Projects per year
Abstract
Previous research has shown that the study of the global electrical circuit can be relevant to climate change studies, and this can be done through measurements of the potential gradient near the surface in fair weather conditions. However, potential gradient measurements can be highly variable due to different local effects (e.g., pollution, convective processes). In order to try to minimize these effects, potential gradient measurements can be performed at remote locations where anthropogenic influences are small. In this work we present potential gradient measurements from five stations at high latitudes in the Southern and Northern Hemisphere. This is the first description of new datasets from Halley, Antarctica; and Sodankyla, Finland. The effect of the polar cap ionospheric potential can be significant at some polar stations and detailed analysis performed here demonstrates a negligible effect on the surface potential gradient at Halley and Sodankyla. New criteria for determination of fair weather conditions at snow covered sites is also reported, demonstrating that wind speeds as low as 3 m/s can loft snow particles, and that the fetch of the measurement site is an important factor in determining this threshold wind speed. Daily and seasonal analysis of the potential gradient in fair weather conditions shows great agreement with the “universal” Carnegie curve of the global electric circuit, particularly at Halley. This demonstrates that high latitude sites, at which the magnetic and solar influences can be present, can also provide globally representative measurement sites for study of the global electric circuit.
Original language | English |
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Article number | 614639 |
Journal | Frontiers in Earth Science |
Volume | 8 |
DOIs | |
Publication status | Published - 29 Jan 2021 |
Bibliographical note
Funding Information:JT thanks the Arctic Interactions research profile action of the University of Oulu for making possible his visit to the Sodankyla Geophysical Observatory. Work of MK and AO is financed by Institute of Geophysics, Polish Academy of Sciences, with a subsidy from Poland Ministry of Science and Higher Education (now Ministry of Education and Science). The authors thank the reviewers for their constructive comments and suggestions, which helped to improve the quality of the paper.
Funding Information:
KN acknowledges an Independent Research Fellowship funded by the Natural Environment Research Council NERC (NE/L011514/ 1) and (NE/L011514/2). The Halley PG data was obtained in collaboration with the British Antarctic Survey (with thanks to David Maxfield and Mervyn Freeman) through a NERC Collaborative Gearing Scheme grant, and archived through the GloCAEM project (NERC International Opportunities Fund grant NE/N013689/1). Ilya Usoskin from the University of Oulu, Thomas Ulich and his technical team at Sodankyla Geophysical Observatory were instrumental in obtaining the Sodankyla PG measurements. JT acknowledges the Polish National Agency for Academic Exchange for funding of the Ulam Program scholarship agreement no PPN/ULM/2019/1/00328/U/00001. Observations at Polish Polar Station Hornsund were supported by SPUB grants from Ministry of Science and Higher Education of Poland. The observations at Arctowski Antarctic station of the Institute of Biochemistry and Biophysics, Polish Academy of Sciences, have been financed by National Science Centre grant number NCN-2011/01/B/ST10/07118 (2011–2014) awarded to the Institute of Geophysics, Polish Academy of Sciences.
Publisher Copyright:
© Copyright © 2021 Tacza, Nicoll, Macotela, Kubicki, Odzimek and Manninen.
Keywords
- antarctica
- arctic
- carnegie curve
- global electric circuit
- polar cap potential
- potential gradient
ASJC Scopus subject areas
- General Earth and Planetary Sciences
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Dive into the research topics of 'Measuring Global Signals in the Potential Gradient at High Latitude Sites'. Together they form a unique fingerprint.Projects
- 1 Finished
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Understanding Energetic Particle Effects on Atmospheric Processes
Nicoll, K. (PI)
Natural Environment Research Council
1/03/16 → 30/09/20
Project: Research council