Breistroffer Event

A rise in carbon dioxide and consequent negative carbon isotope excursion (CIE) ensued at the start of OAE1d, causing global temperatures to rise by 2 °C.^[3] During the Breistroffer Thermal Maximum, as this climatic interval has been referred to, Earth's mean surface air temperature was 23.3 °C.^[2] Average sea surface temperatures (SSTs) were 3 to 5 °C higher than today.^[1] Mercury anomalies from the time of the event implicate large igneous province volcanism from the Kerguelen Plateau as the cause of the rise in global temperatures.^[4][5]

An alternative hypothesis implicating enhanced monsoons forced by Milankovitch cycles rather than volcanism has also been proposed, based on the lack of unradiogenic osmium isotope ratio fluctuations observed during OAE1d.^[6] Total organic carbon values and carbon and oxygen isotope records from the La Grita Member of the Capacho Formation of Venezuela show a cyclic variation supporting the enhanced monsoonal hypothesis.^[7]

One possible cause of OAE1d relates to a possible 5-6 Myr cycle in the rate of phosphorus weathering throughout the middle of the Cretaceous period, at one of the peaks of which OAE1d ensued. This cycle would have been sustained and enhanced by fast-acting positive feedbacks of increased biological productivity and deoxygenation in response to elevated oceanic phosphate concentrations, but eventually mitigated and reversed by longer term negative feedbacks of increasing atmospheric oxygen content, which would have increased wildfire activity and caused a decline in vegetation, slowing down chemical weathering and returned the phosphorus cycle back to its starting state.^[8]