Reduced plate motion controlled timing of Early Jurassic Karoo-Ferrar large igneous province volcanism

Past large igneous province (LIP) emplacement is commonly associated with mantle plume upwelling and led to major carbon emissions. One of Earth's largest past environmental perturbations, the Toarcian oceanic anoxic event (T-OAE; similar to 183 Ma), has been linked to Karoo-Ferrar LIP emplacement. However, the role of mantle plumes in controlling the onset and timing of LIP magmatism is poorly understood. Using global plate reconstruction models and Lower Toarcian sedimentary mercury (Hg) concentrations, we demonstrate (i) that the T-OAE occurred coevally with Karoo-Ferrar emplacement and (ii) that timing and duration of LIP emplacement was governed by reduced Pangean plate motion, associated with a reversal in plate movement direction. This new model mechanistically links Earth's interior and surficial processes, and the mechanism is consistent with the timing of several of the largest LIP volcanic events throughout Earth history and, thus, the timing of many of Earth's past global climate change and mass extinction events.

Automated summary

Research has found that the formation of large igneous provinces in the past is related to mantle plume upwelling and carbon emissions. The Toarcian oceanic anoxic event (T-OAE) during the Toarcian period is linked to the emplacement of the Karoo-Ferrar LIP. The timing and duration of LIP emplacement are controlled by reduced Pangean plate motion.