Using ice core measurements from Taylor Glacier, Antarctica to calibrate in situ cosmogenic 14C production rates by muons

Cosmic rays entering the Earth’s atmosphere produce showers of secondary particles such as neutrons and muons. The interaction of these neutrons and muons with oxygen-16 ( 16 O) in minerals such as ice and quartz can produce carbon-14 ( 14 C). Analyses of in situ produced cosmogenic 14 C in quartz a...

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Main Authors: Dyonisius, Michael, Petrenko, Vasilii, Smith, Andrew, Hmiel, Benjamin, Neff, Peter, Yang, Bin, Hua, Quan, Schmitt, Jochen, Shackleton, Sarah, Buizert, Christo, Place, Philip, Menking, James, Beaudette, Ross, Harth, Christina, Kalk, Michael, Roop, Heidi, Bereiter, Bernhard, Armanetti, Casey, Vimont, Isaac, Englund Michel, Sylvia, Brook, Edward, Severinghaus, Jeffrey, Weiss, Ray, McConnell, Joseph
Format: Text
Language:English
Published: 2022
Subjects:
Taylor Glacier
Antarc*
Antarctica
ice core
Online Access:https://doi.org/10.5194/tc-2021-375
https://tc.copernicus.org/preprints/tc-2021-375/
id ftcopernicus:oai:publications.copernicus.org:tcd99797
record_format openpolar
spelling ftcopernicus:oai:publications.copernicus.org:tcd99797 2023-05-15T14:02:17+02:00 Using ice core measurements from Taylor Glacier, Antarctica to calibrate in situ cosmogenic 14C production rates by muons Dyonisius, Michael Petrenko, Vasilii Smith, Andrew Hmiel, Benjamin Neff, Peter Yang, Bin Hua, Quan Schmitt, Jochen Shackleton, Sarah Buizert, Christo Place, Philip Menking, James Beaudette, Ross Harth, Christina Kalk, Michael Roop, Heidi Bereiter, Bernhard Armanetti, Casey Vimont, Isaac Englund Michel, Sylvia Brook, Edward Severinghaus, Jeffrey Weiss, Ray McConnell, Joseph 2022-01-26 application/pdf https://doi.org/10.5194/tc-2021-375 https://tc.copernicus.org/preprints/tc-2021-375/ eng eng doi:10.5194/tc-2021-375 https://tc.copernicus.org/preprints/tc-2021-375/ eISSN: 1994-0424 Text 2022 ftcopernicus https://doi.org/10.5194/tc-2021-375 2022-01-31T17:22:16Z Cosmic rays entering the Earth’s atmosphere produce showers of secondary particles such as neutrons and muons. The interaction of these neutrons and muons with oxygen-16 ( 16 O) in minerals such as ice and quartz can produce carbon-14 ( 14 C). Analyses of in situ produced cosmogenic 14 C in quartz are commonly used to investigate the Earth’s landscape evolution. In glacial ice, 14 C is also incorporated through trapping of 14 C-containing atmospheric gases ( 14 CO 2 , 14 CO, and 14 CH 4 ). Understanding the production rates of in situ cosmogenic 14 C is important to deconvolve the in situ cosmogenic and atmospheric 14 C signals in ice, both of which contain valuable paleoenvironmental information. Unfortunately, the in situ 14 C production rates by muons (which are the dominant production mechanism at depths of > 6 m solid ice equivalent) are uncertain. In this study, we use measurements of in situ 14 C in ancient ice (> 50 kilo-annum before present, ka BP) from the Taylor Glacier ablation site, Antarctica in combination with a 2D ice flow model to better constrain the rates of 14 C production by muons. We find that the commonly used values for muogenic 14 C production rates (Heisinger et al., 2002a, 2002b) in ice are too high by factors of 5.7 (3.6–13.9, 95 % confidence interval) and 3.7 (2.0–11.9 95 % confidence interval) for negative muon capture and fast muon interactions, respectively. Our constraints on muogenic 14 C production rates in ice allow for future measurements of 14 C in ice cores to be used for other applications and imply that muogenic 14 C production rates in quartz are overestimated as well. Text Antarc* Antarctica ice core Taylor Glacier Copernicus Publications: E-Journals Taylor Glacier ENVELOPE(162.167,162.167,-77.733,-77.733)
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Cosmic rays entering the Earth’s atmosphere produce showers of secondary particles such as neutrons and muons. The interaction of these neutrons and muons with oxygen-16 ( 16 O) in minerals such as ice and quartz can produce carbon-14 ( 14 C). Analyses of in situ produced cosmogenic 14 C in quartz are commonly used to investigate the Earth’s landscape evolution. In glacial ice, 14 C is also incorporated through trapping of 14 C-containing atmospheric gases ( 14 CO 2 , 14 CO, and 14 CH 4 ). Understanding the production rates of in situ cosmogenic 14 C is important to deconvolve the in situ cosmogenic and atmospheric 14 C signals in ice, both of which contain valuable paleoenvironmental information. Unfortunately, the in situ 14 C production rates by muons (which are the dominant production mechanism at depths of > 6 m solid ice equivalent) are uncertain. In this study, we use measurements of in situ 14 C in ancient ice (> 50 kilo-annum before present, ka BP) from the Taylor Glacier ablation site, Antarctica in combination with a 2D ice flow model to better constrain the rates of 14 C production by muons. We find that the commonly used values for muogenic 14 C production rates (Heisinger et al., 2002a, 2002b) in ice are too high by factors of 5.7 (3.6–13.9, 95 % confidence interval) and 3.7 (2.0–11.9 95 % confidence interval) for negative muon capture and fast muon interactions, respectively. Our constraints on muogenic 14 C production rates in ice allow for future measurements of 14 C in ice cores to be used for other applications and imply that muogenic 14 C production rates in quartz are overestimated as well.
format Text
author Dyonisius, Michael
Petrenko, Vasilii
Smith, Andrew
Hmiel, Benjamin
Neff, Peter
Yang, Bin
Hua, Quan
Schmitt, Jochen
Shackleton, Sarah
Buizert, Christo
Place, Philip
Menking, James
Beaudette, Ross
Harth, Christina
Kalk, Michael
Roop, Heidi
Bereiter, Bernhard
Armanetti, Casey
Vimont, Isaac
Englund Michel, Sylvia
Brook, Edward
Severinghaus, Jeffrey
Weiss, Ray
McConnell, Joseph
spellingShingle Dyonisius, Michael
Petrenko, Vasilii
Smith, Andrew
Hmiel, Benjamin
Neff, Peter
Yang, Bin
Hua, Quan
Schmitt, Jochen
Shackleton, Sarah
Buizert, Christo
Place, Philip
Menking, James
Beaudette, Ross
Harth, Christina
Kalk, Michael
Roop, Heidi
Bereiter, Bernhard
Armanetti, Casey
Vimont, Isaac
Englund Michel, Sylvia
Brook, Edward
Severinghaus, Jeffrey
Weiss, Ray
McConnell, Joseph
Using ice core measurements from Taylor Glacier, Antarctica to calibrate in situ cosmogenic 14C production rates by muons
author_facet Dyonisius, Michael
Petrenko, Vasilii
Smith, Andrew
Hmiel, Benjamin
Neff, Peter
Yang, Bin
Hua, Quan
Schmitt, Jochen
Shackleton, Sarah
Buizert, Christo
Place, Philip
Menking, James
Beaudette, Ross
Harth, Christina
Kalk, Michael
Roop, Heidi
Bereiter, Bernhard
Armanetti, Casey
Vimont, Isaac
Englund Michel, Sylvia
Brook, Edward
Severinghaus, Jeffrey
Weiss, Ray
McConnell, Joseph
author_sort Dyonisius, Michael
title Using ice core measurements from Taylor Glacier, Antarctica to calibrate in situ cosmogenic 14C production rates by muons
title_short Using ice core measurements from Taylor Glacier, Antarctica to calibrate in situ cosmogenic 14C production rates by muons
title_full Using ice core measurements from Taylor Glacier, Antarctica to calibrate in situ cosmogenic 14C production rates by muons
title_fullStr Using ice core measurements from Taylor Glacier, Antarctica to calibrate in situ cosmogenic 14C production rates by muons
title_full_unstemmed Using ice core measurements from Taylor Glacier, Antarctica to calibrate in situ cosmogenic 14C production rates by muons
title_sort using ice core measurements from taylor glacier, antarctica to calibrate in situ cosmogenic 14c production rates by muons
publishDate 2022
url https://doi.org/10.5194/tc-2021-375
https://tc.copernicus.org/preprints/tc-2021-375/
long_lat ENVELOPE(162.167,162.167,-77.733,-77.733)
geographic Taylor Glacier
geographic_facet Taylor Glacier
genre Antarc*
Antarctica
ice core
Taylor Glacier
genre_facet Antarc*
Antarctica
ice core
Taylor Glacier
op_source eISSN: 1994-0424
op_relation doi:10.5194/tc-2021-375
https://tc.copernicus.org/preprints/tc-2021-375/
op_doi https://doi.org/10.5194/tc-2021-375
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