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Ferrara, G., G. Brunetti, 2010: Effects of the times of application of a soil humic acid on berry quality of table grape (Vitis vinifera L.) cv Italia. Spanish Journal of Agricultural Research, 8 (3): 817-822.
Freeman, C. C., R. K. Rabeler, W. J. Elisens, 2012: Flora of North America, Provisional Publication,Vol.17. http://floranorthamerica.org/files/Paulowniaceae04%20SI.CH%20for%20web.pdf
Goodwin, B. J., A. J. McAllister, L. Fahrig, 1999: Predicting invasiveness of plant species based on biological information. Conserv. Biol., 13 (2): 422-426.
Grubišić, D., R. Konjević, 1992. Light and temperature action on germination of seeds of
the empress tree (Paulownia tomentosa). Physiol. Plant, 86: 479–483.
Herron, P. M., C. T. Martine, A. M. Latimer, S. A. Leicht-Young, 2007: Invasive plants and their ecological strategies: prediction and explanation of woody plant invasion in New England. Diversity Distrib., 13: 633-644.
Joshee, N., 2012: Paulownia. In Handbook of Bioenergy Crop Plants; C. Kole, C. P. Joshi,
D. R. Shonnard, Eds.; CRC Press: New York, NY, USA, 671–686 str.
Kumarmangalam Yadav, N., V. Brajesh Nanda, H. Kyle, L. Jennifer Frost, S. Whitley Marshay, D. Sadanand Arun, J. Nirmal, 2013: A Review of Paulownia Biotechnology: A Short Rotation, Fast Growing Multipurpose Bioenergy Tree. American Journal of Plant Sciences, 4: 2070-2082.
Li, P., J. Oda, 2007: Flame Retardancy of Paulownia Wood and Its Mechanism. Journal of Material Science, 42 (20): 8544-8550.
http://dx.doi.org/10.1007/s10853-007-1781-9
Lopez, F., A. Perez, M. A. M. Zamudio, H. E. De Alva, J. C. Garcia, 2012: Paulownia as Raw Material for Solid Biofuel and Cellulose Pulp. Biomass and Bioenergy, 45: 77-86.
Lu, X., Y. Xong, 1986: Chinese Paulownia, A Marvellous Tree Species, The Chinese Academy of Forestry, Research Institute of Forestry, Beijing, China. Dhiman, R. C.,1997: An eco-friendly multi-purpose species: Paulownia. MFP-News, 7 (4): 14-16.
Madeira, M.V., S. Fabiao, J. S. Pereira, M. C. Araújo, C. Ribeiro, 2002: Changes in carbon stocks in Eucalyptus globulus Labill. plantations induced by different water and nutrient availability. For. Ecol. Manag.,171: 75–85.
Martin, P. H., C. D. Canham, P. L. Marks, 2009: Why forests appear resistant to exotic plant invasions: intentional introductions, stand dynamics, and the role of shade tolerance. Front. Ecol. Environ., 7 (3): 142-149.
Mehrotra, M. D., 1996: Multiplication of VAMF on Paulownia – a veritable Possibility. Indian Forester, 122 (9): 858–860.
Melhuish, Jr., J. H., C. E. Gentry, P. R. Beckjord, 1990: Paulownia tomentosa seedling growth at differing levels of pH, nitrogen, and phosphorus. J. Environ. Hort., 8 (4): 205–207.
Nagy, J., 2003: Effect of Irrigation on Maize Yield (Zea mays L.). In Acta Agraria Debreceniensis; University of Debrecen, Centre for Agricultural Sciences, Faculty of Agricultural Sciences, Department of Land Use and Rural Development: Debrecen, Hungary, 1–6 str.
Nardi, S., G. Concheri, G. Dell’Agnola:1996. Biological activity of humus. In: Humic substances in terrestrial ecosystems (Piccolo A., ed). Elsevier, NY, USA. 361-406 str.
Rejmanek, M.; D. M. Richardson:1996. What attributes make some plant species more invasive? Ecology, 77 (6): 1655-1661.
Stringer, J. 1986: A practical method for production of Paulownia tomentosa. Tree Planters’ Notes, 37 (2): 8–11.
Sujan, S., 2002: Mass production of AM Fungi: Part 1. Mycorrhiza News, 14 (3).
Sylvia, D. M., S. E. Williams, 1992: Vesicular-arbuscular mycorrhizae and environmental stress, pp 101–124. In Linderman, R.G., and G.J. Bethlenfalvay (Eds.). Mycorrhizae in Sustainable Agriculture. Special publication No. 54, American Society of Agronomy, Madison, WI.
Sylvia, D. M. 1998: Overview of mycorrhizal symbioses. Mycorrhiza Information Exchange. http://mycorrhiza.ag.utk.edu/
Turner, G. D., R. R. Lau, D. R. Young, 1988: Effect of acidity on germination seedling growth of Paulownia tomentosa, Journal of Applied Ecology, 25: 561-567.
Ulu, F., S. Cetiner, N. Eren, S. Ayan, 2002: Results of the field stage in third year of species and provenances trials of Paulownia Sieb.& Zucc. in Eastern Black Sea Region. Proceedings IUFRO Meeting Management of Fast Growing Plantations (Edited by: A. Diner, M. Ercan, C. Goulding, T. Zoralioğlu), DIV.4.04.06, 11th-13th September 2002, Izmit, Turkey. 174-182 str.
Varanini, Z., R. Pinton, 2001: Direct versus indirect effects of soil humic substances on plant growth and nutrition. In: The rhizosphere: biochemistry and organic substances at the soil-plant interface (Pinton R., Z. Varanini, P. Nannipieri, eds). Marcel Dekker Inc, NY, USA. 141-157 str.
Vaughand, D., R. E. Malcolm, 1985. Influence of humic substances on growth and physiological process. In: Soil organic matter and biological activity (Vaughan D., R. E. Malcolm, eds). Martinus-Nijhoff, Boston, MA, USA. 37-75 str.
Yang, J.-C., C.-K. Ho, Z.-Z. Chen, S.-H. Chang, 1997: Paulownia taiwaniana (Taiwan Paulownia), in press. In: Bajaj, Y.P.S. (Ed.) Biotechnology of Trees, Vol. IV. Springer Verlag, New York.
Zhu, Z. H., C. J. Chao, X. Y. Lu, Y. G. Xiong, 1986:: Paulownia in China: Cultivation and Utilization, Asian Network for Biological Sciences and International De- velopment Research Centre, Singapore, 1-65 str.
http://www2.ca.uky.edu/forestryextension/kwm/paulownia.pdf (08.02.2016.)
http://mzoip.evolare.host25.com/doc/iskaz_o_procjeni_ucinaka_propisa_1.pdf (08.02.2016.)
http://mycorrhizae.com/wp-content/uploads/2013/03/Mycorrhizal-Status-of-Plant-Families-and-Genera-PDF.pdf (08.02.2016.)
http://mzoip.hr/doc/stavljanje_na_trziste_i_uvodenje_u_prirodu_stranih_vrsta.pdf (08.02.2016.)
http://www.worldpaulownia.com/ (08.02.2016.)
http://www.hear.org/pier/wra/pacific/paulownia_tomentosa_htmlwra.htm (08.02.2016.)
http://mzoip.evolare.host25.com/doc/iskaz_o_procjeni_ucinaka_propisa_1.pdf.
http://mzoip.hr/doc/stavljanje_na_trziste_i_uvodenje_u_prirodu_stranih_vrsta.pdf.