High Arctic soil CO2 and CH4 production controlled by temperature, water, freezing and snow
Soil gas production processes, mainly anaerobic or aerobic soil respiration, drive major gas fluxes across the soil-atmosphere interface. Carbon dioxide (CO2) effluxes, an efflux which in most ecosystems is a result of both autotrophic and heterotrophic respiration, in particular have received inter...
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Elsevier
2008
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| Online Access: | https://lup.lub.lu.se/record/712900 https://doi.org/10.1016/S0065-2504(07)00019-0 |
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ftulundlup:oai:lup.lub.lu.se:8f3a2fd9-bac7-441f-b27d-c42e9e2ea0ce 2023-05-15T15:02:12+02:00 High Arctic soil CO2 and CH4 production controlled by temperature, water, freezing and snow Elberling, Bo Nordstrøm, Claus Grøndahl, Louise Søgaard, Henrik Friborg, Thomas Christensen, Torben Ström, Lena Marchand, Fleur Nijs, Ivan Meltofte, Hans Christensen, Torben Elberling, Bo Forchhammer, Mads Rasch, Morten 2008 https://lup.lub.lu.se/record/712900 https://doi.org/10.1016/S0065-2504(07)00019-0 eng eng Elsevier https://lup.lub.lu.se/record/712900 http://dx.doi.org/10.1016/S0065-2504(07)00019-0 ISBN: 9780123736659 wos:000256528000019 scopus:41349090798 40, pp 441-472 (2008) ISSN: 0065-2504 Physical Geography contributiontobookanthology/chapter info:eu-repo/semantics/bookPart text 2008 ftulundlup https://doi.org/10.1016/S0065-2504(07)00019-0 2023-02-01T23:33:14Z Soil gas production processes, mainly anaerobic or aerobic soil respiration, drive major gas fluxes across the soil-atmosphere interface. Carbon dioxide (CO2) effluxes, an efflux which in most ecosystems is a result of both autotrophic and heterotrophic respiration, in particular have received international attention. The importance of both CO2 and methane (CH4) fluxes are emphasised in the Arctic because of the large amount of soil organic carbon stored in terrestrial ecosystems and changes in uptake and release due to climate changes. This chapter focuses on controls on spatial and temporal trends in subsurface CO2 and CH4 production as well as on transport and release of gases from the soil observed in the valley Zackenbergdalen. A dominance of near-surface temperatures controlling both spatial and seasonal trends is shown based on data obtained using closed chamber and eddy-correlation techniques as well as in manipulated field plots and in controlled incubation experiments. Despite variable temperature sensitivities reported, most data can be fairly well fitted to exponential temperature-dependent equations. The water content (at wet sites linked to the depth to the water table) is a second major factor regulating soil respiration processes, but the effect is quite different in contrasting vegetation types. Dry heath sites are shown to be periodically water limited during the growing season and respond therefore with high respiration rates when watered. In contrast, water saturated conditions during most of the growing season in the fen areas hinder the availability of oxygen, resulting in both CO2 and CH4 production. Thus, water table drawdown results in decreasing CH4 effluxes but increasing CO2 effluxes. Additional controls on gas production are shown to be related to the availability of substrate and plant productivity. Subsurface gas production will produce partial and total pressure gradient causing gas transport, which in well-drained soils is mainly controlled by diffusion, whereas gas advection, ... Book Part Arctic Lund University Publications (LUP) Arctic 441 472 |
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Open Polar |
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Lund University Publications (LUP) |
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ftulundlup |
| language |
English |
| topic |
Physical Geography |
| spellingShingle |
Physical Geography Elberling, Bo Nordstrøm, Claus Grøndahl, Louise Søgaard, Henrik Friborg, Thomas Christensen, Torben Ström, Lena Marchand, Fleur Nijs, Ivan High Arctic soil CO2 and CH4 production controlled by temperature, water, freezing and snow |
| topic_facet |
Physical Geography |
| description |
Soil gas production processes, mainly anaerobic or aerobic soil respiration, drive major gas fluxes across the soil-atmosphere interface. Carbon dioxide (CO2) effluxes, an efflux which in most ecosystems is a result of both autotrophic and heterotrophic respiration, in particular have received international attention. The importance of both CO2 and methane (CH4) fluxes are emphasised in the Arctic because of the large amount of soil organic carbon stored in terrestrial ecosystems and changes in uptake and release due to climate changes. This chapter focuses on controls on spatial and temporal trends in subsurface CO2 and CH4 production as well as on transport and release of gases from the soil observed in the valley Zackenbergdalen. A dominance of near-surface temperatures controlling both spatial and seasonal trends is shown based on data obtained using closed chamber and eddy-correlation techniques as well as in manipulated field plots and in controlled incubation experiments. Despite variable temperature sensitivities reported, most data can be fairly well fitted to exponential temperature-dependent equations. The water content (at wet sites linked to the depth to the water table) is a second major factor regulating soil respiration processes, but the effect is quite different in contrasting vegetation types. Dry heath sites are shown to be periodically water limited during the growing season and respond therefore with high respiration rates when watered. In contrast, water saturated conditions during most of the growing season in the fen areas hinder the availability of oxygen, resulting in both CO2 and CH4 production. Thus, water table drawdown results in decreasing CH4 effluxes but increasing CO2 effluxes. Additional controls on gas production are shown to be related to the availability of substrate and plant productivity. Subsurface gas production will produce partial and total pressure gradient causing gas transport, which in well-drained soils is mainly controlled by diffusion, whereas gas advection, ... |
| author2 |
Meltofte, Hans Christensen, Torben Elberling, Bo Forchhammer, Mads Rasch, Morten |
| format |
Book Part |
| author |
Elberling, Bo Nordstrøm, Claus Grøndahl, Louise Søgaard, Henrik Friborg, Thomas Christensen, Torben Ström, Lena Marchand, Fleur Nijs, Ivan |
| author_facet |
Elberling, Bo Nordstrøm, Claus Grøndahl, Louise Søgaard, Henrik Friborg, Thomas Christensen, Torben Ström, Lena Marchand, Fleur Nijs, Ivan |
| author_sort |
Elberling, Bo |
| title |
High Arctic soil CO2 and CH4 production controlled by temperature, water, freezing and snow |
| title_short |
High Arctic soil CO2 and CH4 production controlled by temperature, water, freezing and snow |
| title_full |
High Arctic soil CO2 and CH4 production controlled by temperature, water, freezing and snow |
| title_fullStr |
High Arctic soil CO2 and CH4 production controlled by temperature, water, freezing and snow |
| title_full_unstemmed |
High Arctic soil CO2 and CH4 production controlled by temperature, water, freezing and snow |
| title_sort |
high arctic soil co2 and ch4 production controlled by temperature, water, freezing and snow |
| publisher |
Elsevier |
| publishDate |
2008 |
| url |
https://lup.lub.lu.se/record/712900 https://doi.org/10.1016/S0065-2504(07)00019-0 |
| geographic |
Arctic |
| geographic_facet |
Arctic |
| genre |
Arctic |
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Arctic |
| op_source |
40, pp 441-472 (2008) ISSN: 0065-2504 |
| op_relation |
https://lup.lub.lu.se/record/712900 http://dx.doi.org/10.1016/S0065-2504(07)00019-0 ISBN: 9780123736659 wos:000256528000019 scopus:41349090798 |
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https://doi.org/10.1016/S0065-2504(07)00019-0 |
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441 |
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472 |
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