Thickness of tropical ice and photosynthesis on a snowball earth
- 15 July 2000
- journal article
- Published by American Geophysical Union (AGU) in Geophysical Research Letters
- Vol. 27 (14) , 2153-2156
- https://doi.org/10.1029/2000gl008525
Abstract
On a completely ice‐covered “snowball” Earth the thickness of ice in the tropical regions would be limited by the sunlight penetrating into the ice cover and by the latent heat flux generated by freezing at the ice bottom—the freezing rate would balance the sublimation rate from the top of the ice cover. Heat transfer models of the perennially ice‐covered Antarctic dry valley lakes applied to the snowball Earth indicate that the tropical ice cover would have a thickness of 10 m or less with a corresponding transmissivity of > 0.1%. This light level is adequate for photosynthesis and could explain the survival of the eukaryotic algae.Keywords
This publication has 20 references indexed in Scilit:
- Snowball EarthScientific American, 2000
- Life in Ice-Covered OceansScience, 1999
- MICROALGAL LIGHT‐HARVESTING IN EXTREME LOW‐LIGHT ENVIRONMENTS IN MCMURDO SOUND, ANTARCTICA1Journal of Phycology, 1995
- A preliminary comparison of two perennially ice-covered lakes in Antarctica: Analogs of past Martian lacustrine environmentsAdvances In Space Research, 1995
- Susceptibility of the early Earth to irreversible glaciation caused by carbon dioxide cloudsNature, 1992
- The Early Evolution of Eukaryotes: A Geological PerspectiveScience, 1992
- Climatological Observations and Predicted Sublimation Rates at Lake Hoare, AntarcticaJournal of Climate, 1988
- Thickness of ice on perennially frozen lakesNature, 1985
- Deepest Known Plant Life Discovered on an Uncharted SeamountScience, 1985
- Comparative ecology of plankton communities in seven Antarctic oasis lakesJournal of Plankton Research, 1982