Paper No. 8
Presentation Time: 10:20 AM
WHERE WAS THE HADLEY CELL BOUNDARY IN THE MID-CRETACEOUS AMERICAS?: CONSTRAINTS IMPOSED BY TERRESTRIAL CARBONATES OF THE MIDCONTINENT UNITED STATES
Some scientists have postulated a poleward migration of the mid-Cretaceous Hadley Cell boundary (HCB) in response to the greenhouse warming forced by higher atmospheric pCO2. We evaluate this concept in light of observations on the paleolatitudinal distribution of mid-Cretacous pedogenic carbonates in the midcontinent United States. A N-S transect along the cratonic margin of the Cretaceous Western Interior Basin in the midcontinent U.S. provides unambiguous evidence for location of the HCB in a region free of orographic influences. Ufnar et al. (2002; Palaeo-3 188:51-71) outlined the distribution of Albian pedogenic siderites from 34 °N (central Kansas) to 75 °N (North Slope Alaska) paleolatitudes, all recording terrestrial paleoclimates with positive precipitation-evaporation balances that are to be expected north of the HCB. Calcic paleosols of the Aptian-Albian Antlers Formation of southeastern Oklahoma (29.5 °N paleolatitude) record terrestrial paleoclimates with negative precipitation-evaporation balances that are to be expected within the descending arm of the Hadley Cell. These observations place the HCB between 29.5 to 34 °N paleolatitude. Diagenetic investigations of meteoric phreatic calcites from the Antlers Formation yield meteoric calcite lines with d18O values ranging between 5.5 to 0.7 PDB. Micritic calcites from meteoric vadose settings have d18O values that were enriched by evaporation by 0.24 to 1.2 . At a local zonally-averaged MAT of 27.7 °C, evaporative enrichments of these magnitudes require evaporative losses of 11-45% of the vadose soil water through simple Rayleigh distillation. Our work firmly places the Antlers Formation of southeast Oklahoma within the Aptian-Albian subtropical Hadley Cell.