Annual and seasonal CO&lt;sub&gt;2&lt;/sub&gt; fluxes from Russian
                        southern taiga soils

Kurganova, I. N.; Gerenyu, Valentin Lopes de; Rozanova, L. N.; Sapronov, D. V.; Myakshina, T. N.; Kudeyarov, V. N.

doi:10.3402/tellusb.v55i2.16724

Cited by 28 publications

(15 citation statements)

References 7 publications

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“…This is consistent with many results reported for coniferous forests (e.g., Vanhala 2002;Kurganova et al 2003). Soil temperature and moisture are two important factors that regulate temporal variations in soil respiration rates at the ecosystem level.…”

Section: Discussionsupporting

confidence: 81%

“…Brooks et al (2004) found that winter CO 2 fluxes were larger and less variable in deciduous forest than in coniferous forests. We estimated winter soil respiration at 150.4 g m -2 for the plantation and 176.3 g m -2 for the natural forest, which were comparable to the values reported for coniferous forests in Colorado, Wyoming, Idaho and Siberia (Sommerfeld et al 1993;McDowell et al 2000;Monson et al 2002;Kurganova et al 2003), and higher than those found in many other forest ecosystems (Zimov et al 1996;Brooks et al 1997;Mariko et al 2000;Hubbard et al 2005;Mo et al 2005;Vogel et al 2005). In this study, the winter contribution to the annual amount of CO 2 evolved from the soil (approximately 16 % in both forests) was consistent with the estimates of 10-50 % for forest ecosystems (Schindlbacher et al 2007;Wang et al 2010).…”

Section: Discussionsupporting

confidence: 69%

“…Our measured values of mean winter soil CO 2 efflux were higher than all of the values reported for boreal coniferous forest ecosystems or temperate deciduous broad-leaved or hardwood forest ecosystems (Rustad and Fernandez 1998;Kurganova et al 2003;Hubbard et al 2005;Groffman et al 2006;Suzuki et al 2006;Schindlbacher et al 2007;Wang et al 2010). For example, moderate soil CO 2 effluxes of 0.5-0.7 lmol m -2 s -1 were recorded during winter in coniferous forests in Austria, Germany, Russia and USA (Sommerfeld et al 1996;McDowell et al 2000;Kurganova et al 2003;Schindlbacher et al 2007;Muhr et al 2009). Comparatively low winter soil respiration rates were observed in two mixed conifer forests of different ages (50 and 300 years) in Colorado, USA (0.31 lmol m -2 s -1 for 50 years old forest and 0.35 lmol m -2 s -1 for 300 years old forest, Hubbard et al 2005), in a deciduous broadleaved forest in Japan (0.37 lmol m -2 s , Groffman et al 2006).…”

Section: Discussioncontrasting

confidence: 43%

“…5 Variation of winter CO 2 effluxes in forest ecosystems with latitude. Data shown in the figure were reported in our study (Suzuki et al 2006;Hubbard et al 2005;Wang et al 2010;Groffman et al 2006;Rustad and Fernandez 1998;Schindlbacher et al 2007;McDowell et al 2000;Muhr et al 2009;Kurganova et al 2003) from low to high latitude mean winter soil CO 2 efflux at 31 N were much higher than those estimated for mid and high latitudes. Winter soil CO 2 efflux may be controlled by the soil substrate, root activity and subsurface temperature influenced by thickness and duration of snow cover (Brooks et al 2004;Monson et al 2006).…”

Section: Discussionmentioning

confidence: 53%

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Winter soil CO2 efflux in two contrasting forest ecosystems on the eastern Tibetan Plateau, China

Zhou

Yin

et al. 2015

J. For. Res.

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Significant CO 2 fluxes from snow-covered soils occur in cold biomes. However, little is known about winter soil respiration on the eastern Tibetan Plateau of China. We therefore measured winter soil CO 2 fluxes and estimated annual soil respiration in two contrasting coniferous forest ecosystems (a Picea asperata plantation and a natural forest). Mean winter soil CO 2 effluxes were 1.08 lmol m -2 s -1 in the plantation and 1.16 lmol m -2 s -1 in the natural forest. These values are higher than most reported winter soil CO 2 efflux values for temperate or boreal forest ecosystems. Winter soil respiration rates were similar for our two forest ecosystems but mean soil CO 2 efflux over the growing season was higher in the natural forest than in the plantation. The estimated winter and annual soil effluxes for the natural forest were 176.3 and 1070.3 g m -2, respectively, based on the relationship between soil respiration and soil temperature, which were 17.2 and 9.7 % greater than their counterparts in the plantation. The contributions of winter soil respiration to annual soil efflux were 15.4 % for the plantation and 16.5 % for the natural forest and were statistically similar. Our results indicate that winter soil CO 2 efflux from frozen soils in the alpine coniferous forest ecosystems of the eastern Tibetan Plateau was considerable and was an important component of annual soil respiration. Moreover, reforestation (natural coniferous forests were deforested and reforested with P. asperata plantation) may reduce soil respiration by reducing soil carbon substrate availability and input.

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Section: Discussionsupporting

confidence: 81%

Section: Discussionsupporting

confidence: 69%

Section: Discussioncontrasting

confidence: 43%

Section: Discussionmentioning

confidence: 53%

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Winter soil CO2 efflux in two contrasting forest ecosystems on the eastern Tibetan Plateau, China

Zhou

Yin

et al. 2015

J. For. Res.

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“…So, our estimations showed that the emission of CO 2 from cultivated soils during the cold period was an essential part of the annual emissions, which should be taken into account while calculating the carbon budget for the whole year. According to other studies (Sommerfeld et al 1993, Pajary 1995, Oechel et al 1997, Alm et al 1999, Zamolodchikov and Karelin 2001, Kurganova et al 2003) the winter soil respiration has been estimated to contribute 10% or more to the annual CO 2 flux from tundra soil and 20% or more from boreal ecosystems.…”

Section: Share Of Different Periods To the Annual Co 2 Fluxmentioning

confidence: 98%

Effect of temperature and moisture on O<sub>2</sub> evolution rate of cultivated Phaeozem: analyses of a long-term field experiment

Gerenyu¹,

Kurganova²,

Rozanova³

et al. 2005

PLANT SOIL ENVIRON

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Soil temperature and moisture are the main ecological factors regulating the processes of production and emission of CO 2 from soil surface. The CO 2 evolution rate from cultivated clay Phaeozem (Russia, Moscow region; 54°50'N, 37°35'E) were studied under field conditions from November 1997 to October 2002. The daily mean CO 2 evolution rate varied widely -from 0.9 to 246 mg C/m 2 /h. The total annual CO 2 flux from cultivated Phaeozem averaged 352 ± 148 g C/m 2 /year, the interannual variability amounted to 42%. We found significant linear trends (R = 0.46-0.55, P < 0.001) reflecting the relationship between CO 2 emission and soil temperature through the whole observation period and during spring and autumn seasons as well. The exponential equations described these relationships for the same periods more adequately than the simple linear equations (R = 0.62-0.68, P < 0.01). The temperature coefficient Q 10 comprised 2.3 (for the whole data set) and was essentially higher 3.2-3.6 during the spring and autumn. The correlation between CO 2 evolution rate and soil moisture was insignificant for the whole period, winter, spring and autumn seasons as well. During the summer, correlation between CO 2 evolution rate and soil moisture was positive and very close (R = 0.74, P < 0.001), indicating that the soil moisture content was a main factor limitative the rate of CO 2 emission from soil for this period.Keywords: CO 2 evolution rate; annual and seasonal CO 2 flux; cultivated Phaeozem; temperature dependence; Q 10 ; effect of soil moisture Supported by the Russian Foundation for Basic Researches, Program of RAS Presidium.

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Urban Soil Respiration and Its Autotrophic and Heterotrophic Components Compared to Adjacent Forest and Cropland Within the Moscow Megapolis

Vasenev

Castaldi²,

Vizirskaya

et al. 2017

Springer Geography

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Annual and seasonal CO<sub>2</sub> fluxes from Russian southern taiga soils

Cited by 28 publications

References 7 publications

Winter soil CO2 efflux in two contrasting forest ecosystems on the eastern Tibetan Plateau, China

Winter soil CO2 efflux in two contrasting forest ecosystems on the eastern Tibetan Plateau, China

Effect of temperature and moisture on O<sub>2</sub> evolution rate of cultivated Phaeozem: analyses of a long-term field experiment

Urban Soil Respiration and Its Autotrophic and Heterotrophic Components Compared to Adjacent Forest and Cropland Within the Moscow Megapolis

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