Статья 'Соотношение содержания углерода, азота и значения δ13С в полигональных ландшафтах на побережье залива Онемен, Чукотка' - журнал 'Арктика и Антарктика' - NotaBene.ru
по
Journal Menu
> Issues > Rubrics > About journal > Authors > About the Journal > Requirements for publication > Peer-review process > Article retraction > Ethics > Online First Pre-Publication > Copyright & Licensing Policy > Digital archiving policy > Open Access Policy > Open access publishing costs > Article Identification Policy > Plagiarism check policy > Editorial Board > Council of Editors
Journals in science databases
About the Journal
Публикация за 72 часа - теперь это реальность!
При необходимости издательство предоставляет авторам услугу сверхсрочной полноценной публикации. Уже через 72 часа статья появляется в числе опубликованных на сайте издательства с DOI и номерами страниц.
По первому требованию предоставляем все подтверждающие публикацию документы!
MAIN PAGE > Back to contents
Arctic and Antarctica
Reference:

Carbon and nitrogen ratio and δ13С values ​​in polygonal landscapes on the coast of the Gulf of Oneman, Chukotka

Vasil'chuk Alla Constantinovna

Doctor of Geography

Leading Scientific Associate, M. V. Lomonosov Moscow State University

119991, Russia, g. Moscow, Leninskie Gory, GSP-1, 1,, geograficheskii fakul'tet, NIL geoekologii Severa

alla-vasilch@yandex.ru
Другие публикации этого автора
 

 
Budantseva Nadine Arkad'evna

PhD in Geography

Senior Scientific Associate, the department of Geochemistry of Landscapes and Geography of Soils, M. V. Lomonosov Moscow State University

119991, Russia, g. Moscow, ul. Leninsky Gory, 1, of. 2007

nadin.budanceva@mail.ru
Vasil'chuk Yurii Kirillovich

Doctor of Geology and Mineralogy

Professor, the department of Geochemistry of Landscapes and Geography of Soils, M. V. Lomonosov Moscow State University

119991, Russia, g. Moscow, ul. Leninsky Gory, 1, of. 2009

vasilch_geo@mail.ru
Vasil'chuk Jessica Yur'evna

Postgraduate student, the department of Geochemistry of Landscapes and Geography of Soils, M. V. Lomonosov Moscow State University

119991, Russia, g. Moscow, ul. Leninsky Gory, 1, of. 2007

jessica.vasilchuk@gmail.com
Bludushkina Lyubov' Bakhtiyarovna

Engineer, the department of Geochemistry of Landscapes and Geography of Soils, M. V. Lomonosov Moscow State University

119991, Russia, g. Moscow, ul. Leninsky Gory, 1, of. 2007

bludushkina19@mail.ru

DOI:

10.7256/2453-8922.2021.1.33291

Review date:

22-06-2020


Publish date:

13-04-2021


Abstract: The subject of the study is the analysis of the ratio of carbon (C) and nitrogen(N) and δ13C values in polygonal landscapes on the coast of Onemen Bay, near the Anadyr city. The maximum values of carbon (59.09%) and nitrogen (2.18%) in peatlands were obtained at a depth of 1.1 m in a narrow peat vein. The values of δ13C in the peatlands on the coast of Onemen Bay vary from -24.1% to -28.6%, the N content varies from 0.37% to 3.24%, the C content varies from 3.1% to 59.09%, the C/N value varies from 8.3 to 34.4.The values of δ13C and C/N values in the 1.5-m peat correspond to C3 plants, the values of δ13C and C/N values for a 2.5–m peat suggest the presence of algae along with plants C3. Fluctuations in the nitrogen and organic carbon content in the section of a 1.5-meter peatland to a depth of 0.8 m are synchronous, which suggests an autochthonous mechanism of peat accumulation, below depth of 0.8-1.2 m, there is a lightening of the carbon isotope composition, which suggests the participation of reworked organic matter in the beginning of peat accumulation. Fluctuations in the nitrogen and organic carbon content in the section of a 2.5-meter peat bog are synchronous, which suggests an autochthonous mechanism of peat accumulation.


Keywords: marine floodplain, carbon isotopes, nitrogen, peat, carbon, Onemen Bay, polygonal kandscapes, ice wedge, Anadyr, Chukchi Peninsula
This article written in Russian. You can find full text of article in Russian here .

References
1.
Shaver G.R. & Chapin F.S., III. Response to Fertilization by Various Plant Growth Forms in an Alaskan Tundra: Nutrient Accumulation and Growth // Ecology 1980. Vol. 61. P. 662-675, 10.2307/1937432.
2.
Chapin F.S., Shaver G.R., Giblin A.E., Nadelhoffer K.J. & Laundre J.A. Responses of Arctic Tundra to Experimental and Observed Changes in Climate // Ecology 1995. Vol. 76. P. 694-711, doi:10.2307/1939337.
3.
Beermann, F., A. Teltewskoi, C. Fiencke, E.-M. Pfeiffer,L. Kutzbach. Stoichiometric analysis of nutrient availability (N, P, K) within soils of polygonal tundra // Biogeochemistry 2015. Vol. 122. P.211–227. doi:10.1007/s10533-014-0037-4.
4.
Elberling, B., Michelsen, A., Schädel, C., Schuur, E. A. G., Christiansen, H. H., Berg, L., Tamstorf, M. P., Sigsgaard, C.: Long-term CO2 production following permafrost thaw // Nature Climate Change, 2013. Vol. 3. P. 890–894, doi:10.1038/nclimate1955,
5.
Hugelius, G., Routh, J., Kuhry, P., Crill, P.: Mapping the degree of decomposition and thaw remobilization potential of soil organic matter in discontinuous permafrost terrain // J. Geophys. Res.-Biogeo., 2012. Vol. 117, G02030, doi:10.1029/2011JG001873.
6.
Salmon, V. G., Soucy, P., Mauritz, M., Celis, G., Natali, S. M., Mack, M. C., & Schuur, E. A. G. Nitrogen availability increases in a tundra ecosystem during five years of experimental permafrost thaw // Global Change Biology, 2016. Vol. 22(5). P. 1927–1941. doi: 10.1111/ gcb.13204.
7.
Schädel, C., Schuur, E. A. G., Bracho, R., Elberling, B., Knoblauch, C., Lee, H., Luo, Y., Shaver, G. R., and Turetsky, M. R.: Circumpolar assessment of permafrost C quality and its vulnerability over time using long-term incubation data // Glob. Chang. Biol., 2014. Vol. 20. P. 641–652, doi:10.1111/gcb.12417.
8.
Weiss, N., Blok, D., Elberling, B., Hugelius, G., Jørgensen, C. J., Siewert, M. B., and Kuhry, P. Thermokarst dynamics and soil organic matter characteristics controlling initial carbon release from permafrost soils in the Siberian Yedoma region // Sediment. Geol., 2015. Vol. 340. P. 38–48, https://doi.org/10.1016/j.sedgeo. 12.004,
9.
Kuhry, P., Bárta, J., Blok, D., Elberling, B., Faucherre, S., Hugelius, G., Jørgensen, C. J., Richter, A., Šantrucková, H., and Weiss, N. Lability classification of soil organic matter in the northern permafrost region, Biogeosciences, 2020. Vol. 17. P. 361–379. doi: 10.5194/bg-17-361-2020.
10.
Gorodkov B.N. Proiskhozhdenie arkticheskikh pustyn' i tundr // Trudy Botanicheskogo instituta im. Komarova, ser. 3 «Geobotanika». 1952. Vyp.8. S. 355-403.
11.
https://novomariinsk.ru/gorod/klimat data obrashcheniya 28.03.2021
12.
http://www.pogodaiklimat.ru/climate/25563.htm data obrashcheniya 30.03.2021
13.
Belikovich A.V. Rastitel'nyi pokrov severnoi chasti Koryakskogo nagor'ya. Vladivostok: Dal'nauka, 2001. 420 s.
14.
Yurtsev B. A. Botaniko-geograficheskaya kharakteristika Yuzhnoi Chukotki // Komarovskne chteniya 1977 g.. Vladivostok, 1978. Vyp. 26. S. 3—62.
15.
Budantseva N.A., Vasil'chuk Yu.K. Gidrokhimicheskii sostav golotsenovykh povtorno-zhil'nykh l'dov u goroda Anadyr' // Arktika i Antarktika. 2020 № 4. S. 32—50. doi: 10.7256/2453-8922.2020.4.34659.
16.
Budantseva N.A., Vasil'chuk Yu.K. Rekonstruktsiya zimnei temperatury vozdukha v golotsene po stabil'nym izotopam iz ledyanykh zhil v raione goroda Anadyr' // Led i sneg. 2019. Tom 59. №1. S. 93–102. doi: 10.15356/2076-6734-2019-1-93-102.(Budantseva N.A., Vasil'chuk Yu.K. 2019. Winter air temperature in Holocene reconstructed from the ice wedges near Anadyr’ town. Ice and Snow. 2019. Vol. 59 (1), p. 93–102. doi: 10.15356/2076-6734-2019-1-93-102).
17.
Wagner D., Gattinger A., Embacher A., Pfeiffer E.-M., Schloter M., Lipski A. Methanogenic activity and biomass in Holocene permafrost deposits of the Lena Delta, Siberian Arctic and its implication for the global methane budget // Global Change Biology. 2007. Vol. 13. P. 1089–1099. doi: 10.1111/j.1365-2486.2007.01331.x.
18.
Fuchs M., Grosse G., Strauss J., Günther F., Grigoriev M., Maximov G.M., Hugelius G. Carbon and nitrogen pools in thermokarst-affected permafrost landscapes in Arctic Siberia // Biogeosciences. 2018. Vol. 15. P. 953–971, doi: 10.5194/bg-15-953-2018.
19.
Strauss, J., Schirrmeister, L., Mangelsdorf, K., Eichhorn, L., Wetterich, S., and Herzschuh, U.: Organic-matter quality of deep permafrost carbon – a study from Arctic Siberia, Biogeosciences, 2015. Vol. 12. P. 2227–2245, doi: 10.5194/bg-12-2227-2015.
20.
Zubrzycki, S., Kutzbach, L., Grosse, G., Desyatkin, A., and Pfeiffer, E.-M.: Organic carbon and total nitrogen stocks in soils of the Lena River Delta, Biogeosciences. 2013. Vol. 10. P. 3507–3524. doi: 10.5194/bg-10-3507-2013.
21.
Schirrmeister L., Bobrov A., Raschke E., Herzschuh U., Strauss J., Pestryakova LA, Wetterich S. Late Holocene ice-wedge polygon dynamics in northeastern Siberian coastal lowlands // Arctic, Antarctic, and Alpine Research. 2018. Vol. 50(1), e1462595. doi:10.1080/15230430.2018.1462595.
22.
Wetterich S., Schirrmeister L., Nazarova L.B., et al. Holocene thermokarst and pingo development in the Kolyma Lowland (NE Siberia) // Permafrost and Periglacial Processes. 2018. Vol. 29. P.182-198. doi: 10.1002/ppp.1979.
23.
Baumer, M. M., Wagner, B., Meyer, H., Leicher, N., Lenz, M., Fedorov, G., Pestryakova, L. A. & Melles, M. Climatic and environmental changes in the Yana Highlands of north-eastern Siberia over the last c. 57 000 years, derived from a sediment core from Lake Emanda. Boreas. 2021. Vol. 50. P. 114–133. doi: 10.1111/bor.12476. ISSN 0300-9483.
24.
Schwamborn, G., Manthey, C., Diekmann, B. et al. Late Quaternary sedimentation dynamics in the Beenchime-Salaatinsky Crater, Northern Yakutia. Arktos. 2020. Vol. 6. P. 75–92. doi: 10.1007/s41063-020-00077-w.
25.
Fritz, M., Wolter J., Rudaya N., Palagushkina O., Nazarova L., Obu J., Rethemeyer J., Lantuit H., Wetterich S., Holocene ice-wedge polygon development in northern Yukon permafrost peatlands (Canada) // Quaternary Science Reviews. 2016. Vol. 147. P. 279–297. doi: 10.1016/j.quascirev.2016.02.008.
26.
Wolter J, Lantuit H, Wetterich S, Rethemeyer J, Fritz M. Climatic, geomorphologic and hydrologic perturbations as drivers for mid‐ to late Holocene development of ice‐wedge polygons in the western Canadian Arctic // Permafrost and Periglac Process. 2018. Vol. 29. P. 164–181. doi: 10.1002/ppp.1977.
27.
Wolter J. Mid- to Late Holocene environmental dynamics on the Yukon Coastal Plain and Herschel Island (Canada) – evidence from polygonal peatlands and lake sediment / Dissertation zur Erlangung des akademischen Grades "doctor rerum naturalium" (Dr. rer. nat.) in der Wissenschaftsdisziplin "Paläoökologie" eingereicht in Form einer kumulativen Arbeit an der Mathematisch-Naturwissenschaftlichen Fakultät der Universität Potsdam Potsdam, den 21.06.2016
28.
Nikitin D. A., Lysak L. V., Mergelov N. S., Dolgikh A. V, Zazovskaya E. P., Goryachkin S. V. Mikrobnaya biomassa, zapasy ugleroda i emissiya SO2 v pochvakh Zemli Frantsa-Iosifa: vysokoarkticheskie tundry ili polyarnye pustyni? // Pochvovedenie, 2020. № 4. S. 444–462.
Link to this article

You can simply select and copy link from below text field.


Other our sites:
Official Website of NOTA BENE / Aurora Group s.r.o.
"History Illustrated" Website