Best Practice for Measuring Permafrost Temperature in Boreholes Based on the Experience in the Swiss Alps

Details

Ressource 1Download: Nötzli et al. 2021.pdf (5560.31 [Ko])
State: Public
Version: Final published version
License: CC BY 4.0
Serval ID
serval:BIB_CE1C14F8FCC1
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Best Practice for Measuring Permafrost Temperature in Boreholes Based on the Experience in the Swiss Alps
Journal
Frontiers in Earth Science
Author(s)
Noetzli Jeannette, Arenson Lukas U., Bast Alexander, Beutel Jan, Delaloye Reynald, Farinotti Daniel, Gruber Stephan, Gubler Hansueli, Haeberli Wilfried, Hasler Andreas, Hauck Christian, Hiller Martin, Hoelzle Martin, Lambiel Christophe, Pellet Cécile, Springman Sarah M., Vonder Muehll Daniel, Phillips Marcia
ISSN
2296-6463
Publication state
Published
Issued date
11/05/2021
Peer-reviewed
Oui
Volume
9
Language
english
Abstract
Temperature measurements in boreholes are the most common method allowing the quantitative and direct observation of permafrost evolution in the context of climate change. Existing boreholes and monitoring networks often emerged in a scientific context targeting different objectives and with different setups. A standardized, well-planned and robust instrumentation of boreholes for long-term operation is crucial to deliver comparable, high-quality data for scientific analyses and assessments. However, only a limited number of guidelines are available, particularly for mountain regions. In this paper, we discuss challenges and devise best practice recommendations for permafrost temperature measurements at single sites as well as in a network, based on two decades of experience gained in the framework of the Swiss Permafrost Monitoring Network PERMOS. These recommendations apply to permafrost observations in mountain regions, although many aspects also apply to polar lowlands. The main recommendations are (1) to thoroughly consider criteria for site selection based on the objective of the measurements as well as on preliminary studies and available data, (2) to define the sampling strategy during planification, (3) to engage experienced drilling teams who can cope with inhomogeneous and potentially unstable subsurface material, (4) to select standardized and robust instrumentation with high accuracy temperature sensors and excellent long-term stability when calibrated at 0°C, ideally with double sensors at key depths for validation and substitution of questionable data, (5) to apply standardized maintenance procedures allowing maximum comparability and minimum data processing, (6) to implement regular data control procedures, and (7) to ensure remote data access allowing for rapid trouble shooting and timely reporting. Data gaps can be avoided by timely planning of replacement boreholes. Recommendations for standardized procedures regarding data quality documentation, processing and final publication will follow later.
Keywords
permafrost, borehole temperatures, high mountain areas, long-term monitoring, best practices
Web of science
Open Access
Yes
Create date
05/07/2021 9:41
Last modification date
07/06/2024 5:58
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