CONNECTION BETWEEN RADIAL INCREMENT AND TREE VITALITY OF SIBERIAN STONE PINE
The connection between tree vitality and radial increment of Siberian stone pine was studied. Clear-cut distinctions between crown transparency and stem radial increment were established. The decreasing of radial increment of the weakened and extremely weakened trees is conditioned by the reaction to crown defoliation by European pine sawfly Neodiprion sertifer Geoffr. Other factors (rots, concurrence, climatic characteristics and tree age) in an investigated stand did not influence tree vitality and radial increment of Siberian stone pine.
Download file
Counter downloads: 435
Keywords
tree vitality, radial increment, Siberian stone pine, кедр сибирский, жизненное состояние, радиальный приростAuthors
| Name | Organization | |
| Demidko Denis A. | Altai State education academy | sawer_beetle@mail.ru |
| Krivets Svetlana А. | Institute of monitoring of climatic and ecological systems of Siberian Branchof Russian Academy of Sciences | krivec@mbox.ru |
| Bisirova Elvina M. | Institute of monitoring of climatic and ecological systems of Siberian Branchof Russian Academy of Sciences | bissirovaem@mail.ru |
References
Ваганов Е.А., Шашкин A.B. Рост и структура годичных колец хвойных. Новосибирск: Наука, 2000. 232 с.
Справочное пособие по таксации лесов Сибири / Под ред. Э.Н. Фалалеева. Красноярск: Ин-т леса и древесины им. В.Н. Сукачева СО АН СССР, 1974. Т. 1. 155 с.
Garcia-Abril An., Martin-Fernández S., Grande M.An., Manzanera J.A. Stand structure, competition and growth of Scots pine (Pinus sylvestris L.) in a Mediterranean mountainous environment//Annals of Forest Science. 2007. Vol. 64. P. 825-830.
Solberg S., Moshaug E. Crown condition of Norway spruce: within stand relationships and competition //Forestry. 1999. Vol. 72, №4. P. 329-336.
Vanninen Р., Mäkelä An. Needle and stem wood production in Scots pine (Pinus sylvestris) trees of different age, size and competitive status // Tree Physiology. 2000. Vol. 20, № 8. P. 527-533.
Bert G.D. Impact of ecological factors, climatic stresses, and pollution on growth and health of silver fir (Abies alba Mill.) in the Jura Mountains: an ecological and dendrochronological study //Acta Oecologica. 1993. Vol. 14, № 2. P. 229-246.
Демидко Д.А., Кривец С.А., Бисирова Э.М. Связь радиального прироста кедра сибирского со вспышками массового размножения рыжего соснового пилильщика в южной тайге Западной Сибири // Материалы науч. конф. «Эколого-географические аспекты лесообразовательного процесса». Красноярск: Институт леса им. В.Н. Сукачева СО РАН, 2009. С. 373-376.
Хоничев Н.В., Кривец С.А., Бисирова Э.М. Массовые размножения рыжего соснового пилильщика в припоселковых кедровниках Томской области // Популяционная экология животных: Материалы междунар. конф. Томск: Изд-во ТГУ, 2006. С. 70-72.
Плешаков A.C., Пиндюра Е.С. Патология кедра в очагах сибирского шелкопряда // Влияние антропогенных и природных факторов на хвойные деревья (патология и резистентность). Иркутск, 1975. С. 215-240.
Camarero J.J., Martin E., Gil-Pelegrin E. The impact of a needleminer (Epinotia subsequana) outbreak on radial growth of silver fir (Abeis alba) in the Aragón Pyrenees: A dendrochronological assessment//Dendrochronologia. 2003. Vol. 21, № 1. P. 3-12.
Krause С., Gionest F., Morin H., MacLean D.A. Temporal relation between defoliation caused by spruce budworm (Choristoneura fumiferana Clem.) and growth of balsam fir (Abies balsamea (L.)Mill.)//Dendrochronologia. 2003. Vol. 21,№ 1. P. 23-31.
Коломиец Н.Г., Стадницкий Г.В., Воронцов А.И. Рыжий сосновый пилильщик (распространение, биология, вред, естественные враги, меры борьбы). Новосибирск: Наука, 1972. 145 с.
Бех И.А. Кедровники южного Приобья. Новосибирск: Наука, 1974. 210 с.
Kelsey Rick G., Joseph Gladwin, Thies Walter G. Sapwood and crown symptoms in ponderosa pine infected with black-stain and annosum root disease // Forest Ecology and Management. 1998. Vol. 111,№2-3. P. 181-191.
Ewald J. Ecological background of crown condition, growth and nutritional status of Picea abies (L.) Karst. in the Bavarian Alps // European Journal of Forest Research. 2005. Vol. 124. P. 9-18.
Klap J.M., Voshaar J.H.O., Vries W.De, Erisman J.W. Effects of environmental stress on forest crown condition in Europe. Part IV: Statistical analysis of relationships // Water, Air, & Soil Pollution. 2000. Vol. 119,№ 1^1. P. 387^120.
Kruskal W.H., Wallis W.A. Use of ranks in one-criterion variance analysis // Journal of the American Statistical Association. 1952. Vol. 47, № 260. P. 583-621.
Simes R.J. An improved Bonferroni procedure for multiple test of significance // Biometrica. 1986. Vol. 73, № 3. P. 751-754.
Кендалл М., Стьюарт А. Статистические выводы и связи. М.: Наука, 1973. 899 с.
Efron В. The jacknife, the bootstrap and other resampling Plans. Philadelphia, Pa.: SIAM, 1982.
Скороходов С.Н. Некоторые экологические аспекты формирования крон кедра сибирского//Проблемы кедра. 1992. Вып. 5. С. 131-137.
Solberg S. Crown density changes of Norway spruce and the influence from increased age on permanent monitoring plots in Norway during 1988-1997 // Forest Pathology. 1999b. Vol. 29, №3. P. 219-230.
Мюллер П., Нойман П., Шторм Р. Таблицы по математической статистике. М.: Финансы и статистика, 1982. 278 с.
Цыплаков A.A. Некоторые эконометрические методы. Метод максимального правдоподобия в эконометрии: Методическое пособие. Новосибирск: НГУ, 1997. 129 с.
Solberg S. Crown condition and growth relationships within stands of Picea abies II Scandinavian Journal of Forest Research. 1999a. Vol. 14, № 4. P. 320-327.
Григорьев A.A., Будыко М.И. Классификация климатов СССР // Известия АН СССР. Сер. географ. 1959. № 3. С. 25-34.
Алексеев В.А. Диагностика жизненного состояния деревьев и древостоев // Лесоведение. 1989. №4. С. 51-57.
Горский П. Система поддержки принятия решений. М.: Прототип, 2000. 15 с.
Семечкин К.В. Структура и динамика кедровников Сибири. Новосибирск: Изд-во СО РАН, 2002. 253 с.
Schweingruber F.-H. Tree rings: basics and applications of dendrochronology. Kluwer Academic Publishers: Dordrecht, Holland, 1988. 276 p.
Neuwirth В., Schweingruber F.-H., Winiger M. Spatial patterns of central European pointer years from 1901 to 1971 //Dendrochronologia. 2007. Vol. 24. P. 79-89.
Torelli N., Shortle W.C., Cufar К., Ferlin F., Smith K.T. Detecting changes in tree health and productivity of silver fir in Slovenia // Forest Pathology. 1999. Vol. 29, № 3. P. 189-197.
Dittmar C., Elling W. Dendroecological investigation of the vitality of Common Beech (Fagus sylvatica L.) in mixed mountain forests of the Northern Alps (South Bavaria) // Dendrochronologia. 2007. Vol. 25, № 1. P. 37-56.
Standovdr Т., Somogyi Z. Corresponding patterns of site quality, decline and tree growth in a sessile oak stand // Forest Pathology. 1998. Vol. 28, № 2. P. 133-144.
Алексеев A.C. Анализ экологической структуры популяций Picea abies (Pinaceae) в условиях атмосферного загрязнения // Ботанический журнал. 1990. Т. 75, № 9. С. 12771284.
Solla A., Sanchez-Miranda A., Camarero J.J. Radial-growth and wood anatomical changes in Abies alba infected by Melampsorella caryophyllacearum: a dendroecological assessment of fungal damage //Annals of Forest Science. 2006. Vol. 63. P. 293-300.
Пальникова E.H., Свидерская И.В., Суховольский В.Г. Сосновая пяденица в лесах Сибири: экология, динамика численности, влияние на насаждения. Новосибирск: Наука, 2002. 232 с.
Filip G.M., Rosso P.H. Cypress mortality (mal del cipres) in the Patagonian Andes: comparisons with similar forest diseases and declines in North America // Forest Pathology. 1999. Vol. 29, № 2. P. 89-96.
Cherubini P., Fontana G., Rigling D., Dobbertin M., Brang P., Innes J.L. Tree-life history prior to death: two fungal root pathogens affect tree-ring growth differently // Journal of Ecology. 2002. Vol. 90, № 5. P. 839-850.
Levanic Т., Eggertsson O. Climatic effects on birch (Betula pubescens Ehrh.) growth in Fnjoskadalur valley, northern Iceland // Dendrochronologia. 2008. Vol. 25. P. 135-143.
Dobbertin M. Tree growth as indicator of tree vitality and of tree reaction to environmental stress: a review//European Journal of Forest Research. 2005. Vol. 124,№4. P. 319-333.
Haavik L.J., Stephen F.M., Fierke M.K., Salisbury V.B., Leavitt S.W., Billings S.A. Dendrochronological parameters of northern red oak {Quercus rubra L. (Fagaceae)) infested with red oak borer (Enaphalodes rufulus (Haldeman) (Coleoptera: Cerambycidae) // Forest Ecology and Management. 2008. Vol. 255. P. 1501-1509.
Eilmann В., Weber P., Rigling A., Eckstein D. Growth reactions of Pinus sylvestris L. and Quercus pubescens Willd. to drought years at a xeric site in Valais, Switzerland // Dendrochronologia. 2006. Vol. 23. P. 121-132.
Nellemann C., Thomsen M.G. Long-term changes in forest growth: potential effects of nitrogen deposition and acidification // Water, Air, & Soil Pollution. 2001. Vol. 128, № 3-4. P. 197-205.
Webster K.L., Creed I.F., Nicholas N.S., Miegroet H. van. Exploring interactions between pollutant emissions and climatic variability in growth of red spruce in the Great Smoky Mountains National Park // Water, Air, & Soil Pollution. 2004. Vol. 159, № 1. P. 225-248.
Innes J.L. Observations on the Condition of Beech (Fagus sylvatica L.) in Britain in 1990 // Forestry. 1992. Vol. 65, № 1. P. 35-60.
Eckmüllner О., Sterba H. Crown condition, needle mass, and sapwood area relationships of Norway spruce (Picea abies) // Canadian Journal of Forest Research. 2000. Vol. 30. № 10. P. 1646-1654.
Manual on methodologies and criteria for harmonized sampling, assessment, monitoring and analysis of the effects of air pollution on forests. Hamburg, Prague: BFH and Sachsische Zeitung, 1994. 177 p.
