Minjie Zheng
Postdoc
Disentangling production and climate signals from high-resolution Beryllium records: implications for solar and geomagnetic reconstructions
Författare
Summary, in English
This project aims to improve our understanding of the climate effects on 10Be through analysis of high-resolution 10Be and 7Be data, in order to improve solar and geomagnetic reconstructions. We present a well-defined seasonally resolved 10Be record for the period 1887-2002 from a NEEM firn core (NEEM07S1) in Northwestern Greenland. Through analyzing the sub-annual δ18O records at NEEM site, we identify the seasonal signals with 30% accumulation for November-April (winter) and 70% accumulation for May-October (summer). Both summer and winter 10Be data reflect the production signal induced by solar modulation of galactic cosmic rays. Superimposed on this solar signal we find that the tropopause pressure over 30°N represents an important factor influencing
NEEM 10Be concentrations. Summer 10Be concentration, on average, is higher than winter, which could be attributed to the effects of stratospheric intrusion of 10Be. This stratospheric intrusion of beryllium is also supported by the study of weekly-resolved air 7Be records over Europe. Furthermore, by comparing the NEEM 10Be record with other Greenland 10Be records over the last 100 years, we identify that the 10Be values from the Dye3 ice core after 1958 are unusually low, which are resulting from a data quality issue instead of meteorological influences. This period of unusually low Dye3 10Be values can lead to a normalization problem when connecting radionuclide records to modern levels of solar modulation estimated from neutron monitor data over the past 70 years. We found that disagreements of different solar reconstructions based on Greenland and Antarctica 10Be records can be partly attributed to this data problem. Finally, we present a geomagnetic dipole moment reconstruction for the period from 11.7 ka BP (before present AD 1950) to 108 ka BP based on a new NEEM 10Be record and published GRIP 10Be and 36Cl records. With a first-order correction of cosmogenic radionuclides data using climate proxy data, the “climate correction” results lead to an improved agreement with independent reconstructions compared to simply using radionuclide data. Therefore, with this linear correction method, geomagnetic dipole moment reconstructions based on cosmogenic radionuclides data from ice cores can be extended back in time when there is a strong climate signal in radionuclides data.
Avdelning/ar
- MERGE: ModElling the Regional and Global Earth system
- Kvartärgeologi
Publiceringsår
2020-09-04
Språk
Engelska
Publikation/Tidskrift/Serie
Lundqua thesis
Issue
88
Fulltext
- Available as PDF - 6 MB
- Available as PDF - 6 MB
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Dokumenttyp
Doktorsavhandling
Förlag
Lund University
Ämne
- Geosciences, Multidisciplinary
- Geology
Nyckelord
- Solar Activity
- 10Be
- 7Be
- ice cores
- tropopause
- climate
- cosmogenic radionuclides
- geomagnetic reconstructions
- multi-linear regression
Aktiv
Published
Projekt
- Disentangling production and climate signals from high-resolution Beryllium records: implications for solar and geomagnetic reconstructions
Handledare
- Raimund Muscheler
- Florian Adolphi
- Jesper Sjolte
- Andreas Nilsson
ISBN/ISSN/Övrigt
- ISSN: 0281-3033
- ISBN: 978-91-87847-51-6
- ISBN: 978-91-87847-50-9
Försvarsdatum
8 oktober 2020
Försvarstid
09:15
Försvarsplats
Pangea, Geologiska institutionen, Sölvegatan 12, Lund Join via zoom: https://lu-se.zoom.us/j/65638604166
Opponent
- Joel Pedro (Dr.)