Vol. 26, issue 12, article # 12

Krasnov O. A., Maksutov Shamil. Shamil., Glagolev M. V., Kataev M. Yu., Inoue Gen., Nadeev A. I., Shelevoi V. D. Automated complex “Flux-NIES” for measurement of methane and carbon dioxide fluxes. // Optika Atmosfery i Okeana. 2013. V. 26. No. 12. P. 1090–1097 [in Russian].
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Abstract:

The static chambers method and an automatic sampling and analyses system «Flux-NIES» for measuring methane and carbon dioxide fluxes from soil to atmosphere are described. Analytic system uses semiconductor sensor for methane and NDIR for carbon dioxide. System was installed and worked since 1997 to the present time near Plotnikovo settlement (Vasyugan bog) (56-51.29´ N, 82-50.91´ E) of Tomsk region. The technical detail of system and calculation method are represented.

Keywords:

greenhouse gases, atmospheric methane, atmospheric carbon dioxide, ground–atmosphere gas-exchange; automated complex for flux measurement

References:

1. Anohin G.G., Antohin P.N., Arshinov M.Ju., Barsuk V.E., Belan B.D., Belan S.B., Davydov D.K., Ivlev G.A., Kozlov A.V., Kozlov V.S., Morozov M.V., Panchenko M.V., Penner I.Je., Pestunov D.A., Sikov G.P., Simonenkov D.V., Sinicyn D.S., Tolmachev G.N., Filippov D.V., Fofonov A.V., Chernov D.G., Shamanaev V.S., Shmargunov V.P. Samolet-laboratorija TU-134 «Optik» // Optika atmosf. i okeana. 2011. Т. 24, № 9. С. 805–816.
2. Arshinov M.Ju., Belan B.D., Davydov D.K., Krekov G.M., Fofonov A.V., Babchenko S.V., Inoue G., Machida T., Maksyutov Sh., Sasakawa M., Shimoyama K. Dinamika vertikal'nogo raspredelenija parnikovyh gazov v atmosfere // Optika atmosf. i okeana. 2012. V. 25, N 12. P. 1051–1061.
3. Matthews E., Fung I. Methane emission from natural wetlands: global distribution, area, and environmental characteristics of sources // Global Biogeochem. Cycles. 1987. V. 1. P. 61–86.
4. Alm J., Talanov A., Saarnio S., Silvola J., Ikkonen E., Aaltonen H., Nykänen H., Martikainen P.J. Reconstruction of the carbon balance for microsites in a boreal oligotrophic pine fen, Finland // Oecologia. 1997. V. 110, N 3. P. 423–431. DOI: 10.1007/s004420050177.
5. Glagolev M.V., Golovatskaya E.A., Shnyrev N.A. Green-house Gas Emission in West Siberia // Contemporary problems of Ecology. 2008. V. 1, N 1. P. 136–146.
6. Chen H., Wu N., Gao Y., Wang Y., Luo P., Tian J. Spatial variations on methane emissions from Zoige alpine wetlands of Southwest China // Sci. Total Environ. 2009. V. 407. P. 1097–1104.
7. Fan S.M., Wofsy S.C., Bakwin P.S., Jacob D.J., Anderson S.M., Kebabian P.L., McManus J.B., Kolb C.E. Micrometeorological Measurements of CH4 and CO2 Exchange between the Atmosphere and Subarctic Tundra // J. Geophys. Res. D. 1992. V. 97, N 15. P. 16627–16643.
8. Friborg T., Christensen T.R., Hansen B.U., Norstroem C., Soegaard H. Trace gas exchange in a high-arctic valley: 2. Landscape CH4 fluxes measured and modeled using eddy correlation data // Global Biogeochem. Cycles. 2000. V. 14, N 3. P. 715–723.
9. Nozhevnikova A., Glagolev M., Nekrasova V., Einola J., Sormunen K., Rintala J. The analysis of methods for measurement of methane oxidation in landfills // Water Sci. Technol. 2003. V. 48, iss. 4. P. 45–52.
10. Archibald S.A., Kirton A., van der Merwe M.R., Scholes R.J., Williams C.A., Hanan N. Drivers of inter-annual variability in Net Ecosystem Exchange in a semiarid savanna ecosystem, South Africa // Biogeosciences. 2009. V. 6. P. 251–266. URL: http://www.biogeosciences. net/6/251/2009/bg-6-251-2009.pdf (дата обращения: 19.12.2010).
11. Dеsуаtkоv В.М., Воrоdulin A.I., Kоtlуаrоvа S.S. Determination of Flow of Aerosol Particles Flow, Emitted from Underlying Surface, bу Solving Inverse Problem of their Dispersion in the Atmosphere // Atmos. Ocean. Opt. 1997. V. 10, N 6. P. 639–644.
12. Bergamaschi P., Frankenberg C., Meirink J.F., Krol M., Dentener F., Wagner T., Platt U., Kaplan J.O., Körner S., Heimann M., Dlugokencky E.J., Goede A. Satellite chartography of atmospheric methane from SCIAMACHY on board ENVISAT: 2. Evaluation based on inverse model simulations // J. Geophys. Res. 2007. V. 112, D02304, DOI: 10.1029/2006D007268.
13. Glagolev M.V. K metodu «obratnoj zadachi» dlja opredelenija poverhnostnoj plotnosti potoka gaza iz pochvy // Dinamika okruzhajushhej sredy i global'nye izmenenija klimata. 2010. V. 1, N 1. P. 17–36. URL: http://www.ugrasu.ru/uploads/files/Glagolev%20(1).pdf (data obrashhenija: 30.07.2010).
14. Kim H.-S., Maksyutov S., Glagolev M.V., Machida T., Patra P.K., Sudo K., Inoue G. Evaluation of methane emissions from West Siberian wetlands based on inverse modeling // Environ. Res. Lett. 2011. V. 6, N 3. 035201. DOI: 10.1088/1748–9326/6/3/035201.
15. Nakano T., Sawamoto T., Morishita T., Inoue G., Hatano R. A comparison of regression methods for estimating soil-atmosphere diffusion gas fluxes by a closed-chamber technique // Soil Biol. Biochem. 2004. V. 36. P. 107–113.
16. Schütz H., Holzapfel-Pschorn A., Conrad R., Rennenberg H., Seiler W. A 3-Year Continuous Record on the Influence of Daytime, Season, and Fertilizer Treatment on Methane Emission Rates from an Italian Rice Paddy // J. Geophys. Res. 1989. N 94. P. 16405–16416.
17. Marik T., Fischer H., Conen F., Smith K. Seasonal variations in stable carbon and hydrogen isotope ratios in methane from rice fields // Global Biogeochem. Cycles. 2002. V. 16, N 4. 1094.
18. Butterbach-Bahl K., Kock M., Willibald G., Hewett B., Buhagiar S., Papen H., Kiese R. Temporal variations of fluxes of NO, NO2, N2O, CO2, and CH4 in a tropical rain forest ecosystem // Global Biogeochem. Cycles. 2004. V. 18. GB3012.
19. Graf A., Weihermüller L., Huisman J.A., Herbst M., Bauer J., Vereecken H. Measurement depth effects on the apparent temperature sensitivity of soil respiration in field studies // Biogeosciences. 2008. V. 5, N 4. P. 1175–1188. URL: http://www.biogeosciences.net/ 5/1175/2008/bg-5-1175-2008.pdf
20. Inoue G., Takahashi Y., Maksyutov S., Sorokin M., Pani-kov N. Methane Emission Rate from the Wetland in West Siberia and Its Controlling Factors // Proc. Fifth Sympos. on the Joint Siberian Permafrost Studies between Japan and Russia in 1996. Tsukuba: Isebu, 1997. P. 34–39.
21. Nakano T., Fukuda M., Utsumi M., Inoue G. Measurements of Methane Flux at a Burnt Forest in West Siberia: Preliminary Results // Proc. Eighth Sympos. on the Joint Siberian Permafrost Studies between Japan and Russia in 1999. Tsukuba: Isebu, 2000. P. 160–164.
Nakano T., Inoue G. Development of an Automatic System for the Field Measurement of Methane Flux // Proc. Fifth Sympos. on the Joint Siberian Permafrost Studies between Japan and Russia in 1996. Tsukuba: Isebu, 1997. P. 45–49.
22. Nakano T., Inoue G., Maksyutov S., Sorokin M. Auto-matic Measurements of Methane Flux in West Siberian Wetlands in 1997 Summer // Proc. Sixth Sympos. on the Joint Siberian Permafrost Studies between Japan and Russia in 1997. Tsukuba: Isebu, 1998. P. 211–215.
23. Sorokin M., Maksyutov S., Inoue G., Nakano T. Fully Methane Flux Measurements System by a Static Chamber Method // Proc. Sixth Sympos. on the Joint Siberian Permafrost Studies between Japan and Russia in 1997. Tsukuba: Isebu, 1998. P. 207–210.
24. Maksyutov S., Inoue G., Sorokin M., Nakano T., Krasnov O., Kosykh N., Mironycheva-Tokareva N., Vasiliev S. Methane fluxes from wetland in West Siberia during April–October 1998 // Proc. Seventh Sympos. on the Joint Siberian Permafrost Studies between Japan and Russia in 1998. Tsukuba: Isebu, 1999. P. 115–124.
25. Krasnov O., Maksyutov S., Shimoyama K., Suto H., Nadeev A., Shelevoi V., Glagolev M., Kosykh N., Ma-chida T., Inoue G. Automatic chamber observations of methane and carbon dioxide fluxes at West Siberian wetland // American Geophysical Union, Fall Meeting 2010. 2010. Abstract #GC33A-0921. URL: http://adsabs. harvard.edu/abs/2010AGUFMGC33A0921K (дата обращения: 03.01.2011).
26. Suto H., Inoue G. A New Portable Instrument for In Situ Measurement of Atmospheric Methane Mole Fraction by Applying an Improved Tin Dioxide–Based Gas Sensor // J. Atmos. Ocean. Technol. 2010. V. 27. P. 1175–1184.
27. Miroshnik I.V. Teorija avtomaticheskogo upravlenija: Linejnye sistemy. SPb.: PITER, 2005. 337 p.