Ключові слова
seedling growing conditions
fertilizers
superabsorbents
mensuration characteristics дуб звичайний (Quercus robur L.)
умови вирощування сіянців
добрива
суперабсорбенти
таксаційні показники
Як цитувати
Анотація
Наведено таксаційні показники штучних дубових молодняків, створених сіянцями із закритою кореневою системою, в лісовому фонді державного підприємства «Харківська лісова науково-дослідна станція». Виявлено, що дуб звичайний (Quercus robur L.) у складі молодняків, створених сіянцями, під час вирощування яких застосовували методи інтенсифікації (кореневе підживлення добривами і внесення до ґрунтової суміші мікробних препаратів та суперабсорбентів), росте краще, порівнюючи з контролем (молодняками, створеними сіянцями без застосування підживлення добривами і внесення до ґрунтової суміші мікробних препаратів та суперабсорбентів). Сіянці дуба вирощували в умовах закритого і відкритого ґрунту в контейнерах з агроволокна на субстраті, що складався із суміші темно-сірого середньосуглинкового ґрунту й торфу у співвідношенні за об’ємом 3 : 1. Виявлено, що застосовані методи інтенсифікації росту сіянців позитивно вплинули на приживлюваність висаджених рослин на лісокультурній площі і подальший успішний ріст у культурах. Водночас із віком різниці між варіантами досліду зменшувалися.
Посилання
Andreeva, O. Yu., Huzii, A. I., Karchevskyi, R. A. 2016. Some parameters of pine growth in plantations created with potted planting material. Scientific Bulletin of UNFU, 26(3): 9–14. https://doi.org/10.15421/40260301
Borysova, V. V. 2008. Influence of sprout treatment with preparation «Athlete» on development of Pinus sylvestris L. seedlings and their further growth in plantations. Forestry and Forest Melioration, 112: 159–164 (in Ukrainian).
Brodovych, R. I, Katsuliak, Yu. D., Brodovych, Yu. R. 2001. Experience of cultivation and efficiency of coniferous seedlings with the closed rooted system use. Forestry and Forest Melioration, 100: 81–86 (in Ukrainian).
Danylenko, O. M., Vysotska, N. Yu., Tarnopilskyi, P. B., Rumiantsev, M. Н. 2021а. Influence of plant growth regulators on the growth and weight of english oak seedlings in the South-eastern Forest-Steppe in Ukraine. Forestry and Forest Melioration, 138: 59–67. https://doi.org/10.33220/1026-3365.138.2021.59
Danylenko, O. M., Yushchyk, V. S., Rumiantsev, M. Н., Mostepaniuk, A. A. 2021b. Some features of the growth and condition of pine plantations created by different planting material in the South-eastern Forest-steppe of Ukraine. Scientific Bulletin of UNFU, 31(1): 26–29. https://doi.org/10.36930/40310104
Dey, D. C., Kabrick, J. M., Gold, M. 2006. The role of large container seedlings in afforesting oaks in bottomlands. Gen. Tech. Rep. SRS-92. Asheville, NC: U.S. Department of Agriculture, Forest Service, Southern Research Station, p. 218–223.
Forest inventory sample plots. Establishing method. Corporate standard 02.02-37-476:2006. 2007. Valid from May 1, 2007. Kyiv, Minahropolityky Ukrayiny, 32 p. (in Ukrainian).
Gupal, V. V. 2016. Growing of containerized oak seedlings using substrates of different composition. Forestry and Forest Melioration, 128: 100–103 (in Ukrainian).
Hrom,M. M. 2010. Forest mensuration. Lviv, RVV NLTU, 416 p. (in Ukrainian).
Kobranov, N. P. 1973. Inspection and study of forest planted stands. Leningrad, RIOLTA, 77 p. (in Russian).
Lakin, G. F. 1990. Biometrics. Moscow, Vysshaya Shkola, 352 p. (in Russian).
Lapach, S. N., Chubenco, A. V., Babych, P. N. 2001. Statistical methods in biomedical research using Excel. Kyiv, Morion, 408 p. (іn Russian).
Leverkus, A. B., Levy, L., Andivia, E., Annigh?fer, P., De Cuyper, B., Ivetic, V., Lazdina, D., L?f, M., Villar-Salvador, P. 2021. Restoring oak forests through direct seeding or planting: Protocol for a continental-scale experiment. PLoS ONE, 16(11): e0259552. https://doi.org/10.1371/journal.pone.0259552
Lialin, O. I. 2014a. Survival ability and preservation ability of seedlings in forest plantations of English oak. Scientific Herald of NULES of Ukraine, 198: 98–102 (in Ukrainian).
Lialin, O. I. 2014b. Growth of oak saplings in forest plantations established by ball-rooted seedlings. Scientific Bulletin of UNFU, 24(5): 26–31. (in Ukrainian).
Lialin, O. I., Tarnopilska, O. M., Tkach, L. I., Musienko, S. I., Bondarenko, V. V. 2020. Germination, survival rate and health of Scots pine (Pinus sylvestris L.) grown in containers. Scientific Bulletin of UNFU, 30(2): 44–48. https://doi.org/10.36930/40300208
Luk’yanets, V., Rumiantsev, M., Kobets, O., Tarnopilska, O., Musienko, S., Obolonyk, I., Bondarenko, V., Tarnopilskyi, P. 2022. Biometric characteristics and health state of English oak (Quercus robur L.) stands established using various stock types. Agriculture and Forestry, 68(3): 119–132. https://doi.org/10.17707/AgricultForest.68.3.10
Monitoring and increasing the resilience of man-made forests. 2011. In: Collection of recommendations of URIFFM. Kharkiv, Nove slovo, 304 p. (in Ukrainian).
Rumiantsev, M. Н., Danylenko, O. M., Tarnopilskyi, P. B., Yushchyk, V. S., Mostepaniuk, A. A. 2022. Influence of plant growth stimulants on biometric indicators and weight of one-year-old seedlings of English oak with a closed root system in the South-Eastern Forest-Steppe of Ukraine. Scientific Bulletin of UNFU, 32(1): 13–19. https://doi.org/10.36930/40320102
Sanitary Forests Regulations in Ukraine. 2016. [Electronic resource]. Resolution of the Cabinet of Ministers of Ukraine No 756 dated 26 October 2016. Available at: https://zakon.rada.gov.ua/laws/show/555-95-п (accessed 30.11.2022) (in Ukrainian).
Schweitzer, C. J. and Stanturf, J. A. 1997. From okra to oak: reforestation of abandoned agricultural fields in the Lower Mississippi Alluvial Valley. In: Meyer, D.A., ed. Proceedings of the 25th annual hardwood symposium. Memphis, TN, National Hardwood Lumber Association, p. 131–138.
Segeda, Yu. Yu. 2016. The experience of proceeding of an oak ordinary (Quercus robur L.) in the forest in the state enterprise “Smila forestry” with the using of container planting-stock. Scientific Herald of NULES of Ukraine. Series: Forestry and Decorative Gardening, 238: 163–168 (in Ukrainian).
Stanturf, J. A.; Schweitzer, C. J.; Gardiner, E. S. 1998. Afforestation of marginal agricultural land in the Lower Mississippi River Alluvial Valley, U.S.A. Silva Fennica, 32(3): 281–287.
Tarnopilskyi, P. B., Danylenko, O. M., Gupal, V. V., Mostepanuk, A. A., Gladun, G. B. 2016. English oak forest plantations creationg experience with the use of containerized seedlings in forest enterprise “Kharkivska forest research station”. Forestry and Forest Melioration, 128: 89–99 (in Ukrainian).
Tkach, V., Rumiantsev, M., Kobets, O., Luk’yanets, V., Musienko, S. 2019. Ukrainian plain oak forests and their natural regeneration. Forestry Studies, 71: 17–29. https://doi.org/10.2478/fsmu-2019-0010
To improve the modern methods of reforestation in the main types of lowland forests of Ukraine with the purpose of improving their forestry-environmental and agrotechnical efficiency. 2008. Work-in-progress report on research work on the topic № 10. Borysova, V. V. (Ed.). Kharkiv, URIFFM, 128 p. (in Ukrainian)
Tovstukha, А. V., Ignatenko, V. A., Tarnopilskyі, P. B., Sotnikova, A. V. 2017. Experience of renewal of oak forests of Sumy region using various plating material of English oak (Quercus robur L.). Bulletin of Sumy NAU, 9: 92–101 (in Ukrainian).
Uharov, V. M. Manoilo, V. O., Fatieiev, V. V., Danylenko, O. M. 2012. Biometric parameters of Quercus robur L. seedlings with closed root system, depending on the mode of cultivation. Forestry and Forest Melioration, 121: 129–133. (in Ukrainian).
Wilson, E. R., Vitols, K. C., Park, A. 2007. Root characteristics and growth potential of container and bare-root seedlings of red oak (Quercus rubra L.) in Ontario, Canada. New Forests, 34: 163–176. https://doi.org/10.1007/s11056-007-9046-7
Woolery, P. O. and Jacobs, D. F. 2014. Planting stock type and seasonality of simulated browsing affect regeneration establishment of Quercus rubra. Canadian Journal of Forest Research, 44: 732–739. https://doi.org/10.1139/cjfr-2013-049
Yavorovskyi, P. P. and Segeda, Yu. Yu. 2015. Creation of forest plantations with common oak planting material grown in nurseries with a closed root system. Forestry and Horticulture, 7: 11–19 (in Ukrainian).
Yavorovskyі, P. P. аnd Segeda, Yu. Yu. 2016. The future use of container planting stock of English oak (Quercus robur L.) for the creation of forest plantations. Scientific Bulletin of UNFU, 26(3): 222–226 (in Ukrainian).
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