Add to ORKGWhile Olivella beads are a common component of archaeological sites in California, and were widely traded in prehistory, no method has been developed to trace individual beads to a point of origin. This study examines the potential of stable carbon and oxygen isotopes to source Olivella beads from the Pacific coast. The study shows that 1) the oxygen isotopic composition of modern Olivella biplicata shells faithfully varies with ambient sea surface temperature and local upwelling, lending themselves to sourcing studies; 2) oxygen isotope ratios in modern shells can be used to identify shells that grow north versus south of Point Conception, California; and 3) shell carbon isotope ratios may further subdivide these two regions into more spat...
Oxygen isotope geochemistry of Molluscan shell is an essential part of environmental archaeology and...
Stable oxygen isotope ratios of mollusc shells (δ18Oshell) offer the possibility to reconstruct coas...
Mollusks grow by adding discrete growth layers throughout their lifetime (i.e., accretion). More spe...
While Olivella beads are a common component of archaeological sites in California, and were widely t...
ve 3While Olivella beads are a common component of archaeological sites in California, and were wide...
Production of marine shell beads in island and coastal settings was an important activity in prehist...
We compare two methods for tracking the geographic source of Olivella biplicata shell beads along th...
We compare two methods for tracking the geographic source of Olivella biplicata shell beads along th...
A survey on San Nicolas Island found a cluster of over 4,200 shell beads associated with Middle Holo...
The detailed study of shell bead production refuse enhances the ability of archaeologists to determi...
We compiled a database of previously published oxygen and carbon isotope data from archaeological, a...
International audienceWhile the identification of the source of shells used as personal ornaments is...
Isotopic investigations performed on carbonated shells from anthropogenic middens provide informatio...
Mollusc shell stable isotopes are commonly used to reconstruct past environmental conditions. Howeve...
Stable oxygen isotope ratios of mollusc shells (δO) offer the possibility to reconstruct coastal res...
Oxygen isotope geochemistry of Molluscan shell is an essential part of environmental archaeology and...
Stable oxygen isotope ratios of mollusc shells (δ18Oshell) offer the possibility to reconstruct coas...
Mollusks grow by adding discrete growth layers throughout their lifetime (i.e., accretion). More spe...
While Olivella beads are a common component of archaeological sites in California, and were widely t...
ve 3While Olivella beads are a common component of archaeological sites in California, and were wide...
Production of marine shell beads in island and coastal settings was an important activity in prehist...
We compare two methods for tracking the geographic source of Olivella biplicata shell beads along th...
We compare two methods for tracking the geographic source of Olivella biplicata shell beads along th...
A survey on San Nicolas Island found a cluster of over 4,200 shell beads associated with Middle Holo...
The detailed study of shell bead production refuse enhances the ability of archaeologists to determi...
We compiled a database of previously published oxygen and carbon isotope data from archaeological, a...
International audienceWhile the identification of the source of shells used as personal ornaments is...
Isotopic investigations performed on carbonated shells from anthropogenic middens provide informatio...
Mollusc shell stable isotopes are commonly used to reconstruct past environmental conditions. Howeve...
Stable oxygen isotope ratios of mollusc shells (δO) offer the possibility to reconstruct coastal res...
Oxygen isotope geochemistry of Molluscan shell is an essential part of environmental archaeology and...
Stable oxygen isotope ratios of mollusc shells (δ18Oshell) offer the possibility to reconstruct coas...
Mollusks grow by adding discrete growth layers throughout their lifetime (i.e., accretion). More spe...
