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References
- 1
- Caldeira, K. and Kasting, J.F. 1992.
The life span of the biosphere revisited. Nature 360, 721-723.
- 2
- Armstrong, R. L. 1981. The persistent myth of
the crustal growth. Aust. J. Earth Sci. 38, 613-630.
- 3
- Sagan, C. and Mullen, G. 1972. Earth and
Mars: Evolution
of atmospheres and surface temperatures. Science 177, 52-56.
- 4
- Nisbet, E.G. 1987.The Young Earth: An
introduction to Archean Geology. Allen & Unwin Inc., London, pp. 402.
- 5
- Ganopolski, A., Kubatzki, C., Claussen,
M., Brovkin, V., and Petoukhov, V. 1998. Vegetation-atmosphere-ocean interaction on
climate
during
Mid-Holocene. Science 280, 1916-1919.
- 6
- Schwartzman, D.W. and Volk,
T. 1989.
Biotic enhancement of weathering and the habitability of Earth. Nature 340,
457-460.
- 7
- Walker, J.C.G., Hays, P.B., and Kasting, J.F.
1981.
A
negative feedback mechanism for the long-term stabilization of Earth`s surface temperature.
J. Geophys, Res. 86, 9776-9782.
- 8
- Schneider, S.H. and Boston, P.J.
(eds.) 1991.
Scientists on Gaia. MIT Press, Cambridge, pp. 550.
- 9
- Krumbein, W.E. 1995. A Neglected Carbon Sink?
Biodegradation of Rocks. In: Microbial Diversity and Ecosystem Function. Allsopp, D.,
Colwell, R.R., and Hawksworth, D.L. (eds.). CAB International, Wallingford.
- 10
- Caldeira, K. 1995. Long-term control
of atmospheric carbon dioxide - low-temperature seafloor alteration or
terrestrial silicate-rock weathering. Am. J. Sci. 295, 1077-1114.
- 11
- Berner, R.A. 1991. A model for atmospheric CO
over
Phanerozoic time. Am. J. Sci. 291, 339-376.
- 12
- Stumm, W. and Morgan, J.J. 1981.
Aquatic chemistry.
Wiley, New York, 780 pp.
- 13
- Volk, T. 1987. Feedbacks between weathering and
atmospheric
CO over the last 100 million years. Am. J. Sci. 287, 763-779.
- 14
- Kasting, J.F. 1992. The proterozoic
Biosphere. Schopf, J.W., Klein, C. (eds.), Cambridge University Press, Cambridge, 165-168.
- 15
- Williams, D.M. 1998. The stability of
Habitable Planetary Environments. Thesis, Pennsylvania State University.
- 16
- Richter, O. 1985. Simulation des Verhaltens
ökologischer
Systeme: Mathematische Methoden und Modelle. Verlag Chemie, Weinheim, pp. 219.
- 17
- Bugbee, B.G. and Salisbury, F.B. 1986.
Studies on maximum yield of wheat for the controlled
environments of space. In: Controlled Ecological Life Support Systems: CELSS 1985
Workshop,
ed. R.D. MacElroy, N.Y. Martello, D.T. Smernoff. NASA-TM-88215, National
Aeronautics and Space Administration, Washington D.C., 447-486.
- 18
- Kump, L.R. and Volk, T. 1991. Gaia`s garden
and BLAG`s greenhouse:
global biogeochemical climate regulation. In: Scientists on Gaia, ed. S.H. Schneider and
P.J. Boston, MIT Press, Cambridge, 191-199.
- 19
- Watson, A.J. and Lovelock, J.E. 1983. Biological homeostasis of the global environment: the parable of Daisyworld. Tellus 35B, 284-289.
- 20
- von Bloh, W., Block, A., and Schellnhuber,
H.-J.
1997.
Self-stabilisation of the biosphere under global change: a tutorial geophysiological approach.
Tellus 49B, 249-262.
- 21
- Schwartzman, D., McMenamin,
M., and Volk, T. 1993. Did surface temperatures constrain microbial evolution? BioSci.
43, 390-393.
- 22
- Berner, R.A., Lasaga, A.C., and Garrels, R.M.
1983.
The carbonate-silicate geochemical cycle and its effects on atmospheric carbon dioxide
over the past 100 million years. Am. J. Sci. 283, 641-683.
- 23
- Franck, S., Kossacki, K., and Bounama,
Ch. 1999.
Modelling
the global carbon cycle for the past and future evolution of the Earth system.
Chem. Geology, in press.
- 24
- Berner, R.A. 1992. Weathering, plants, and long-term
carbon cycle. Geochim. Cosmochim. Acta 56, 3225-3231.
- 25
- Caldeira, K. 1991. Continental-pelagic
carbonate partitioning and the global carbonate-silicate cycle. Geology
19, 204-206.
- 26
- Caldeira, K. 1992. Enhanced cenozoic
chemical weathering and the subduction of pelagic carbonate. Nature 357,
578-581.
- 27
- Condie, K.C. 1990. Growth and accretion of
continental crust:
inferences based on Laurentia. Chem. Geology 83, 183-194.
- 28
- Forget, F. and Pierrehumbert, R.T.
1997. Warming early Mars with carbon dioxide clouds that scatter infrared radiation.
Science 278, 1273-1276.
- 29
- Franck, S. 1998. Evolution of the global heat flow
over 4.6 Gyr. Tectonophysics 291, 9-18.
- 30
- Franck, S. and Bounama, Ch. 1995.
Effects
of water-dependent creep rate on the volatile exchange between mantle and surface reservoirs.
Phys. Earth Planet. Inter. 92, 57-65.
- 31
- Franck, S. and Bounama, Ch. 1997.
Continental
growth and volatile exchange during Earth`s evolution. Phys. Earth Planet. Inter.
100,
189-196.
- 32
- Fyfe, W. D. 1978. Evolution of the earth's crust: modern
plate tectonics to ancient hot spot tectonics? Chem. Geol. 23, 89-114.
- 33
- Goddéris, Y. and Francois,
L.M. 1995.
The cenozoic evolution of the strontium and carbon cycle: relative importance of continental
erosion and mantle exchanges. Chem. Geology 126, 169-190.
- 34
- Hart, M.H. 1978. The evolution of the atmosphere of the
Earth. Icarus 33, 23-39.
- 35
- Hart, M.H. 1979. Habitable zones about main sequence
stars.
Icarus 37, 351-357.
- 36
- Jackson, M.J. and Pollack, H.N. 1987.
Mantle
devolatilization and convection: implications for the thermal history of the Earth.
Geophys.
Res. Lett. 14, 7, 737-740.
- 37
- Kasting, J.F. 1984. Comments on the BLAG
model:
the
carbonate-silicate geochemical cycle and its effect on atmospheric carbon dioxide over the
past 100 million years. Am. J. Sci. 284, 1175-1182.
- 38
- Kasting, J.F. 1997. Habitable zones around low
mass
stars
and the search for extraterrestrial life. Origins of Life 27, 291-307.
- 39
- Kasting, J.F.,Toon, O.B., and Pollack, J.B.
1988. How climate evolved on the terrestrial planets. Sci. Am. 258,2, 46-53.
- 40
- Kasting, J.F., Whitmire, D.P., and Reynolds,
R.T.
1993.
Habitable zones around main sequence stars. Icarus 101, 108-128.
- 41
- Kuhn, W.R., Walker, J.C.G., and Marshall, H.G.
1989
The effect on
Earth`s surface temperature from variations in rotation rate, continent formation, solar
luminosity,
and carbon dioxide. J. Geophys. Res. 94, 11,129-11,136.
- 42
- Lasaga, A.C., Berner, R.A., and Garrels, R.M.
1985.
An improved
geochemical model of atmospheric CO fluctuation over the past 100 million years. In:
The carbon
cycle and atmospheric CO: Natural variations Archaean to present, Geophys.
Monograph 32,
ed. E.T. Sundquist and W.S. Broecker, AGU, Washington D.C., 397-441.
- 43
- Lovelock, J.E. and Whitfield,
M. 1982. Life span
of biosphere. Nature 296, 561-563.
- 44
- Marshall, H.G., Walker, J.C.G, and Kuhn,
W.R.
1988. Long-term
climate change and the geochemical cycle of carbon. J. Geophys. Res. 93,
781-801.
- 45
- Mc Govern, P.J. and Schubert,
G.
1989. Thermal
evolution of the Earth: effects of volatile exchange between atmosphere and interior.
Earth Planet.
Sci. Lett. 96, 27-37.
- 46
- Reymer, A. and Schubert, G. 1984. Phanerozoic addition rates of the continental crust and crustal growth. Tectonics 3, 63-67.
- 47
- Schellnhuber, H.-J. and Kropp,
J. 1998.
Geocybernetics: Controlling a Complex Dynamic System under Uncertainty.
Naturwissenschaften 85, 411-425.
- 48
- Sylvester, P.J., Campbell, I.H.,
and Bowyer, D.A. 1997. Niobium/uranium evidence for early formation of the
continental crust. Science 275, 521-523.
- 49
- Taylor, S.R. and Mc Lennan, S.M.
1995. The
geological evolution of the continental crust. Rev. Geophysics 33, 641-265.
- 50
- Turcotte, D.L. and Schubert, G. 1982.
Geodynamics. Wiley, New York, 450 pp.
- 51
- Volk, T. 1989. Sensitivity of climate and atmospheric
CO deep-ocean and shallow-ocean carbonate burial. Nature 337, 637-640.
- 52
- Walker, J.C.G. and Kasting, J.F. 1992.
Effects
of fuel and forest conservation on future levels of atmospheric carbon dioxide.
Paleogeography,
Paleoclimatology, Paleoecology (Global and Planetary Change Section) 97, 151-189.
- 53
- Williams, D.M. and Kasting, J.F. 1997.
Habitable
planets with high obliquities. Icarus 129, 254-267.
- 54
- Williams, D.R. and Pan, V. 1992.
Internally heated
mantle convection and the thermal and degassing history of the Earth. J. Geophys. Res.
97,
B6, 8937-8950.
- 55
- Wolery, T.J. and Sleep, N.H. 1976.
Hydrothermal circulation and geochemical flux at mid-ocean ridges. J. Geol. 84,
249-275.
- 56
-
Wolery, T.J. and Sleep, N.H. 1988. Interactions of geochemical cycles with the mantle. In:
Chemical cycles in the evolution of the Earth, eds. C.B. Gregor, R.M. Garrels, F.T. Mackenzie,
J.B. Maynard, Wiley & Sons, New York, 77-103.
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Werner von Bloh (Data & Computation)
Thu Jul 13 11:37:29 MEST 2000