- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
NARROW
GeoRef Subject
-
all geography including DSDP/ODP Sites and Legs
-
Chalk Aquifer (1)
-
Europe
-
Western Europe
-
United Kingdom
-
Great Britain
-
England
-
London England (1)
-
-
-
-
-
-
Imperial Valley (1)
-
Mammoth Cave (1)
-
Mexico (1)
-
New River (8)
-
North America
-
Appalachians
-
Valley and Ridge Province (1)
-
-
-
San Juan River (1)
-
Sierra Nevada (1)
-
United States
-
California
-
Southern California (1)
-
-
Kentucky
-
Edmonson County Kentucky (1)
-
Kentucky River (1)
-
-
Virginia
-
Giles County Virginia (2)
-
Montgomery County Virginia (1)
-
Pulaski County Virginia (1)
-
-
West Virginia (1)
-
-
-
commodities
-
water resources (1)
-
-
elements, isotopes
-
isotopes
-
radioactive isotopes
-
Al-26 (2)
-
Be-10 (2)
-
-
-
metals
-
alkaline earth metals
-
beryllium
-
Be-10 (2)
-
-
-
aluminum
-
Al-26 (2)
-
-
-
-
geochronology methods
-
exposure age (1)
-
-
geologic age
-
Cenozoic
-
Quaternary (2)
-
upper Cenozoic (1)
-
-
Paleozoic
-
Carboniferous
-
Pennsylvanian (1)
-
-
-
-
minerals
-
silicates
-
framework silicates
-
silica minerals
-
quartz (1)
-
-
-
-
-
Primary terms
-
absolute age (1)
-
Cenozoic
-
Quaternary (2)
-
upper Cenozoic (1)
-
-
crust (1)
-
diagenesis (1)
-
earthquakes (2)
-
engineering geology (1)
-
Europe
-
Western Europe
-
United Kingdom
-
Great Britain
-
England
-
London England (1)
-
-
-
-
-
-
faults (1)
-
fractures (1)
-
geomorphology (1)
-
geophysical methods (1)
-
ground water (1)
-
isotopes
-
radioactive isotopes
-
Al-26 (2)
-
Be-10 (2)
-
-
-
metals
-
alkaline earth metals
-
beryllium
-
Be-10 (2)
-
-
-
aluminum
-
Al-26 (2)
-
-
-
Mexico (1)
-
mud volcanoes (1)
-
North America
-
Appalachians
-
Valley and Ridge Province (1)
-
-
-
Paleozoic
-
Carboniferous
-
Pennsylvanian (1)
-
-
-
sedimentation (2)
-
sediments
-
clastic sediments
-
alluvium (2)
-
gravel (1)
-
till (1)
-
-
-
seismology (1)
-
tectonics
-
neotectonics (2)
-
-
United States
-
California
-
Southern California (1)
-
-
Kentucky
-
Edmonson County Kentucky (1)
-
Kentucky River (1)
-
-
Virginia
-
Giles County Virginia (2)
-
Montgomery County Virginia (1)
-
Pulaski County Virginia (1)
-
-
West Virginia (1)
-
-
water resources (1)
-
-
sediments
-
sediments
-
clastic sediments
-
alluvium (2)
-
gravel (1)
-
till (1)
-
-
-
New River
Multiple cosmogenic nuclides with different decay rates can be used to date exposure and burial of rocks over the timescales of radioactive decay. This paper reviews the development of such dating methods over the past ∼50 years, beginning with a historical perspective on early meteorite studies, and later focusing on recent examples in the terrestrial field using the 26 Al- 10 Be pair in quartz. Two classes of terrestrial applications are discussed in detail. The first involves the use of 26 Al and 10 Be in rock or sediment that has experienced a complex history of repeated exposure and burial. In these cases, the cosmogenic nuclides can only provide a minimum near-surface age. Examples include sediment from beneath desert sand dunes, and rocks from beneath cold-based glaciers. The second class of application uses 26 Al and 10 Be to date discrete burial events, in cases where sediment has experienced a simple history of exposure followed by rapid burial. Examples include cave sediments, alluvial deposits, and sediment buried beneath glacial till. Finally, the half-lives of 26 Al and 10 Be are discussed, with special attention given to discrepant estimates of the 10 Be half-life. It is shown that geologic data are consistent with either half-life estimate of 1.51 m.y. or 1.34 m.y., but more closely conform to the shorter half-life.