A
dinosaur-like reptile leaves muddy footprints along the shoreline of a
lake during a rainstorm some 234 million years ago in northwestern
Argentina. Credit: Jorge Gonzalez/NHMU |
Three dramatic events occurred on Earth: the first dinosaurs appeared, gigantic volcanic eruptions called the Wrangellia large igneous province spewed out greenhouse gasses and the climate suddenly shifted to warmer, more humid conditions that scientists call the Carnian Pluvial Episode (CPE).
Recent work suggests that the Wrangellia eruptions caused the CPE, and that the resulting climate change may have spurred the early diversification of dinosaurs. But the lack of precise absolute dates for many Carnian sediments makes comparisons difficult.
Additionally, few detailed paleoclimatic data exist for many regions outside of Europe, making it unclear whether the CPE was truly a global climate event or conclusively linking it to dinosaur diversification.
In a new study in the journal Gondwana Research, an international group led by Adriana Mancuso, a National Scientific and Technical Research Council (CONICET) researcher at the Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales in Mendoza, Argentina, demonstrated that the CPE affected the southern hemisphere, specifically South America, which strengthens the case that it was a global climate event. The study was published online on June 15, 2020.
"There are ample Triassic, and specifically Carnian, rocks and fossils in South America, and Argentina in particular, but until now there were no paleoclimatic studies that could conclusively show that the Carnian Pluvial Episode occurred in the southern hemisphere," Mancuso said.
Photos
(left) and 3D models (right) of dinosaur-like footprints from the Los
Rastros Formation in the study area in northwestern Argentina. Credit: Randall Irmis/NHMU |
"Our study focused on these rocks because they had the perfect combination of a good fossil record, dateable ash layers, and rich climate data preserved in lake sediments," said Randall Irmis of the Natural History Museum of Utah and Department of Geology & Geophysics at the University of Utah.
In order to date the ash layer, the scientists isolated small needle-like crystals of zircon, minerals that act like time-capsules. When zircon crystallizes during an eruption, it traps the element uranium in its crystal structure, but never incorporates lead. Any lead preserved in the crystals today is a result of the radioactive decay of uranium.
Because scientists know this decay rate, they can measure the ratio of uranium and lead in each zircon crystal and calculate how far back in time the crystals formed. In the present study, this measurement was done on a precise mass spectrometer at the Berkeley Geochronology Center.
humid conditions.
Based on the absolute date from the same strata, they concluded that it matched in time with the CPE in the northern hemisphere. By using a variety of different analyses, the resulting paleoclimate inferences were more robust than previous assertions made from a single line of evidence.
This warm/humid interval also fortuitously includes layers that preserve fossil footprints of early dinosaurs or their closest relatives.
"Our study suggests that the appearance of dinosaurs in South America could be linked to the CPE, but the data available worldwide remains inconclusive. To make a more robust global link between the CPE and dinosaur diversification will require many more detailed studies of paleoclimate with precise ages like we were able to do for the Los Rastros Formation in Argentina," concluded Mancuso.
Links
- Mass extinction crisis triggered expansion of dinosaurs
- A Climate Catastrophe Paved the Way for the Dinosaurs’ Reign
- Dinosaurs Roar Again, Now Including a Focus on Climate Change
- What Can Dinosaurs Tell Us About Global Warming?
- Dinosaurs and Climate Change
- Earth was stressed before dinosaur extinction
- Dinosaurs may have faced volcanic climate change before the asteroid
- By 2025, carbon dioxide levels in Earth's atmosphere will be higher than at any time in the last 3.3 million years
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