Scientific Reports of the National University of Life and Environmental Sciences of Ukraine

Taxation indicators and life status of Quercus Robur L. under different forest growth conditions of the southern spur of yatsevo ravine (Dnipropetrovsk region)

S. Yakovlieva-Nosar
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Abstract

Common oak (Quercus robur L.) is one of the main forest-forming and economically most valuable broad-leaved tree species of Ukraine. Nowadays, there is a weakening of the stability of natural oak forests, which is the result of a complex of reasons, in particular the action of two powerful environmental factors – anthropogenic load and global climate changes, which lead to their degradation and mass drying. This is aggravated by the poor natural regeneration of oak trees. In the south of the country, natural oak groves have been preserved in ravine forests, which perform a number of important functions (soil protection, anti-erosion, water regulation, recreation, nature protection, a reserve of valuable vegetation, etc.). In № 4/104, 2023 Наукові доповіді НУБіП України ISSN 2223-1609 connection with the above, forest taxation analysis and regular monitoring of the state of natural oak plantations in the steppe zone of Ukraine are important, in particular under different forest growth conditions, as they significantly affect the productivity indicators of stands. The aim of the study was to analyse the influence of different forest growth conditions on the taxonomic characteristics and life status of Q. robur in the Yatsevo ravine of the Dnipropetrovsk region. The survey was carried out in the Yatsevo ravine of the Dnipro district of the Dnipropetrovsk region, which is a forest reserve of national importance and belongs to the southern geographical variant of the ravine forests. The subject of the research is the forestry and taxation characteristics and the life status of oak stands of natural origin of the large southern spur of the ravine (the first from its mouth). Experimental Quercus robur L. plants grew under different forest growth conditions: in a thalweg and on a slope with a north-eastern exposure. Test site 1 was in a thalweg with a flat topography (slope no more than 5°). Forest growth conditions CL2-3 (hygromesophilic). Site 2 was located in the middle part of the steep slope (27°). Forest vegetation conditions – CL1-2 (xeromesophilic). Site 3 with xerophilic (CL0-1) conditions was located in the upper part of the slope with a steep slope (23°). The area of each of the test sites was 1,800 m2. The studied oak stands differ in the composition of associated species. The tallest Q. robur trees under all forest growth conditions belong to the height class of 14.1-16 m. Under hygromesophilic conditions, it includes the maximum number of plants (45.5 %). Plants under xeromesophilic and xerophilic conditions belong to the height class 10, 1-12 m (61.8 and 63.6 %, respectively). Trees up to 4 m high are found only in the CL1-2 area. Under hygromesophilic growth conditions, the largest number of Q. robur plants has a degree of trunk thickness of 64.1-68 cm, under xeromesophilic - 16.1-20, and under xerophilic - 44.1-48 cm. Analysis of the value of the average taxon indicators (height, diameter, cross-sectional area, stock) of the Q. robur stand under different forest growth conditions allowed us to construct the following ranking series: CL2-3 > CL0-1 > CL1-2. The forest stand on the CL1-2 site has worse tax indicators compared to CL0-1, despite the higher level of moisture, which is explained by the high density of associated species and undergrowth. The vital condition index of an oak plantation under hygromesophilic conditions (CL2-3) is 86.4, under xeromesophilic (CL1-2) - 72.9, and under xerophilic (CL0-1) - 78.2. The widest range of trunk and crown pathologies is observed in thalweg conditions (8 types). On the territory of the CL0-1 hygrotop, 4 types of defectiveness were found, and on CL1-2 - 3 types. It was established that not only the level of moisture, but also the density of the tree stand affects the tax indicators and life state of Q. robur.

Keywords

natural oak stands, forest vegetation conditions, height and diameter, cross-sectional area, stock, vital status categories, trunk and crown pathologies

Suggested citation
Yakovlieva-Nosar, S. (2023). Taxation indicators and life status of Quercus Robur L. under different forest growth conditions of the southern spur of yatsevo ravine (Dnipropetrovsk region). Scientific Reports of the National University of Life and Environmental Sciences of Ukraine, 19(4). https://doi.org/10.31548/dopovidi4(104).2023.012
References

 

  1. Alekseev, A.V. (1982). Peculiarities of the description of forest stands under conditions of atmospheric pollution. Interaction of Forest Ecosystems and Atmospheric Pollution, 97-115.

  2. Belgard, A.L. (1971). Steppe Forestry. Moscow: Forestry Industry.

  3. Kelly, P.M., Munro, M.A.R., Hughes, M.K., & Goodness, С.M. (1989). Climate and signature years in west European oaks. Nature, 340(6228), 57-60. https://doi.org/10.1038/340057a0.

  4. Vasilevsky, O.G., Yelisavenko, Yu.A., Neyko, V.S., & Monarch, V.V. (2017). Modern state of natural oak forests of Vinnytsia Forestry. Agriculture and Forestry, 7(1), 129-139.

  5. Vasilevsky, O.G., Neyko, I.S., Yelisavenko, Yu.A., & Matusiak, M.V. (2018). Characteristics of reforestation processes in native oak forests of State Enterprise "Kryzhopil Forestry". Collection of Scientific Papers of Vinnytsia National Agrarian University, 10, 19-29.

  6. Guz, M.M., Ozarkiv, I.M., Kulchytskyi-Zhyhailo, I.Ye., Ozarkiv, O.I., & Danchivska, O.Ya. (2009). Features of structure of the root system of common oak and transference of liquid regularity. Scientific Bulletin of the National Forestry University of Ukraine, 19(4), 7-16.

  7. Drahan, N.V. (2015). Pathological signs and viability of oak in an old-growth oak forest of the Alexandria Arboretum of the National Academy of Sciences of Ukraine. Scientific Journal of the National University of Life and Environmental Sciences of Ukraine, 229, 243-250.

  8. Yelisavenko, Yu.A., Neiko, I.S., Vasylevskyi, O.H., & Pryshchepa, A.M. (2022). State of natural oak forests of the State Enterprise "Mogyliv-Podilske Forestry". Bulletin of the National University of Water and Environmental Engineering, 4(100), 78-90. https://doi.org/10.31713/vs420226.

  9. Kopiy, L.I., Fizyk, I.V., Baran, S., Lavnyy, V.V., Kopiy, S.L., Presner, R.B., & Ahij, V.O. (2017). Natural seed reproduction of oak plantations as an element close to the nature of forestry. Scientific Bulletin of the National Forestry University of Ukraine, 27(9), 9-13. https://doi.org/10.15421/40270901.

  10. Lakyda, P.I., Bilous, A.M., Vasylyshyn, R.D., Terentyev, A.Yu., & Atamanchuk, R.V. (2011). Growth of pure modal stands of softwood broadleaved species in Ukrainian Polissya. Scientific Reports of the National University of Life and Environmental Sciences of Ukraine, 7(23). Retrieved from http://www.nbuv.gov.ua/ejournals/Nd/2011_7/11lpisup.pdf.

  11. Maniuk, V.V., & Maniuk, Vad.V. (2010). Nature Reserve Fund of Dnipropetrovsk Region. Dnipro, 116.

  12. Maliuha, V.M. (2012). Peculiarities of growth of common oak plantations on eroded ravine and gully lands. Scientific Journal of the National University of Life and Environmental Sciences of Ukraine, 171(3), 54-62.

  13. Samoylova, N.A., & Dymchuk, L.V. (2003). The areas of a feed (meal) and different degree then out stand. Scientific Bulletin of the National Forestry University of Ukraine, 13(4), 50-53.

  14. Svyrydenko, V.Ye., Babich, O.H., & Kyrychok, L.S. (2004). Forestry. Kyiv: Aristei, 544.

  15. Soloviy, I. (2016). Evaluation of forest ecosystem services provided by forests of Ukraine and proposals on PES mechanisms. Retrieved from https://sfmu.org.ua/files/Soloviy_2016%20b.pdf.

  16. Tkach, V.P., & Golovach, R.V. (2009). Modern condition of natural oak stands in the Left-Bank Forest-Steppe of Ukraine. Forestry and Forest Reclamation, 116, 79-84.

  17. Tkach, V.P., Kobets, O.V., & Rumiantsev, M.G. (2018). Use of forest site capacity by forests of Ukraine. Forestry and Forest Reclamation, 132, 3-12.

  18. Tkach, V.P., Kobets, O.V., & Rumiantsev, M.G. (2019). Condition and productivity of oak stands in Ukrainian Steppe. Forestry and Forest Reclamation, 134, 13-23. https://doi.org/10.33220/1026-3365.134.2019.13.

  19. Tkachenko, M.E. (1952). General Forestry. Moscow: Goslesbumizdat, 600.

  20. Turkevich, I.V., Medvedev, L.A., Mokshanina, I.M., & Lebedev, V.E. (1973). Methodological Guidelines for Determining the Potential Productivity of Forest Land and the Degree of Its Effective Use. Kharkiv, 72.

  21. Tsaralunga, V.V., Tsaralunga, A.V., & Furmenkova, E.S. (2016). Specifics of diagnosis of oak tree condition based on visual assessment of external signs of pathology. Forest Engineering Journal, 4, 120-126.

  22. Yakovlieva-Nosar, S., & Bessonova, V. (2021). State of coenopopulations of Quercus robur L. growing in ravines located in the Dnieper river’s rapids section (recreation zone of the city of Zaporizhzhya), Ukraine. Forestry Ideas, 27(1)(61), 256-270.