THE COMPOSITION OF ATMOSPHERIC DEPOSITION AND SOIL WATER IN THE MIXED FOREST OF THE PRIOKSKO-TERRACE STATE NATURE RESERVE

A. K. Khodzhaeva ¹^*, D. V. Sapronov ¹, V. O. Lopez de Gerenyu ¹, N. B. Zinyakova ¹, D. A. Khoroshaev ¹, I. N. Kurganova ¹, V. A. Ableeva ²

 

¹Institute of Physicochemical and Biological Problems in Soil Science of the Russian Academy of Sciences Institutskaya Street, 2, Pushchino, Moscow region, 142290, Russia 

²Federal State Budget Institution «Prioksko-Terrasny State Natural Biosphere Reserve named after M. A. Zablotsky» Serpukhov Urban District, Danки locality, Moscow Region, 142200, Russia

 

^*E-mail: kodzhaeva@pbcras.ru

Received: 14.10.2024

Revised: 16.11.2024

Accepted: 18.12.2024

The paper presents the results of water sample collections during the spring-summer period of 2024 at the forest and open areas of the Prioksko-Terrasny State Nature Reserve. Significant variation in the main indicators of atmospheric deposition and soil water was observed. The export of dissolved organic carbon with soil water during the spring-summer period exceeded the input from atmospheric deposition. The carbon export from the upper 0-10 cm soil layer during the spring-summer period at the forest site was 0.3% of the reserves, while at the open (meadow) site it was 0.6%. The carbon export from the upper 0 -20 cm soil layer during the spring-summer period at the forest site was 0.1% of the reserves, and at the open (meadow) site it was 0.2%. The results highlight the importance of monitoring atmospheric deposition and soil water for assessing the carbon balance in forest ecosystems.

Keywords: mixed forest, Entic Umbric Podzol (Arenic), atmospheric deposition, soil water, dissolved organic carbon, dissolved total nitrogen

REFERENCES

Arisci S., Rogora M., Marchetto A., Dichiaro F., The role of forest type in the variability of DOC in at mospheric deposition at forest plots in Italy, Environmental Monitoring and Assessment, 2012, Vol. 184, pp. 3415–3425.

Bolan N. S., Adriano D. C., Kunhikrishnan A., James T., McDowell R., Senesi N., Dissolved organic matter: Biogeochemistry, dynamics, and environmental significance in soils, Advances in Agronomy, 2011, Vol. 110, pp. 1–75.

Camino-Serrano M., Graf Pannatier E. G., Vicca S., Trends in soil solution dissolved organic carbon (DOC) concentrations across European forests, Biogeosciences, 2016, Vol. 13, pp. 5567–5585.

Chernova O. V., Golozubov O. M., Aljabina I. O., Shhepashhenko D. G., Integrated approach to spatial assessment of soil organic carbon in the Russian Federation, Eurasian Soil Science, 2021, Vol. 54, No 3, pp. 273–286, 10.31857/S0032180X21030047

Ershov V. V., Lukina N. V., Orlova M. A., Isaeva L. G., Smirnov V. Je., Gorbacheva T. T., Ocenka dinamiki sostava pochvennyh vod severotaezhnyh lesov pri snizhenii ajerotehnogennogo zagrjaznenija vybrosami medno-nikelevogo kombinata (Assessment of soil water composition dynamics in northern taiga forests with the reduction of aerotechnogenic pollution from emissions of a copper-nickel plant), Sibirskij ekologicheskij zhurnal, 2019, No 1, pp. 119–132, DOI: 10.15372/SEJ20190110

Fröberg M., Hansson K., Kleja D. B., Alavi Gh., Dissolved organic carbon and nitrogen leaching from Scots pine, Norway spruce and silver birch stands in southern Sweden, Forest ecology and management, 2011, Vol. 262, No 9, pp. 1742–1747.

Gashkina N. A., Moiseenko T. I., Dinu M. I., Tacij Ju. G., Baranov D. Ju., Biogeochemical migration of elements in the system «atmospheric precipitation–crown waters–soil waters–lake» in the background region (Valdai National Park), Geochemictry International, 2020, Vol. 58. No 7. pp. 835–849, DOI: 10.31857/S0016752520050027

Gielen B., Neirynck J., Luyssaert S., Janssens I. A., The importance of dissolved organic carbon fluxes for the carbon balance of a temperate Scots pine forest, Agricultural and Forest Meteorology, 2011, Vol. 151, No 3, pp. 270–278.

GOST 31958-2012, Mezhgosudarstvennyj standart. Voda. Metody opredelenija soderzhanija obshhego i rastvorennogo organicheskogo ugleroda (Water. Methods for determination of total and dissolved organic carbon), Moscow, 2012. 15 р.

Kaiser K., Guggenberger G., Zech W., Sorption of DOM and DOM fractions to forest soils, Geoderma, 1996, Vol. 74 (3–4), pp. 281–303.

Kalbitz K., Kaiser K., Contribution of dissolved organic matter to carbon storage in forest mineral soils, Journal of Plant Nutrition and Soil Science, 2008, Vol. 171, pp. 52–60.

Kalbitz K., Solinger S., Park J. H., Michalzik B., Matzner E., Controls on the dynamics of dissolved organic matter in soils: A review, Soil Science, 2000, Vol. 165, pp. 277–304.

Kazakova A. I., Semikolennyh A. A., Gornov A. V., Gornova M. V., Lukina N. V. Vlijanie rastitel’nosti na labil’nye harakteristiki lesnyh pochv zandrovyh mestnostej zapovednika «Brjanskij les» (Influence of vegetation on labile characteristics of forest soils in the sandy areas of the Bryansk Forest Reserve), Vestnik Moskovskogo universiteta, Soil Science, Ser. 17, 2018, No 3, pp. 9–15.         

Klassifikacija i diagnostika pochv Rossii (Classification and Diagnosis of Soils in Russia), Avtory i sostaviteli: L. L. Shishov, V. D. Tonkonogov, I. I. Lebedeva, M. I. Gerasimova. Smolensk: Ojkumena, 2004. 342 р.

Kurganova I. N., Lopes de Gerenyu V. O., Myakshina T. N., Temperature Sensitivity of Soil Respiration in Grasslands in Temperate Continental Climate Zone: Analysis of 25-Year-Long Monitoring Data. Eurasian Soil Science, 2023, Vol. 56, pp. 1232–1246, DOI: 10.1134/S1064229323601130

Kuznecova A. I., Lukina N. V., Orlova M. A., Teben’kova D. N., Sravnitel’naja ocenka razmerov vynosa ugleroda s pochvennymi vodami v taezhnyh i hvojno-shirokolistvennyh lesah (Comparative Assessment of Carbon Export with Soil Waters in Taiga and Coniferous-Broadleaf Forests), Akkumuljacija ugleroda v lesnyh pochvah i sukcessionnyj status lesov. Moscow: KMK, 2018, pp. 140–146.

Kuznetsova A. I., Geraskina A. P., Lukina N. V., Smirnov V. E., Tikhonova E. V., Shevchenko N. E., Gornov A. V., Ruchinskaya E. V., Tebenkova D. N., Linking Vegetation, Soil Carbon Stocks, and Earthworms in Upland Coniferous–Broadleaf Forests, Forests, 2021, Vol. 12, Article 1179, DOI: 10.3390/f12091179

Lukina N. V., Orlova M. A., Teben’kova D. N., Ershov V. V., Gorbacheva T. T., Isaeva L. G., Assessment of Soil Water Composition in Northern Taiga Coniferous Forests of Background Areas in an Industrially Developed Region, Eurasian Soil Science, 2018, Vol 51, No 3. pp. 277–289.

Metodicheskie rekomendacii po ocenke postuplenija rastvorennogo organicheskogo ugleroda s atmosfernymi vypadenijami (Methodological recommendations for assessing the input of dissolved organic carbon from atmospheric deposition), Electronic resource, RITM carbon, 2024a, URL: https://clck.ru/3G8YVm (October 06, 2024).

Metodicheskie rekomendacii po ocenke vynosa organicheskogo ugleroda s pochvennymi vodami (Methodological Recommendations for Assessing the Export of Organic Carbon with Soil Water), Electronic resource, RITM carbon, 2024b, URL: https://clck.ru/3G8YbB (October 06, 2024).

Nakhavali M., Lauerwald R., Regnier P., Guenet B., Chadburn S., Friedlingstein P., Leaching of dissolved organic carbon from mineral soils plays a significant role in the terrestrial carbon balance, Global change biology, 2021, Vol. 27, No 5, pp. 1083–1096, DOI: 10.1111/gcb.15460

Ryzhova I. M., Telesnina V. M., Sitnikova A. A., Dynamics of Soil Properties and Carbon Stock Structure in Post-Agricultural Ecosystems During Natural Forest Recovery, Eurasian Soil Science, 2020. Vol 53, No 2. pp. 240–252, DOI: 10.31857/S0032180X20020100

Schulze K., Borken W., Matzner E., Dynamics of dissolved organic C-14 in throughfall and soil solution of a Norway spruce forest, Biogeochemistry, 2011, Vol. 106 (3), pp. 461–473, DOI: 10.1007/s10533-010-9526-2

Shhepashhenko D. G., Muhortova L. V., Shvidenko A. Z., Vedrova Je. F., Organic Carbon Stocks in the Soils of Russia, Eurasian Soil Science, 2013, Vol 46, No 2. pp. 107–116.

Shil’cova G. V., Lastochkina V. G., Vlijanie pologa sosnovogo i berezovogo lesa na himicheski sostav osadkov v zapovednike «Kivach» (The Influence of Pine and Birch Forest Canopy on the Chemical Composition of Precipitation in the «Kivach» Nature Reserve), Trudy nauchnogo Karel’skogo centra RAN, Petrozavodsk, 2006, pp. 180–184.

Sultanbaeva R. R., Kopitsky G. N., Smirnova I. E., Kopitsky S. V. Postuplenie i migracija rastvorimogo organicheskogo ugleroda v pochvah lesnyh jekosistem podzony shirokolistvenno-hvojnyh lesov (Input and Migration of Dissolved Organic Carbon in the Soils of Forest Ecosystems in the Broadleaf-Coniferous Forest Subzone), Vestnik Moskovskogo universiteta, Soil Science, Ser. 17, 2015, No 4. pp. 3–42.

Telesnina V. M., Kurganova I. N., Lopes de Gerenyu V. О., Ovsepjan L. A., Lichko V. I., Ermolaev A. M., Mirin D. M., Dynamics of soil properties and vegetation composition during post-agricultural development in different bioclimatic zones, Eurasian Soil Science, 2017, Vol 50, No 12, pp. 1515–1534, DOI: 10.7868/S0032180X17120115

Teorii i metody fiziki pochv (Theories and Methods of Soil Physics), Pod red. E. V. Sheina, L. O. Karpachevskogo, Moscow: «Grif i K», 2007, 616 p.

Teorija i praktika himicheskogo analiza pochv (Theory and Practice of Soil Chemical Analysis), Pod red. L. A. Vorobevoj, Moscow, «GEOS», 2006, 400 p.

Zamolodchikov D. G., Grabovskij V. I., Chestnyh O. V., Dinamika balansa ugleroda v lesah federal’nyh okrugov (Dynamics of carbon balance in the forests of federal districts), Voprosy lesnoj nauki, 2018, No. 1 (1), pp. 1–24, DOI:10.31509/2658-607x-2018-1-1-1-24