Enviar artigo por via de e-mail Carbon accumulation in peatlands of the Mordovian natural reserve during the Holocene
- Autores: Novenko E.Y.1, Mazei N.G.2, Prokushkin A.S.3, Zazovskaya E.P.1, Kupriyanov D.A.1, Shatunov A.E.1, Avdeeva D.A.2
-
Afiliações:
- Institute of Geography, Russian Academy of Sciences
- Lomonosov Moscow State University, Faculty of Geography
- V.N. Sukachev Institute of Forest, Siberian Branch of the Russian Academy of Sciences
- Edição: Volume 523, Nº 1 (2025)
- Páginas: 178-184
- Seção: GEOGRAPHY
- ##submission.dateSubmitted##: 14.10.2025
- ##submission.datePublished##: 15.07.2025
- URL: https://journals.rcsi.science/2686-7397/article/view/327981
- DOI: https://doi.org/10.31857/S2686739725070203
- ID: 327981
Citar
Acesso aberto
Acesso está concedido
Somente assinantes
Resumo
The paper presents the results of the study of the Holocene carbon accumulation in four peatlands of different genesis and landscape position in the area of the P.G. Smidovich Mordovian State Nature Reserve, located on the southern border of the coniferous-broadleaved forests of the East European Plain. The analysis of the carbon content in the peat showed that in mineratrophic peat composed of vascular plant remains the organic carbon content is 46.9–60.9% (average 54.6%) and these values are generally higher than the carbon content in poor fen with woody-Eriophorum-Sphagnum and Eriophorum-Sphagnum peat, 43.6–50.1% (average 47.8%). Low carbon values (39.2%) were found for grass and woody-grass low decomposed peat in wet karst bog. The carbon accumulation rate in peatlands ranges from 5.2 to 84.9 g C/m2 per year, with an average value for the entire Holocene of 22.5 g C/m2 per year. Analysis of the distribution of carbon accumulation rate (CAR) in peat deposits by depth and age revealed similar patterns of carbon deposition in the four peatlands studied: an increase in CAR during the period 10500–7500 cal yr BP (calendar years before present) and a decrease in the intensity of carbon accumulation during the period 7500–3500 cal yr BP, which partly coincides with the Holocene Thermal Maximum, when the climate was warmer and drier than the modern one. The formation of the upper horizons of the peat deposits of the bogs and the carbon accumulation in the late Holocene showed individual specificity of different peatlands, with a general trend of CAR growth.
Palavras-chave
Sobre autores
E. Novenko
Institute of Geography, Russian Academy of Sciences
Email: lenanov@mail.ru
Moscow, Russia
N. Mazei
Lomonosov Moscow State University, Faculty of Geography
Email: natashamazei@mail.ru
Moscow, Russia
A. Prokushkin
V.N. Sukachev Institute of Forest, Siberian Branch of the Russian Academy of Sciences
Email: lenanov@mail.ru
Krasnoyarsk, Russia
E. Zazovskaya
Institute of Geography, Russian Academy of Sciences
Email: lenanov@mail.ru
Moscow, Russia
D. Kupriyanov
Institute of Geography, Russian Academy of Sciences
Email: lenanov@mail.ru
Moscow, Russia
A. Shatunov
Institute of Geography, Russian Academy of Sciences
Email: lenanov@mail.ru
Moscow, Russia
D. Avdeeva
Lomonosov Moscow State University, Faculty of Geography
Email: lenanov@mail.ru
Moscow, Russia
Bibliografia
- Указ Президента Российской Федерации от 08.02.2021 № 76 “О мерах по реализации государственной научно-технической политики в области экологического развития Российской Федерации и климатических изменений” http://publication.pravo.gov.ru/Document/View/0001202102080007 (дата обращения: 15.03.2025).
- Прокушкин А.С., Карпенко Л.В., Токарева И.В., Корец М.А., Покровский О.С. Углерод и азот в болотах северной части Сым-Дубческого междуречья // География и природные ресурсы. 2017. № 2. С. 114–123. https://doi.org/10.21782/GIPR0206-1619-2017-2(114-123)
- Головацкая Е.А., Дюкарев Е.А., Веретенникова Е.Э., Никонова Л.Г., Смирнов С.В. Оценка динамики баланса углерода в болотах южнотаежной подзоны Западной Сибири (Томская область) // Почвы и окружающая среда. 2022. Т. 5. № 4. С. 1–18. https://doi.org/10.31251/pos.v5i4.194
- Borren W., Bleuten W., Lapshina E.D. Holocene peat and carbon accumulation rates in the southern taiga of Western Siberia // Quaternary Research. 2004. № 61. Р. 42–51.
- Beilman D.W., MacDonald G.M., Smith L.C., Reimer P.C. Carbon accumulation in peatlands of West Siberia over the last 2000 years // Global Biogeochemical Cycles. 2009. № 23. Р. 1–12. https://doi.org/10.1029/2007GB003112
- Schulze E.D., Lapshina E., Filippov I., Kuhlmann I., Mollicone D. Carbon dynamics in boreal peatlands of the Yenisei region, western Siberia // Biogeosciences. 2015. № 12. Р. 7057–7070. https://doi.org/10.5194/bg-12-7057-2015
- Инишева Л.И., Кобак К.И., Турчинович И.Е. Развитие процесса заболачивания и скорость аккумуляции углерода в болотных экосистемах России // География и природные ресурсы. 2013. № 3. С. 60–68.
- Гришуткин О.Г. Площадь и территориальное распределение болот в Мордовском государственном природном заповеднике // Труды Мордовского государственного природного заповедника им. П.Г. Смидовича. 2011. Вып. IX. С. 280–281.
- Кац Н.Я., Кац С.В., Скобеева Е.И. Атлас растительных остатков в торфах. М.: Недра, 1977. 376 с.
- Blaauw M., Christen J.A. Flexible paleoclimate age-depth models using an autoregressive gamma process // Bayesian Analysis. 2011. № 6. Р. 457–474.
- Chambers F.M., Beilman D.W., Yu Z. Methods for determining peat humification and for quantifying peat bulk density, organic matter and carbon content for palaeostudies of climate and peatland carbon dynamics // Mires and Peat. 2010. № 07. Р. 1–10.
- Vitt D.H., Halsey L.A., Bauer I.E., Campbell C. Spatial and temporal trends in carbon storage of peatlands of continental western Canada through the Holocene // Canadian Journal. of Earth Science. 2000. № 37. Р. 683–693.
- Bauer I.E., Hurdle P.A., Bhatti J., Errington R. Carbon stock trends along forested peatland margins in central Saskatchewan // Canadian Journal of Soil Science (Special Issue). 2006. № 86. Р. 32–333. https://doi.org/10.4141/S05-085
- Gallego-Sala A., Charman D.J., S Brewer S. et al. Latitudinal limits to the predicted increase of the peatland carbon sink with warming // Nature Climate. 2018. № 8. Р. 907–913. https://doi.org/10.1038/s41558-018-0271-1
- Loisel J., Garneau M. Late Holocene paleoecohydrology and carbon accumulation estimates from two boreal peat bogs in eastern Canada: Potential and limits of multi-proxy archives // Palaeogeography, Palaeoclimatology, Palaeoecology. 2010. № 291. Р. 493–533. https://doi.org/10.1016/j.palaeo.2010.03.020
- Дьяконов К.Н., Мазей Н.Г., Прокушкин А.С., Шатунов А.Е., Зазовская Э.П., Новенко Е.Ю. Депонирование углерода в карстовом болоте Мордовского заповедника в позднем голоцене // Вестн. Моск. ун-та. Сер. 5. Геогр. 2024. Т. 79. № 4. С. 30–43.
- Новенко Е.Ю. Динамика ландшафтов и климата в Центральной и Восточной Европе в голоцене – прогнозные оценки изменения природной среды // Геоморфология. 2021. № 52(3). С. 24–47. https://doi.org/10.31857/S0435428121030093
- Novenko E. Yu., Olchev A.V. Early Holocene vegetation and climate dynamics in the central part of the East European Plain (Russia) // Quaternary International. 2015. № 388. Р. 12–22.
- Новенко Е.Ю., Куприянов Д.А. Реконструкция истории лесных пожаров в южной части Мордовского заповедника в голоцене по данным анализа макроскопических частиц // Труды Мордовского государственного заповедника им. П.Г. Смидовича. 2021. Вып. 26. C. 176–192.
- Belyea L., Warner B. Temporal scale and the accumulation of peat in a Sphagnum bog // Canadian Journal of Botany. 1996. № 74 (3). Р. 366–377.
Arquivos suplementares
