Roughly 35 million years ago, a massive asteroid slammed into the Atlantic Ocean near what鈥檚 now the East Coast. The impact struck with such force that it carved out a vast crater, later buried beneath the present-day Chesapeake Bay.
The explosion unleashed chaos across the region. It sparked enormous fires, sent shockwaves that triggered earthquakes, and hurled molten glass into the sky. A towering air blast raced outward, and a massive tsunami tore across what are now Virginia and Maryland, reshaping the landscape.
That ancient impact crater stretches about 25 miles across. Over time, layers of sediment completely hid it from view. Scientists only confirmed its existence in the early 1990s, thanks to drilling operations that uncovered solid geological evidence.
It still holds the title of the largest known impact crater in the United States. On a global scale, it ranks as the 15th biggest ever discovered鈥攁 reminder of the asteroid鈥檚 sheer power.
The explosion didn鈥檛 just carve a hole in the crust. It launched a colossal amount of material into the sky. Among the debris were tektites, bits of natural glass created by meteorite impacts, and zircon crystals blasted by the shock.
That airborne debris rained back down across an enormous region. It formed what scientists now call the North American tektite strewn field鈥攁n ejecta blanket covering around 4 million square miles. That鈥檚 ten times bigger than Texas. While some of it fell on land, much of it hit the sea, rapidly cooled, and settled on the ocean floor.
To better understand the scale and timing of the event, researchers analyzed samples from the Ocean Drilling Project鈥檚 site 1073. Marc Biren from Arizona State University’s School of Earth and Space Exploration led the effort to study these deep-sea cores.
Alongside Jo-Anne Wartho, Matthijs Van Soest, and Kip Hodges, the team used uranium-thorium-helium dating to examine the samples. This advanced method helped pin down when the impact occurred and how long it took for the materials to cool and settle, offering a clearer picture of one of North America鈥檚 most violent geological moments.
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Their findings were recently published in Meteoritics & Planetary Science.
鈥淒etermining accurate and precise ages of impact events is vital in our understanding of Earth’s history,鈥 Biren said. 鈥淚n recent years, for example, the scientific community has realized the importance of impact events on Earth鈥檚 geological and biological history, including the 65-million-year-old dinosaur mass extinction event linked to the large Chicxulub impact crater.鈥
The team focused on zircon crystals, which preserve evidence of shock metamorphism caused by the high pressures and temperatures of impact events. These crystals, about the thickness of a human hair, were central to their investigation.
鈥淜ey to our investigation were zircon 鈥 or more precisely: zirconium silicate 鈥 crystals found in oceanic sediments of a borehole almost 400 kilometers (250 miles) northeast of the impact site in the Atlantic Ocean,鈥 said co-author Wartho, who started the study as a lab manager at the Mass Spectrometry Lab at ASU.
For this study, Biren collaborated with Wartho (now at GEOMAR Helmholtz Centre for Ocean Research Kiel), Van Soest, and Hodges to prepare samples for analysis and date zircon crystals using the uranium-thorium-helium method. Biren identified and processed shocked zircon fragments for imaging and chemical analysis with an electron microprobe.
鈥淭his research adds a tool for investigators dating terrestrial impact structures,鈥 Biren said. 鈥淥ur results demonstrate the uranium-thorium-helium dating method鈥檚 viability for use in similar cases, where shocked materials were ejected away from the crater and then allowed to cool quickly, especially in cases where the sample size is small.鈥
The study not only contributes to the understanding of the Chesapeake Bay impact event but also highlights the broader significance of impact events on Earth鈥檚 geological and biological history.
The ability to accurately date such events enhances our comprehension of their effects on the planet鈥檚 development and the history of life.
The five largest impact craters on Earth by diameter are:
Vredefort Crater (South Africa) 鈥 ~250鈥300 km
Chicxulub Crater (Mexico) 鈥 ~180 km
Sudbury Basin (Canada) 鈥 ~130 km
Popigai Crater (Russia) 鈥 ~90 km
Manicouagan Crater (Canada) 鈥 ~85 km
These impact craters provide critical evidence of past asteroid or comet collisions and their effects on Earth’s geological and biological history.
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