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Houston Geological Society Bulletin

Abstract


Houston Geological Society Bulletin, Volume 50, No. 08, April 2008. Page 19 - 19.

Abstract: From Previous HitGreenhouseNext Hit to Icehouse—The Azolla Trigger: Implications for Climate Change and Arctic Petroleum Source Rocks

Dr. Jonathan Bujak
Bujak Research Limited

The modern icehouse world is characterized by bipolar glaciation, resulting from relatively low levels of atmospheric CO2 and thermal isolation of the poles from lower latitude warm oceanic currents. In contrast, the Mesozoic Previous HitgreenhouseNext Hit world had no permanent glaciation at either pole, with the Previous HitgreenhouseNext Hit state continuing through the K/T boundary into the Paleocene.

At the end of the Paleocene, the Paleocene-Eocene Thermal Maximum was triggered by extreme levels of Previous HitgreenhouseNext Hit Previous HitgasesNext Hit due to extensive volcanism and the expulsion of submarine methane hydrates. This resulted in the highest temperatures known for the Cenozoic, characterizing a super-Previous HitgreenhouseNext Hit state that persisted through the Early Eocene. It is therefore surprising that various independent parameters indicate that the supergreenhouse was truncated in the earliest Middle Eocene by the initial shift toward modern icehouse. Estimates of atmospheric CO2 values show a major decrease at this time, but this cannot be explained by “normal” sequestration processes. Instead, a unique geological event is proposed to explain this fall, centered on processes within the Arctic Ocean Basin.

“The Azolla Model” is based on Arctic Coring Expedition (ACEX) cores from Lomonosov Ridge plus unpublished data from 65 Arctic petroleum exploration wells (Bujak Research non-exclusive well studies). The model combines oceanographic reconstructions for the basin with a major decrease in Previous HitgreenhouseNext Hit Previous HitgasesNext Hit during the middle Eocene. The Early Eocene Arctic Ocean Basin was largely enclosed following uplift of the Greenland Mantle Plume, with elevated temperatures, evaporation and precipitation leading to increased runoff and the development of extensive surface freshwater layers. These were colonised in the earliest Middle Eocene by floating mats of the opportunistic freshwater fern Azolla, which persisted for up to 800,000 years as a series of repeated cyclical events.

Modern Azolla is one of the fastest growing plants on the planet and draws down large quantities of carbon and nitrogen. Calculations of carbon drawdown combined with the large potential areas of Azolla development in the Arctic, plus the 800,000-year time frame indicate levels of CO2 sequestration that are easily sufficient to shift the world from Mesozoic—Early Eocene Previous HitgreenhouseTop towards the modern icehouse world. The model also indicates the deposition of potentially widespread petroleum source rocks across the Arctic due to the massive carbon drawdown. It is currently being tested by multidisciplinary teams at ACEX and various universities worldwide, and it has already attracted considerable attention including articles in National Geographic (May 2005), Nature (June 1, 2006), and the New York Times (November 20, 2004).

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