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Impact of secondary landscape structure on the presence of non-native plant species in the cadastral area of the Topoľčany town

of selected GIS extensions for the analysis of secondary landscape structure of the Handlová town. In H. Svobodová (Ed.), Geography and geoinformatics: Challenge for practise and education . Proceedings of 19th International Conference (pp. 132–140). Brno: Masarykova univerzita. Oláhová, J., Vojtek, M. & Boltižiar M. (2013). Application of geoinformation technologies for the assessment of landscape structure using landscape-ecological indexes (case study of the Handlová landslide). Tájökológiai Lapok , 11(2), 351−366. Pauková, Ž. & Eliáš P. (2010

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Data sources on landscape structure in a highly industrialized area

. Wyd. PWN. Warszawa. Mapa hydrograficzna Polski 1:50 000, sheets: M-34-62-A, M-34-62-B, M-34-62-C, M-34-62-D, M-34-63-A, Gł. Geodeta Kraju, Warszawa, 2001. Mapa topograficzna Polski 1:10 000, sheet: M-34-62-B-c-2, Gł. Geodeta Kraju, Warszawa, 1994. Mazurek K. 2014a. Landscape structure changes in the Slepiotka River drainage basin in the period 1824-1993 (The Silesian Upland, Poland). Contemporary Trends in Geosci., 3: 32-40. Mazurek K. 2014b. Rozwój górnictwa węgla kamiennego w Rudzie Śląskiej od XVIII

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Landscape Metrics as a Tool for Evaluation Landscape Structure – Case Study Hustopeče

.1016/j.ecolind.2006.08.001. [3] Hayriye, E., Bulent, D., Baris, K., et al. (2010). Analyzing landscape changes in the Bafa Lake Nature Park of Turkey using remote sensing and landscape structure metrics. Environmental Monitoring and Assessment 165(1-4), 617-632. Doi: 10.1007/s10661-009-0973-y. [4] Fladmark, J., Mulvagh, G. & Evans, M. (1991). Tomorrow's Architectural heritage:Landscape and Buildings in the Countryside . Edinburgh and London:Mainstream Publishing. [5] Forman, R.T., Godron, M (1993). Krajinná ekologie

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Development of soil parameters and changing landscape structure in conditions of cold mountain climate (Case Study Liptovsk Á Teplička)

. Sarkar, B., Patra, A.K., Purakayastha, T.J. & Megharaj M. (2009). Assessment of biological and biochemical indicators in soil under transgenic Bt and non-Bt cotton crop in a sub-tropical environment. Environ. Monit Assess. , 156, 595−604. DOI: 10.1007/s10661-008-0508-y. Sinsabaugh, R.L., Findlay, S., Franchini, P. & Fischer D. (1997). Enzymatic analysis of riverine bacterioplankton production. Limnol. Oceanogr ., 48(1), 29-38. Solar, V. (2012). Changes of the city of Poprad from the point of view of landscape structure. In H. Svobodova

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Land use changes and development of the non-forest woody vegetation in the Danubian Lowland in Slovakia

over the past 300 years. Journal of Geography Science, 25:1045–1057. Gemerský, V., 1961: Skúsenosti s ochrannými lesnými pásmi na Žitnom ostrove. Vedecké práce VÚLH v Banskej Štiavnici, No. 2, Bratislava, SAV, p. 153–228. Hernik, J. (ed.), 2009: Cultural landscape-across disciplines. Krakow, Branta, 365 p. Insley, H. (ed.), 1988. Farm Woodland Planning. London, Forestry Commission, Bulletin, 80, 142 p. Jurko, A., 1990: Ekologické a socioekonomické hodnotenie vegetácie. Bratislava, VEDA SAV, 200 p. Kuczman, G., 2014: Landscape structure

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Delimitation of landscape units treated as estimation fields in the modelling of a landscape system


The main objective of this paper is to represent the hierarchical structure of an environment by using two concepts: typology and regionalization. The Płock Region (1,766.95 sq. km) and transect crossing this area (796.2 sq. km) is the research location. It was divided into 710 individual landscape units (319 in the transect border). The existing physical-geographical regionalization, including macro-, meso- and micro-regions, was elaborated using a deductive (top-down) method, which was supplemented by a more detailed regionalization, obtained by an inductive (bottom-up) method called analysis of borders (Richling 1976). The study area was divided into more detailed sub-regions: first-level regions (87 units), second-level regions (36 units) and third-level regions (9 units). In fact, the landscape structure of third-level regions is similar to micro-regions. This is proof of the complementary nature of the two approaches – deductive and inductive regionalization, and the hierarchical landscape structure.

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Spatial expansion pattern of black cherry Padus serotina Ehrh. in suburban zone of Białystok (NE Poland)

ecology of invasive spread. Conserv. Biol. 16(5): 1192-1203. Wołkowycki D. 2004. The influence of some features of the landscape structure on the flora of alien woody species. Ecol. Questions 4: 133-140.

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Land-Use Change Related to Topography and Societal Drivers in High-Mountains – A Case Study in the Upper Watershed of the Tergi (Kazbegi Region), Greater Caucasus

–1978. DOI: 10.1002/joc.1276. [25] Hoechstetter, S., Walz, U., Dang, L. H. & Thinh, N. X. (2008). Effects of topography and surface roughness in analyses of landscape structure – a proposal to modify the existing set of landscape metrics. Landscape Online 3, 1–14. DOI: 10.3097/LO.200803. [26] Hüller, S., Heiny, J. & Leonhäuser, I.-U. (2017). Linking agricultural food production and rural tourism in the Kazbegi district – A qualitative study. Annals of Agrarian Sciences 15(1), 40–48. DOI: 10.1016/j.aasci.2017.02.004. [27] Kegel, H. (2003). The

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Assessment of ecological values of greening landscape elements in the Great Hungarian Plain

–424. Máté, K., Kollányi, L. 2016. The potential impact of greening as a directed land use on the landscape structure. In Valánszki, I., Jombach, S., Filep-Kovács, K., Fábos, J. Gy., Ryan, R. L., Lindhult, M. S., Kollányi, L. (eds), Greenways and Landscapes in Change – Proceedings of 5th Fábos Conference on Landscape and Green-way Planning. Budapest, 30 June, 2016, 79–87. Mairota, P., Cafarelli, B., Boccaccio, L., Leronni, V., Labadessa, R., Kosmidou, V., Nagendra, H. 2013. Using landscape structure to develop quantitative baselines for protected area monitoring

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Cross-Border Comparison of Non-Forest Woody Vegetation in the White Carpathians (Central Europe) Over Last 65 Years

use on landscape structure and arable weed vegetation over the last 50 years. Agric. Ecosyst. Environ. 115, 43-50. Benčať, T. & Jančura P. (2008). The importance and function of woods in landscape character. In T. Benčať, P. Jančura, & D. Daniš (Eds.), Selected problems of landscape in submountain and mountain areas (5-8 p.), Poniky, Publishing of Janka Čižmárová – Partner. Bíčík, I., Jeleček L. & Štěpánek V. (2001). Land use changes and their social driving forces in Czech Republic in the 19 th and 20 th century. Land Use Policy, 18, 65

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