prilagođeno pretraživanje po punom tekstu

ŠUMARSKI LIST 3-4/2018 str. 33     <-- 33 -->        PDF

spring bud burst and growth in Douglas-fir (Pseudotsuga menziessi),Tree Physiology, 18: 671-679.
Hänninen, H., 1990: Modelling bud dormancy release in trees from cool and temperate regions, Acta Forestalia Fennica, 213: 1-47.
Hänninen, H., K. Kramer, 2007: A framework for modelling the annual cycle of trees in boreal and temperate regions, Silva Fennica, 41(1): 167-205.
Heide, O., 1993: Daylength and thermal time responses of budburst during dormancy release in some northern decidious trees, Physiologia Plantarum, 88(4): 531-540.
Hollister, R.D., P.J. Webber, C. Bay, 2005: Plant response to temperature in northern Alaska: implications for predicting vegetation change, Ecology, 86: 1562-1570.
Hunter, A.F., M.J. Lechowicz,1992: Predicting the timing of budburst in temperate trees, Journal of Applied Ecology, 29: 597-604.
Hunter, M.D., 1992: A variable insect plant interaction: The relationship between tree bud burst phenology and population levels of insect herbivores among trees, Ecological Entomology, 16: 91-95.
Jazbec, A., K. Šegotić, M. Ivanković, H. Marjanović, S. Perić, 2007: Ranking of European beech provenances in Croatia using statistical analysis and analytical hierarchy process, Forestry, 80: 151-162.
Kajba, D., N. Pavičić, S. Bogdan, I. Katičić, 2008: Pomotechnical treatments in the broadleave clonal seed orchard, Seed Orchard Conference, Umeå (Sweden), September 26-28: 95-103.
Kasprzyk, I., 2009: Forecasting the start of Quercus pollen season using several methods – the evaluation of their efficiency, International Journal of Biometeorology, 53: 345-353.
Katičić, I., S. Bogdan, K. Sever, Z. Šatović, D. Kajba, 2010: Genetic structure and variability of phenological forms of pedunculate oak (Quercus robur L.) from clonal seed orchards in Croatia. Forest ecosystem genomics and adaptation; Vincente B, Neate P (eds), Bioversity International and INIA, 181 pp.
Kilpelainen, A., H. Peltola, I. Rouvinen, S. Kellomaki, 2006: Dynamics of daily height growth in Scots pine trees at elevated temperature and CO2, Trees-Structure and Function, 20: 162-7.
Klepac, D., 2000: The biggest forest of pedunculate oak in Croatia: Spačva. Hrvatske šume, HAZU Vinkovci, 117 pp.
Körner, C., D. Basler, 2010: Phenology under global warming, Science, 327(5972): 1461-1462.
Kramer, K., 1994: Selecting a model to predict the onset of growth of Fagus sylvatica, Journal of Applied Ecology, 31: 172-181.
Kramer, K., I. Leinonen, D. Loustau, 2000: The importance of phenology for the evaluation of impact of climate change on growth of boreal temperate and Mediterranean forests ecosystems: an overview,International Journal of Biometeorology, 44: 67-75.
McMaster, G.S., W.W. Wilhelm, 1997: Growing degree-days: one equation, two interpretations, Agricultural and Forest Meteorology, 87: 291-300.
Mátyás, V., 1967: Tölgy makk - termesztes. In: A tölgyek; Keresztesi B (ed), Akadémiai kiadó, Budapest, 204-237.
Menzel, A., 2000: Trends in phenological phases in Europe between 1951 and 1996, International Journal of Biometeorology, 44: 76-81.
Menzel, A., 2002: Phenology: its importance to the global change community, Climate Change, 54: 379-385.
Menzel, A., N. Estrella, P. Fabian, 2001: Spatial and temporal variability of the phenological seasons in Germany from 1951 to 1996, Global Change Biology, 7: 657-666.
Morin, X., J. Roy, L. Sonie, I. Chuine, 2010: Changes in leaf phenology of three European oak species in response to experimental climate change, New Phytology, 186: 900-910.
Murray, M.B., M.G.R. Cannell, R.I. Smith, 1989: Date of budburst of fifteen tree species in Britain following climatic warming, Journal of Applied Ecology, 26: 693-700.
Nizinski, J.J., B. Saugier, 1988: A model of leaf budding and development for a mature Quercus forest, Journal of Applied Ecology, 25: 643-652.
Nienstaedi, H., 1966: Dormancy and dormancy release in white spruce, Forest Science, 12: 374-384.
Perić, S., J. Gračan, B. Dalbelo-Bašić, 2000: Flushing variability of pedunculate oak (Quercus robur L.) in the provenance experiment in Croatia, Glasnik za šumske pokuse, 37: 395-412.
Phillimore, A.B., K. Proios, N. O’Mahony, R. Bernard, A.M. Lord, S. Atkinson et al., 2013: Inferring local processes from macro-scale phenological pattern: a comparison of two methods, Journal of Ecology, 101: 774-783.
Repo, T., H. Hanninen,S. Kellomaki, 1996: The effects of long-term elevation of air temperature and CO2 on the frost hardiness of Scots pine, Plant, Cell& Environment, 19: 209-216.
Rousi, M., J. Pusenius, 2005: Variations in phenology and growth of European white birch (Betula pendula) clones, Tree Physiology, 25: 201-210.
Sarvas, R., 1972: Investigations on the annual cycle of development on forest trees active period,Communicationes Instituti Forestalis Fenniae, 76: 110.
Sarvas, R., 1974: Investigations on the annual cycle of development of forest trees. Autumn dormancy and winter dormancy,Communicationes Instituti Forestalis Fenniae,84: 101.
Sanz-Perez, V., P. Castro-Diez, F. Valladares,2009: Differential and interactive effects of temperature and photoperiod on budburst and carbon reserves in two co-occurring Mediterranean oaks, Plant Biology, 11: 142-151.
Schütte, F., 1957: Untersuchungen über die Populationsdynamik des Eichenwicklers Tortrix viridiana L. Z. Angew, Entomology, 40: 1-36.
Schwartz, M., 2003: Phenology: An integrative environmental science, Springer, New York, 610 pp.
Snyder, R.L., 1985: Hand calculating degree days, Agricultural and Forest Meterology, 35: 353-358.
Sokal, R., F.J. Rohlf, 1995: Biometry: the principles and practice of statistics in biological research, W. H. Freeman and Company, New York, 880 pp.
Sparks, T.H.,P.D. Carey, 1995: The responses of species to climate over two centuries: an analysis of the Marsham phenological record, 1736–1947, Journal of Animal Ecology, 83: 321-329.
StatSoft, Inc. 2013 STATISTICA (data analysis software system) version 11.0
Stojković, M., 1991: Varijabilnost i nasljednost listanja hrasta lužnjaka (Quercus robur L.), Glasnik za šumske pokuse, 27: 227-259.
Tikkanen, O.P., R. Julkunen-Tiltto, 2003: Phenological variation as protection against defoliating insects: the case of Quercus robur and Operophtera brumata, Oecologia, 136: 244-251.