2001: Thermohaline
variability.
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Michael Ghil, Encyclopedia, 2001: Natural climate variability. Encyclo. Global Environmental Change. New
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Weijer &
Dijkstra, J. Phys. Oceanogr.,
2003: Multiple oscillatory modes of the global ocean
circulation. New
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Colin et al., J. Climate,
2006: Bifurcation
structure of thermohaline millennial oscillations. 3´2-Box and 2-D model.
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Wanner et
al., Quaternary Science Reviews, 2008: Mid- to Late Holocene climate change: an overview.
New
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Sevellec et
al., J. Marine Res., 2006: On the mechanism
of centennial thermohaline oscillation. 2-D model and 1-D HM loop.
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Sevellec and
Fedorov, J. Climate, 2014: Millennial
variability in an idealized ocean model: predicting the AMOC regime shifts.
1-D modified Howard-Malkus loop.
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