[AL-ADAMAT, R., DIABAT, A., SHATNAWI, G. (2010): Combining GIS with multicriteria decision making for siting water harvesting ponds in Northern Jordan. Journal of Arid Environments, 74(11): 1471-1477.10.1016/j.jaridenv.2010.07.001]Search in Google Scholar
[ANTWI, E. K., KRAWCZYMSKI, R., WIEGLEB, G. (2008): Detecting the effect of disturbance on habitat diversity and land cover change in a post-mining area using GIS. Landscape and Urban Planning, 87(1): 22-32.10.1016/j.landurbplan.2008.03.009]Search in Google Scholar
[BAGAR, R., KLIMÁNEK, M. (1999): Hlavní příčiny a důsledky změněných ekologických podmínek v lesních ekosystémech lužní oblasti jižní Moravy. Ochrana přírody, 54(6): 178-182.]Search in Google Scholar
[BENJAMIN, K., DOMON, G., BOUCHARD, A. (2005): Vegetation composition and succession of abandoned farmland: effects of ecological, historical and spatial factors. Landscape Ecology, (2005) 20: 627-647.10.1007/s10980-005-0068-2]Search in Google Scholar
[BIČÍK, I., KUPKOVÁ, L., JELEČEK, L., KABRDA, J., ŠTYCH, P., JANOUŠEK, Z., WINKLEROVÁ, J. (2015): Land Use Changes in Czechia 1845-2010. Socio- Economic Driving Forces. Heildelberg, Springer.10.1007/978-3-319-17671-0]Search in Google Scholar
[BOGUSZAK, F., CÍSAŘ, J. (1961): Vývoj mapového zobrazení území ČSSR. III. Díl. Mapování a měření českých zemí od pol. 18. stol. do poč. 20. století. Praha, Kartografický a reprodukční ústav.]Search in Google Scholar
[BOGUSZAK, F., ŠLITR, J. (1962): Topografie. Praha, Státní nakladatelství technické literatury.]Search in Google Scholar
[BRAIL, R. K., KLOSTERMAN, R. E. (2001): Planning Support Systems. Integrating GIS, models and visualization tools. ESRI Press, Redlands, CA.]Search in Google Scholar
[BRUS, J., PECHANEC, V., KILIANOVÁ, H., MACHAR, I. (2013): The evolution of the floodplain forests as indicators of landscape changes in the alluvium of the Morava River. 21st International Conference on Geoinformatics 2013, June 20-22, Geoinformatics 2013. Kai Feng; China.10.1109/Geoinformatics.2013.6626117]Search in Google Scholar
[BRUS, J., DOBEŠOVÁ, Z., KAŇOK, J., PECHANEC, V. (2010). Design of Intelligent System in Cartography. 9th Roedunet IEEE International Conference, Sibiu, Romania.]Search in Google Scholar
[BUČEK, A., LACINA, J. (1994): Biogeografické poměry. In: Vybrané fyzickogeografické aspekty pro revitalizaci nivy Dyje v úseku VD Nové Mlýny - soutok s Moravou (pp. 30-35). Brno, Ústav geoniky AV ČR a ÚLBDT MZLU.]Search in Google Scholar
[CARLSON, B., WANG, D., CAPEN, D., THOMPSON, E. (2004): An evaluation of GIS-derived landscape diversity units to guide landscape-level mapping of natural communities. Journal for Nature Conservation, 12(1): 15-23.10.1016/j.jnc.2003.07.001]Search in Google Scholar
[CEBECAUEROVÁ, M. (2007): Analýza a hodnotenie zmien štruktúry krajiny (na príklade části Borskej nížiny a Malých Karpát). Geographica Slovaca, 24. Bratislava, Geografický ústav SAV.]Search in Google Scholar
[CLARK, F. S., SLUSHER, R. B. (2000): Using spatial analysis to drive reserve design: A case study of a national wildlife refuge in Indiana and Illinois (USA). Landscape Ecology, 15: 75-84.10.1023/A:1008121528773]Search in Google Scholar
[CUSHMAN, S. A., GUTZWEILER, K., EVANS, J. S., MCGARIGAL, K. (2010): The gradient paradigm: a conceptual and analytical framework for landscape ecology. In: Cushman, S. A., Huettmann, F. [eds.]: Spatial Complexity, Informatics and Wildlife Conservation (pp. 83-108). New York, Springer.10.1007/978-4-431-87771-4_5]Search in Google Scholar
[CSO (2015): Czech Statistical Office, Public Database [online]. [cit. 10.04.2015]. Available at: https://vdb.czso.cz/vdbvo/tabparam.jsp?voa=tabulka&cislotab=ZPR9010CU&&kapitola_id=10]Search in Google Scholar
[CÍSAŘ, J., BOGUSZAK, F., JANEČEK, J. (1966): Mapování. Praha, SNTL.]Search in Google Scholar
[ČAPEK, R., MIKŠOVSKÝ, M., MUCHA, L. (1992): Geografická kartografie. Praha, Státní pedagogické nakladatelství.]Search in Google Scholar
[DAUBER, J., HIRSCH, M., SIMMERING, D., WALDHARDT, R., OTTE, A., WOLTERS, V. (2003): Landscape structure as an indicators of biodiversity: Matrix effects on species richness. Agriculture, Ecosystems and Environment, 98: 321-329.10.1016/S0167-8809(03)00092-6]Search in Google Scholar
[DEÁK, A. J. (2007): 200 years of habitat changes and landscape use in the South-Tisza-valley, Hungary. In: Okruszko, T., Maltby, E., Szty³owicz, J., Šwi¹tek, D., Kotowski, W. [eds.]: Wetlands: Monitoring, Modelling and Management (pp. 45-54). London, Taylor & Francis Group.]Search in Google Scholar
[DEMEK, J., HAVLÍČEK, M., CHRUDINA, Z., MACKOVČIN, P. (2008): Changes in land-use and the river network of the Graben Dyjsko-svratecký úval (Czech Republic) in the last 242 years. Journal of Landscape Ecology (Brno), 1(2): 22-51.10.2478/v10285-012-0007-2]Search in Google Scholar
[DEMEK, J., MACKOVČIN, P., SLAVÍK, P. (2012): Spatial and temporal trends in land-use changes of Central European landscapes in the last 170 years: a case study from the south-eastern part of the Czech Republic. Moravian Geographical Reports, 20(3): 2-22.]Search in Google Scholar
[DRUGA, M., FALŤAN, V. (2014): Influences of environmental drivers on land cover structure and its long-term changes: a case study of the villages of Malachov and Podkonice in Slovakia. Moravian Geographical Reports, 22(3): 29-41.10.2478/mgr-2014-0016]Search in Google Scholar
[FARINA, A., BELGRANO, A. (2006): The Eco-field Hypothesis: Toward a Cognitive Landscape. Landscape Ecology, 21(1): 5-17.10.1007/s10980-005-7755-x]Search in Google Scholar
[FERANEC, J., NOVÁČEK, J. (2009): The CORINE land cover database of Slovakia and its changes in the period 2000-2006. Moravian Geographical Reports, 17(3): 2-9.]Search in Google Scholar
[FERANEC, J., JAFFRAIN, G., SOUKUP, T., HAZEU, G. (2010): Determining changes and flow in European landscapes 1990-2000 using CORINE land cover data. Applied Geography, 30(1): 19-65.10.1016/j.apgeog.2009.07.003]Search in Google Scholar
[FORMAN, R. T. T., GODRON, M. (1993): Krajinná ekologie. Praha, Academia.]Search in Google Scholar
[GEOPORTÁL ČÚZK (2017): State map at scale of 1 : 5,000. [online]. [cit. 24.02.2017]. Available at: http://geoportal.cuzk.cz/(S(32p4uwzxwfstkdm5a1u0wlrt))/Default.aspx?lng=EN&mode=TextMeta&text=dsady_mapy5&side=mapy5&menu=2224&head_tab=sekce-02-gp]Search in Google Scholar
[GERGEL, S. E. (2004): Spatial and non-spatial factors: When do they impact landscape indicators of watershed loading? Landscape Ecology, 20: 177-189.10.1007/s10980-004-2263-y]Search in Google Scholar
[GUSTAVSSON, E., LENNARTSSON, T., EMANUELSSON, M. (2007): Land use more than 200 years ago explains current grassland plant diversity in a Swedish agricultural landscape. Biological Conservation, 138: 47-59.10.1016/j.biocon.2007.04.004]Search in Google Scholar
[HAMILTON, A. J. (2005): Species diversity or biodiversity? Journal of Environmental Management, 75: 89-92.10.1016/j.jenvman.2004.11.01215748806]Search in Google Scholar
[HANNA, K. C. (1999): GIS for landscape architects. ESRI Press, Redlands, CA.]Search in Google Scholar
[HAVLÍČEK, M., BOROVEC, R., SVOBODA, J. (2009): Longterm changes in land use in the Litava River basin. Acta Pruhoniciana, 91: 31-37.]Search in Google Scholar
[HAVLÍČEK, M., KREJČÍKOVÁ, B., CHRUDINA, Z., SVOBODA, J. (2012): Long-term land use development and changes in streams of the Kyjovka, Svratka and Velička river basins (Czech Republic). Moravian Geographical Reports, 20(1): 28-42.]Search in Google Scholar
[HAVLÍČEK, M., PAVELKOVÁ-CHMELOVÁ, R., FRAJER, J., SKOKANOVÁ, H. (2014): The long-term development of water bodies in the context of land use: The Case of the Kyjovka and Trkmanka river basins (Czech Republic). Moravian Geographical Reports, 22(4): 39-50.10.1515/mgr-2014-0022]Search in Google Scholar
[HLÁSNY, T. (2007): Geografické informačné systémy - priestorové analýzy. Zvolen, Národné lesnícke centrum - ZEPHYROS.]Search in Google Scholar
[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: 1-14.10.3097/LO.200803]Search in Google Scholar
[HOHENSINNER, S., HABERSACK, H., JUNGWIRTH, M., ZAUNER, G. (2004): Reconstruction of the Characteristics of a Natural Alluvial River-floodplain System and Hydromorphological Changes following Human Modifications: the Danube River (1912-1991). Research and Applications, 20: 25-41.]Search in Google Scholar
[HOJOVEC, V., DANIŠ, M., HÁJEK, M., VEVERKA, B. (1987): Kartografie. Praha, Geodetický a kartografický podnik.]Search in Google Scholar
[HRESKO, J., PETROVIC, F., MISOVICOVA, R. (2015): Mountain landscape archetypes of the Western Carpathians (Slovakia). Biodiversity and Conservation, 24 (13): 3269-3283.10.1007/s10531-015-0969-6]Search in Google Scholar
[HRNČIAROVÁ, T. (2001): Ekologická optimalizácia poľnohospodárskej krajiny. Modelové územie Dolná Malanta. Bratislava, Veda.]Search in Google Scholar
[KIENAST, F. (1993): Analysis of historic landscape patterns with a geographical information system - a methodological outline. Landscape Ecology, 8: 103-118.10.1007/BF00141590]Search in Google Scholar
[KILIANOVÁ, H., PECHANEC, V., LACINA, J., HALAS, P. (2009): Ekotony v současné krajině: Analýza a modelování ekotonů v povodi Trkmanky. Olomouc, Univerzita Palackého v Olomouci.]Search in Google Scholar
[KILIANOVÁ, H., PECHANEC, V., SVOBODOVÁ, J., MACHAR, I. (2012): Analysis of the evolution of the floodplain in the alluvium of the Morava River. Conference Proceedings SGEM 2012, 12th International Multidisciplinary Scientific GeoConference. STEF92 Technology Ltd., Sofia, Bulgaria, IV: 1-8.10.5593/sgem2012/s15.v4001]Search in Google Scholar
[KOLEJKA, J. (1987): Landscape-historical Synthesis. Materials, Methods and Results. Ekólogia (ČSFR), 6(1): 51-62.]Search in Google Scholar
[KOPECKÁ, V., MACHAR, I., BUČEK, A., KOPECKÝ, A. (2013): The Impact of Climate Changes on Sugar Beet Growing Conditions in the Czech Republic. Listy cukrovarnicke a reparske, 129(11): 326-329.]Search in Google Scholar
[KOWALSKA, A. (2012): Changes in the Area of Protected Plant Communities in the Middle Vistula River valley in the second half of the 20th century. Polish Journal of Ecology, 60(1): 19-30.]Search in Google Scholar
[KRAUSMANN, F., HABERL, H., SCHULTZ, N. B., ERB K. H., DARGE, E., GAUBE, V. (2003): Land-use change and socioeconomic metabolism in Austria, Part I: Driving forces of land-use change: 1950-1995. Land Use Policy, 20(1): 1-20.]Search in Google Scholar
[KUBÍČEK, P., MULÍČKOVÁ, E., KONEČNÝ, M., KUČEROVÁ, J. (2011): Flood Management and Geoinformation Support within the Emergency Cycle (EU Example) In: Environmental Software Systems. Frameworks of eEnvironment (pp. 77-86). Chennai, India: Springer Berlin Heidelberg.10.1007/978-3-642-22285-6_9]Search in Google Scholar
[LACINA, D., DEMEK, J., MACKOVČIN, P., HAVLÍČEK, M. (2007): Land use changes in the town of Železna Ruda and its surroundings (Czech Republic) based on the analysis of historical maps from the period 1843-2005. Silva Gabreta, 13(3): 269-284.]Search in Google Scholar
[LAUSCH, A., BLASCHKE, T., HAASE, D., HERZOG, F., SYRBE, R. U., TISCHENDORF, L., WALZ, U. (2015): Understanding and quantifying landscape structure - A review on relevant process characteristics, data models and landscape metrics. Ecological Modelling, 295: 31-41.10.1016/j.ecolmodel.2014.08.018]Search in Google Scholar
[LIANG, Y., HE, H. S., LEWIS, B. L. (2011): Responses of tree species to climate warming at different spatial scales. Chinese Geographical Science, 21(4): 427-436.10.1007/s11769-011-0484-y]Search in Google Scholar
[LIPSKÝ, Z. (1995): The changing face of the Czech rural landscape. Landscape and Urban Planning, 31: 39-45.10.1016/0169-2046(94)01034-6]Search in Google Scholar
[LONGLEY, P. A., GOODCHILD, M., MAGUIRE, D. J., RHIND, D. W. (2010): Geographical information systems and science (3rd edition). Chichester, John Wiley & Sons.]Search in Google Scholar
[MACKOVČIN, P. (2009): Land use categorization based on topographic maps. Acta Pruhoniciana, 91: 5-14.]Search in Google Scholar
[MACKOVČIN, P., BALATKA, B., DEMEK, J., KIRCHNER, K., SLAVÍK, P. (2009): Geomorfologické jednotky. Mapa měřítka 1 : 500,000. In: Hrnčiarová, T., Mackovčin, P., Zvara, I. et al.: Atlas krajiny České republiky. Oddíl 4. Přírodní krajina, Pododdíl 4.4. Reliéf, mapa č. 80, s. 122-123. Praha, MŽP ČR, Výzkumný ústav Silva Taroucy pro krajinu a okrasné zahradnictví, v. v. i.]Search in Google Scholar
[MADĚRA, P., ÚRADNIČEK, L. (2000): Preliminary Study of Oak and Ash Growth Response on Changed Conditions of the Floodplain Forest Geobiocoene Hydrological Regime. In: Kulhavý, J., Hrib, M., Klimo, E. (2000): Management of Floodplain Forest in Southern Moravia (pp. 143-154). Židlochovice.]Search in Google Scholar
[MADĚRA, P., ŘEPKA, R., ŠEBESTA, J., KOUTECKÝ, T., KLIMÁNEK, M. (2013): Vascular plant biodiversity of floodplain forest geobiocoenosis in lower Morava River basin (forest district Tvrdonice), Czech Republic. Journal of Landscape Ecology (Brno), 6(2): 34-64.10.2478/v10285-012-0067-3]Search in Google Scholar
[MACHAR, I. (2008): Changes in the fragmentation and ecological stability of the floodplain forest geobiocenosis of the Morava River floodplain in the course of the 20th century. Journal of Landscape Ecology (Brno), 1: 38-48.10.2478/v10285-012-0004-5]Search in Google Scholar
[MACHAR, I. (2009): Conservation and Management of Floodplain Forests in the Protected Landscape Area Litovelske Pomoravi (Czech Republic) Introduction. In: Machar, I.: Conservation and Management of Floodplain Forests in the Protected Landscape Area Litovelske Pomoravi (Czech Republic) (pp. 7-108). Olomouc, Palacky University.]Search in Google Scholar
[MACHAR, I., ANTONIN, V., CERMAK, P., HORCICKO, I., HRADILEK, Z., JANKOVSKY, L., JOHN, F., KOSTKAN, V., KULHAVY, J., KURFURST, P., LACINA, J., MACKA, Z., MERTA, L., MRKVA, R., SANKA, M., SIMON, J., VAGNER, A. (2009): History, Biodiversity, and Management of Floodplain Forest (Case Study of National Nature Reserve of Vrapac, Czech Republic). In: History, Biodiversity, and Management of floodplain Forest (Case Study of National Nature Reserve of Vrapac, Czech Republic) (pp. 1-140). Book Series: Univerzita Palackeho Monographie.]Search in Google Scholar
[MACHAR, I. (2010): Attempt to summarize the problems: Is a sustainable management of floodplain forest geobiocoenoses possible? In: Machar, I. [ed.]: Biodiversity and Target Management of Floodplain Forests in the Morava River Basin (pp. 189-226). Olomouc, Palacky University.]Search in Google Scholar
[MACHAR, I. (2012a): Changes in Ecological Stability and Biodiversity in a Floodplain Landscape. In: Machar, I. [ed.]: Applying Landscape Ecology in Conservation and Management of the Floodplain Forest (Czech Republic) (pp. 73-87). Olomouc, Palacky University.]Search in Google Scholar
[MACHAR, I. (2012b): Protection of nature and landscapes in the Czech Republic. Selected current issues and possibilities of their solution. In: Machar, I., Drobilová, L. [eds.]: Ochrana prirody a krajiny v České Republice. Vol. I. and II. Olomouc, Palacky University.]Search in Google Scholar
[MACHAR, I. (2013a): The Effect of Landscape Character Change on the Recreation Function of a Water Management Construction in the Landscape. Case study: Bata Canal, South Moravia (Czech Republic). In: Fialova, J., Kubickova, H. [eds.]: Public Recreation and Landscape Protection - with Man Hand in Hand (pp. 190-195). Conference Proceedings.]Search in Google Scholar
[MACHAR, I. (2013b): Applying of Classification Systems of Floodplain Forest Ecosystems to Sustainable Forest Management Strategy in the Czech Republic. In: Geoconference on Water resources, Forest, Marine, and Ocean Ecosystems (pp. 765-770). Book Series: International Multidisciplinary Scientific GeoConference-SGEM, Albena Bulgaria.10.5593/SGEM2013/BC3/S14.001]Search in Google Scholar
[MÁČKA, Z. (2009): Geology, Geomorphology and Human Impact over the Fluvial System. In: Machar, I. et al. [eds.]: History, Biodiversity, and Management of Floodplain Forest (Case study of National Nature reserve of Vrapac, Czech republic) (pp. 27-40). Book Series: Univerzita Palackeho Monographie.]Search in Google Scholar
[McGARIGAL, K., CUSHMAN, S. A. (2005): The gradient concept of landscape structure. In: Wiens, J., Moss, M. [eds.]: Issues and Perspectives in Landscape Ecology (pp. 112-119). Cambridge University Press.10.1017/CBO9780511614415.013]Search in Google Scholar
[McGARIGAL, K., TAGIL, S., CUSHMAN, S. A. (2009): Surface metrics: an alternative to patch metrics for the quantification of landscape structure. Landscape Ecology, 24: 433-450.10.1007/s10980-009-9327-y]Search in Google Scholar
[NELSON, T., BOOTS, B. (2005): Identifying insect infestation hot spots: an approach using conditional spatial randomization. Journal of Geographical Systems, 7: 291-311.10.1007/s10109-005-0005-6]Search in Google Scholar
[OPRSAL, Z., KLADIVO, P., MACHAR, I. (2016): The Role of Selected Biophysical Factors in Long-term Land-use Change of Cultural Landscape. Applied Ecology and Environmental Research, 14 (2): 23-40.10.15666/aeer/1402_023040]Search in Google Scholar
[OTÝPKOVÁ, Z., CHYTRÝ, M., TICHÝ, L., PECHANEC, V., JONGEPIER, J. W., HÁJEK, O. (2011): Floristic diversity patterns in the White Carpathians Biosphere. Biologia, 66(2): 266-274.10.2478/s11756-011-0004-7]Search in Google Scholar
[PAUKNEROVÁ, E., KUČERA, T. [eds.] (1997): Informační zdroje pro využití nástrojů GIS v ochraně přírody a krajiny. Praha, AOPK ČR.]Search in Google Scholar
[PECHANEC, V., BURIAN, J., KILIANOVÁ, H., NĚMCOVÁ, Z. (2011a): Geospatial analysis of the spatial conflicts of flood hazard. Moravian Geographical Reports, 19(4): 11-19.]Search in Google Scholar
[PECHANEC, V., BRUS, J., MIŘIJOVSKÝ, J. (2011b): Monitoring of snow risks by geo-sensors in urban areas. 11th International Multidisciplinary Scientific GeoConference - SGEM 2011, (pp. 653-660). Albena, Bulgaria.10.5593/sgem2011/s11.109]Search in Google Scholar
[PECHANEC, V. (2012): GIS v ochraně přírody a krajiny. In: Machar, I. et al.: Ochrana přírody a krajiny v České republice. Vybrané aktuální problémy a možnosti jejich řešení (pp. 738-748). Olomouc, Univerzita Palackého.]Search in Google Scholar
[PECHANEC, V., VÁVRA, A., HOVORKOVÁ, M., BRUS, J., KILIANOVÁ, H. (2014): Analyses of moisture parameters and biomass of vegetation cover in southeast Moravia. International Journal of Remote Sensing, 35(3): 967-987.10.1080/01431161.2013.875236]Search in Google Scholar
[PECHANEC, V., BRUS, J., KILIANOVÁ, H., MACHAR, I. (2015): Decision support tool for the evaluation of landscapes. Ecological Informatics, 30: 305-308.10.1016/j.ecoinf.2015.06.006]Search in Google Scholar
[RULF, J. (1994): Pravěké osídlení střední Evropy a niva. In: Rulf, J.: Archeologie a krajinná ekologie (pp. 55-64). Most, Nadace projekt Sever.]Search in Google Scholar
[SALVATI, L., TOMBOLINI, I. (2013): Cropland vs Forests: Landscape Composition and Land-use Changes in Peri- Urban Rome (1949-2008). WSEAS Transactions on Environment and Development, 9(4): 278-289.]Search in Google Scholar
[SIMON J., MACHAR I., BUČEK A. (2014): Linking the historical research with the growth simulation model of hardwood floodplain forests. Polish Journal of Ecology, 62 (2): 273-288.]Search in Google Scholar
[SKALOŠ, J. et al. (2011): Using old military maps and orthophotograph maps to analyse long-term land cover changes - case study (Czech Republic) Applied Geography, 31: 426-438.10.1016/j.apgeog.2010.10.004]Search in Google Scholar
[SKOKANOVÁ, H., HAVLÍČEK, M., BOROVEC, R., DEMEK, J., EREMIÁŠOVÁ, R., CHRUDINA, Z., MACKOVČIN, P., RYSKOVÁ, R., SLAVÍK, P., STRÁNSKÁ, T., SVOBODA, J. (2012): Development of land use and main land use change processes in the period 1836-2006: case study in the Czech Republic. Journal of Maps, 8(1): 88-96.10.1080/17445647.2012.668768]Search in Google Scholar
[STUPARIU, M. S., PATRU-STUPARIU, I., CUCULICI, R. (2010): Geometric approaches to computation 3D-landscape metrics. Landscape Online, 24: 1-12.10.3097/LO.201024]Search in Google Scholar
[ŠTĚRBA, O. [ed.] (1999): Obnova ekologického kontinua řeky Moravy. Olomouc, Palacký University in Olomouc.]Search in Google Scholar
[TOCKNER, K., STANFORD, J. A. (2002). Riverine flood plains: present state and future trends. Environmental Conservation, 29(3): 308-330.]Search in Google Scholar
[TOMLINSON, R. (2003): Thinking About GIS: geographic information system planning for managers. ESRI Press, Redlands, CA.]Search in Google Scholar
[TRÉMOLIERES, M., SCHNITZLER, A. (2007): Floodplain Protection, Restoration, Management. Why and How. Paris, Lavoisier SAS.]Search in Google Scholar
[VAN DER PLOEG, P. R., SCHWEIGERT, P. (2001): Elbe river flood peaks and postwar agricultural land use in East Germany. Naturwissenschaften, 88(12): 522-525.10.1007/s00114-001-0271-111824225]Search in Google Scholar
[VAN DOORN, A. M., BAKKER, M. M. (2007): The destination of arable land in a marginal agricultural landscape in South Portugal: an exploration of land use change determinants. Landscape Ecology, 22(7): 1073-1087.10.1007/s10980-007-9093-7]Search in Google Scholar
[WU, K., ZHANG, H. (2012): Land use dynamics, built-up land expansion patterns, and driving forces analysis of the fast-growing Hangzhou metropolitan area, eastern China (1978-2008). Applied Geography, 34: 137-145.10.1016/j.apgeog.2011.11.006]Search in Google Scholar
[ZHANG X., HU, H., XU, J., YIN, H. (2011) Coordination of urbanization and water ecological environment in Shayinghe river basin, China. Chinese Geographical Science, 21(4): 476-495.10.1007/s11769-011-0489-6]Search in Google Scholar