Permafrost and active layer research on james ross island

Permafrost and active layer research on james ross island: An overview

Research output: Contribution to journal › Journal article › Research › peer-review

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Permafrost and active layer research on james ross island : An overview. / Hrbáček, Filip; Nývlt, Daniel; Láska, Kamil; Kňažková, Michaela; Kampová, Barbora; Engel, Zbyněk; Oliva, Marc; Mueller, Carsten W.

In: Czech Polar Reports, Vol. 9, No. 1, 2019, p. 20-36.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Hrbáček, F, Nývlt, D, Láska, K, Kňažková, M, Kampová, B, Engel, Z, Oliva, M & Mueller, CW 2019, 'Permafrost and active layer research on james ross island: An overview', Czech Polar Reports, vol. 9, no. 1, pp. 20-36. https://doi.org/10.5817/CPR2019-1-3

APA

Hrbáček, F., Nývlt, D., Láska, K., Kňažková, M., Kampová, B., Engel, Z., Oliva, M., & Mueller, C. W. (2019). Permafrost and active layer research on james ross island: An overview. Czech Polar Reports, 9(1), 20-36. https://doi.org/10.5817/CPR2019-1-3

Vancouver

Hrbáček F, Nývlt D, Láska K, Kňažková M, Kampová B, Engel Z et al. Permafrost and active layer research on james ross island: An overview. Czech Polar Reports. 2019;9(1):20-36. https://doi.org/10.5817/CPR2019-1-3

Author

Hrbáček, Filip ; Nývlt, Daniel ; Láska, Kamil ; Kňažková, Michaela ; Kampová, Barbora ; Engel, Zbyněk ; Oliva, Marc ; Mueller, Carsten W. / Permafrost and active layer research on james ross island : An overview. In: Czech Polar Reports. 2019 ; Vol. 9, No. 1. pp. 20-36.

Bibtex

@article{718dd2104c5345e09444d53b3479e8e0,

title = "Permafrost and active layer research on james ross island: An overview",

abstract = "This study summarizes the current state of the active layer and permafrost research on James Ross Island. The analysis of climate parameters covers the reference period 2011- 2017. The mean annual air temperature at the AWS-JGM site was -6.9°C (ranged from -3.9°C to -8.2°C). The mean annual ground temperature at the depth of 5 cm was -5.5°C (ranged from -3.3°C to -6.7°C) and it also reached -5.6°C (ranged from -4.0 to -6.8°C) at the depth of 50 cm. The mean daily ground temperature at the depth of 5 cm correlated moderately up to strongly with the air temperature depending on the season of the year. Analysis of the snow effect on the ground thermal regime confirmed a low insulating effect of snow cover when snow thickness reached up to 50 cm. A thicker snow accumulation, reaching at least 70 cm, can develop around the hyaloclastite breccia boulders where a well pronounced insulation effect on the near-surface ground thermal regime was observed. The effect of lithology on the ground physical properties and the active layer thickness was also investigated. Laboratory analysis of ground thermal properties showed variation in thermal conductivity (0.3 to 0.9 W m-1 K-1). The thickest active layer (89 cm) was observed on the Berry Hill slopes site, where the lowest thawing degree days index (321 to 382°C·day) and the highest value of thermal conductivity (0.9 W m-1 K-1) was observed. The clearest influence of lithological conditions on active layer thickness was observed on the CALM-S grid. The site comprises a sandy Holocene marine terrace and muddy sand of the Whisky Bay Formation. Surveying using a manual probe, ground penetrating radar, and an electromagnetic conductivity meter clearly showed the effect of the lithological boundary on local variability of the active layer thickness.",

keywords = "Active layer, Climate, Ground physical properties, Ground thermal regime, Snow cover",

author = "Filip Hrb{\'a}{\v c}ek and Daniel N{\'y}vlt and Kamil L{\'a}ska and Michaela K{\v n}a{\v z}kov{\'a} and Barbora Kampov{\'a} and Zbyn{\v e}k Engel and Marc Oliva and Mueller, {Carsten W.}",

year = "2019",

doi = "10.5817/CPR2019-1-3",

language = "English",

volume = "9",

pages = "20--36",

journal = "Czech Polar Reports",

issn = "1805-0689",

publisher = "Masaryk University Press",

number = "1",

}

RIS

TY - JOUR

T1 - Permafrost and active layer research on james ross island

T2 - An overview

AU - Hrbáček, Filip

AU - Nývlt, Daniel

AU - Láska, Kamil

AU - Kňažková, Michaela

AU - Kampová, Barbora

AU - Engel, Zbyněk

AU - Oliva, Marc

AU - Mueller, Carsten W.

PY - 2019

Y1 - 2019

N2 - This study summarizes the current state of the active layer and permafrost research on James Ross Island. The analysis of climate parameters covers the reference period 2011- 2017. The mean annual air temperature at the AWS-JGM site was -6.9°C (ranged from -3.9°C to -8.2°C). The mean annual ground temperature at the depth of 5 cm was -5.5°C (ranged from -3.3°C to -6.7°C) and it also reached -5.6°C (ranged from -4.0 to -6.8°C) at the depth of 50 cm. The mean daily ground temperature at the depth of 5 cm correlated moderately up to strongly with the air temperature depending on the season of the year. Analysis of the snow effect on the ground thermal regime confirmed a low insulating effect of snow cover when snow thickness reached up to 50 cm. A thicker snow accumulation, reaching at least 70 cm, can develop around the hyaloclastite breccia boulders where a well pronounced insulation effect on the near-surface ground thermal regime was observed. The effect of lithology on the ground physical properties and the active layer thickness was also investigated. Laboratory analysis of ground thermal properties showed variation in thermal conductivity (0.3 to 0.9 W m-1 K-1). The thickest active layer (89 cm) was observed on the Berry Hill slopes site, where the lowest thawing degree days index (321 to 382°C·day) and the highest value of thermal conductivity (0.9 W m-1 K-1) was observed. The clearest influence of lithological conditions on active layer thickness was observed on the CALM-S grid. The site comprises a sandy Holocene marine terrace and muddy sand of the Whisky Bay Formation. Surveying using a manual probe, ground penetrating radar, and an electromagnetic conductivity meter clearly showed the effect of the lithological boundary on local variability of the active layer thickness.

AB - This study summarizes the current state of the active layer and permafrost research on James Ross Island. The analysis of climate parameters covers the reference period 2011- 2017. The mean annual air temperature at the AWS-JGM site was -6.9°C (ranged from -3.9°C to -8.2°C). The mean annual ground temperature at the depth of 5 cm was -5.5°C (ranged from -3.3°C to -6.7°C) and it also reached -5.6°C (ranged from -4.0 to -6.8°C) at the depth of 50 cm. The mean daily ground temperature at the depth of 5 cm correlated moderately up to strongly with the air temperature depending on the season of the year. Analysis of the snow effect on the ground thermal regime confirmed a low insulating effect of snow cover when snow thickness reached up to 50 cm. A thicker snow accumulation, reaching at least 70 cm, can develop around the hyaloclastite breccia boulders where a well pronounced insulation effect on the near-surface ground thermal regime was observed. The effect of lithology on the ground physical properties and the active layer thickness was also investigated. Laboratory analysis of ground thermal properties showed variation in thermal conductivity (0.3 to 0.9 W m-1 K-1). The thickest active layer (89 cm) was observed on the Berry Hill slopes site, where the lowest thawing degree days index (321 to 382°C·day) and the highest value of thermal conductivity (0.9 W m-1 K-1) was observed. The clearest influence of lithological conditions on active layer thickness was observed on the CALM-S grid. The site comprises a sandy Holocene marine terrace and muddy sand of the Whisky Bay Formation. Surveying using a manual probe, ground penetrating radar, and an electromagnetic conductivity meter clearly showed the effect of the lithological boundary on local variability of the active layer thickness.

KW - Active layer

KW - Climate

KW - Ground physical properties

KW - Ground thermal regime

KW - Snow cover

U2 - 10.5817/CPR2019-1-3

DO - 10.5817/CPR2019-1-3

M3 - Journal article

AN - SCOPUS:85071233784

VL - 9

SP - 20

EP - 36

JO - Czech Polar Reports

JF - Czech Polar Reports

SN - 1805-0689

IS - 1

ER -

ID: 238948899