I published this post on Science 2.0 first, but I discontinued contributing there, and asked to have all traces of my presence removed from that site. Now the content is still there, with Anonymous listed as the author! I hereby re-publish MY original content here (edited slightly).
Continuing my earlier geomagnetism blurt:
University of Rochester geophysicist John Tarduno and an international team measured the magnetization of nanometer-sized magnetic inclusions, isolated within millimeter-sized quartz crystal inclusions, within 3.5 billion year old South African igneous rocks called dacites using a new, super-sensitive superconducting quantum interface device, or SQUID magnetometer.
According to their measurements and calculations, Earth's magnetic field 3.5 billion years ago was only half as strong as it is today, and the magnetopause was only half the distance from Earth it is today.
"On a normal night 3.5 billion years ago you'd probably see the aurora as far south as New York," explained Tarduno.
This study, supported by the National Science Foundation and the John Simon Guggenheim Foundation, brought together scientists from the University of KwaZulu-Natal (South Africa), the University of Rochester (New York), NASA, the Chinese Academy of Geological Sciences (Beijing) and the University of Oslo (Norway).
Earlier blurt -
When I tweet links to science articles, I lose them in the Twitter stream of "more" as they descend further and farther below the bottom of the page.
Posting science links with briefest descriptions here as "blog-blurts" -- or even just the links -- might serve me better.
An example: Earth's geodynamo may have churned up as early as 3.45 billion years ago (via Scientific American).
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