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Methane emissions from boreal and tropical forest ecosystems derived from in-situ measurements
Abstract. Methane is a climatologically important greenhouse gas, which plays a key role in regulating water vapour in the stratosphere and hydroxyl radicals in the troposphere. Recent findings that vegetation emits methane have stimulated efforts to ascertain the impact of this source on the global budget. In this work, we present the results of high frequency (ca. 1 min−1) methane measurements conducted in the boreal forests of Finland and the tropical forests of Suriname, in April–May, 2005 and October 2005 respectively. The measurements were performed using a gas chromatograph – flame ionization detector (GC-FID). The average of the median mixing ratios during a typical diel cycle were 1.83 μmol mol−1 and 1.74 μmol mol−1 for the boreal forest ecosystem and tropical forest ecosystem respectively, with remarkable similarity in the time series of both the boreal and tropical diel profiles. Night time methane emission flux of the boreal forest ecosystem, calculated from the increase of methane during the night and measured nocturnal boundary layer heights yields a flux of (3.62±0.87)×1011 molecules cm−2 s−1(or 45.5±11 Tg CH4 yr−1 for global boreal forest area). This is a source contribution of circa 8% of the global methane budget. These results highlight the importance of the boreal and tropical forest ecosystems for the global budget of methane. The results are also discussed in the context of recent work reporting high methane mixing ratios over tropical forests using space borne near infra-red spectroscopy measurements.
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RC S5689: 'Referee comment', Anonymous Referee #2, 04 Oct 2007
- SC S6286: 'Reply to Reviewer 2', Vinayak Sinha, 23 Oct 2007
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SC S5892: 'comment', Peter Bergamaschi, 11 Oct 2007
- SC S6296: 'Reply', Vinayak Sinha, 23 Oct 2007
- SC S6468: 'Reply - Technical error while posting', Vinayak Sinha, 31 Oct 2007
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RC S5938: 'Review of Sinha et al.', Anonymous Referee #1, 12 Oct 2007
- SC S6299: 'Reply to Reviewer 1', Vinayak Sinha, 23 Oct 2007
- AC S7701: 'Author comment - summary', Jonathan Williams, 18 Dec 2007
-
RC S5689: 'Referee comment', Anonymous Referee #2, 04 Oct 2007
- SC S6286: 'Reply to Reviewer 2', Vinayak Sinha, 23 Oct 2007
-
SC S5892: 'comment', Peter Bergamaschi, 11 Oct 2007
- SC S6296: 'Reply', Vinayak Sinha, 23 Oct 2007
- SC S6468: 'Reply - Technical error while posting', Vinayak Sinha, 31 Oct 2007
-
RC S5938: 'Review of Sinha et al.', Anonymous Referee #1, 12 Oct 2007
- SC S6299: 'Reply to Reviewer 1', Vinayak Sinha, 23 Oct 2007
- AC S7701: 'Author comment - summary', Jonathan Williams, 18 Dec 2007
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Cited
16 citations as recorded by crossref.
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- Physical injury stimulates aerobic methane emissions from terrestrial plants Z. Wang et al. 10.5194/bg-6-615-2009
- Methoxyl groups of plant pectin as a precursor of atmospheric methane: evidence from deuterium labelling studies F. Keppler et al. 10.1111/j.1469-8137.2008.02411.x
- Controls on the Carbon Balance of Tropical Peatlands T. Hirano et al. 10.1007/s10021-008-9209-1
- Global change effects on humid tropical forests: Evidence for biogeochemical and biodiversity shifts at an ecosystem scale D. Cusack et al. 10.1002/2015RG000510
- Anaerobic Eury- and Crenarchaeota inhabit ectomycorrhizas of boreal forest Scots pine M. Bomberg et al. 10.1016/j.ejsobi.2010.09.002