From Howtown.

Thanks to Storyblocks for sponsoring this video! Get 2 extra months free with annual plans for a limited-time only: https://storyblocks.com/Howtown

Sources: https://docs.google.com/document/d/1iTSqC5sNxM92PVcPZFlGA0ZHoMFpukzG_CIlrTMAm5I/edit?usp=sharing

To support independent science journalism and get bonus content …
JOIN OUR PATREON: https://www.patreon.com/Howtown

We’re grateful for the generous support of the Patreon Town Council:

Bev Fong
Chris Wubbels
Sean Barrett
Mike Purvis
Jon Hewett
Albychen
Aatish Bhatia
Sean Talon
Evan Hass
Mark Tinker
Julian Mayorga
L.A. O’Connor
Marcos Huerta
Joaquim Salles
Sam Gaty
Jason Dunlap
Parag Mallick
Edgar Sutawika
Tim Davey
Navneet
Tra Him
Taylor
Pedro ZM
Ale
Martin Weeks
Dimi
Bryce Golden-Chen
Estelle Caswell
Gregory Laborde
Yash Murthy
martin david
Matthew Stvartak
Garret Wates
Slightly Suspicious Mind
Kellyn Lorentzen-Goler
omg.science
Duncan Stannett
Keith England
Matthew Ferguson
Jocelyn Tabancay Duffy
Gabbatv
Guan Sin Ong
Casey Schatz
Mark McCreary
Ana Gruita
Senulum

TikTok: https://www.tiktok.com/@howtown_
Instagram: https://www.instagram.com/howtown_videos/

In the 1950s and early 1960s, the United States and the Soviet Union (with contributions from the UK and France) conducted a series of above-ground nuclear tests that led to an increase in the radioactive carbon-14 concentration in the atmosphere. This global surge, known as the "bomb pulse" or the "bomb spike", is one of the most distinctive chemical signatures of the Cold War. The radiocarbon spread worldwide, embedding into plants, animals, and humans. Scientists later discovered that this bomb-pulse radiocarbon spike could be used as a precise dating tool. Bomb-pulse dating allows researchers to determine whether biological material formed before or after nuclear testing. This method has been applied to forensic science, medical research, and environmental monitoring. It has been used to identify forgeries in artwork, measure human cell turnover, and estimate the lifespan of Greenland sharks. One of the most important applications has been in tracking the illegal ivory trade. Elephant tusks absorb atmospheric carbon while the animal is alive. By analyzing the carbon-14 content of ivory artifacts or raw ivory, investigators can determine whether the material comes from a legally antique source or from a recently killed elephant. This intersection of nuclear history, atmospheric science, and conservation biology demonstrates how Cold War nuclear fallout became a forensic tool for fighting elephant poaching and wildlife trafficking. More broadly, it demonstrates the creativity and resourcefulness of scientific researchers, who find ingenious uses for datasets of unlikely origin.