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Efficiency of Thinning in Deciduous-Spruce Forest Stands in the Northern Taiga Forest Region of the European Part of the Russian Federation. P. 103–114
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These works are licensed under a Creative Commons Attribution 4.0 International License.
Elena A. Surina, Nikolay S. Minin
UDС
630*22+630*1
DOI:
10.37482/0536-1036-2023-5-103-114
Abstract
Research on permanent sample plots (Arkhangelsk, Northern district forestry, Obozerskoye forestry) in birch and spruce stands with an understory layer of spruce was carried out. The sample plots were established since 1966 and differed in the intensity of thinning. The results were analyzed by correlating them with the data of 6 previously conducted surveys (in 1966, 1974, 1986, 2001, 2010, 2020) for permanent sample plots 1K and 2RU and 5 surveys (1974, 1986, 2001, 2010, 2020) for permanent sample plot 19. In the absence of maintenance in young stands aged 20-30 years (permanent sample plot 1K), further growth of spruce was inhibited, competition between trees increased, and growth tension increased. Birch had a biophysical impact on spruce. Carrying out thinning of various intensities made it possible to form the most productive forest stand on the permanent sample plot 2RU. The total stand stock here is maximum - 435 m3/ha, the average heights for the whole growth period is also maximum. In terms of stock, spruce prevails, however, it is still located in the understory forest level, but will eventually enter the canopy forest level. According to the results of the study, three stages of stand formation were identified. The first stage, the stage of emergence, is characterized by the predominance of birch and spruce over the area, spruce regeneration lasting 15–25 years. In the process of passing this stage, favorable conditions for spruce settlement and its survival are created. The second stage is accompanied by deterioration of spruce growth conditions, as the birch layer differentiation and birch growth are intensively going on. The duration of the stage is 70–90 years. As a result, a new mixed biogeocenosis is formed. The final third stage lasts until the formation of a pure spruce forest. Thinning in natural young forest stands should be considered as a measure providing reliable restoration of forests with coniferous species with costs and labor much less than in case of full artificial reforestation.
Keywordsbirch, spruce, thinning, stand formation, forestry, northern taiga forest region, productivity
Funding
The publication is based on the results of the research carried out within the framework of the state assignment of FBU "SevNIILKh" for applied scientific research. Subject registration number: AAAA-A20-120013090061-7, 121020500249-6.
For citation
Surina E.A., Minin N.S. Efficiency of Thinning in Deciduous-Spruce Forest Stands in the Northern Taiga Forest Region of the European Part of the Russian Federation. Lesnoy Zhurnal = Russian Forestry Journal, 2023, no. 5, pp. 103–114. (In Russ.). https://doi.org/10.37482/0536-1036-2023-5-103-114
References
-
Bunkov N.A. Analysis of Natural Regeneration of Larch in Different Felling Variants in the North Taiga Region of the European Part of the Russian Federation. Forest Science of Our Time. VI Melekhov Scientific Readings dedicated to the 115th anniversary of the birth of an outstanding forestry scientist, academician Ivan Stepanovich Melekhov. Executive Editor S.V. Lyubova; Northern (Arctic) Federal University named after M.V. Lomonosov. Arkhangelsk, 2020, pp. 92–97. (In Russ.).
-
Vakhtomina M.N. Formation of Pine Forests under the Influence of Thinning in Obozersky Forestry. Materials of conferences held within the framework of Lomonosov scientific readings of students, graduate students and young scientists of the Higher School of Natural Sciences and Technology. Arkhangelsk, 2020, pp. 23–26. (In Russ.).
-
Ekimova D.V. Natural Regeneration in Pine and Spruce Types of Forest in the Emtsovsky Educational and Experimental Forestry. Materials of conferences held within the framework of Lomonosov scientific readings of students, graduate students and young scientists. Northern (Arctic) Federal University named after M.V. Lomonosov. Compiled by J.S. Kuznetsova. Arkhangelsk, 2018, pp. 349–352. (In Russ.).
-
Kaybaldieva M.N. Course of Natural Regeneration in Various Types of Forest in the Emtsovsky Educational and Experimental Forestry. Materials of conferences held within the framework of Lomonosov scientific readings of students, graduate students and young scientists. Northern (Arctic) Federal University named after M.V. Lomonosov. Compiled by J.S. Kuznetsova. Arkhangelsk, 2019, iss. 2, pp. 174–176. (In Russ.).
-
Minin N.S. Features of Changes in Aboveground Phytomass of Artificial Pine Forests Formed under the Influence of Thinning. Environmental Problems of the Arctic and Northern Territories. Intercollegiate Collection of Scientific Works. Northern (Arctic) Federal University named after M.V. Lomonosov. Arkhangelsk, 2016. iss.19, pp. 113–123. (In Russ.).
-
Surina E.A., Minin N.S., Dvoryashin A.V. Measures to Improve Forest Reproduction (Thinning) in Various Forest Conditions of the Northern Taiga Forest Region of the European Part of the Russian Federation. Forest Science of Our Time. VI Melekhov scientific readings dedicated to the 115th anniversary of the birth of an outstanding forestry scientist, academician Ivan Stepanovich Melekhov. Northern (Arctic) Federal University named after M.V. Lomonosov. Arkhangelsk, 2020, pp. 52–57. (In Russ.).
-
Usmanova A.A., Minin N.S. Formation and Growth of Mixed Pine Trees Under the Influence of Thinning. Environmental Problems of the Arctic and Northern Territories. Intercollegiate collection of scientific works. Northern (Arctic) Federal University named after M.V. Lomonosov. Arkhangelsk, 2016, iss. 19, pp. 68–71. (In Russ.).
-
Chibisov G.A. To the Problem of Formation of Economically Valuable Plantations. Issues of Taiga Forestry in the European North. Arkhangelsk, Northern Research Institute of Forestry, 2005, pp. 45–56. (In Russ.).
-
Chibisov G.A. The Change From Pine to Spruce. Arkhangelsk, Northern Research Institute of Forestry, 2010. 150 p. (In Russ.).
-
Chibisov G.A., Vyalykh N.I., Minin N.S. Thinning in the European North: Practical Manual. Northern Research Institute of Forestry, 2004. 128 p. (In Russ.).
-
Chibisov G.A., Guchin V.A., Fomin A.P., Zaharov A.U. Silvicultural and Economic Efficiency of Thinning: a Practical Manual. 2nd Edition Revised and Enlarged. Northern (Arctic) Federal University named after M.V. Lomonosov. Arkhangelsk, 2011. 108 p. (In Russ.).
-
Chibisov G.A., Nefedova A.I. Thinning and Phytoclimate. Arkhangelsk, Northern Research Institute of Forestry, 2007. 265 p. (In Russ.).
-
Akujärvi A., Repo A., Akujärvi A. M., Liski J. Bridging Mapping and Simulation Modelling in the Ecosystem Service Assessments of Boreal Forests: Effects of Bioenergy Production on Carbon Dynamics. Forest Ecosystems, 2021, vol. 8(4), рр. 1–15. https://link.springer.com/article/10.1186/s40663-021-00283-2
-
Gonzalo de Q., Kuuluvainen T. Tree Diametric-species Diversity is Affected by Human Impact in Old Scots Pine Dominated Forest in Boreal Fennoscandia. Forest Ecosystems, 2020, vol. 7(8), 12 р. https://doi.org/10.1186/s40663-020-0219-6
-
Gustafsson L., Hannerz M., Koivula M., Shorohova E., Vanha-Majamaa I., Weslien J. Research on Retention Forestry in Northern Europe. Ecological Processes, 2020, vol. 9(3). 13 р. https://doi.org/10.1186/s13717-019-0208-2
-
Koivula M., Vanha-Majamaa I. Experimental Evidence on Biodiversity Impacts of Variable Retention Forestry, Prescribed Burning, and Deadwood Manipulation in Fennoscandia. Ecological Processes, 2020, vol. 9(11), 22 р. https://doi.org/10.1186/s13717-019-0209-1
-
Kuuluvainen T., Gauthier S. Young and Old Forest in the Boreal: Critical Stages of Ecosystem Dynamics and Management Under Global Change. Forest Ecosystems, 2018, vol. 5(26), 15 р. https://doi.org/10.1186/s40663-018-0142-2
-
Pukkala T . Which Type of Forest Management Provides Most Ecosystem services? Forest Ecosystems, 2016, vol. 3(9), 16 р. https://forestecosyst.springeropen.com/articles/10.1186/s40663-016-0068-5
-
Storch F., Kändler G., Bauhus J. Assessing The Influence of Harvesting Intensities on Structural Diversity of Forests in South-West Germany. Forest Ecosystems, 2019, vol. 6(40), 12 р. https://forestecosyst.springeropen.com/articles/10.1186/s40663-019-0199-6
-
Surina E.A. Forestry in North-Taiga Forest Region of the European Part of the Russian Federation. Earth Environ. Sci, 2021. https://link.springer.com/article/10.1007/s41939-023-00271-9
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