References
- Alkemade, R., van Oorschot, M., Miles, L. et al. (2009). GLOBIO3: A Framework to Investigate Options for Reducing Global Terrestrial Biodiversity Loss. Ecosystems, 12; 374–390. DOI: 10.1007/s10021-009-9229-5
- ARCDATA PRAHA [online]. (2021). CBD. Retrieved November 21, 2021, from http://download.arcdata.cz/data/ArcCR_500-3.3-Popis-dat.pdf
- Bennett, V.J. (2017). Effects of Road Density and Pattern on the Conservation of Species and Biodiversity. Curr Landscape Ecol Rep 2, 1–11.
- Bobbink, R. (2004). Plant Species Richness and the Exceedance of Empirical Nitrogen Critical Loads: An Inventory. Manuskript, Utrecht University: Utrecht, The Netherlands; 20. Convention on Biological Diversity [online]. (2021). CBD. Retrieved November 21, 2021, from
- Fick, S.E. and R.J. Hijmans, (2017). WorldClim 2: new 1 km spatial resolution climate surfaces for global land areas. International Journal of Climatology 37 (12): 4302-4315.
- Chytrý, M.; Kučera, T.; Kočí, M.; Grulich, V.; Lustyk, P. (2010). Catalog of Habitats of the Czech Republic, 2nd ed.; Nature Conservation Agency of the Czech Republic, Prague, Czech Republic; 447.
- Kaňková, H. (2013). Assesment of Land Use Influence on Landscape Naturalness. Master’s Thesis. Charles University in Prague, Prague, Czech Republic.
- Kučera, T.; Pojer, F. (2011). Habitat mapping for the European Natura 2000 system in the Czech Republic. Habitats and Their Vegetation Interpretation in the Czech Republic. In Kucera, T., Navrátilová, J., Eds.; Czech Botanical Society: Prague, Czech Republic (3–6), 1st ed.
- Lustyk, P., Oušková, V. (2011). Habitat mapping layer and its updating – The First Possibilities of data Comparison. Ochrana Přírody, 66; 20–22.
- Pechanec, V., Cudlín, P., Cudlín, O. (2016). Adaptation of GLOBIO3 model to local conditions of the Czech Republic. In. Inspector T., Horák, J., Růžička, J. (eds.) GIS Ostrava 2016 - Geoinformatics for society (pp. 1-5). Ostrava: VSB - Technical University of Ostrava, Czech Republic. ISBN 978-80-248-3902-8
- Pechanec, V., Cudlín, O., Zapletal, M. et al. (2021). Assessing Habitat Vulnerability and Loss of Naturalness: Applying the GLOBIO3 Model in the Czech Republic. Sustainability; 13, 5355. DOI: 10.3390/su13105355
- Schipper, A.; Tillmanns, M.; Geisen, P. et al. (2017). Compiling biodiversity accounts with the GLOBIO model: a case study of Mexico. The Hague: PBL Netherlands Environmental Assessment Agency, 2607
- Stržínek, F. (2018). Multiscale Application of the Model GLOBIO. Master’s Thesis, Palacky University in Olomouc, Olomouc, Czech Republic.
- Šerá, B. (2008). Road vegetation in Central Europe – An example from the Czech Republic. Biologia; 63, 1085–1088.
- Švecová, M., Smrž J., Petr J. (2007). Biodiversity and sustainable development. Environmental Education Club: Prague, Czech Republic; 70.
- Van Rooij, W. (2008). Manual for Biodiversity Modelling on a National Scale. Using GLOBIO3 and CLUE Methodology to Calculate Current and Future Status of Biodiversity; Case study area: Zambia, PBL Netherlands Environmental Assessment Agency: Bilthoven, The Netherlands, 2008; 25 p.
- UBA. (2004). Manual on Methodologies and Criteria for Modelling and Mapping Critical Loads and Levels and Air Pollutions Effects, Risks and Trends; Federal Environmental Agency (Umweltbundesamt): Berlin, Germany; p. 52.
- Vondráková, A., Vávra, A., Voženílek, V. (2013): Climatic Regions of the Czech Republic. Journal of Maps 9(3), 425–430. DOI: 10.1080/17445647.2013.800827.
- World Wildlife Fund [online]. (2021) WWF. Retrieved November 21, 2021, from
- Zapletal, M.; Skořepová, I.; Buriánek, V. (2014). The Condition of Forest Soils as A Determining Factor in The Development of Health Status, Biodiversity and the Fulfillment of Production and Non-Production Functions of Forests; Report on the Progress of the Project NAZVQI112A168; Forestry and Game Management Research Institute: Prague, Czech Republic.