The influence of seasonal climatic parameters on the permafrost thermal regime, West Siberia, Russia

Popova, V. V.; Шмакин, А. Б.

doi:10.1002/ppp.640

Cited by 10 publications

(10 citation statements)

References 8 publications

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“…The investigated parameters include MAAT, mean summer temperature, mean winter temperature, annual TDD and winter season FDD, summer precipitation and snow depth/winter precipitation. For all parameters, the regression analyses were performed for the same year and for the preceding year, because Popova and Schmakin () found the best correlation with active‐layer depths in tundra peatlands with summer air temperatures of the preceding 1–2 years. The regressions were considered statistically significant if p ≤ 0.05.…”

Section: Methodsmentioning

confidence: 99%

“…Few studies have explored the influence of meteorological parameters on the thermal regime in peatlands. In West Siberian tundra peatlands, Popova and Schmakin () concluded that seasonal air temperatures explain more of the active‐layer depth variability than do mean annual air temperature (MAAT) and annual thawing degree‐days (TDD – the cumulative sum of mean daily air temperatures for days when temperatures are above 0 °C) or freezing degree‐days (FDD – the cumulative sum of mean daily air temperatures for days when temperatures are below 0 °C). These authors found that summer air temperatures of the preceding 1–2 years have the greatest impact on active‐layer depths.…”

Section: Introductionmentioning

confidence: 99%

“…Active‐layer depth is also positively correlated to snow depth (Åkerman and Johansson, ; Johansson et al ., ). An increase in snow depth will also result in increased winter ground temperatures (Seppälä, ; Johansson et al ., ; Jean and Payette, ), and increased mean annual ground temperatures (MAGTs) at shallow depths, indicating that snow cover is important for heat exchange in the upper parts of the soil (Popova and Schmakin, ).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Permafrost Warming in a Subarctic Peatland – Which Meteorological Controls are Most Important?

Sannel

Hugelius

Jansson

et al. 2015

Permafrost & Periglacial

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Since climate change can affect the carbon balance and hydrology in permafrost peatlands, a better understanding of their sensitivity to changes in temperature and precipitation is needed. In Tavvavuoma, northernmost Sweden, meteorological parameters and ground thermal properties have been monitored in a peat plateau, 2006-2013. During this time period the air temperature record shows no warming trend, and the late-season thaw depth has been relatively stable around 55-60 cm. Meanwhile, the mean annual ground temperature at 1 m depth has increased by 0.06°C/yr and at 2-5 m depth the permafrost is currently warmer than -0.3°C. Statistical analyses suggest that inter-annual changes in thaw depth and ground temperatures are affected by different meteorological factors. Summer air temperatures and annual thawing degree-days control thaw depth (p ≤0.05), whereas winter precipitation/snow depth affects ground temperatures (p ≤0.1). The permafrost in this peat plateau is most likely relict and not in equilibrium with current climatic conditions. Since the early 20 th century there has been a regional increase in air temperature and snow depth. If the ongoing permafrost warming in Tavvavuoma is a result of these long-term trends, short-term variability in meteorological parameters can have an impact on the rate of permafrost degradation, but unless pronounced climate cooling would take place overall thawing of the peat plateau is inevitable.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Permafrost Warming in a Subarctic Peatland – Which Meteorological Controls are Most Important?

Sannel

Hugelius

Jansson

et al. 2015

Permafrost & Periglacial

View full text Add to dashboard Cite

show abstract

“…Increasing active-layer thicknesses over the past few decades have been reported from elsewhere in the Arctic, including Russia (Mazhitova et al, 2004;Popova and Shmakin, 2009), Iceland (Kneisel et al, 2007), Sweden (Akerman and Johansson, 2008), and North America (Zhang and Stamnes, 1998;Osterkamp, 2005;Burn and Kokelj, 2009). Notably, since 1950, the Arctic Oscillation has shown a statistically significant trend towards a positive phase (Balzter et al, 2007), which is thought to indicate global climate change.…”

Section: The Third Period From 1960 To the Presentmentioning

confidence: 89%

A reconstruction of the thawing of the permafrost during the last 170years on the Taimyr Peninsula (East Siberia, Russia)

Fedotov

Phedorin

Enushchenko

et al. 2012

Global and Planetary Change

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“…; numerous rivers have incised the coastal plain to depths of 15 m a.s.l. Massive ground ice bodies, which are believed to have an origin either as segregated ice or glacier ice (Trofimov et al, 1975;Astakhov, 2006), have been significantly affected by thermokarst processes due to human impact and global warming (Popova and Shmakin, 2009). The mean annual air temperature (MAAT) over Russia has risen by $18C in the last 20 years (Shmakin and Popova, 2006).…”

Section: Field Areamentioning

confidence: 99%

Geochemistry and extractable Fe and Al in cold‐temperature soils of northwestern Siberia

Mahaney

Kalm

Hancock

et al. 2010

J Quaternary Science

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The concentrations of major, minor and trace elements in three Cryosols from northwestern Siberia were analysed to determine profiles of geochemical uniformity, element mobility and the release and build-up of extractable Fe and Al. The scope of this study involves weathering processes over all or part of the Lateglacial to the Holocene Epoch (<10 ka) in a cold environment. Iron and Al extracts are investigated to elicit information regarding profile age and palaeoclimate. 'Free' iron (Fe d ) relative to total Fe increases in the Ah þ Bw horizons compared with the lower horizons, where oxidation is weaker. Low total Fe reflects reworked felsic deltaic and shallow marine deposits from the Permian to the early Tertiary, thereafter emplaced by episodic flooding of glacial meltwater from the Arctic Urals and/or the Kara Sea Ice Sheet. Organically complexed Al (Al p ), uniformly low in all soils, nevertheless shows trends indicating some downward movement, a rather unique occurrence in Arctic tundra soils. As indicated by the slow increase of oxihydrites, it may not be realistic to estimate the age of a profile by its physical characteristics. However, it appears possible to determine broad age ranges from the isotopic composition of water in soils.

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The influence of seasonal climatic parameters on the permafrost thermal regime, West Siberia, Russia

Cited by 10 publications

References 8 publications

Permafrost Warming in a Subarctic Peatland – Which Meteorological Controls are Most Important?

Permafrost Warming in a Subarctic Peatland – Which Meteorological Controls are Most Important?

A reconstruction of the thawing of the permafrost during the last 170years on the Taimyr Peninsula (East Siberia, Russia)

Geochemistry and extractable Fe and Al in cold‐temperature soils of northwestern Siberia

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