AI Article Synopsis
- The Late Triassic Carnian Pluvial Episode (CPE) was characterized by increased humidity and temperature, connected to volcanic activity from the Wrangellia province, and it coincided with significant biological changes on Earth, including the rise of dinosaurs and modern conifers.
- A detailed study from the Jiyuan Basin in North China provides evidence of this relationship, utilizing methods like U-Pb zircon dating and sediment analysis to show how volcanic eruptions closely corresponded with environmental changes.
- The findings suggest that large-scale volcanic eruptions can happen in distinct pulses, significantly impacting the carbon cycle, climate, and evolution during the Triassic period, rather than following a simple pattern of rise and decline.
Article Abstract
The Late Triassic Carnian Pluvial Episode (CPE) saw a dramatic increase in global humidity and temperature that has been linked to the large-scale volcanism of the Wrangellia large igneous province. The climatic changes coincide with a major biological turnover on land that included the ascent of the dinosaurs and the origin of modern conifers. However, linking the disparate cause and effects of the CPE has yet to be achieved because of the lack of a detailed terrestrial record of these events. Here, we present a multidisciplinary record of volcanism and environmental change from an expanded Carnian lake succession of the Jiyuan Basin, North China. New U-Pb zircon dating, high-resolution chemostratigraphy, and palynological and sedimentological data reveal that terrestrial conditions in the region were in remarkable lockstep with the large-scale volcanism. Using the sedimentary mercury record as a proxy for eruptions reveals four discrete episodes during the CPE interval (ca. 234.0 to 232.4 Ma). Each eruptive phase correlated with large, negative C isotope excursions and major climatic changes to more humid conditions (marked by increased importance of hygrophytic plants), lake expansion, and eutrophication. Our results show that large igneous province eruptions can occur in multiple, discrete pulses, rather than showing a simple acme-and-decline history, and demonstrate their powerful ability to alter the global C cycle, cause climate change, and drive macroevolution, at least in the Triassic.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8501800 | PMC |
| http://dx.doi.org/10.1073/pnas.2109895118 | DOI Listing |
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