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ŠUMARSKI LIST 7-8/2023 str. 74     <-- 74 -->        PDF

Kebert, M., Kostić, S., Zlatković, M., Stojnic, S., Čapelja, E., Zorić, M., Kiprovski, B., Budakov, D. and Orlović, S., 2022a. Ectomycorrhizal Fungi Modulate Biochemical Response against Powdery Mildew Disease in Quercus robur L. Forests, 13(9): 1491.
Kebert, M., Vuksanović, V., Stefels, J., Bojović, M., Horák, R., Kostić, S., Kovačević, B., Orlović, S., Neri, L., Magli, M. and Rapparini, F., 2022b. Species-Level Differences in Osmoprotectants and Antioxidants Contribute to Stress Tolerance of Quercus robur L., and Q. cerris L. Seedlings under Water Deficit and High Temperatures. Plants, 11(13): 1744.
Kebert, M., Kostić, S., Čapelja, E., Vuksanović, V., Stojnić, S., Markić, A.G., Zlatković, M., Milović, M., Galović, V. and Orlović, S., 2022c. Ectomycorrhizal Fungi Modulate Pedunculate Oak’s Heat Stress Responses through the Alternation of Polyamines, Phenolics, and Osmotica Content. Plants, 11(23): 3360.
Kesić, L., Cseke, K., Orlović, S., Stojanović, D.B., Kostić, S., Benke, A., Borovics, A., Stojnić, S. and Avramidou, E.V., 2021. Genetic Diversity and Differentiation of Pedunculate Oak (Quercus robur L.) Populations at the Southern Margin of Its Distribution Range—Implications for Conservation. Diversity, 13(8): 371.
Konnert, M., Maurer, W., Degen, B. and Kätzel, R., 2011. Genetic monitoring in forests – early warning. php?id=571. Accessed 25-01-2023.
Kostić, S., Levanič, T., Orlović, S., Matović, B. and Stojanović, D.B., 2019. Pedunculate and Turkey oaks radial increment and stable carbon isotope response to climate conditions through time. Topola, 204: 29-35.
Kostić, S., Orlović, S., Karaklić, V., Kesić, L., Zorić, M. and Stojanović, D.B., 2021a. Allometry and post-drought growth resilience of pedunculate oak (Quercus robur L.) varieties. Forests, 12(7): 930.
Kostić, S., Wagner, W., Orlović, S., Levanič, T., Zlatanov, T., Goršić, E., Kesić, L., Matović, B., Tsvetanov, N. and Stojanović, D.B., 2021b. Different tree-ring width sensitivities to satellite-based soil moisture from dry, moderate and wet pedunculate oak (Quercus robur L.) stands across a southeastern distribution margin. Science of The Total Environment, 800: 149536.
Kostić, S., Kesić, L., Matović, B., Orlović, S., Stojnić, S. and Stojanović, D.B., 2021c. Soil properties are significant modifiers of pedunculate oak (Quercus robur L.) radial increment variations and their sensitivity to drought. Dendrochronologia, 67: 125838.
Kostić, S., Levanič, T., Orlović, S., Matović, B. and Stojanović, D.B., 2022. Turkey oak (Quercus cerris L.) is more drought tolerant and better reflects climate variations compared to pedunculate oak (Quercus robur L.) in lowland mixed forests in northwestern Serbia: A stable carbon isotope ratio (δ13C) and radial growth approach. Ecological Indicators, 142: 109242.
Kottek, M., Grieser, J., Beck, C., Rudolf, B. and Rubel, F., 2006. World map of the Köppen-Geiger climate classification updated.
Kremer, A., Dupouey, J.L., Deans, J.D., Cottrell, J., Csaikl, U., Finkeldey, R., Espinel, S., Jensen, J., Kleinschmit, J., Van Dam, B. and Ducousso, A., 2002. Leaf morphological differentiation between Quercus robur and Quercus petraea is stable across western European mixed oak stands. Annals of Forest Science, 59(7): 777-787.
Madrigal-González, J., Herrero, A., Ruiz-Benito, P. and Zavala, M.A., 2017. Resilience to drought in a dry forest: insights from demographic rates. Forest ecology and management, 389: 167-175.
Marković, Č. and Stojanović, A., 2011. Phloemophagous and xylophagous insects, their parasitoids, predators and inquilines in the branches of the most important oak species in Serbia. Biologia66(3), pp.509-517.
Medarević, M., Banković, S., Cvetković, Đ. and Abjanović, Z., 2009. Problem sušenja šuma u Gornjem Sremu. Šumarstvo, 61(3-4): 61-73.
Mihajlović, Lj., 2015. Forest entomology, University of Belgrade, Faculty of Forestry, 925 pp.
Mikac, S., Žmegač, A., Trlin, D., Paulić, V., Oršanić, M. and Anić, I., 2018. Drought-induced shift in tree response to climate in floodplain forests of Southeastern Europe. Scientific reports, 8(1): 1-12.
Muir, G. and Schloetterer, C., 2005. Evidence for shared ancestral polymorphism rather than recurrent gene flow at microsatellite loci differentiating two hybridizing oaks (Quercus spp.). Molecular ecology, 14(2): 549-561.
Namkoong, G., Boyle, T., Gregorious, H.R., Joly, H., Savolainen, O., Ratman, W., Young A., 1996. Testing criteria and indicators for assessing the sustainability of forest management: genetic criteria and indicators. Centre for International Forestry Research. CIFOR Working Paper, No. 10. Bogor, Indonesia.
Namkoong, G., Boyle, T., El-Kassaby, Y.A., Palmberg-Lerche, C., Eriksson, G., Gregorius, H.-R., Joly, H., Kremer, A., Savolainen, O., Wickneswari, R., Young, A., Zeh-Nlo, M. & Prabhu, R. [2002 but unpublished]. Criteria and indicators for sustainable forest management: Assessment and monitoring of genetic variation. [FAO] Forest Genetic Resources Working Papers, Working Paper FGR/37E.
Neophytou, C., Aravanopoulos, F.A., Fink, S. and Dounavi, A., 2010. Detecting interspecific and geographic differentiation patterns in two interfertile oak species (Quercus petraea (Matt.) Liebl. and Q. robur L.) using small sets of microsatellite markers. Forest Ecology and Management, 259(10): 2026-2035.
Pellegrini, E., Hoshika, Y., Dusart, N., Cotrozzi, L., Gérard, J., Nali, C., Vaultier, M.N., Jolivet, Y., Lorenzini, G. and Paoletti, E., 2019. Antioxidative responses of three oak species under ozone and water stress conditions. Science of the total environment, 647: 390-399.
Petridis, A., Therios, I., Samouris, G., Koundouras, S. and Giannakoula, A., 2012. Effect of water deficit on leaf phenolic composition, gas exchange, oxidative damage and antioxidant activity of four Greek olive (Olea europaea L.) cultivars. Plant physiology and biochemistry, 60: 1-11.
Pilipović, A., Zalesny Jr, R.S., Rončević, S., Nikolić, N., Orlović, S., Beljin, J. and Katanić, M., 2019. Growth, physiology, and phytoextraction potential of poplar and willow established in soils amended with heavy-metal contaminated, dredged river sediments. Journal of environmental management, 239: 352-365.
Pilipović, A., Drekić, M., Stojnić, S., Nikolić, N., Trudić, B., Milović, M., Poljaković-Pajnik, L., Borišev, M. and Orlović, S., 2020. Physiological responses of two pedunculate oak (Quercus robur L.) families to combined stress conditions–drought and herbivore attack. Šumarski list, 144(11-12): 573-582.
Popović, B.M. and Štajner, D., 2008. Oxidative stress in plants. (On Serbian) Faculty of Agriculture, University of Novi Sad.
Popović, B.M., Štajner, D., Ždero, R., Orlović, S. and Galić, Z., 2013. Antioxidant characterization of oak extracts combining spectrophotometric assays and chemometrics. The Scientific World Journal2013.
Popović, B.M., Štajner, D., Ždero-Pavlović, R., Tari, I., Csiszár, J., Gallé, Á., Poór, P., Galović, V., Trudić, B. and Orlović, S., 2017.