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Title: Detectability of Arctic methane sources at six sites performing continuous atmospheric measurements

Journal Article · · Atmospheric Chemistry and Physics (Online)
 [1];  [1];  [1]; ORCiD logo [1];  [2];  [3]; ORCiD logo [4]; ORCiD logo [4]; ORCiD logo [5];  [6];  [7];  [8];  [9];  [9];  [10]
  1. Univ. Paris-Saclay, Gif-sur-Yvette (France)
  2. Pacific Northwest National Lab. (PNNL), Richland, WA (United States)
  3. Purdue Univ., West Lafayette, IN (United States)
  4. Dept. of Geological Sciences and Bolin Centre for Climate Research, Stockholm (Sweden)
  5. Linkoping Univ., Linkoping (Sweden)
  6. NOAA Earth System Research Lab., Boulder, CO (United States)
  7. Northeast Science Station, Cherskiy (Russia)
  8. Finnish Meteorological Institute, Helsinki (Finland)
  9. NILU-Norwegian Institute for Air Research, Kjeller (Norway)
  10. Environment Canada, Toronto, ON (Canada)
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Understanding the recent evolution of methane emissions in the Arctic is necessary to interpret the global methane cycle. Emissions are affected by significant uncertainties and are sensitive to climate change, leading to potential feedbacks. A polar version of the CHIMERE chemistry-transport model is used to simulate the evolution of tropospheric methane in the Arctic during 2012, including all known regional anthropogenic and natural sources, in particular freshwater emissions which are often overlooked in methane modelling. CHIMERE simulations are compared to atmospheric continuous observations at six measurement sites in the Arctic region. In winter, the Arctic is dominated by anthropogenic emissions; emissions from continental seepages and oceans, including from the East Siberian Arctic Shelf, can contribute significantly in more limited areas. In summer, emissions from wetland and freshwater sources dominate across the whole region. The model is able to reproduce the seasonality and synoptic variations of methane measured at the different sites. We find that all methane sources significantly affect the measurements at all stations at least at the synoptic scale, except for biomass burning. In particular, freshwater systems play a decisive part in summer, representing on average between 11 and 26 % of the simulated Arctic methane signal at the sites. This indicates the relevance of continuous observations to gain a mechanistic understanding of Arctic methane sources. Sensitivity tests reveal that the choice of the land-surface model used to prescribe wetland emissions can be critical in correctly representing methane mixing ratios. The closest agreement with the observations is reached when using the two wetland models which have emissions peaking in August–September, while all others reach their maximum in June–July. Such phasing provides an interesting constraint on wetland models which still have large uncertainties at present. Also testing different freshwater emission inventories leads to large differences in modelled methane. Attempts to include methane sinks (OH oxidation and soil uptake) reduced the model bias relative to observed atmospheric methane. Here, the study illustrates how multiple sources, having different spatiotemporal dynamics and magnitudes, jointly influence the overall Arctic methane budget, and highlights ways towards further improved assessments.

Research Organization:
Pacific Northwest National Laboratory (PNNL), Richland, WA (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
AC05-76RL01830
OSTI ID:
1398216
Report Number(s):
PNNL-SA-128395
Journal Information:
Atmospheric Chemistry and Physics (Online), Vol. 17, Issue 13; ISSN 1680-7324
Publisher:
European Geosciences UnionCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 17 works
Citation information provided by
Web of Science

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Continuous measurements of methane from a tower network over Siberia journal November 2010
Natural and anthropogenic methane fluxes in Eurasia: a meso-scale quantification by generalized atmospheric inversion journal January 2014
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Inverse modelling of CH4 emissions for 2010-2011 using different satellite retrieval products from GOSAT and SCIAMACHY text January 2015
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The global methane budget 2000--2012 text January 2016

Cited By (10)

Estimation of the atmospheric greenhouse gas spatial distribution in the Arctic using a back trajectory model
  • Poddubny, Vassily; Nagovitsyna, Ekaterina; Antonov, Konstantin
  • Mathematical Methods in the Applied Sciences, Vol. 43, Issue 13 https://doi.org/10.1002/mma.6046
journal November 2019
Methane and Biogenic Volatile Organic Compound Emissions in Eastern Siberia book January 2019
Solar UV radiation in a changing world: roles of cryosphere–land–water–atmosphere interfaces in global biogeochemical cycles journal January 2019
Nongrowing season methane emissions-a significant component of annual emissions across northern ecosystems journal April 2018
Variability and quasi-decadal changes in the methane budget over the period 2000–2012 journal January 2017
Assessment of the theoretical limit in instrumental detectability of northern high-latitude methane sources using δ13CCH4 atmospheric signals journal January 2019
Monthly gridded data product of northern wetland methane emissions based on upscaling eddy covariance observations journal January 2019
Variability and quasi-decadal changes in the methane budget over the period 2000–2012 text January 2017
Monthly gridded data product of northern wetland methane emissions based on upscaling eddy covariance observations text January 2019
Monthly gridded data product of northern wetland methane emissions based on upscaling eddy covariance observations text January 2019

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