Observation Facility Catalogue

This catalogue has been developed to provide an overview of the observation facilities which collect SIOS data. An observation facility can be one instrument or a collection of instruments, e.g. a weather station, and is a term used by the World Meteorological Organization (WMO). The annotation is standardised following the WMO standards as far as possible, in order to make entries unambiguous and interoperable internationally.

How to add observation facilities

To enter data in the Observation Facility Catalogue, you must be logged in and have assigned the role "RI responsible" by the administrator. Please contact the Observing Network Infrastructure Officer to have this role assigned to your account.

How to enter data into the Observation Facility Catalogue (pdf)

SUBMIT DATA TO THE OBSERVATION FACILITY CATALOGUE

About OFC

The purpose of the catalogue is to make better use of the existing research infrastructure by facilitating the search for given parameters and their location. In this way, duplication can be avoided and new measurements can be co-located with existing ones. The catalogue may also be used to gain a simple overview of collected parameters and how to access the data. The search interface allows users to search for GCMD keywords or to filter by status, type or observatory. The map interface may be used to search in a particular area.

The catalogue was developed by the Norwegian Meteorological Institute, with input from a task force consisting of representatives from the Norwegian Polar Institute and the Alfred Wegener Institute. NySMAC members and RICC gave valuable input on the test version.

Integration of GIOS infrastructures

In addition to the SIOS records, this catalogue has the option to display research infrastructures from the Greenland Integrated Observing System (GIOS). The default view displays only SIOS research infrastructures. To see GIOS research infrastructures, use the menu to the right to filter. Records are fetched from the Isaaffik website.

How to use the REST Export endpoint

The REST endpoint (see the right panel below the filters), can be used to query the catalogue in a machine-readable way. See an example on how to query the json endpoint in this notebook:

https://github.com/SIOS-Svalbard/sios-ofc-notebook/

Observation Facility Variables Contact Additional Information
GNSS-IR Monitoring Station - NY-ALESUND
CRYOSPHERE>SNOW/ICE>SNOW DEPTH
Trimble Alloy S.No. 6248R40105
N/A
Mutli-GNSS (GPS, Galileo, GLONASS, BeiDou) multi-frequency code and carrier-phase measurements are recorded in 10 seconds interval and transmitted via the Internet every 24 hours.
Dominik Próchniewicz
dominik.prochniewicz@pw.edu.pl
Warsaw University of Technology
Landing Page: https://crios.pl/
Type: land platform (fixed)
Status: Pre-operational
RIS ids: 12089
Site info: GNSS monitoring stations for estimation of snow depth value based on interferometric reflectometry method (GNSS-IR). GNSS receiver - geodetic class multi-frequency (L1/L2/L5) and multiconstellation (GPS/Galileo/BeiDou/GLONASS) receiver; GNSS antena - geodetic class precise multiconstellation antenna (Choke Ring type) installed on a metal mast (3 m hight). The installation is permanently attached to the ground and connected with the receiver with a 30 m cable.

CRIOS – Cryosphere Integrated Observation Network on Svalbard
Project financed from the EEA Financial Mechanism 2014-2021 operated by the National Science Centre in Poland
Agreement no. UMO-2022/43/7/ST10/00001 to a predefined project no. 2022/43/7/ST10/00001
Project period: 08.09.2022 - 30.04.2024 (2029)
Core data: No
GPS receiver Sverdrup
ATMOSPHERE>ATMOSPHERIC ELECTRICITY>TOTAL ELECTRON CONTENT
GPS receiver.
Measure ionospheric total electron content, with routine observation all year round. Time resolution 1 minute.
Via contact person
-
University of Oslo
Type: land platform (fixed)
Status: Operational
Core data: No
GPS reference station Sverdrup
SOLID EARTH>GEODETICS>COORDINATE REFERENCE SYSTEM>GLOBAL COORDINATE REFERENCE SYSTEM
In operation only during NPI glaciology field work
Jack Kohler
jack.kohler@npolar.no
Norwegian Polar Institute
Type: land platform (fixed)
Status: Operational
RIS ids: 3231
Site info: Ny-Ålesund (Sverdrup)

GPSTEC scintillation monitor
ATMOSPHERE>ATMOSPHERIC ELECTRICITY>TOTAL ELECTRON CONTENT
GPSTEC scintillation monitor.
Continuous measurements from rooftop of Dasan Station. Time resolution 5 seconds. Access with time lag.
Jeong Han Kim
jhkim@kopri.re.kr
Korean Polar Research Institute
Type: land platform (fixed)
Status: Operational
Core data: No
GTN-P Barentsburg Borehole 12
CRYOSPHERE>FROZEN GROUND>PERMAFROST>PERMAFROST TEMPERATURE
In this borehole automated thermistor cable 15 m length with spacing 0,75 m inserted to the depth of 15 m is used. Borehole has metal casing for all depth.
Unit: Degree Celsius,
Frequency: 6 hours,
Method: Thermistor Automated,
Medium: Soil,
Resolution: Irrelevant,
Quality Check: Raw Data,
Accuracy: 0.1°C
Sarah Strand
sarah.strand@unis.no
The University Centre in Svalbard
Type: land platform (fixed)
Status: Operational
Site info: The system of long - term permafrost observations was organized on the permafrost site of Russian Scientific Center on Spitsbergen in summer 2016 (Demidov et al., 2016). The monitoring site is established in the vicinity of the mining settlement Barentsburg on a sequence of Holocene marine terraces. The core drilling showed that the thickness of gravel sands and clays with massive and schlieren cryostructure forming the accumulative terraces is of 2 – 7 m.

Borehole is situated on a flat subhorizontal surface (inclination 2 ° to the NW) of top step of stairs of marine terraces in the vicinity of Barentsburg aerodrom, 95 m a.s.l.. Surface of terrace around drill point has ill-defined pattern structure. Soil is covered by plant cover (~80% of square) or by rocks (~20% of square). Also near to borehole there were remains of wood and metal tubes which had been used for drilling. In 2017 this remains were cleared away. Geological crossection is represented by fractured sandstone and mudstone overlaid by 2 m of gravelly loam with rocks. This borehole dates by early thirties of XX century when core drilling in the vicinity of Barentsburg was made for the purpose of coal exploration.
Core data: No
GTN-P Breinosa (E-2009)
CRYOSPHERE>FROZEN GROUND>PERMAFROST>PERMAFROST TEMPERATURE
Temperature-time data series with measurements at 0 m, 0.25 m, 0.5 m, 1 m, 2 m, 3 m, 4 m, 5 m, 7 m, and 10 m depth.

Unit: Degree Celsius,
Frequency: Hourly,
Method: Thermistor Automated,
Medium: Soil,
Resolution: Irrelevant,
Quality Check: Raw Data,
Accuracy: 0.2°C
Hanne Hvidtfeldt Christiansen
hanne.christiansen@unis.no
The University Centre in Svalbard
Type: land platform (fixed)
Status: Closed
Site info: Permafrost borehole at the Breinosa in Spitsbergen.

Permafrost present but thickness unknown.

Lithology: 0-12m weathered material 10-12m: transition to bedrock.




Core data: No
GTN-P DB Ny-Ålesund
CRYOSPHERE>FROZEN GROUND>PERMAFROST>PERMAFROST TEMPERATURE
20 pt100 1/5 Din Class with 0.05°C accuracy at 0°C; connected to datalogger CR1000 Campbell SCI with Teflon wires.
Sampling time 10’, with recording of average, maximum and minimum values every hour at 0.3 and 1 m depth and every 24 hours at other depths.

Unit: Degree Celsius,
Frequency: Daily,
Method: Thermistor Automated,
Medium: Soil,
Resolution: Irrelevant,
Quality Check: Raw Data,
Accuracy: 0.1°C
Sarah Strand
sarah.strand@unis.no
The University Centre in Svalbard
Type: land platform (fixed)
Status: Operational
Site info: The study site is set in the Brogger Peninsula (78°55’ N, 11°51’ E), close to the village of Ny- Ålesund. In particular the borehole is located on almost flat zone called Kolhaugen, between the coast and the Austre Broggerbreen forefield. The borehole is at 55 m a.s.l. very close less than 100 m southeastward from the Climatic Change Tower of CNR (Italy). Geologically the surface is composed by loose deposits (mainly marine beach deposits and rock weathered in situ-colluvium) with a not well developed soil above. Several inactive sorted circles occur in the area as well as some soli-gelifluction lobes and terraccettes. The study area lies in a polar semi-desert where three main vegetation types occur: 1) ridge vegetation with mesic conditions dominated by Dryas octopetala L. and Cassiope tetragona (L.) D. Don., 2) snow-bed vegetation with snow cover persistence dominated by Salix polaris Wahlenb., 3) heath vegetation where snow melt occurs early dominated by Carex rupestris All. and Saxifraga oppositifolia L.. Mosses and lichens are widespread in all the three types of vegetation.

Flat structural knob covered by at least 2.89 m of sediments but probably weathered rock (mainly sandstone) is present down to 10.45 m of depth. Snow is generally thin respect the surrounding areas (<0.3 m). Drilling operations were without any fluids (except for compressed air) starting with dry coring down to 2.89 m and afterwards partially without coring (hammer) with the collection of cuttings every visible changes. Ice content visible in the sediments both as interstitial and segregated ice needs to be analysed as well as the cores. The borehole has been drilled with a diameter of 51 mm. An hpd case with an internal diameter of 29 mm and ceiled at bottom was installed too. At the top the case is encapsulated in a bigger pipe (50 mm of diameter) that from the borehole reach the datalogger. Note that for firmware problems the data between 18 July 2015 to 26/01/2016 are too noisy to be accepted.

Drilling without fluids (except for compressed air) starting with dry coring down to 2.89 m and afterwards partially without coring (hammer) with collection of cuttings at visible changes. Hpd case with an internal diameter of 29 mm and sealed at bottom. At the top the case is enclosed in a bigger pipe (50 mm diameter) that from the borehole reaches the datalogger.
Core data: Yes
GTN-P Endalen PYRN
CRYOSPHERE>FROZEN GROUND>PERMAFROST>PERMAFROST TEMPERATURE
Temperature-time data series with measurements at 0.00, 0.25, 0.50, 0.75, 1.00, 1.50, 2.00, 2.50, 3.00, 4.00, 5.00, 6.00, 7.00, 8.00, 9.00, 10.00, 12.00, 15.00, and 19.00 m depth.

Unit: Degree Celsius,
Frequency: 6 hours,
Method: Thermistor Automated,
Medium: Soil,
Resolution: Irrelevant,
Quality Check: Raw Data,
Accuracy: 0.1°C
Hanne Hvidtfeldt Christiansen
hanne.christiansen@unis.no
The University Centre in Svalbard
Type: land platform (fixed)
Status: Closed
Site info: Permafrost borehole in Endalen in Spitsbergen.

Lithology: 0-1.5m: Diamicton. High fraction of fine material and scattered blocks; 1.5-2m: Coarser material. Ice lenses (10-20cm); 2-4m: Diamicton with blocks and finer material (silt/clay). Some ice lenses (3-4cm thick); -5m: Diamicton. Drier than above from 4.5m; 5-6m: Transition to bedrock. Crushed zone; 6-20m: Bedrock. Solid from 7.7m.

Core data: No
GTN-P Janssonhaugen P10
CRYOSPHERE>FROZEN GROUND>PERMAFROST>PERMAFROST TEMPERATURE
Ketil Isaksen
ketil.isaksen@met.no
Norwegian Meteorological Institute
Type: land platform (fixed)
Status: Operational
Site info: The Norwegian PACE boreholes (Janssonhaugen Svalbard and Juvvasshøe southern Mainland Norway) are taken care of by Dr. Ketil Isaksen, so also for the coming years. He serves the dataloggers and collects the data. The data are stored at the Norwegian Meteorological Institute (met.no). ​

Lithology: Sand-/siltstone
Core data: No
GTN-P Kapp Linne 1
CRYOSPHERE>FROZEN GROUND>PERMAFROST>PERMAFROST TEMPERATURE
Temperature-time data series with measurements at 0.00, 0.25, 0.50, 0.75, 1.00, 1.50, 2.00, 2.50, 3.00, 4.00, 5.00, 6.00, 7.00, 8.00, 9.00, 10.00, 12.00, 15.00, 20.00, 25.00, and 29.00 m depth.

Unit: Degree Celsius,

Frequency: 6 hours

Method: Thermistor Automated
Medium: Soil
Resolution: Irrelevant
Policy: Open
Quality Check: Quality Controlled Data
Accuracy: 0.1°C
Hanne Hvidtfeldt Christiansen
hanne.christiansen@unis.no
The University Centre in Svalbard
Type: land platform (fixed)
Status: Operational
Site info: Permafrost borehole at the Kapp Linne in Spitsbergen.
Permafrost present but thickness not known.

The entire hole is through bedrock. Possible to dig down c. 30cm in weathered rock. 0-3.5m: soft (weathered?) 3.5-5m: harder 4.1m: slip zone 5-11.7m: softer 11.7-14m: harder 14-15m: layering (sample) 17-30m: softer

Lithology: The entire hole is through bedrock. Possible to dig down c. 30cm in weathered rock.0-3.5m: soft (weathered?); 3.5-5m: harder; 4.1m: slip zone; 5-11.7m: softer; 11.7-14m: harder; 14-15m: layering; 17-30m: softer
Core data: Yes