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Field-Layer Vegetation and Water Table Level as a Proxy of CO 2 Exchange in the West Siberian Boreal Bog

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  • Danil V. Ilyasov

    (Laboratory of Ecosystem Geoinformatics, Yugra State University, 628012 Khanty-Mansiysk, Russia)

  • Anastasia V. Meshcheryakova

    (Laboratory of Ecosystem Geoinformatics, Yugra State University, 628012 Khanty-Mansiysk, Russia)

  • Mikhail V. Glagolev

    (Laboratory of Ecosystem-Atmosphere Interactions of the Mire-Forest Landscapes, Yugra State University, 628012 Khanty-Mansiysk, Russia
    Faculty of Soil Science, Lomonosov Moscow State University, 119991 Moscow, Russia)

  • Iuliia V. Kupriianova

    (Laboratory of Ecosystem Geoinformatics, Yugra State University, 628012 Khanty-Mansiysk, Russia)

  • Alexandr A. Kaverin

    (Laboratory of Ecosystem Geoinformatics, Yugra State University, 628012 Khanty-Mansiysk, Russia)

  • Alexandr F. Sabrekov

    (Laboratory of Ecosystem Geoinformatics, Yugra State University, 628012 Khanty-Mansiysk, Russia)

  • Mikhail F. Kulyabin

    (Laboratory of Ecosystem-Atmosphere Interactions of the Mire-Forest Landscapes, Yugra State University, 628012 Khanty-Mansiysk, Russia)

  • Elena D. Lapshina

    (Laboratory of Ecosystem-Atmosphere Interactions of the Mire-Forest Landscapes, Yugra State University, 628012 Khanty-Mansiysk, Russia)

Abstract

The Mukhrino field station has participated in the national project on the inventory of carbon fluxes and pools in the terrestrial ecosystems of Russia since 2022. The development of a network of measurements of CO 2 fluxes and phytomass covered six types of bog ecosystems typical to Western Siberia. The gross ecosystem exchange (GEE) of the field-layer vegetation (medians for the period from the end of May to the end of July, mgC m −2 h −1 ; see errors in Results section) decreased in series: Sphagnum bog with sparse low pine trees (“Open bog”), ridges in ridge-hollow patterned bogs (“Ridge”), pine-dwarf shrub- Sphagnum bog (“Tall ryam”), hollows in patterned bogs (“S.hollow”, “E.hollow”) and pine-dwarf shrub- Sphagnum bog (“Ryam”): −220, −200, −125, −120, −109 and −86, respectively. Ecosystem respiration (R eco ) here was 106, 106, 182, 55, 97 and 136. The aboveground and belowground phytomass of mosses in this series varied between 368 ± 106–472 ± 184 and 2484 ± 517–6041 ± 2079 g/m 2 , respectively: the aboveground phytomass of vascular plants and plant litter—15 ± 7–128 ± 95 and 10 ± 6–128 ± 43, respectively. According to the results of mathematical modeling, the best proxy for GEE, in addition to photosynthetically active radiation and soil surface temperature, was the aboveground phytomass of vascular plants (Ph V ), and for R eco —Ph V and the mass of the plant litter of vascular plants.

Suggested Citation

  • Danil V. Ilyasov & Anastasia V. Meshcheryakova & Mikhail V. Glagolev & Iuliia V. Kupriianova & Alexandr A. Kaverin & Alexandr F. Sabrekov & Mikhail F. Kulyabin & Elena D. Lapshina, 2023. "Field-Layer Vegetation and Water Table Level as a Proxy of CO 2 Exchange in the West Siberian Boreal Bog," Land, MDPI, vol. 12(3), pages 1-21, February.
    • Handle: RePEc:gam:jlands:v:12:y:2023:i:3:p:566-:d:1080876
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    References listed on IDEAS

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    1. Egor Dyukarev & Evgeny Zarov & Pavel Alekseychik & Jelmer Nijp & Nina Filippova & Ivan Mammarella & Ilya Filippov & Wladimir Bleuten & Vitaly Khoroshavin & Galina Ganasevich & Anastasiya Meshcheryakov, 2021. "The Multiscale Monitoring of Peatland Ecosystem Carbon Cycling in the Middle Taiga Zone of Western Siberia: The Mukhrino Bog Case Study," Land, MDPI, vol. 10(8), pages 1-26, August.
    2. Laine, Anna & Riutta, Terhi & Juutinen, Sari & Väliranta, Minna & Tuittila, Eeva-Stiina, 2009. "Acknowledging the spatial heterogeneity in modelling/reconstructing carbon dioxide exchange in a northern aapa mire," Ecological Modelling, Elsevier, vol. 220(20), pages 2646-2655.
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