INVITED: DID CAMP EMPLACEMENT TRIGGER THE END-TRIASSIC MASS EXTINCTION?

The end-Triassic mass extinction, one of the five largest extinctions in Earth history, was a severe catastrophe in which 80% of all species were wiped out. The coincident eruption of the Central Atlantic Magmatic Province (CAMP) has prompted the hypothesis that CO₂ degassing to the atmosphere may have induced an environmental catastrophe at the end-Triassic. In this study, we use a numerical coupled ocean-atmosphere climate model of the Late Triassic to determine environmental stresses associated with a rapid increase in atmospheric CO₂. A series of sensitivity experiments, with CO₂ levels that bracket estimated end-Triassic pCO₂ estimates (2-8X pre-industrial levels), predict extreme environmental conditions. On land, increasing CO₂ from 2 to 8X pre-industrial levels causes an increase in the number and severity of hot days and days without precipitation, an exponential increase in continental area experiencing hot days, and enhanced seasonal fluctuation. In the ocean, wind-driven circulation decreases and meridional overturning diminishes by a factor of ~4, leading to enhanced ocean stratification. A 3-box model of the deep ocean predicts a decline of ~85 ìmol/L in deep ocean oxygen concentration with a four-fold increase in atmospheric CO₂. Consequently, while terrestrial organisms would have been subject to severe heat and water stress, marine fauna would have experienced oxygen deprivation. Additional sensitivity experiments indicate that variations in Milankovitch orbital parameters may further contribute to faunal stress by intensifying continental heating and seasonal fluctuations. In sum, model results predict that rising atmospheric CO₂ from the emplacement of a large igneous providence could have significantly impacted both marine and continental environments during the Late Triassic.