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ŠUMARSKI LIST 9-10/2021 str. 14     <-- 14 -->        PDF

physiological control by plants or the demand by the atmosphere? Adv Water Resour, 30: 2113-2122.
de Jong, G., 2005: Evolution of phenotypic plasticity: patterns of plasticity and the emergence of ecotypes, New Phytol, 166: 101-117.
de Rigo, D., G. Caudullo, 2016: Quercus ilex in Europe: distribution, habitat, usage and threats, U: J. San-Miguel-Ayanz, D. de Rigo, G. Caudullo, T. Houston Durrant, A. Mauri (ur.), European Atlas of Forest Tree Species, Publ. Off. EU, Luxembourg, pp. e014bcd+.
Evans, J. R., 1989: Photosyntesis and nitrogen relationsheep in leaves C3 plants. Oecologia, 78: 9-19.
Gil-Pelegrín, E., M. Á. Saz, J. M. Cuadrat, J. J. Peguero-Pina, D. Sancho-Knapik, 2017: Oaks under Mediterranean-type climates: functional response to summer aridity, U: Gil-Pelegrín, E., M. Á. Saz, J. M. Cuadrat, J. J. Peguero-Pina, D. Sancho-Knapik (ur.), Oaks physiological ecology. Exploring the functional diversity of genus Quercus L., Springer, 137-193, Cham.
Gimeno, T., B. Pias, J. P. Lemos-Filho, F. Valladares, 2009: Plasticity and stress tolerance override local adaptation in the responses of Mediterranean holm oak seedlings to drought and cold, Tree Physiol, 29: 87-98.
Gratani, L.,M. Meneghini, P. Pesoli, M. F. Crescente, 2003: Structural and functional plasticity of Quercus ilex seedlings of different provenances in Italy, Trees-Struct Funct, 17: 515-521.
Lamont, B. B., P. K. Groom, R.M. Cowling, 2002: High leaf mass per area of related species assemblages may reflect low rainfall and carbon isotope discrimination rather than low phosphorus and nitrogen concentrations, Funct Ecol, 16: 403-412.
Mediavilla, S., A. Escudero 2003: Stomatal responses to drought at a Mediterranean site: A comparative study of co-occurring woody species differing in leaf longevity, Tree Physiol, 23: 987-996.
Nardini, A., M. A. Lo Gullo, P. Truifilo, S. Salleo, 2014: The challenge of the Mediterranean climate to plant hydraulics: responses and adaptations, Environ Exp Bot, 103: 68-79.
Niinemets, Ü., 2015: Is there a species spectrum within the world-wide leaf economics spectrum? Major variations in leaf functional traits in the Mediterranean sclerophyll Quercus ilex, New Phytol, 205: 79-96.
Niinemets, Ü., A. Díaz-Espejo, J. Flexas, J. Galmés, C.R. Warren, 2009: Role of mesophyll diffusion conductance in constraining potential photosynthetic productivity in the field, J Exp Bot, 60: 2249-2270.
Niinemets, Ü., T. Keenan, 2014: Photosynthetic responses to stress in Mediterranean evergreens: mechanisms and models, Environmental and Experimental Botany 103: 24-41.
Niinemets, Ü., 2001: Global-scale climatic controls of leaf dry mass per area, density,and thickness in trees and shrubs, Ecology, 82: 453-469.
Peguero-Pina, J. J., D. Sancho-Knapik, E. Barrón, J. J. Camarero, A. Vilagrosa, E. Gil-Pelegrín, 2014: Morphological and physiological divergences within Quercus ilex support the existence of different ecotypes depending on climatic dryness, Ann Bot, 114: 301-313.
Peguero-Pina, J. J., S. Sisó, J. Flexas, J. Galmés, Ü. Niinemets, D. Sancho-Knapik, E. Gil-Pelegrín, 2017: Coordinated modifications in mesophyll conductance, photosynthetic potentials and leaf nitrogen contribute to explain the large variation in foliage net assimilation rates across Quercus ilex provenances, Tree Physiol, 37: 1084-1094.
Peppe, D. J., D. L. Royer, B. Cariglino, S.Y. Oliver, S. Newman, E. Leight, G. Enikolopov, M. Fernandez-Burgos, F. Herrera, J. M. Adams et al., 2011: Sensitivity of leaf size and shape to climate: global patterns and paleoclimatic applications, New Phytol, 190: 724-739.
Pérez-Harguindeguy, N., S. Diaz, E. Garnier, S. Lavorel, H. Poorter, P Jaureguiberry, M. S. Bret-Harte, W. K. Cornwell, J. Craine, D. Gurvich, C. Urcelay, E. Veneklaas, P. Reich, L. Poorter, I. J. Wright, P. Ray, L. Enrico, J. G. Pausas, A. C. Vos, J. Cornelissen, 2013: New handbook for standardise measurement of plant functional traits worldwide. Aust J Bot, 61: 167-234.
Reich, P. B., I. J. Wright, C. H. Lusk, 2007: Predicting leaf physiology from simple plant and climate attributes: a global Glopnet analysis, Ecology, 17: 1982-1988.
Sardans, J., J. Peñuelas, 2013: Plant-soil interactions in Mediterranean forest and shrublands: impacts of climatic change, Plant Soil 365: 1-33.
Seletković, Z., I. Tikvić, M. Vučetić, D. Ugarković, 2011: Klimatska obilježja i vegetacija sredozemne Hrvatske, U: S. Matić (ur.), Šume hrvatskog Sredozemlja, Akademija šumarskih znanosti, 142-156, Zagreb.
Sever, K., S. Bogdan, J. Franjić, Ž. Škvorc, 2018: Nedestruktivna procjena koncentracije fotosintetskih pigmenata u lišću hrasta lužnjaka (Quercus robur L.), Šumar list, 142: 247-257.
Sever, K., M. Hrust, Ž. Škvorc, S. Bogdan, I. Seletković, N. Potočić, J. Franjić, 2016: Pouzdanost procjene stanja ishrane hrasta lužnjaka (Quercus robur L.) s dušikom pomoću prijenosnog klorofilmetra CCM-200, Šumar list, 140: 465-475.
Sultan, S. E., 2000: Phenotypic plasticity for plant development, function and life history, Trends Plant Sci, 5: 537-542.
TIBCO Software Inc. 2018: Statistica (data analysis software system), version 13. http://tibco.com.
Traiser C, S. Klotz, D. Uhl, V. Mosbrugger, 2005: Environmental signals from leaves - a physiognomic analysis of European vegetation, New Phytol, 166: 465-484.
Valladares, F., L. Balaguer, E. Martınez-Ferri, E. Perez-Corona, E. Manrique, 2002: Plasticity, instability and canalization: is the phenotypic variation in seedlings ofsclerophyll oaks consistent with the environmental unpredictability of Mediterranean ecosystems? New Phytol, 156: 457-467.
Valladares, F., E. Ferri-Martinez, L. Balaguer, E. Perez-Corona, E. Manrique, 2000: Low leaf-level response to light and nutrients in Mediterranean evergreen oaks: aconservative resource-use strategy? New Phytol, 148: 79.-91.
Varone, L., M. Vitale, R. Catoni, L. Gratani, 2016: Physiological differences of five Holm oak (Quercus ilex L.) ecotypes growing under common growth conditions were related to native local climate, Plant Spec Biol, 31: 196-210.
WinFolia TM, 2001: Regent Instruments Inc., Quebec, Canada, version PRO 2005b.
Wright, I. J., P. B. Reich, J. C. Cornelissen, D. S. Falster, P. K. Groom, K. Hikosaka, W. Lee, C. H. Lusk, Ü. Niinemets, J. Oleksyn, et al., 2005: Modulation of leaf Economic traits and trait relationships by climate, Global Ecol Biogeogr, 14: 411-421.
Wright, I. J., P. B. Reich, M. Westoby, D. D. Ackerly, Z. Baruch, F. Bongers, et al. 2004: The world-wide leaf economics spectrum, Nature, 428: 821-827.