Mollusk-Shell Radiocarbon as a Paleoupwelling Proxy in Peru

Mollusk shells from Peruvian archaeological middens provide brief (< 5 yr per shell) records of past marine conditions. Marine radiocarbon age, R, is recorded in shell carbonate at the time of precipitation. R varies with changes in upwelling: when radiocarbon-depleted sub-thermocline water wells...

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Main Author: Jones, Kevin Bradley
Other Authors: Hodgins, Gregory
Language:EN
Published: The University of Arizona. 2009
Subjects:
Online Access:http://hdl.handle.net/10150/193586
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spelling ndltd-arizona.edu-oai-arizona.openrepository.com-10150-1935862015-10-23T04:39:43Z Mollusk-Shell Radiocarbon as a Paleoupwelling Proxy in Peru Jones, Kevin Bradley Hodgins, Gregory Quade, Jay Hodgins, Gregory Quade, Jay Beck, Warren Holliday, Vance Patchett, Jonathan Argopecten Mesodesma Peru radiocarbon reservoir age upwelling Mollusk shells from Peruvian archaeological middens provide brief (< 5 yr per shell) records of past marine conditions. Marine radiocarbon age, R, is recorded in shell carbonate at the time of precipitation. R varies with changes in upwelling: when radiocarbon-depleted sub-thermocline water wells up, R is large; increased contribution from radiocarbon-enriched surface water (due to seasonal cycles or an El Niño event) reduces R. Are molluscan records of R a useful proxy for Peruvian upwelling? If so, does R from archaeological shells reveal mid-Holocene upwelling changes that constrain the Holocene history of El Niño-Southern Oscillation (ENSO)? Profiles of R along ontogeny from early 20th century Argopecten purpuratus (bay scallop) shells and mid-Holocene A. purpuratus, Mesodesma donacium (surf clam), and Trachycardium procerum (cockle) shells from eight coastal Peru locations show that R varies by up to 530 ± 200 ¹⁴C yr within individual shells. El Niño events are easily detectable in post-1950s shell carbonate due to increased radiocarbon contrast between sub- and super-thermocline water from “bomb carbon,” but R differences between El Niño and La Niña shells from the early 20th century are subtle. Decreasing precision in older shells due to ¹⁴C decay makes detecting El Niño events in the archaeological past using radiocarbon very difficult. Because of intrashell radiocarbon variation, caution is prudent when using marine material for chronometry in variable upwelling environments. Based on modeling, mollusks that grow seasonally rather than year-round can skew long-term average (> 1 yr) R reconstructions by nearly 200 ¹⁴C yr toward R of the preferred growth season. Coldloving M. donacium, for example, records older marine reservoir ages on average than A. purpuratus in the same water, because A. purpuratus grows in both warm and cold conditions. Comparisons of R between species with opposite seasonal growth habits can compound this effect. Because of intrashell R variation, seasonal growth biases, and measurement uncertainties, a change in R due to past ENSO changes would have to be hundreds of ¹⁴C yr or greater to be identifiable. Thus far, clear evidence for such a Holocene change in R has not been seen. 2009 text Electronic Dissertation http://hdl.handle.net/10150/193586 752259936 10325 EN Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. The University of Arizona.
collection NDLTD
language EN
sources NDLTD
topic Argopecten
Mesodesma
Peru
radiocarbon
reservoir age
upwelling
spellingShingle Argopecten
Mesodesma
Peru
radiocarbon
reservoir age
upwelling
Jones, Kevin Bradley
Mollusk-Shell Radiocarbon as a Paleoupwelling Proxy in Peru
description Mollusk shells from Peruvian archaeological middens provide brief (< 5 yr per shell) records of past marine conditions. Marine radiocarbon age, R, is recorded in shell carbonate at the time of precipitation. R varies with changes in upwelling: when radiocarbon-depleted sub-thermocline water wells up, R is large; increased contribution from radiocarbon-enriched surface water (due to seasonal cycles or an El Niño event) reduces R. Are molluscan records of R a useful proxy for Peruvian upwelling? If so, does R from archaeological shells reveal mid-Holocene upwelling changes that constrain the Holocene history of El Niño-Southern Oscillation (ENSO)? Profiles of R along ontogeny from early 20th century Argopecten purpuratus (bay scallop) shells and mid-Holocene A. purpuratus, Mesodesma donacium (surf clam), and Trachycardium procerum (cockle) shells from eight coastal Peru locations show that R varies by up to 530 ± 200 ¹⁴C yr within individual shells. El Niño events are easily detectable in post-1950s shell carbonate due to increased radiocarbon contrast between sub- and super-thermocline water from “bomb carbon,” but R differences between El Niño and La Niña shells from the early 20th century are subtle. Decreasing precision in older shells due to ¹⁴C decay makes detecting El Niño events in the archaeological past using radiocarbon very difficult. Because of intrashell radiocarbon variation, caution is prudent when using marine material for chronometry in variable upwelling environments. Based on modeling, mollusks that grow seasonally rather than year-round can skew long-term average (> 1 yr) R reconstructions by nearly 200 ¹⁴C yr toward R of the preferred growth season. Coldloving M. donacium, for example, records older marine reservoir ages on average than A. purpuratus in the same water, because A. purpuratus grows in both warm and cold conditions. Comparisons of R between species with opposite seasonal growth habits can compound this effect. Because of intrashell R variation, seasonal growth biases, and measurement uncertainties, a change in R due to past ENSO changes would have to be hundreds of ¹⁴C yr or greater to be identifiable. Thus far, clear evidence for such a Holocene change in R has not been seen.
author2 Hodgins, Gregory
author_facet Hodgins, Gregory
Jones, Kevin Bradley
author Jones, Kevin Bradley
author_sort Jones, Kevin Bradley
title Mollusk-Shell Radiocarbon as a Paleoupwelling Proxy in Peru
title_short Mollusk-Shell Radiocarbon as a Paleoupwelling Proxy in Peru
title_full Mollusk-Shell Radiocarbon as a Paleoupwelling Proxy in Peru
title_fullStr Mollusk-Shell Radiocarbon as a Paleoupwelling Proxy in Peru
title_full_unstemmed Mollusk-Shell Radiocarbon as a Paleoupwelling Proxy in Peru
title_sort mollusk-shell radiocarbon as a paleoupwelling proxy in peru
publisher The University of Arizona.
publishDate 2009
url http://hdl.handle.net/10150/193586
work_keys_str_mv AT joneskevinbradley molluskshellradiocarbonasapaleoupwellingproxyinperu
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