Acid-neutralizing scenario after the Cretaceous-Tertiary impact event
Acid-neutralizing scenario after the Cretaceous-Tertiary impact event
Geology (Boulder) (June 2003) 31 (6): 489-492
- acid rain
- atmospheric precipitation
- Cenozoic
- Chicxulub Crater
- Cretaceous
- critical load
- fresh-water environment
- impacts
- K-T boundary
- lower Paleocene
- mass extinctions
- Mesozoic
- Mexico
- mineral composition
- models
- Paleocene
- paleoecology
- paleoenvironment
- Paleogene
- rain
- stratigraphic boundary
- Tertiary
- transport
- Upper Cretaceous
- Yucatan Peninsula
Acid rain from the Cretaceous-Tertiary (K-T) boundary impact event should have caused significant damage to freshwater life, but only minor extinctions of freshwater species are actually observed. We propose a mechanism to neutralize the acid using larnite (beta -Ca (sub 2) SiO (sub 4) ), produced as a result of the specific lithology at the Chicxulub impact site. The impact vapor plume must have been enriched in calcium from the carbonate-rich target, leading to the crystallization of larnite. The acid-neutralizing capacity of the larnite grains would have been high enough to consume acid produced after the K-T event within several hours, reducing it to a level at which freshwater life would not have been affected, even if all the acid had precipitated instantaneously after the K-T impact. This scenario can explain some of the extinction selectivity at the K-T boundary.
