DIGITALNA ARHIVA ŠUMARSKOG LISTA
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light-loving or partial shade species (C. atlantica, P. abies, P. omorika, P. pungens, P. nigra and P. menziesii), or group cooperation as shade-loving species (A. alba, A. concolor and T. baccata), which is something to be taken into consideration when setting up parks in the future. ACKNOWLEDGEMENTS ZAHVALE This study was supported by the Ministry of Science, Technological Development and Innovation of the Republic of Serbia, grant numbers: 451-03-47/2023-01/200027 and 451-03-47/2023-01/200169. REFERENCES LITERATURA Apple M., K. Tiekotter, M. Snow, J. Young, A. Soeldnerb, D. Phillips, D. Tingey, B. J Bond, 2002: Needle anatomy changes with increasing tree age in Douglas-fir. Tree Physiol, 22(2-3):129-136. Aranda, I., L. Castro, M. Pardos, L. Gil, J.A. Pardos, 2005: Effects of the interaction between drought and shade on water relations, gas exchange and morphological traits in cork oak (Quercus suber L.) seedlings. For Ecol Manage, 210(1-3):117-129. Donovan, R.G., H.E. Stewart, S.M. Owen, A.R. MacKenzie, C.N. Hewitt, 2005: Development and application of an urban tree air quality score for photochemical pollution episodes using the Birmingham, United Kingdom, area as a case study. Environ Sci Technol, 39(17):6730-6738. Dutilleul, P., L. Han, F. Valladares, C. Messier, 2015: Crown traits of coniferous trees and their relation to shade tolerance can differ with leaf type: a biophysical demonstration using computed tomography scanning data. Front Plant Sci, 6:172. Freer-Smith, P. H., K. P. Beckett, G. Taylor 2005: Deposition velocities to Sorbus aria, Acer campestre, ‘Beaupre’, Pinus nigra and x Cupressocyparis leylandii for coarse, fine and ultra-fine particles in the urban environment. Environ Pollut, 133(1):157-167. Gebauer, R., D. Volařík, J. Urban, I. Børja, N.E. Nagy, T.D. Eldhuset, P. Krokene, 2019: Effects of mild drought on the morphology of sun and shade needles in 20- year-old Norway spruce trees. IForest, 12(1):27-34. Hällgren, J.E., S.Å. Fredriksson, 1982: Emission of hydrogen sulfide from sulfur dioxide-fumigated Pine trees. Plant Physiol, 70(2):456-459. Holmgren, M., 2000: Combined effects of shade and drought on tulip poplar seedlings: trade-off in tolerance or facilitation? Oikos, 90(1):67-78. Janković, M., 1973: Enciklopedijski leksikon mozaik znanja – Biologija, Interpres, Tom 19, Beograd. Jovanović, B., 1967: Dendrologija sa osnovama fitocenologije. Naučna knjiga, 576 str., Beograd. Martin, R.E., G.P. Asner, L.P. Bentley, A. Shenkin, N. Salinas, K.Q. Huaypar, M.M. Pilco, F.D. Ccori Alvarez, B.J. Enquist, S. Diaz, Y. Malhi, 2020: Covariance of sun and shade leaf traits along a tropical forest elevation gradient. Front Plant Sci,10:1810. Mori A., H. Takeda, 2004: Functional relationships between crown morphology and within-crown characteristics of understory saplings of three codominant conifers in a subalpine forest in central Japan. Tree Physiol, 24(6):661-670. Nikolić, M.B., A.M. Stefanović, M.M. Veselinović, D.S. Milanović, D.K. Mladenović, Ž.S. Mitrović, M.S. Eremija, B.Lj Rakonjac, 2019: Needle morpho-anatomy and pollen morpho-physiology of selected conifers in urban conditions. Appl Ecol Env Res, 17(2):2831-2848. Osada, N., 2012: Crown exposure to light and tree allometry of 11 tree species in a snowy cool-temperate forest in Japan. Plant Ecol, 213(5):783-794. Robakowski, P., T. Wyka, S. Samardakiewicz, D. Kierzkowski, 2004: Growth, photosynthesis and needle structure of silver fir (Abies alba Mill.) seedlings under different canopies. For Ecol Manage, 201(2-3):211-227. Shenkin, A., B. Bolker, M. Peña-Claros, J.C. Licona, N. Ascarrunz, F. E. Putz, 2018: Interactive effects of tree size, crown exposure and logging on drought-induced mortality. Philos Trans R Soc B, 373:20180189. Tyukavina, O. N., N. A. Neverov, D. N. Klevtsov, 2019a: Influence of growing conditions on morphological and anatomical characteristics of pine needles in the northern taiga. J For Sci, 65(1):33-39. Tyukavina, O. N., N. A. Neverov, A. L. Mineev, 2019b: Variations in the length of Scots pine (Pinus sylvestris L.) needles under the influence of climatic factors and solar activity in different conditions of northern taiga. J For Sci, 65(8):313-320. Vukićević, E. 1982: Dekorativna dendrologija. Univerzitet u Beogradu, 781 str., Beograd. Wyckoff, P.H., J.S. Clarck, 2005: Tree growth prediction using size and exposed crown area. Can J For Res, 35(1):13-20. Sažetak Analizirano je 66 stabala devet vrsta četinjača: atlaskog cedra, crnog bora, bodljikave smreke, duglazije, obične smreke, šumske tise, Pančićeve omorike, koloradske jele i obične jele, iz šest beogradskih parkova. Analizirano je pet iglica sa svake od četiri glavne ekspozicije krošnje. Ispitivana je duljina, širina, površina i opseg iglica. Vrste, parkovi u kojima su pronađene, kao i ekspozicije njihovih kruna, razlikovali su se po duljini i širini iglica. Korelacije između izmjerenih svojstava iglica određene su linearnom regresijskom analizom. Utvrđene su jake pozitivne korelacije između duljine, opsega i površine iglica. Razlike među vrstama u zahtjevima za svjetlom određuju vrste za pojedinačnu sadnju kao vrste koje vole svjetlo ili polusjenu (atlaski cedar, obična smreka, Pančićeva omorika, bodljikava smreka, crni bor i duglazija) ili za grupnu sadnju kao sjenoljubne vrste (obična jela, dugoigličava jela i šumska tisa). Ključne riječi: četinjače, korelacije, izloženost, morfologija iglica, parkovi |