MODEL ANALYSIS OF THE PLANTATIONS SPRUCE PRODUCTIVITY DEPENDENT ON THE PLANTING SCHEME AND INTENSITY OF RANDOM EXTERNAL FACTORS IMPACT
Аннотация
With rational forestry management, it is created special artificial forest plantations of high productivity for technically valuable species allowing the largest supply of grown wood. One of the ways to increase the supply of wood per unit of forest area is to regulate the initial density and planting pattern of trees. Using simulation methods, it is shown that in the absence of external influences, a checkerboard planting pattern is an optimal one providing a larger supply of wood as compared to a rectangular pattern. In real conditions, there are risks of dying off for individual trees due to random external factors like gusts of wind and phytophages. Therefore, in real life the supply of wood grown under such optimal planting schemes would be significantly lower as compared to the calculated values obtained.
In this regard, there arise problemsaimed at studying theplantings productivity dependent on the planting pattern and the intensity of tree death during the forest stand growth as a result of the random external factorsinfluence. To solve these problems, we used a simulation model of tree communitiesdynamics, which takes into account the spatial location of each tree, in this way making it easy to simulate various forest planting schemes and remove some trees at any step of modeling. As a result of the computational experiments, the optimal values of spruce plantations initial density have been defined for different planting schemes, dependent on the intensity of theexternal factors influence. It is shown that at a certain intensity of the external factors impact, the maximum timber stock does not depend on the planting scheme, but is determined by the initial density of the forest stand.When the impactintensity increases,, the planting density also needs to be increased, in order to obtain the maximum reserve.
Ключевые слова
Литература
REFERENCE: Kolobov A.N. Model analysis of the plantations spruce productivity dependent on the planting scheme and intensity of random external factors impact. Regional’nye problemy, 2023, vol. 26, no. 4, pp. 5–13. (In Russ.). DOI: 10.31433/2618-9593-2023-26-4-5-13.
Borisov A.N., Ivanov V.V. Simulation modeling of the dynamics of dark coniferous stands during selective felling. Khvoinye boreal’nye zony, 2008, vol. 25, no. 1–2, pp. 135–140. (In Russ.).
Kolobov A.N. Simulation modeling of optimal forest planting schemes taking into account the impact of external factors. Regional’nye problemy, 2022, vol. 25, no. 3, pp. 168–170. (In Russ.).
Kolobov A.N., Frisman E.Ya. Modeling approach to the analysis of productivity of artificial spruce stands at different planting schemes. Zhurnal obshchei biologii, 2020, vol. 81, no. 3, pp. 163–173. (In Russ.).
Lesnaya entsiklopediya: vol. 2. (Forest encyclopedia), G.I. Vorobyova Ed. Moscow: Sovetskaya entsiklopediya Publ., 1986. 631 p. (In Russ.).
Merzlenko M.D. Teoriya i praktika iskusstvennogo lesovosstanovleniya (Theory and practice of artificial reforestation), M.D. Merzlenko, N.A. Babich. Arkhangelsk: NARFU, 2011. 239 p. (In Russ.).
On the establishment of logging ages: Order of the Federal Forestry Agency no. 105 dated 09.04.2015. (ed. from 02.07.2015). Kodifikatsiya RF, 2023. Available at: https://rulaws.ru/acts/Prikaz-Rosleshoza-ot-09.04.2015-N-105/ (accessed: 02.10.2023). (In Russ.).
Obshchesoyuznye normativy dlya taksatsii lesov (All-Union standards for forest taxation), V.V. Zagreev, V.I. Sukhikh, A.Z. Shvidenko, N.N. Gusev, A.G. Moshkalev. Moscow: Kolos Publ., 1992. 195 p. (In Russ.).
Pirtskhalava-Karpova N.R., Karpov A.A. Monitoring of Coniferous Forest Stands Drying in the Far East- Kurilskiy Natural Reserve. Aktual’nye problemy lesnogo kompleksa, 2021, no. 59, pp. 164–166. (In Russ.).
Pisarenko A.I. Sozdanie iskusstvennykh lesov (Creation of artificial forests), A.I. Pisarenko, M.D. Merzlenko. Moscow: Agropromizdat Publ., 1990. 270 p. (In Russ.).
Priputina I.V., Frolova G.G., Bykhovets S.S., Shanin V.N., Lebedev V.G., Shestibratov K.A. Modeling The Productivity of Forest Plantations With the Different Spacing the Trees. Matematicheskaya biologiya i bioinformatika, 2016, vol. 11, no. 2, pp. 245–262. (In Russ.).
Priputina I.V., Frolova G.G., Shanin V.N. Substantiation of Optimum Planting Schemes for Forest Plantations: A Computer Experiment. Komp’yuternye Issledovaniya i Modelirovanie, 2016, vol. 8, no. 2, pp. 333–343. (In Russ.).
Storozhenko V.G. Characterization of Current Deadwood and Slash in Natural Spruce Forests of East European Taiga. Lesovedenie, 2012, no. 3, pp. 43–50. (In Russ.).
Tablitsy i modeli khoda rosta i produktivnosti nasazhdenii osnovnykh lesoobrazuyushchikh porod Severnoi Evrazii (normativno-spravochnye materialy) (Tables and Models of Growth and Productivity of Forests of Major Forest Forming Species of Northern Eurasia (standard and reference materials)), A.Z. Shvidenko, D.G. Schepaschenko, S. Nilsson, Yu.I. Buluy. 2-nd ed., supplemented. Moscow: Federal Agency of Forest Management, 2008. 886 p. (In Russ.).
Gabira M.M., Girona M.M., Desrochers A., Kratz D. et al. The impact of planting density on forest monospecific plantations: An overview. Forest Ecology and Management, 2023, vol. 534, pp. 120882.
Kolobov A.N., Frisman E.Y. Individual-based model of spatio-temporal dynamics of mixed forest stands. Ecological Complexity, 2016, vol. 27, pp. 29–39.
Ссылки
- Ссылки не определены.