Biometric Parameters of Planting Material as a Test Indicator of Success of Pinus silvestris L. Plantations
DOI:
https://doi.org/10.37482/0536-1036-2021-4-107-116Keywords:
artificial plantings, pine, forest crops, seedlings, productivity of stands, quality of planting materialAbstract
The creation and cultivation of artificial plantations of conifers largely depends on the planting material quality. The paper is devoted to the study of the relationship between the main parameters of planting material of Scots pine (Pinus silvestris L.) with inventory indices of artificial plantations. Forest trials of Scots pine in the Arkhangelsk region, created in a haircap-moss forest site type, were investigated. Seedlings of Scots pine with standard size were divided into large, medium, small according to the diameter of the root cervix in order to set the experiment, which aimed to determine the relationship between the parameters of planting material and characteristics of the forming plantations. The research purpose determined the main task, mainly, to find out from which plants the “trees of the future” (fast-growing large specimens) are laid out. Plants grown from the large seedlings are characterized by the greatest height. This position, in relation to individuals formed from medium and small planting material, is maintained and gradually increases. From the initial phases of development, a kind of mobile equilibrium is established in the studied plantation. All the trees are growing at a very fast rate, but the initial (at the time of planting on the silvicultural area) size of the planting material corresponding to the pine plants that survived in different years on the plantations continues to remain constant. It was found that, the largest number of leaders (47 % of all survived seedlings) grew of the large seedlings by the end of the 2nd age class. Therefore, high-quality soil treatment together with the use of high-quality proportionally developed planting material significantly increases the inventory indices of plants in the stand, and allows getting the target assortments15–20 years earlier.
For citation: Sungurova N.R., Drochkova A.A. Biometric Parameters of Planting Material as a Test Indicator of Success of Pinus silvestris L. Plantations. Lesnoy Zhurnal [Russian Forestry Journal], 2021, no. 4, pp. 107–116. DOI: 10.37482/0536-1036-2021-4-107-116
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References
Вайс А.А. Мониторинг таксационных показателей пихтовых насаждений Средней Сибири на основе таблиц хода роста // Эпоха науки. 2016. № 5. С. 74–78.
Wais A.A. Monitoring of Taxation Indicators of Cedar Plantings of Central Siberia on the Basis of Tables of the Course of Growth. Epokha nauki [Era of Science], 2016, no. 5, pр. 74–78.
Маслаков Е.Л. Структура и густота древостоев при плантационном лесовыращивании // Выращивание и формирование высокопродуктивных насаждений в южной подзоне тайги. Л.: ЛенНИИ ЛХ, 1984. С. 104–111.
Maslakov E.L. Structure and Density of Forest Stands in Plantation Forest Cultivation. Cultivation and Formation of Highly Productive Plantations in the Southern Taiga Subzone. Leningrad, LenNIILKh Publ., 1984, pp. 104–111.
Мочалов Б.А. Рекомендации и технологические карты по выращиванию саженцев сосны и ели в питомниках северной и средней подзон тайги европейской части России. Архангельск: СевНИИ ЛХ, 2005. 35 с.
Mochalov B.A. Recommendations and Technological Charts for Growing Seedlings of Pine and Spruce in Nurseries of Northern and Middle Taiga Subzones of the European Part of Russia. Arkhangelsk, NRIF Publ., 2005. 35 p.
Нуреева Т.В., Мифтахов Т.Ф., Чурикова М.Н., Белоусов А.А., Краснов В.Г. Состояние и продуктивность искусственных сосняков, созданных на сельскохозяйственных землях, в заповеднике «Большая Кокшага» // Научные труды Государственного природного заповедника «Большая Кокшага». Йошкар-Ола: Марийский гос. ун-т, 2013. Вып. 6. С. 185–198.
Nureyeva T.V., Miftakhov T.F., Churikova M.N., Belousov A.A., Krasnov V.G. The State and Productivity of Homogeneous Pine Forests Located on the Agricultural Lands in the Bolshaya Kokshaga Reserve. Proceedings of the Bolshaya Kokshaga Nature Reserve. Yoshkar-Ola, MarSU Publ., 2013, vol. 6, pр. 185–198.
Пигарев Ф.Т., Беляев В.В., Сунгуров Р.В. Комплексная оценка качества посадочного материала и его применение на Европейском Севере. Архангельск: АИ ЛиЛХ, 1987. 14 с.
Pigarev F.T., Belyayev V.V., Sungurov R.V. Integrated Assessment of the Quality of Planting Material and Its Application in the European North. Arkhangelsk, AILiLKh Publ., 1987. 14 p.
Пигарев Ф.Т., Сунгуров Р.В., Гаевский Н.П., Козловский В.Д. Рост, изменчивость и строение культур сосны, созданных разными сеянцами // Вопросы экономики лесного хозяйства и лесоустройства на Европейском Севере. Архангельск, 1987. С. 104–110.
Pigarev F.T., Sungurov R.V., Gaevskiy N.P., Kozlovskiy V.D. Growth, Variability and Structure of Pine Crops Created by Different Seedlings. Issues of Forest Economics and Forest Management in the European North. Arkhangelsk, 1987, pp. 104–110.
Рогозин М.В. Селекция сосны обыкновенной для плантационного выращивания: моногр. / Перм. гос. нац. исслед. ун-т. Пермь, 2013. 200 с.
Rogozin M.V. Selection of Scots Pine for Plantation Cultivation: Monograph. Perm, PSU Publ., 2013. 200 р.
Рогозин М.В., Разин Г.С. Лесные культуры Теплоуховых в имении Строгановых на Урале: история, законы развития, селекция ели / под ред. М.В. Рогозина. Пермь, 2011. 192 с.
Rogozin M.V., Razin G.S. Teploukhovs’ Forest Plantations in the Stroganov Estate in the Urals: History, Laws Development, Selection of Spruce. Ed. M.V. Rogozin. Perm, 2011. 192 p.
Рогозин М.В., Разин Г.С. Развитие древостоев. Модели, законы, гипотезы: моногр. / под ред. М.В. Рогозина; Перм. гос. нац. исслед. ун-т. Пермь, 2015. 11 Мб. 1 электрон. опт. диск (CD-ROM).
Rogozin M.V., Razin G.S. Development of Tree Stands. Models, Laws, Hypotheses: Monograph. Ed. by M.V. Rogozin. Perm, PSU Publ., 2015.
Ромедер Э., Шенбах Г. Генетика и селекция лесных пород. М.: Сельхозиздат, 1962. 268 с.
Rohmeder E., Schönbach H. Genetik und Züchtung der Waldbäume [Genetics and Breeding of Forest Species]. Trans. from German. Moscow, Selkhozizdat Publ., 1962. 268 p.
Сунгурова Н.Р., Сунгуров Р.В. Анализ состояния и роста культур сосны и ели в северо-таежном районе // Изв. вузов. Лесн. журн. 2015. № 2. С. 70–79.
Sungurova N.R., Sungurov R.V. The Analysis of the Condition and Growth of Pine and Spruce Crops in the North-Taiga District. Lesnoy Zhurnal [Russian Forestry Journal], 2015, no. 2, pр. 70–79. DOI: https://doi.org/10.17238/issn0536-1036.2015.2.70
Baumanis I., Lipins L. Forest Science in Latvia. Baltic Forestry, 1995, vol. 1, no. 1, pр. 22–29.
Gabrilavičius R. Genotypic Structure of Scots Pine Populations. Biology, 1994, no. 2, pр. 29–30.
Gabrilavičius R., Danusevičius I. Genetic Resources of Conifers and Their Conservation in Lithuania. Baltic Forestry, 1996, vol. 2, no. l, pр. 15–21.
Haapanen M. Evaluation of Options for Use in Efficient Genetic Field Testing of Pinus Sylvestris (L.). Research Papers 826. Finnish Forest Research Institute, 2002. 144 p.
Jansson G., Danell Ö., Stener L.-G. Correspondence between Single-Tree and Multiple-Tree Plot Genetic Tests for Production Traits in Pinus sylvestris. Canadian Journal of Forest Research, 1998, vol. 28, no. 3, pр. 450–458. DOI: https://doi.org/10.1139/x98-004
Kuuluvainen T., Wallenius T.H., Kauhanen H., Aakala T., Mikkola K., Demidova N., Ogibin B. Episodic, Patchy Disturbances Characterize an Old-Growth Picea abies Dominated Forest Landscape in Northeastern Euroрe. Forest Ecology and Management, 2014, vol. 320, pр. 96–103. DOI: https://doi.org/10.1016/j.foreco.2014.02.024
Lambeth C.C., Buijtenen J.P., Duke S.D., McCullough R.B. Early Selection is Effective in 20-Year-Old Genetic Tests of Loblolly Pine. Silvae genetica, 1983, vol. 32(5-6), pp. 210–215.
Lindgren D. Prediction and Optimization of Genetic Gain with Regard to Genotype x Environment Interaction. Studia forestalia snecica, 1982, vol. 166, рр. 15–24.
Mikola J. Progeny Testing in Conifers. Progeny Testing and Breeding Strategies: Proceedings of the Nordic Group of Tree Breeders, Edinburgh, October 6–10, 1993. Edited by S.J. Lee. Edinburgh, Forestry Commission, 1993, pр. 1–17.
Omelko A., Ukhvatkina O., Zhmerenetsky A., Sibirina L., Petrenko T., Bobrovsky M. From Young to Adult Trees: How Spatial Patterns of Plants with Different Life Strategies Change during Age Development in an Old-Growth Korean Pine-Broadleaved Forest. Forest Ecology and Management, 2018, vol. 411, pр. 46–66. DOI: https://doi.org/10.1016/j.foreco.2018.01.023
Rogozin M.V., Razin G.S. Development of the Forest Stand and Its Constant. Vestnik Permskogo universiteta. Seriya Biologiya [Bulletin of Perm University. Biology], 2012, no. 2, рр. 13–21.
Rogozin M.V., Razin G.S. Development of Forest Stands. Models, Laws, Hypotheses. Raleigh, NC, Lulu Press, 2015. 201 p.
Szymanski S. Wplyw jakosci sadzonek sosnowych na wzrost I roznicowanie sie drzewostanu. Pr. Komis. nauk rob. ikomis. nauk les. PTPN, 1979, no. 48, рр. 23–41