Rusov, V. D. et al. (2006): The galactic cosmic rays-clouds effect and bifurcations of the global climate

Leg/Site/Hole:
ODP 113
ODP 113 695
Identifier:
2008-029022
georefid

Creator:
Rusov, V. D.
National Polytechnical University, Kiev, Ukraine
author

Glushkov, A. V.
Odessa State Environmental University, Ukraine
author

Vashchenko, V. N.
National Antarctic Center, Ukraine
author

Zelentsova, T. N.
author

Mihalys, O. T.
author

Khohklov, V. N.
author

Kolos, A.
author

Patlashenko, Zh.
author

Identification:
The galactic cosmic rays-clouds effect and bifurcations of the global climate
2006
In: Nikolaenko, S. M. (prefacer), Materiali III mizhnarodnoyi naukovoyi knoferentsyyi Naukovi doslidzhennya v Antarktitsi Material from the 3rd international scientific conference on Scientific investigations in Antarctica
Ukrains'kij Antarkticnij Centr, Kiev, Ukraine
2006
4-5
117-136
The possible physical linkage between the cosmic rays- cloud and indirect aerosol effects is discussed using the analysis of the first indirect aerosol effect (Twomey effect) and its experimental representation as the dependence of mean cloud droplet effective radius versus aerosol index defining the column aerosol number. It is shown that the main kinetic equation of Earth climate energy-balance model is described by the bifurcation equation (relative to the surface temperature of the Earth) in the form of fold catastrophe with two controlling parameters defining the variations of insolation and Earth magnetic field (or cosmic rays intensity in the atmosphere) respectively. The results of comparative analysis on the time-dependent solution of Earth climate energy-balance model taking into account nontrivial role of galactic cosmic rays and the known experimental data on the paleotemperature from the Vostok ice core are presented. In the framework of the bifurcation model (i) the possibility of abrupt glacial climate changes analogous to the Dansgaard-Oeschger events due to stochastic resonance is theoretically argued, (ii) the concept of the climatic sensitivity of water (vapour and liquid) in the atmosphere is introduced. This concept reveals the property of temperature instability in the form of so-called hysteresis loop. On the basis of this concept it is shown that the simulated time series of global ice volume over the past 730 kyr are in good agreement with time series of seawater delta (super 18) O (ice volume proxy). (iii) Also, the so-called "doubling CO (sub 2) " problem is discussed.
English
Coverage:Geographic coordinates:
North:-62.2328
West:-43.2706East: 106.4800
South:-78.2800

Quaternary geology; aerosols; Antarctica; bifurcation; carbon dioxide; Cenozoic; climate; climate change; clouds; cosmic rays; Dansgaard-Oeschger cycles; equations; global change; Holocene; ice cores; isotope ratios; isotopes; Leg 113; mathematical models; numerical analysis; O-18/O-16; Ocean Drilling Program; ODP Site 695; oxygen; Quaternary; stable isotopes; Vostok Station;

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