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References Alhamad, MN, Alrababah, MA, Feagin, RA & Gharaibeh, A 2011, ‘Mediterranean drylands: The effect of grain size and domain of scale on landscape metrics’, Ecological Indicators, vol. 11, pp. 611–621. Ares, J, Bertiller, M & del Valle, H 2001, ‘Functional and structural landscape indicators of intensification, resilience and resistance in agroecosystems in southern Argentina based on remotely sensed data’, Landscape Ecology, vol. 16, pp. 221–234. Bailey, B, Billeter, R, Aviron, S, Schweiger O. & Herzog F 2007, ‘The influence of thematic resolution on

characteristic of landscape on land-cover mapping using remote sensing. Landsc. Ecol. , 10(6): 363-379. Neel, M.C., Mcgarigal, K. & Cushman, S.A. (2004). Behavior of class-level landscape metrics across gradients of class aggregation and area. Landsc. Ecol. , 19(2): 435-455. Ouattrochi, D.A., Goodchild, M.F. (1997). Scale in Remote Sensing and GIS. CRC Press LLC, Florida. Riitters, K., Wickham, J., O'neil, R., Jones, B. & Smith, E. (2000). Global-scale patterns of forest fragmentation. Conservation Ecol. , 4: 27-56. Sakura City (2006). Principles of Yatsu environmental

, M., Straub, A., Gimmi, U. & Salzmann D. (2009). The recent landscape history of Limpach valley, Switzerland: considering three empirical hypotheses on driving forces of landscape change. Landsc. Ecol., 25, 287-297. DOI: 10.1007/s10980-009-9412-2. Cramer, V.A., Hobbs, R.J. & Standish R.J. (2008). What’s new about old fields? Land abandonment and ecosystem assembly. Trends Ecol. Evol., 23, 104-112. DOI: 10.1016/j.tree.2007.10.005. Cushman, S.A., McGarigal, K. & Neel M.C. (2008). Parsimony in landscape metrics: strength, universality, and consistency. Ecological

of Hungary. Acta Botanica Hungarica 50, 161-177. Csorba, P. 2005. Hazai tájak ökológiai szempontú szerkezetének vizsgálata (Investigation of the ecological structure of Hungarian landscapes. (in Hungarian) http://geography.hu/mfk2006/pdf/Csorba%20P%E9ter.pdf (last available: 2013.02.04.) Csorba, P. 2007. Tájszerkezet-kutatások és tájmetriai mérések Magyarországon (Landscape structure studies and landscape metric measurements in Hungary). Academic Doctoral Thesis, Debrecen, 131 p. (in Hungarian) Fi, I., Bocz, P., Pethő, L., Tóth, Cs. 2012. Útburkolatok

' capacities to provide ecosystem services - a concept for land-cover based assessment. Landscape Online, Vol. 15, p. 1-22. CUSHMAN, S. A., MCGARIGAL, K., NEEL, M. C. (2008): Parsimony in landscape metrics: strength, universality and consistency. Ecological Indicators, Vol. 8, p. 691-703. DAUBER, J. et al. (2003): Landscape structure as an indicator of biodiversity: matrix effects on species richness. Agriculture, Ecosystems & Environment, Vol. 98, p. 321-329. de GROOT, R. (2006): Function-analysis and valuation as a tool to assess land use conflicts in planning for

, Sz. 2009. Tájmetriai mérőszámok alkalmazási lehetőségeinek vizsgálata a tájanalízisben [Examining application possibilities for landscape metrics in the landscape analysis]. – Habilitation thesis, Department of Landscape Protection and Environmental Geography, University of Debrecen (in Hungarian)

reproductive ecology of four plant species in mallee woodland. Conservation Biology 14:758-768 Dekker, A. (1985). Carte de paysage de la région du Ranch de Gibier de Nazinga, Burkina Faso . PNUD/FAO. DP/BKF/82/008 del Castillo, E.M., García-Martin, A., Aladrén, L.A.L., & de Luis, M. (2015). Evaluation of forest cover change using remote sensing techniques and landscape metrics in Moncayo Natural Park (Spain). Applied Geography 62:247-255 Dimobe, K., Ouédraogo, A., Soma, S., Goetze, D., Porembski, S. & Thiombiano, A. (2015). Identification of driving factors of land

landscape metrics, Forum Geografic, Studii şi cercetări de geografie şi protecţia mediului , 10, 1, 187-194. 28. Niculae M. A. I., 2012 – Evoluţia spaţială şi temporală a peisajelor din Subcarpaţii cuprinşi între Buzău şi Râmnicu Sărat, Edit. Universităţii din Bucureşti, Bucureşti. (in Romanian) 29. Pătroescu M. and Rozylowicz L., 2000 – Natural Transborder Parks: the direction of Biodiversity preservation in Romania, in Crabbe P. et al. (ed.) Implementing ecological integrity, Kluwer Academic Press, 101-113. 30. Pătroescu M., Chincea I., Pascovici N., Ioja C., Matacă S

). Historical Changes in the Land Use Connected with Appropriation of Agricultural Land – Case Study of Cadastral Areas Dolní Věstonice and Modřice (Czech Republic). European Countryside 9(4), 658–678. DOI: 10.1515/euco-2017-0038. [28] Tlapáková, L., Stejskalová, D., Karásek, P. & Podhrázská, J. (2013). Landscape Metrics as a Tool for Evaluation Landscape Structure – Case Study Hustopeče. European Countryside 5(1), 52–70. DOI: 10.2478/euco-2013-0004. [29] Wolman, M. G. (1967). A cycle of sedimentation and erosion in urban river channels. Geografiska Annaler, Series A

Turek). In the case of mining areas the main source of data was an orthophotomap of the Turek surroundings. The heads-up digitising method was used to determine 7 types of land cover classes according to the definitions of Corine Land Cover ( Kosztra et al. 2017 ). Fig. 2 Types of land use in the Adamów-Koźmin area. Explanation: A – pre-mining area (1940), B – mining area (2011). Source: own work. To assess the landscape pattern and its dynamics, class metrics and landscape metrics were applied, featuring the patches of land uses, their types and the mosaics which