Taxation structure and wood density of pine and spruce in mixed artificial plantations of the Leningrad Region

Cultivation of mixed plantations of pine and spruce allows us to optimize the qualitative and quantitative indicators of growing wood. Evaluation of taxation indicators in plantations with different densities allows us to determine the optimal ratio of species. The study of the qualitative characteristics of pine and spruce timber, in particular wood density, allows us to determine the indicators of the growing volume of pine and spruce timber. The aim of the study is to compare the taxation characteristics of stands with different shares of pine and spruce and wood density of different composition. The studies were conducted in 50-year mixed artificial plantations of pine and spruce with the same primary density of planting, growing on two-member sediments – type of forest site conditions C2. Region of the study Leningrad region, 23 quarter of Orlinsky district forestry Gatchina district forestry. In mixed plantations, three trial plots (TPs) were established along the slope topography, 50m x 50m in size, 0.25 ha each. A continuous count of trees with measuring diameters at the height of 1.3 m and tree heights was carried out. To determine basic wood density by maximum moisture method, pine and spruce wood cores were sampled in all rows of tree distribution in steps of 2 cm thickness at a height of 1.3 m. The study showed that the plantation composition 5E5C formed the most dense wood. The largest stock was formed in the plantation 6E4C, indicating the accumulation of volume and the optimal composition of the plantation. For spruce, an increase in the absolute completeness of its element leads to a decrease in the density of its wood. For pine, an increase or decrease in its wood density also depends on the absolute completeness and density of the accompanying spruce layer.

1. Belyaeva N.V., Danilov D.A. Laws of functioning of pine and spruce phytocenoses on the objects of thinning and comprehensive forest care. St. Petersburg: Polytechnic University Press, 2014. 164 р. (In Russ.)

2. Bielak K., Dudzińska M., Pretzsch H. Mixed stands of Scots pine (Pinus sylvestris L.) and Norway spruce [Picea abies (L.) Karst] can be more productive than monocultures. Evidence from over 100 years of observation of long-term experiments. For. Syst., 2014, 23, рр. 573–589.

3. Bondarenko A.S., Zhigunov A.V. Statistical processing of forestry research materials. St. Petersburg: Polytechnic University Press, 2016. 125 р. (In Russ.)

4. Bravo-Oviedo A., Pretzsch H., Ammer C., Andenmatten E., Barbati A., Barreiro S., Brang P., Bravo F., Coll L., Corona P., Den Ouden J., Ducey M. J., Forreste D.I., Giergiczny M., Jacobsen J.B., Lesinski J., Löf M., Mason, W. L., Matovic B., Metslaid M., Morneau F., Motiejunaite J., O’Reilly C., Pach M., Ponette Q., Del Rio M., Short I., Skovsgaard J.P., Soliño M., Spathelf P., Sterba H., Stojanovic D., Strelcova K., Svoboda M., Verheyen K., Von Lüpke N., Zlatanov T. European Mixed Forests: definition and research perspectives. For. Syst., 2014, 23(3), р. 518.

5. Büsgen M. Structure and life of our forest trees. M. L.: Goslesbumizdat, 1961. 424 p.

6. Chertov O.G. Ecology of forest lands (soil-ecological study of forest habitats). L: Nauka, 1981. 192 р.

7. Chibisov G.A. Replacement of pine by spruce. Arkhangelsk SevNIIFLH, 2010. 150 p.

8. Danilov D.A. Quantitative and qualitative characteristics of spruce and pine wood in plantation crops in Northwest Russia. Conservation of Forest Ecosystems: conference proceedings., Vyatka State University, Kirov, 2019, pp. 74–78.

9. Danilov D.A., Belyaeva N.V., Gryazkin A.V. Features of Yield and Com-modity Composition of Pine and Spruce Mod-al Coniferous Stands for the Age of Mature Stands. Lesnoy zhurnal [Forestry journal], 2018, no. 2, pp. 40–48. DOI: 10.17238/issn0536-1036.2018.2.40

10. Danilov D.A., Belyaeva N.V., Melnikov E.A. The results of the impact of complex care on the structure and quality of wood indicators of pine and spruce stands. Vestnik Sarat. gos. agrarn. univ. n.I. Vavilov, 2011, no. 8, pp. 3–8.

11. Danilov D.A., Griazkin A.V., Sokolova V.A., Bacherikov I.V. The component composition of planted pine wood cultivated in the boreal zone. Nordic Pulp & Paper Research Journal, 2020, no. 35(4), pp. 685–693.

12. Danilov D.A., Navalikhin S.V., Kuzmina A.V. Stock and wood density of 50-yearold mixed plantation crops of pine and spruce. Forests of Russia: policy, industry, science, education: materials of scientific and technical conference, St. Petersburg, April 13–15, 2016. Ed. by V.M. Gedio. St. Petersburg: SPbGLTU, 2016, pp. 114–116

13. Danilov D.A., Shestakov V.I., Shestakova T.A., Enders O.O. Successional stages of restoration of woody vegetation on post-agrogenic lands of Leningrad region. Proceedings of St. Petersburg Forestry Engineering Academy, 2020, no. 233, pp. 60– 80. DOI 10.21266/2079-4304.2020.233.60-80.

14. Danilov D.A., Skupchenko V.B. Changes in the structure of pine and spruce wood at the anatomical level in stands undergoing thinning and comprehensive care. Izvestiya vysokikh uchebov. Forest Journal, 2014, no. 5(341), pp. 70–88.

15. Danilov D.A., Yakovlev A.A. Bogdanova L.S. [et al.] Mixed pine and spruce stands in the Luga-Volkhov and Valdai-Tikhvin landscape districts of the Leningrad Region. IOP Conference Series: Earth and Environmental Science, Virtual, Online, 10 июня 2021 года. Virtual, Online, 2021, pp. 012007. DOI 10.1088/1755-1315/941/1/012007.

16. Drössler, Lars & Agestam, Eric & Bielak, Kamil & Dudzinska, Małgorzata & Koricheva, Julia & Liziniewicz, Mateusz & Löf, Magnus & Mason, Bill & Pretzsch, Hans & Id, Sauli & Valkonen, Sauli & Wellhausen, Klaas. Over-and Underyielding in Time and Space in Experiments with Mixed Stands of Scots Pine and Norway Spruce. Forests, 2018, 9. 10.3390/f9080495.

17. Drössler, Lars & Övergaard, Rolf & Ekö, Per & Gemmel, Pelle & Böhlenius, Henrik. Early development of pure and mixed tree species plantations in Snogeholm, southern Sweden. Scandinavian Journal of Forest Research, 2015, 30, pp. 1–13. 10.1080/02827581.2015.1005127.

18. Fedorchuk I.N., Neshataev V.Yu., Kuznetsov M.L. Forest ecosystems of northwestern regions of Russia: Typology, dynamics, economic features. St. Petersburg, 2005. 382 p.

19. Gromtsev A.N. Fundamentals of landscape ecology of European taiga forests of Russia / Karelian Research Center of RAS, Petrozavodsk, 2008. 238 p. EDN: QLAQDN.

20. Ivanov V.P., Erohin A.V., Kolosova T.G. Analysis of Natural Reforestationon the Basis of Parcel Structure in Pine and Spruce Forests After Selective Sanitary Felling. Lesnoy diurnal, 2016, no. 6, pp. 65–75. DOI: 10.17238/issn0536-1036.2016.6.65

21. Ivanter E.V., Korosov A.V. Introduction to quantitative biology: textbook for students of biological specialties. Ministry of Education and Science of the Russian Federation, State Educational Institution of Higher Professional Education Petrozavodsk State University. 2nd ed. Petrozavodsk: Publishing house of Petrozavodsk State University, 2011. 302 p.

22. Kisser J.G., Ylinen A., Freudenberg K., Kollmann F., Liese W., Thunell B., Stamm A.J. History of wood science. Wood Sci. Technol, 1967, 1, pp. 161–190,

23. Liu, C. & Westman, C. J. Biomass in a Norway spruce–Scots pine forest: a comparison of estimation methods. Boreal Env. Res., 2009, 14, pp. 875–888

24. Lokhov D.V. Forest assessment and indicators of the quality of wood pine crops on fallow lands. Environmental problems of the North. Interuniversity collection of scientific works, 2011, vol. 14, pp. 73–76.

25. Mai, Carsten & Schmitt, Uwe & Niemz, Peter. A brief overview on the development of wood research. Holzforschung, 2021, 76. 10.1515/hf-2021-0155.

26. Merzlenko M.D., Babich N.A. Forestry. Artificial reforestation: a textbook for undergraduate and graduate studies. 2nd ed., revised. and ext. M.: Publishing house Yurait, 20189. 184 p. (Series: Bachelor and Master. Academic course).

27. Morozov G.F. Doctrine of the forest / ed. by V. V. Matreninsky. 5th ed. M.: State Publishing House; L., 1930. 440 p.

28. Morozov G.F. Soil science and forestry. type. Spb. A.A. of the printing business in Russia E. Evdokimov, [1899]. 20 p/

29. Naumov V.D., Polyakov A.N. Taxa-forest-evaluation of pine-spruce forests and soil conditions of their growth. Proceedings of the TSKHA, 1999, iss. 4, pp. 80–95.

30. Nevolin O.A., Tretiakov S.V., Eremina O.O. Productivity of mixed pine forests of the European North and the organization of management in them. Proceedings of Higher Education Institutions. Lesnoy zhurnal, 2004, no. 3, pp. 26–36.

31. Poluboyarinov O.I. Density of wood. M.: Forest Industry, 1976. 160 p.

32. Poluboyarinov O.I., Fedorov R.B. Quality of plantation-type pine wood in the northwest of the European part of the USSR. Forestry, forestry crops and soil science, 1991. [[. 89–95.

33. Pretzsch H., Schütze G. Effect of Tree Species Mixing on the Size Structure, Density, and Yield of Forest Stands // European Journal of Forest Research. January 2016. Vol. 135, iss. 1. Pр. 1–22.

34. Pretzsch, H., Steckel, M., Heym, M. et al. Stand growth and structure of mixedspecies and monospecific stands of Scots pine (Pinus sylvestris L.) and oak (Q. robur L., Quercus petraea (MATT.) LIEBL.) analysed along a productivity gradient through Europe. Eur J Forest Res 139, 349-367 (2020). https://doi.org/10.1007/s10342-019-01233-y

35. Prishchepov V.A. Experience of taxation using trupulse laser technology, Suunto and Haglof altimeters. 71st Scientific and Technical Conference of pupils, students and undergraduates: collection of scientific papers, Minsk, April 20–25, 2020. Minsk: Belarusian State Technical University, 2020, pp. 36–39.

36. Riofrío, José & Rio, Miren & Maguire, Doug & Bravo, Felipe. Species Mixing Effects on Height-Diameter and Basal Area Increment Models for Scots Pine and Maritime Pine. Forests, 2019, 10, p. 249. 10.3390/f10030249.

37. Ruiz-Peinado, Ricardo & Pretzsch, Hans & Löf, Magnus & Heym, Michael & Bielak, Kamil & Aldea, J. & Barbeito, Ignacio & Brazaitis, Gediminas & Drössler, Lars & Godvod, Kšištof & Granhus, Aksel & Holm, Stig-Olof & Jansons, Aris & Makrickiene, Ekaterina & Metslaid, Marek & Metslaid, Sandra & Nothdurft, Arne & Reventlow, Otto & Sitko, Roman & Reventlow, Ditlev. Mixing effects on Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies (L.) Karst.) productivity along a climatic gradient across Europe. Forest Ecology and Management, 2021, 482, p. 118834. 10.1016/j.foreco.2020.118834.

38. Salnikova I.S., Anchugova G.V., Nagimov Z.Ya. Forest taxation: a textbook for the course work. Yekaterinburg: Ural. state forestry technical university, 2017. 71 p.

39. Sidelnik N.Y., Mashkovsky V. P., Sevruk P.V. Forest biometry. Laboratory practice: educational-methodical textbook for the students of the specialty 1-75 01 01 «Forestry». Minsk: Belarusian State Technical University, 2021. 120 р.

40. Sterba, Hubert & Rio, Miren & Brunner, Andreas & Condés, Sonia. Effect of species proportion definition on the evaluation of growth in pure vs. Mixed stands. Forest Systems. 2014, 23, рр. 547–559. 10.5424/fs/2014233-06051.

41. Tretyakov S.V. The growth of pine and spruce in mixed stands of the middle taiga sub-zone of the European North of Russia affected by economic activities. Bulletin of the Moscow State Forest University. Lesnaya Vestnik, 2007, no. 5 (54), pp. 137–139.

42. Tsarenko V.P., Danilov D.A., Smirnov A.P. Productivity and wood quality of mixed spruce-pine stands on soils of two-member structure. Proceedings of St. Petersburg State Agrarian University, 2014, no. 36, pp. 55–59.

43. Usoltsev V.A., Tsepordei I.S. Phytomass qualimetry of forest trees: density and dry matter content: monograph / Ministry of Science and Higher Education of the Russian Federation: Ural State Forestry University; Botanical Garden of the Ural Branch of the Russian Academy of Sciences. Ekaterinburg: UGLTU, 2020.

44. Vetrov L.S., Vavilov S.V., Nikiforchin I. Forest taxation: methodological guidelines for training practice for bachelors in the field of 35.03.01 «Forestry» St. Petersburg: St. Petersburg State Forestry University, 2014. 58 p.

45. Vikhrov V.E., Lobasenok A.K. Technical properties of wood in connection with forest types. Minsk: Publishing house of the Ministry of Higher, Secondary Special and Vocational Education, 1963. 72 р.

46. Yakovlev A.A., Danilov D.A. Landscape features of taxation indicators of mixed stands of pine and spruce in the green-moss group of forest types of the North-East of the Leningrad region. Forests of Russia: policy, industry, science, education: materials of IV scientific and technical conference, Saint Petersburg, 22-25 May 2019. St. Petersburg: Federal State Autonomous Educational Institution of Higher Education «St. Petersburg Polytechnic University of Peter the Great», 2019, рр. 198–201.

47. Yanush S.Yu., Danilov D.A. Taxation and commodity structure of pine and spruce stands on old-fallow and forest soils in the Leningrad region. Proceedings of the St. Petersburg Research Institute of Forestry, 2020, no. 4, pp. 54–64. EDN JZMMQR.

48. Zalesova E.S., Belov L.A., Zalesov S.V. et al. Influence of forest type and completeness of forest stands on the provision of mature and overmature pine forests of the northern taiga subzone. International Scientific Research Journal, 2019, no. 11 (89).

49. Zaytsev D.A., Danilov D.A., Navalihin S.V. The effect of tree distribution by diameter classes on the density of pine and spruce trees in mixed coniferous forest stands without forestry impact. IOP Conference Series: Earth and Environmental Science: International Jubilee Scientific and Practical Conference «Innovative Directions of Development of the Forestry Complex (FORESTRY-2018)», Voronezh, October 04–05,2018. Institute of Physics Publishing: Institute of Physics Publishing, 2019, р. 012066. DOI 10.1088/1755-1315/226/1/012066. EDN NTAUII.