Hydrometeorological dataset of West Siberian boreal peatland: a 10-year records from the Mukhrino field station.

Northern peatlands represent one of the largest carbon pools in the biosphere the carbon they store are increasingly vulnerable to perturbations from climate and land-use change. Meteorological observations directly at peatland areas in Siberia are unique and rare, while peatlands characterized by a...

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Main Authors: Dyukarev, Egor, Filippova, Nina, Karpov, Dmitriy, Shnyrev, Nikolay, Zarov, Evgeny, Filippov, Ilya, Voropay, Nadezhda, Avilov, Vitaly, Artamonov, Arseniy, Lapshina, Elena
Format: Dataset
Language:English
Published: Zenodo 2020
Subjects:
meteorology
peatland
air temperature
air humidity
photosynthetically active radiation
net radiation
soil heat flux
precipitation
snow depth
gap-filling
khanty
khanty-mansi
Mansi
Siberia
Online Access:https://dx.doi.org/10.5281/zenodo.4323023
https://zenodo.org/record/4323023
id ftdatacite:10.5281/zenodo.4323023
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic meteorology
peatland
air temperature
air humidity
photosynthetically active radiation
net radiation
soil heat flux
precipitation
snow depth
gap-filling
spellingShingle meteorology
peatland
air temperature
air humidity
photosynthetically active radiation
net radiation
soil heat flux
precipitation
snow depth
gap-filling
Dyukarev, Egor
Filippova, Nina
Karpov, Dmitriy
Shnyrev, Nikolay
Zarov, Evgeny
Filippov, Ilya
Voropay, Nadezhda
Avilov, Vitaly
Artamonov, Arseniy
Lapshina, Elena
Hydrometeorological dataset of West Siberian boreal peatland: a 10-year records from the Mukhrino field station.
topic_facet meteorology
peatland
air temperature
air humidity
photosynthetically active radiation
net radiation
soil heat flux
precipitation
snow depth
gap-filling
description Northern peatlands represent one of the largest carbon pools in the biosphere the carbon they store are increasingly vulnerable to perturbations from climate and land-use change. Meteorological observations directly at peatland areas in Siberia are unique and rare, while peatlands characterized by a specific local climate. This paper presents a hydrological and meteorological dataset collected at the Mukhrino peatland, Khanty–Mansi Autonomous Okrug – Yugra, Russia over the period of 08 May 2010 to 31 December 2019. Hydrometeorological data collected from stations located at the small pine-shrub-Sphagnum ridge and Scheuchzeria-Sphagnum hollow at the ridge–hollow complexes of ombrotrophic peatland. Monitored meteorological variables include air temperature, air humidity, atmospheric pressure, wind speed and direction, incoming and reflected photosynthetically active radiation, net radiation, soil heat flux, precipitation (rain), and snow depth. The gap-filling procedure based on the gaussian process regression model with exponential kernel was developed to obtain a continuous time series. For the record from 2010 to 2019, the average mean annual air temperature site was −1.0 ◦C, with a mean monthly temperature of the warmest month (July) recorded as 17.4 ◦C and for the coldest month (January) −21.5 ◦C. The average net radiation was about 35.0 W m -2 , the soil heat flux was 2.4 and 1.2 W m -2 for the hollow and the ridge sites, respectively. DATASETS: meteo_MFC_raw.dat - Raw data collected from the automated weather station at the Mukhrino field station (Khanty–Mansi Autonomous Okrug – Yugra, Russia). Note: The time step differs during measured period 01.01.2010 – 15.07.2012: 15 minutes; 15.07.2012 – 20.06.2014: 1 hour; 20.06.2014 – 31.12.2020: 30 minutes. meteo_MFC_qq_1h.dat – Quality controlled data collected from the automated weather station at the Mukhrino field station (Khanty–Mansi Autonomous Okrug – Yugra, Russia). The time step is 60 minutes. The missing data denoted by “NA”. meteo_MFC_gapfilled_1h.dat – Quality controlled and gap-filled hydrometeorological data for the Mukhrino field station (Khanty–Mansi Autonomous Okrug – Yugra, Russia). The time step is 60 minutes. The missing data denoted by “NA”. meteo_MFC_raw.dat parameters: 1. date - Date and time ( DD/MM/YYYY hh:mm:ss ). 2. ta_H - Air temperature at 2 m, hollow ( oC ). 3. ta_R - Air temperature at 2 m, ridge ( oC ). 4. rh_H - Relative air humidity at 2 m, hollow ( % ). 5. rh_R - Relative air humidity at 2 m, ridge ( % ). 6. vp_H - Water vapor pressure at 2 m, hollow ( kPa ). 7. vp_R - Water vapor pressure at 2 m, ridge ( kPa ). 8. ws_10m - Wind speed at 10 m ( m s-1 ). 9. wd_10m - Wind direction at 10 m ( deg ). 10. ws_2m - Wind speed at 2 m ( m s-1 ). 11. wd_2m - Wind direction at 2 m ( deg ). 12. stdwd_10m - Standard deviation of wind direction at 10 m for the period of measurement ( m s-1 ). 13. stdwd_2m - Standard deviation of wind direction at 2 m for the period of measurement ( m s-1 ). 14. ipar_H - Incoming PAR, hollow ( µmol m-2 s-1 ). 15. ipar_R - Incoming PAR, ridge ( µmol m-2 s-1 ). 16. rpar_H - Reflected PAR, hollow ( µmol m-2 s-1 ). 17. rpar_R - Reflected PAR, ridge ( µmol m-2 s-1 ). 18. nr_H - Net radiation balance, hollow ( Uncalibrated ). 19. nr_R - Net radiation balance, ridge ( Uncalibrated ). 20. shf_H - Soil heat flux, hollow ( Uncalibrated ). 21. shf_R1 - Soil heat flux, ridge, site 1 ( Uncalibrated ). 22. shf_R2 - Soil heat flux, ridge, site 2 ( Uncalibrated ). 23. ts_2cm_R1 - Soil temperature at 2 cm, ridge, site 1 ( oC ). 24. ts_5cm_R1 - Soil temperature at 5 cm, ridge, site 1 ( oC ). 25. ts_10cm_R1 - Soil temperature at 10 cm, ridge, site 1 ( oC ). 26. ts_20cm_R1 - Soil temperature at 20 cm, ridge, site 1 ( oC ). 27. ts_50cm_R1 - Soil temperature at 50 cm, ridge, site 1 ( oC ). 28. ts_2cm_R2 - Soil temperature at 2 cm, ridge, site 2 ( oC ). 29. ts_5cm_R2 - Soil temperature at 5 cm, ridge, site 2 ( oC ). 30. ts_10cm_R2 - Soil temperature at 20 cm, ridge, site 2 ( oC ). 31. ts_20cm_R2 - Soil temperature at 20 cm, ridge, site 2 ( oC ). 32. ts_50cm_R2 - Soil temperature at 50 cm, ridge, site 2 ( oC ). 33. ts_2cm_H1 - Soil temperature at 2 cm, hollow, site 1 ( oC ). 34. ts_5cm_H1 - Soil temperature at 5 cm, hollow, site 1 ( oC ). 35. ts_10cm_H1 - Soil temperature at 10 cm, hollow, site 1 ( oC ). 36. ts_20cm_H1 - Soil temperature at 20 cm, hollow, site 1 ( oC ). 37. ts_50cm_H1 - Soil temperature at 50 cm, hollow, site 1 ( oC ). 38. ts_2cm_H2 - Soil temperature at 2 cm, hollow, site 2 ( oC ). 39. ts_5cm_H2 - Soil temperature at 5 cm, hollow, site 2 ( oC ). 40. ts_10cm_H2 - Soil temperature at 20 cm, hollow, site 2 ( oC ). 41. ts_20cm_H2 - Soil temperature at 20 cm, hollow, site 2 ( oC ). 42. ts_50cm_H2 - Soil temperature at 50 cm, hollow, site 2 ( oC ). 43. T_cont - Temperature at data logger ( oC ). 44. batt_1 - Battery output voltage at data logger 1 ( V ). 45. batt_2 - Battery output voltage at data logger 2 ( V ). 46. batt_2 - Battery output voltage at data logger 3 ( V ). meteo_MFC_qq_1h.dat and meteo_MFC_gapfilled_1h.dat parameters: 1. date - Date and time ( DD/MM/YYYY hh:mm:ss ). 2. ta_H - Air temperature at 2 m, hollow ( oC ). 3. ta_R - Air temperature at 2 m, ridge ( oC ). 4. vp_H - Water vapor pressure at 2 m, hollow ( kPa ). 5. vp_R - Water vapor pressure at 2 m, ridge ( kPa ). 6. ipar_H - Incoming PAR, hollow ( µmol m-2 s-1 ). 7. ipar_R - Incoming PAR, ridge ( µmol m-2 s-1 ). 8. rpar_H - Reflected PAR, hollow ( µmol m-2 s-1 ). 9. rpar_R - Reflected PAR, ridge ( µmol m-2 s-1 ). 10. alb_H - Albedo PAR, hollow ( [] ). 11. alb_R - Albego PAR, ridge ( [] ). 12. nr_H - Net radiation balance, hollow ( W m-2 ). 13. nr_R - Net radiation balance, ridge ( W m-2 ). 14. shf_H - Soil heat flux, hollow ( W m-2 ). 15. shf_R1 - Soil heat flux, ridge, site 1 ( W m-2 ). 16. shf_R2 - Soil heat flux, ridge, site 2 ( W m-2 ). 17. ws_10m - Wind speed at 10 m ( m s-1 ). 18. wd_10m - Wind direction at 10 m ( deg ). 19. ws_2m - Wind speed at 2 m ( m s-1 ). 20. wd_2m - Wind direction at 2 m ( deg ). 21. wU_10m - U component of wind at 10 m ( m s-1 ). 22. wV_10m - V component of wind at 10 m ( m s-1 ). 23. wU_2m - U component of wind at 2 m ( m s-1 ). 24. wV_2m - V component of wind at 2 m ( m s-1 ). 25. prs - Atmospheric pressure ( hPa ). 26. sdp - Snow depth ( cm ). 27. prc - Liquid precipitations ( mm ).
format Dataset
author Dyukarev, Egor
Filippova, Nina
Karpov, Dmitriy
Shnyrev, Nikolay
Zarov, Evgeny
Filippov, Ilya
Voropay, Nadezhda
Avilov, Vitaly
Artamonov, Arseniy
Lapshina, Elena
author_facet Dyukarev, Egor
Filippova, Nina
Karpov, Dmitriy
Shnyrev, Nikolay
Zarov, Evgeny
Filippov, Ilya
Voropay, Nadezhda
Avilov, Vitaly
Artamonov, Arseniy
Lapshina, Elena
author_sort Dyukarev, Egor
title Hydrometeorological dataset of West Siberian boreal peatland: a 10-year records from the Mukhrino field station.
title_short Hydrometeorological dataset of West Siberian boreal peatland: a 10-year records from the Mukhrino field station.
title_full Hydrometeorological dataset of West Siberian boreal peatland: a 10-year records from the Mukhrino field station.
title_fullStr Hydrometeorological dataset of West Siberian boreal peatland: a 10-year records from the Mukhrino field station.
title_full_unstemmed Hydrometeorological dataset of West Siberian boreal peatland: a 10-year records from the Mukhrino field station.
title_sort hydrometeorological dataset of west siberian boreal peatland: a 10-year records from the mukhrino field station.
publisher Zenodo
publishDate 2020
url https://dx.doi.org/10.5281/zenodo.4323023
https://zenodo.org/record/4323023
genre khanty
khanty-mansi
Mansi
Siberia
genre_facet khanty
khanty-mansi
Mansi
Siberia
op_relation https://dx.doi.org/10.5281/zenodo.4323024
op_rights Open Access
Creative Commons Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/legalcode
cc-by-4.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC-BY
op_doi https://doi.org/10.5281/zenodo.4323023
https://doi.org/10.5281/zenodo.4323024
_version_ 1766056592277504000
spelling ftdatacite:10.5281/zenodo.4323023 2023-05-15T17:02:54+02:00 Hydrometeorological dataset of West Siberian boreal peatland: a 10-year records from the Mukhrino field station. Dyukarev, Egor Filippova, Nina Karpov, Dmitriy Shnyrev, Nikolay Zarov, Evgeny Filippov, Ilya Voropay, Nadezhda Avilov, Vitaly Artamonov, Arseniy Lapshina, Elena 2020 https://dx.doi.org/10.5281/zenodo.4323023 https://zenodo.org/record/4323023 en eng Zenodo https://dx.doi.org/10.5281/zenodo.4323024 Open Access Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 info:eu-repo/semantics/openAccess CC-BY meteorology peatland air temperature air humidity photosynthetically active radiation net radiation soil heat flux precipitation snow depth gap-filling dataset Dataset 2020 ftdatacite https://doi.org/10.5281/zenodo.4323023 https://doi.org/10.5281/zenodo.4323024 2021-11-05T12:55:41Z Northern peatlands represent one of the largest carbon pools in the biosphere the carbon they store are increasingly vulnerable to perturbations from climate and land-use change. Meteorological observations directly at peatland areas in Siberia are unique and rare, while peatlands characterized by a specific local climate. This paper presents a hydrological and meteorological dataset collected at the Mukhrino peatland, Khanty–Mansi Autonomous Okrug – Yugra, Russia over the period of 08 May 2010 to 31 December 2019. Hydrometeorological data collected from stations located at the small pine-shrub-Sphagnum ridge and Scheuchzeria-Sphagnum hollow at the ridge–hollow complexes of ombrotrophic peatland. Monitored meteorological variables include air temperature, air humidity, atmospheric pressure, wind speed and direction, incoming and reflected photosynthetically active radiation, net radiation, soil heat flux, precipitation (rain), and snow depth. The gap-filling procedure based on the gaussian process regression model with exponential kernel was developed to obtain a continuous time series. For the record from 2010 to 2019, the average mean annual air temperature site was −1.0 ◦C, with a mean monthly temperature of the warmest month (July) recorded as 17.4 ◦C and for the coldest month (January) −21.5 ◦C. The average net radiation was about 35.0 W m -2 , the soil heat flux was 2.4 and 1.2 W m -2 for the hollow and the ridge sites, respectively. DATASETS: meteo_MFC_raw.dat - Raw data collected from the automated weather station at the Mukhrino field station (Khanty–Mansi Autonomous Okrug – Yugra, Russia). Note: The time step differs during measured period 01.01.2010 – 15.07.2012: 15 minutes; 15.07.2012 – 20.06.2014: 1 hour; 20.06.2014 – 31.12.2020: 30 minutes. meteo_MFC_qq_1h.dat – Quality controlled data collected from the automated weather station at the Mukhrino field station (Khanty–Mansi Autonomous Okrug – Yugra, Russia). The time step is 60 minutes. The missing data denoted by “NA”. meteo_MFC_gapfilled_1h.dat – Quality controlled and gap-filled hydrometeorological data for the Mukhrino field station (Khanty–Mansi Autonomous Okrug – Yugra, Russia). The time step is 60 minutes. The missing data denoted by “NA”. meteo_MFC_raw.dat parameters: 1. date - Date and time ( DD/MM/YYYY hh:mm:ss ). 2. ta_H - Air temperature at 2 m, hollow ( oC ). 3. ta_R - Air temperature at 2 m, ridge ( oC ). 4. rh_H - Relative air humidity at 2 m, hollow ( % ). 5. rh_R - Relative air humidity at 2 m, ridge ( % ). 6. vp_H - Water vapor pressure at 2 m, hollow ( kPa ). 7. vp_R - Water vapor pressure at 2 m, ridge ( kPa ). 8. ws_10m - Wind speed at 10 m ( m s-1 ). 9. wd_10m - Wind direction at 10 m ( deg ). 10. ws_2m - Wind speed at 2 m ( m s-1 ). 11. wd_2m - Wind direction at 2 m ( deg ). 12. stdwd_10m - Standard deviation of wind direction at 10 m for the period of measurement ( m s-1 ). 13. stdwd_2m - Standard deviation of wind direction at 2 m for the period of measurement ( m s-1 ). 14. ipar_H - Incoming PAR, hollow ( µmol m-2 s-1 ). 15. ipar_R - Incoming PAR, ridge ( µmol m-2 s-1 ). 16. rpar_H - Reflected PAR, hollow ( µmol m-2 s-1 ). 17. rpar_R - Reflected PAR, ridge ( µmol m-2 s-1 ). 18. nr_H - Net radiation balance, hollow ( Uncalibrated ). 19. nr_R - Net radiation balance, ridge ( Uncalibrated ). 20. shf_H - Soil heat flux, hollow ( Uncalibrated ). 21. shf_R1 - Soil heat flux, ridge, site 1 ( Uncalibrated ). 22. shf_R2 - Soil heat flux, ridge, site 2 ( Uncalibrated ). 23. ts_2cm_R1 - Soil temperature at 2 cm, ridge, site 1 ( oC ). 24. ts_5cm_R1 - Soil temperature at 5 cm, ridge, site 1 ( oC ). 25. ts_10cm_R1 - Soil temperature at 10 cm, ridge, site 1 ( oC ). 26. ts_20cm_R1 - Soil temperature at 20 cm, ridge, site 1 ( oC ). 27. ts_50cm_R1 - Soil temperature at 50 cm, ridge, site 1 ( oC ). 28. ts_2cm_R2 - Soil temperature at 2 cm, ridge, site 2 ( oC ). 29. ts_5cm_R2 - Soil temperature at 5 cm, ridge, site 2 ( oC ). 30. ts_10cm_R2 - Soil temperature at 20 cm, ridge, site 2 ( oC ). 31. ts_20cm_R2 - Soil temperature at 20 cm, ridge, site 2 ( oC ). 32. ts_50cm_R2 - Soil temperature at 50 cm, ridge, site 2 ( oC ). 33. ts_2cm_H1 - Soil temperature at 2 cm, hollow, site 1 ( oC ). 34. ts_5cm_H1 - Soil temperature at 5 cm, hollow, site 1 ( oC ). 35. ts_10cm_H1 - Soil temperature at 10 cm, hollow, site 1 ( oC ). 36. ts_20cm_H1 - Soil temperature at 20 cm, hollow, site 1 ( oC ). 37. ts_50cm_H1 - Soil temperature at 50 cm, hollow, site 1 ( oC ). 38. ts_2cm_H2 - Soil temperature at 2 cm, hollow, site 2 ( oC ). 39. ts_5cm_H2 - Soil temperature at 5 cm, hollow, site 2 ( oC ). 40. ts_10cm_H2 - Soil temperature at 20 cm, hollow, site 2 ( oC ). 41. ts_20cm_H2 - Soil temperature at 20 cm, hollow, site 2 ( oC ). 42. ts_50cm_H2 - Soil temperature at 50 cm, hollow, site 2 ( oC ). 43. T_cont - Temperature at data logger ( oC ). 44. batt_1 - Battery output voltage at data logger 1 ( V ). 45. batt_2 - Battery output voltage at data logger 2 ( V ). 46. batt_2 - Battery output voltage at data logger 3 ( V ). meteo_MFC_qq_1h.dat and meteo_MFC_gapfilled_1h.dat parameters: 1. date - Date and time ( DD/MM/YYYY hh:mm:ss ). 2. ta_H - Air temperature at 2 m, hollow ( oC ). 3. ta_R - Air temperature at 2 m, ridge ( oC ). 4. vp_H - Water vapor pressure at 2 m, hollow ( kPa ). 5. vp_R - Water vapor pressure at 2 m, ridge ( kPa ). 6. ipar_H - Incoming PAR, hollow ( µmol m-2 s-1 ). 7. ipar_R - Incoming PAR, ridge ( µmol m-2 s-1 ). 8. rpar_H - Reflected PAR, hollow ( µmol m-2 s-1 ). 9. rpar_R - Reflected PAR, ridge ( µmol m-2 s-1 ). 10. alb_H - Albedo PAR, hollow ( [] ). 11. alb_R - Albego PAR, ridge ( [] ). 12. nr_H - Net radiation balance, hollow ( W m-2 ). 13. nr_R - Net radiation balance, ridge ( W m-2 ). 14. shf_H - Soil heat flux, hollow ( W m-2 ). 15. shf_R1 - Soil heat flux, ridge, site 1 ( W m-2 ). 16. shf_R2 - Soil heat flux, ridge, site 2 ( W m-2 ). 17. ws_10m - Wind speed at 10 m ( m s-1 ). 18. wd_10m - Wind direction at 10 m ( deg ). 19. ws_2m - Wind speed at 2 m ( m s-1 ). 20. wd_2m - Wind direction at 2 m ( deg ). 21. wU_10m - U component of wind at 10 m ( m s-1 ). 22. wV_10m - V component of wind at 10 m ( m s-1 ). 23. wU_2m - U component of wind at 2 m ( m s-1 ). 24. wV_2m - V component of wind at 2 m ( m s-1 ). 25. prs - Atmospheric pressure ( hPa ). 26. sdp - Snow depth ( cm ). 27. prc - Liquid precipitations ( mm ). Dataset khanty khanty-mansi Mansi Siberia DataCite Metadata Store (German National Library of Science and Technology)

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