Halving of the northern wetland CH 4 source by a large Icelandic volcanic eruption
Northern temperate and high-latitude wetlands are a major source of the greenhouse gas methane (CH 4 ). Here, we estimate the sensitivity in the strength of this source to the effects of large Icelandic volcanic eruptions such as the Laki eruption of 1783-1784. We applied spatially explicit modeled...
| Published in: | Journal of Geophysical Research |
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| Main Authors: | , , , |
| Format: | Article in Journal/Newspaper |
| Language: | unknown |
| Published: |
2008
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| Subjects: | |
| Online Access: | https://oro.open.ac.uk/25569/ https://oro.open.ac.uk/25569/1/d78193.pdf https://doi.org/10.1029/2007JG000499 |
| Summary: | Northern temperate and high-latitude wetlands are a major source of the greenhouse gas methane (CH 4 ). Here, we estimate the sensitivity in the strength of this source to the effects of large Icelandic volcanic eruptions such as the Laki eruption of 1783-1784. We applied spatially explicit modeled sulfate aerosol and S deposition fields from a Laki eruption simulation to a climate-sensitive model of CH 4 emissions from wetlands. We estimate that the combined influence on climate and S deposition from the Laki eruption halved the output of CH 4 from wetlands north of 30°N for the first 12 months following the eruption. The largest short-term component responsible for the CH 4 suppression is the aerosol-influenced surface cooling, although the effect of large-scale S deposition on CH 4 emissions provides a longer-term suppressive effect on emissions. Together, we estimate this combination of processes to result in an annual suppression of ~20 Tg CH 4 in the year of the eruption and two subsequent years. Further, the impact of the eruption on atmospheric CH 4 concentration extends beyond the likely duration of suppressed emission. The modeled effect of this large Icelandic eruption is consistent with ice core records of atmospheric CH 4 concentrations at the time and is equivalent, in size, to the current estimated suppressive effect of industrially derived S pollution on the global wetland CH 4 source. |
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