Abstract

Spacecraft travel higher and faster than aircraft, making breakup potentially less survivable. As with aircraft breakup, the dissipation of lethal forces via spacecraft breakup around an organism is likely to greatly increase the odds of survival. By employing a knowledge of space and aviation physiology, comparative physiology, and search-and-rescue techniques, we were able to correctly predict and execute the recovery of live animals following the breakup of the space shuttle Columbia. In this study, we make what is, to our knowledge, the first report of an animal, Caenorhabditis elegans, surviving the atmospheric breakup of the spacecraft that was supporting it and discuss both the lethal events these animals had to escape and the implications for search and rescue following spacecraft breakup.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Don Wayne Fawcett, 1917–2009
Susumu Ito ... Elio Raviola
Journal of Anatomy | VOL. 216
Susumu Ito, et. al.Susumu Ito ... Elio Raviola
16 Dec 2009
Utilizing comparative models in biomedical research.
Alexander G Little ... William G Willmore
Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology | VOL. 255
Alexander G Little, et. al.Alexander G Little ... William G Willmore
01 Aug 2021
Revisitation of the Work of A Forgotten Comparative Physiologist, Homer W. Smith
Mark David Slivkoff
FASEB journal : official publication of the Federation of American Societies for Experimental Biology | VOL. 34
Mark David SlivkoffMark David Slivkoff
01 Apr 2020
Physiology and Health
F R Hunter
The American biology teacher | VOL. 17
F R HunterF R Hunter
01 Jan 1954
View more papers

More From: Wilderness & Environmental Medicine

Paper Title
Journal
Date
Author
3M™ Defib-Pads as a Reusable Alternative to Commercial Ultrasound Gel in Resource-Limited Settings.
Sydney M Todorovich ... Frank Myslik
Wilderness & Environmental Medicine | VOL. -
Sydney M Todorovich, et. al.Sydney M Todorovich ... Frank Myslik
18 Jun 2024
The Outcome of Walking Cold Patients with Potential Mild Hypothermia to Safety-A Mountain Rescue Case Series.
Mike Greene ... Les Gordon
Wilderness & Environmental Medicine | VOL. -
Mike Greene, et. al.Mike Greene ... Les Gordon
14 Jun 2024
A Qualitative Review of the Air Rescue One Rural Search and Rescue Program in British Columbia, Canada
Raphael Nowak ... Deena D Wasserman
Wilderness & Environmental Medicine | VOL. -
Raphael Nowak, et. al.Raphael Nowak ... Deena D Wasserman
11 Jun 2024
Contributions of Griffith Pugh to Success on Mt. Everest and His Impact on the Advancement of Altitude and Environmental Physiology
Mayowa A Olatunji ... Gordon G Giesbrecht
Wilderness & Environmental Medicine | VOL. -
Mayowa A Olatunji, et. al.Mayowa A Olatunji ... Gordon G Giesbrecht
11 Jun 2024
View more papers