Lenton, TM et al. Tilting elements in the Earth’s climate system. Proc. Natl Acad. Science. United States of America 105, 1786–1793 (2008). This paper was the first to identify potential tipping elements in the climate system.
Lenton, TM Environmental tipping points. Annu. Rev. About. Resources. 38, 1-29 (2013).
Scheffer, M. et al. Early warning signals for critical transitions. The nature 461, 53-59 (2009).
Lenton, TM Early Warning on Climate Points. Nat. Clim. Chang. 1, 201-209 (2011).
Dakos, V. et al. Slowing down as an early warning signal for sudden climate change. Proc. Natl Acad. Science. United States of America 105, 14308–14312 (2008). This paper presents evidence of peak points in paleoclimatic records.
Ditlevsen, PD & Johnsen, SJ Points of doubt: early warning and wishful thinking. Geophyses. Rez. Lett. 37, https://doi.org/10.1029/2010GL044486 (2010).
Drijfhout, S. et al. Catalog of sudden changes in climate models of the Intergovernmental Panel on Climate Change. Proc. Natl Acad. Science. United States of America 112, E5777 – E5786 (2015). This study illustrates that the high points are found in future projections with complex Earth system models..
Nobre, CA and Borma, the LDS’s “points of doubt” for the Amazon rainforest. Curr. Opinion. Environment Supports. 1, 28-36 (2009).
Robinson, A., Calov, R. & Ganopolski, A. Multistability and critical thresholds of the Greenland ice sheet. Nat. Clim. Chang. 2, 429-432 (2012).
Schellnhuber, HJ, Rahmstorf, S. & Winkelmann, R. Why the right climate target was agreed in Paris. Nat. Clim. Chang. 6, 649-653 (2016).
Steffen, W. et al. The trajectories of the Earth system in the Anthropocene. Proc. Natl Acad. Science. United States of America 115, 8252–8259 (2018). This paper estimates peak thresholds (we will use its central estimates here).
Kriegler, E., Hall, JW, Held, H., Dawson, R. & Schellnhuber, HJ Assessment of inaccurate probability of peak points in the climate system. Proc. Natl Acad. Science. United States of America 106, 5041–5046 (2009).
Lenton, TM et al. Climate points – too risky to bet. The nature 575, 592–595 (2019).
United Nations Framework Convention on Climate Change Adoption of the Paris Agreement. Proposal by the President https://unfccc.int/resource/docs/2015/cop21/eng/l09.pdf (UNFCCC, 2015).
Raftery, AE, Zimmer, A., Frierson, DM, Startz, R. and Liu, P. Less than 2 ° C heating up to 2100 unlikely. Nat. Clim. Chang. 7, 637–641 (2017).
Tong, D. et al. Emissions from existing energy infrastructure jeopardize the 1.5 ° C climate target. The nature 572, 373–377 (2019).
Alkhayuon, H., Ashwin, P., Jackson, LC, Quinn, C. & Wood, RA basin bifurcations, oscillatory instability and rate-induced thresholds for the circulation of the South Atlantic capsule in a global ocean box model. Proc. R. Soc. London. A 475, 20190051 (2019).
Jackson, L. & Wood, R. AMOC hysteresis and resilience in a GCM that allows turbulence. Geophyses. Rez. Lett. 45, 8547–8556 (2018).
Kaszás, B., Haszpra, T. & Herein, M. The Snowball The transition of the Earth into a climate model with derived parameters: the sharing of the instantaneous attraction. Chaos 29, 113102 (2019).
Ritchie, P., Karabacak, Ö. & Sieber, J. The law of the inverse square between time and amplitude for crossing tilting thresholds. Proc. R. Soc. London. A 475, 20180504 (2019). This study describes the mathematical theory for how long and how long a peak threshold can be exceeded without causing overturning..
O’Keeffe, PE & Wieczorek, S. Tipping phenomena and points of return in ecosystems: beyond the classic forks. SIAM J. Appl. Dyn. Syst. 19, 2371-2402 (2020).
Pachauri, RK et al. Climate change 2014: Synthesis report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change https://epic.awi.de/id/eprint/37530/ (IPCC, 2014).
Cox, PM et al. The return of the Amazon forest in the projections of the climate-carbon cycle for the 21st century. Theoretical. Applic. Climatol. 78, 137–156 (2004).
Zickfeld, K., Knopf, B., Petoukhov, V. & Schellnhuber, HJ Is the Indian summer monsoon stable against global change? Geophyses. Rez. Lett. 32, https://doi.org/10.1029/2005GL022771 (2005).
Walker, G. The tip of the iceberg. The nature 441, 802-805 (2006).
Stocker, TF & Wright, DG Rapid transitions of deep ocean circulation induced by changes in surface water flows. The nature 351, 729-732 (1991).
Hughes, TP, Linares, C., Dakos, V., Van De Leemput, IA and Van Nes, EH Living dangerously from borrowed time during slow, unrecognized regime changes. Ecol Trends. evolve. 28, 149–155 (2013).
Lucarini, V. & Bódai, T. Transitions between states of melancholy in a climate model: reconciliation of deterministic and stochastic views. Physical. Pr. Lett. 122, 158701 (2019).
Wernecke, H., Sándor, B. & Gros, C. Attractor metadynamics in terms of target points in slow-fast systems: adiabatic protected flow versus symmetry in a recurrent neural network. J. Phys. Usually. 2, 095008 (2018).
Medeiros, ES, Caldas, IL, Baptista, MS & Feudel, U. The capture phenomenon mitigates the consequences of tipping points for limit cycles. Science. representative. 7, 42351 (2017).
Huntingford, C. et al. Flexible global temperature time profiles, stabilizing at 1.5 and 2.0 ° C. Earth. Syst. Dynamic. 8, 617−626 (2017). This article defines the temperature overcoming profiles used in this study.
Cessi, P. A simple box model of stochastic forced thermohaline flow. J. Phys. Oceanogr. 24, 1911-1920 (1994).
Dijkstra, HA Nonlinear climate dynamics (Cambridge Univ. Press, 2013).
Stommel, H. Thermohaline convection with two stable flow regimes. earth 13, 224-230 (1961).
Herald, CM, Kurita, S. & Telyakovskiy, AS Simple climate models to illustrate how forks can change balance and stability. J. Contemp. Water Res. educate. 152, 14-21 (2013).
Dekker, MM, Von Der Heydt, AS & Dijkstra, HA Cascading transitions in the climate system. The Earth system. Dynamic. 9, 1243–1260 (2018).
Wunderling, N., Donges, JF, Kurths, J. and Winkelmann, R. Interactive switching elements increase the risk of domino climate effects under global warming. The Earth system. Dynamic. Talk. 1–21, https://doi.org/10.5194/esd-2020-18 (2020).
Levermann, A., Schewe, J., Petoukhov, V. & Held, H. Basic mechanism for abrupt monsoon transitions. Proc. Natl Acad. Science. United States of America 106, 20572–20577 (2009).
North, GR Low ice cap instability in diffuse climate models. J. Atmos. Science. 41, 3390–3395 (1984).