Characterization of in situ cosmogenic 14CO production, retention and loss in firn and shallow ice at Summit, Greenland Journal Article uri icon

Overview

abstract

  • Abstract. Measurements of carbon-14-containing carbon monoxide (14CO) in glacial ice are useful for studies of the past oxidative capacity of the atmosphere as well as for reconstructing the past cosmic ray flux. The 14CO abundance in glacial ice represents the combination of trapped atmospheric 14CO and in situ cosmogenic 14CO. The systematics of in situ cosmogenic 14CO production and retention in ice are not fully quantified, posing an obstacle to interpretation of ice core 14CO measurements. Here we provide the first comprehensive characterization of 14CO at an ice accumulation site (Summit, Greenland), including measurements in the ice grains of the firn matrix, firn air and bubbly ice below the firn zone. The results are interpreted with the aid of a firn gas transport model into which we implemented in situ cosmogenic 14C. We find that almost all (≈ 99.5 %) of in situ 14CO that is produced in the ice grains in firn is very rapidly (in <1 year) lost to the open porosity and from there mostly vented to the atmosphere. The timescale of this rapid loss is consistent with what is expected from gas diffusion through ice. The small fraction of in situ 14CO that initially stays in the ice grains continues to slowly leak out to the open porosity at a rate of ≈ 0.6 % yr−1. Below the firn zone we observe an increase in 14CO content with depth that is due to in situ 14CO production by deep-penetrating muons, confirming recent estimates of 14CO production rates in ice via the muon mechanisms and allowing for narrowing constraints on these production rates.;

publication date

  • July 25, 2024

has restriction

  • gold

Date in CU Experts

  • July 29, 2024 9:30 AM

Full Author List

  • Hmiel B; Petrenko VV; Buizert C; Smith AM; Dyonisius MN; Place P; Yang B; Hua Q; Beaudette R; Severinghaus JP

author count

  • 21

Other Profiles

Electronic International Standard Serial Number (EISSN)

  • 1994-0424

Additional Document Info

start page

  • 3363

end page

  • 3382

volume

  • 18

issue

  • 7