Record Display for the EPA National Library Catalog

RECORD NUMBER: 26 OF 69

OLS Field Name OLS Field Data
Main Title Henbury Craters and Meteorites Their Discovery, History and Study / [electronic resource] :
Type EBOOK
Author Buhl, Svend.
Other Authors
Author Title of a Work
McColl, Don.
Publisher Springer International Publishing : Imprint: Springer,
Year Published 2015
Call Number QE1-996.5
ISBN 9783319039558
Subjects Geography. ; Geology. ; Astrophysics. ; Astronomy.
Internet Access
Description Access URL
http://dx.doi.org/10.1007/978-3-319-03955-8
Edition 2nd ed. 2015.
Collation XIII, 160 p. 125 illus., 87 illus. in color. online resource.
Notes
Due to license restrictions, this resource is available to EPA employees and authorized contractors only
Contents Notes
Early Pioneers -- Alderman'S Survey -- Iron Harvest -- "Meteorite in a Crater" -- Bedford'S Morphological Studies -- Geography & Topography -- Henbury Metallurgy -- McColl'S Distribution Map -- Atmospheric Breakup -- Fragmentation on Impact -- Henbury Impactites -- Other Holocene Impacts -- Kamil Crater -- Whitecourt Crater -- Henbury: Re-Evaluation Of Evidence -- Henbury in the Aboriginal Tradition And Culture -- Dating of the Impact and Total Known Weight -- The Present Crater Reserve. In 1931, the cluster of craters at Henbury Cattle Station south of Alice Springs in Central Australia was one of the first places on Earth where a group of impact structures could definitely be linked to the fall of iron meteorites. It was also the first place where radial rays and loops of ejected rock material, comparable to those seen around craters on the Moon, were observed. As such it was one of the primary observation sites associated with the science of meteoritics in its infancy. In this work the authors present previously unpublished documents covering early research at the Henbury site, provide an extended data set on the distribution of meteoritic material at Henbury craters, and compare recent discoveries on the mechanics of hypervelocity impacts with evidence collected over 80 years of research at the Henbury meteorite craters. In their conclusion, the authors suggest a new hypothesis for the fragmentation and incident direction of the crater-forming bolide, on the basis of a more complete set of data compared with previous models.