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Apicultural Science, 53(2), 69-77. Calderone N.W., & Page R.E. (1988). Genotypic variability in age polyethism and task specialization in the honeybee, Apis mellifera (Hymenoptera: Apidae). Behavioral Ecology and Sociobiology, 22(1), 17-25. DOI: 10.1007/BF00395694 Chakroborty N.K., Bienefeld K., & Menzel R. (2015). Odor learning and odor discrimination of bees selected for enhanced hygienic behavior. Apidologie, 46(4), 499-514. DOI: 10.1007/s13592-014-0342-x Charbonneau D., Blonder B., & Dornhaus A. (2013). Social insects: a model system for network dynamics. In: Temporal

., Preston, C. R., Woodbridge, B., Williams, G. E., Keller, K. R. & Crandall, R. H. 2017. Spatial and temporal patterns in Golden Eagle diets in the Western United States, with implications for conservation Planning. – Journal of Raptor Research 51(3): 347–367. DOI: 10.3356/JRR-16-38.1 Belik, V., Galushin, V. & Bogomolov, D. 2002. Results of the Imperial Eagle (Aquila heliaca) project in Russia during 1996 and 1997. – Aquila 107–108: 177–181. Bihari, Z. 2004. A hörcsög (Cricetus cricetus) magyarországi elterjedésének változása az elmúlt 50 év alatt [Changes in the

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References Ågren J., Ehrlén J. & Solbreck Ch. 2008. Spatio-temporal variation in fruit production and seed predation in a perennial herb influenced by habitat quality and population size. J. Ecol. 96(2): 334-345. http://dx.doi.org./10.1111/j.1365-2745.2007.01334.x Antkowiak W. 1999. Ecological structure of Trollius europaeus L. subsp. europaeus in northwestern Poland. Rocz. AR. Pozn. 346, Bot. 2: 3-17. Antkowiak W. 2002. I nterpopulation v ariability o f g lobe flower (Trollius europaeus L. subsp. europaeus) in north-western Poland. Rocz. AR. Pozn. 347, Bot 5: 3

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population. Journal of Applied Ecology , 48 (3): 806–814. https://doi.org/10.1111/j.1365-2664.2011.01981.x H olling , C.S., 1959. Some characteristics of simple types of predation and parasitism. The Canadian Entomologist, 91 (7): 385–398. https://doi.org/10.4039/Ent91385-7 K aranth , K. U., S rivathsa , A., V asudev , D., P uri , M., P arameshwaran , R., K umar , N.S., 2017. Spatio-temporal interactions facilitate large carnivore sympatry across a resource gradient. Proceedings of the the Royal Society. Biological Sciences , 284 (1848): 20161860. https://doi.org/10

, J. & Bogaert, J. (2008). Influence des actions anthropiques sur la dynamique spatio-temporelle de l’occupation du sol dans la province du Bas-Congo (RD Congo). Sciences & Nature 5: 49–60 Barima, Y.S.S, Barbier, N., Bamba, I., Traoré, D., Lejoly, J., & Bogaert, J. (2009). Dynamique paysagère en milieu de transition forêt-savane ivoirienne. Bois et Forêt des Tropiques 299: 15-25 Baskent, E.Z., & Kadiogullari, A.I. (2007). Spatial and temporal dynamics of land use pattern in Turkey: a case study in Inegöl. Landscape Urban Plan 81:316-327. Bottomley, B. (1998

ABSTRACT

This paper presents an analysis of the flow regime of the Timiş River in Romania. The analysis was based on hydrological data provided by the National Institute of Hydrology and Water Management in specialized publications (hydrological yearbooks or online series). The data were supplemented by personal observations in the field. The following leakage parameters were analyzed: average flow (monthly, seasonal, annual), maximum flow (especially flash floods) and minimum leakage. This paper highlights the link between hydrological parameters and conditioning factors of spatial distribution (characteristics of the geological substratum, relief units, elevation, slope) and temporal variation of flow (in function of type of supply, and variability and variation of climatic conditions).