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A decade of detailed observations (2008–2018) in steep bedrock permafrost at the Matterhorn Hörnligrat (Zermatt, CH)

Weber, Samuel ; Beutel, Jan ; Da Forno, Reto ; [et al.]

Copernicus GmbH ; 2019

In: Earth System Science Data Vol. 11, No. 3 ( 2019-08-13), p. 1203-1237

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In: Earth System Science Data, Copernicus GmbH, Vol. 11, No. 3 ( 2019-08-13), p. 1203-1237

Abstract: Abstract. The PermaSense project is an ongoing interdisciplinary effort between geo-science and engineering disciplines and started in 2006 with the goals of realizing observations that previously have not been possible. Specifically, the aims are to obtain measurements in unprecedented quantity and quality based on technological advances. This paper describes a unique 〉10-year data record obtained from in situ measurements in steep bedrock permafrost in an Alpine environment on the Matterhorn Hörnligrat, Zermatt, Switzerland, at 3500 ma.s.l. Through the utilization of state-of-the-art wireless sensor technology it was possible to obtain more data of higher quality, make these data available in near real time and tightly monitor and control the running experiments. This data set (https://doi.org/10.1594/PANGAEA.897640, Weber et al., 2019a) constitutes the longest, densest and most diverse data record in the history of mountain permafrost research worldwide with 17 different sensor types used at 29 distinct sensor locations consisting of over 114.5 million data points captured over a period of 10 or more years. By documenting and sharing these data in this form we contribute to making our past research reproducible and facilitate future research based on these data, e.g., in the areas of analysis methodology, comparative studies, assessment of change in the environment, natural hazard warning and the development of process models. Finally, the cross-validation of four different data types clearly indicates the dominance of thawing-related kinematics.

Type of Medium: Online Resource

ISSN: 1866-3516

URL: Article

DOI: 10.5194/essd-11-1203-2019

Language: English

Publisher: Copernicus GmbH

Publication Date: 2019

detail.hit.zdb_id: 2475469-9

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In situ observations of the Swiss periglacial environment using GNSS instruments

Cicoira, Alessandro ; Weber, Samuel ; Biri, Andreas ; [et al.]

Copernicus GmbH ; 2022

In: Earth System Science Data Vol. 14, No. 11 ( 2022-11-18), p. 5061-5091

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In: Earth System Science Data, Copernicus GmbH, Vol. 14, No. 11 ( 2022-11-18), p. 5061-5091

Abstract: Abstract. Monitoring of the periglacial environment is relevant for many disciplines including glaciology, natural hazard management, geomorphology, and geodesy. Since October 2022, Rock Glacier Velocity (RGV) is a new Essential Climate Variable (ECV) product within the Global Climate Observing System (GCOS). However, geodetic surveys at high elevation remain very challenging due to environmental and logistical reasons. During the past decades, the introduction of low-cost global navigation satellite system (GNSS) technologies has allowed us to increase the accuracy and frequency of the observations. Today, permanent GNSS instruments enable continuous surface displacement observations at millimetre accuracy with a sub-daily resolution. In this paper, we describe decennial time series of GNSS observables as well as accompanying meteorological data. The observations comprise 54 positions located on different periglacial landforms (rock glaciers, landslides, and steep rock walls) at altitudes ranging from 2304 to 4003 ma.s.l. and spread across the Swiss Alps. The primary data products consist of raw GNSS observables in RINEX format, inclinometers, and weather station data. Additionally, cleaned and aggregated time series of the primary data products are provided, including daily GNSS positions derived through two independent processing tool chains. The observations documented here extend beyond the dataset presented in the paper and are currently continued with the intention of long-term monitoring. An annual update of the dataset, available at https://doi.org/10.1594/PANGAEA.948334 (Beutel et al., 2022), is planned. With its future continuation, the dataset holds potential for advancing fundamental process understanding and for the development of applied methods in support of e.g. natural hazard management.

Type of Medium: Online Resource

ISSN: 1866-3516

URL: Article

DOI: 10.5194/essd-14-5061-2022

DOI: 10.5194/essd-14-5061-2022-supplement

Language: English

Publisher: Copernicus GmbH

Publication Date: 2022

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