The main objective of the DOSoReMI.hu (Digital, Optimized, Soil Related Maps and Information in Hungary) project is to significantly extend the potential, how demands on spatial soil related information could be satisfied in Hungary. Although a great amount of soil information is available due to former mappings and surveys, there are more and more frequently emerging discrepancies between the available and the expected data. The gaps are planned to be filled with optimized digital soil mapping (DSM) products heavily based on legacy soil data, which still represent a valuable treasure of soil information at the present time. The paper presents three approaches for the application of Hungarian legacy soil data in object oriented digital soil mapping.
AGROTOPO, 1994. AGROTOPO database of RISSAC. RISSAC HAS, Budapest, http://maps.rissac.hu/agrotopo_en
'', in AGROTOPO database of RISSAC , (1994 ) -.
Bakacsi, Zs. et al., 2012. Method for the compilation of a stratified and harmonized soil physical database using legacy and up-to-date data sources. Agrokémia és Talajtan. 59. 39–46.
Bakacsi Z.s. , 'Method for the compilation of a stratified and harmonized soil physical database using legacy and up-to-date data sources ' (2012 ) 59 Agrokémia és Talajtan : 39 -46 .
Baumgardner, M. F., 2011. Soil databases. In: Handbook of Soil Sciences: Resource Management and Environmental Impacts (Eds.: Huang, P.M., Li, Y. & Sumner, M. E.) 21–35. CRC Press. Boca Raton.
Baumgardner M. F. , '', in Handbook of Soil Sciences: Resource Management and Environmental Impacts , (2011 ) -.
Böhner, J. et al., 2002. Soil regionalisation by means of terrain analysis and process parameterisation. In: Soil Classification 2001. (Eds.: Michéli, E., Nachtergaele, F. & Montanarella, L.) EUR 20398 EN. 213–222. The European Soil Bureau, Joint Research Centre. Ispra.
Böhner J. , '', in Soil Classification 2001 , (2002 ) -.
Blum, W. E. H., 2005. Functions of soil for society and the environment. Reviews in Environmental Science and Biotechnology. 4. 75–79.
Blum W. E. H. , 'Functions of soil for society and the environment ' (2005 ) 4 Reviews in Environmental Science and Biotechnology : 75 -79 .
Bullock, P., 1999. Soil resources of Europe — An overview. In: Soil Resources of Europe (Eds.: Bullock, P., Jones, R. J. A. & Montanarella, L.) European Soil Bureau Research Report 6. 15–25. Office for Official Publications of the European Communities. Luxembourg.
Bullock P. , '', in Soil Resources of Europe , (1999 ) -.
Dobos, E. et al., 2010. Legacy soil data harmonization and database development. In: Digital Soil Mapping Bridging Research Environmental Application, and Operation. (Eds.: Boettinger, J. L. et al.) 309–323. Springer. Heidelberg.
Dobos E. , '', in Digital Soil Mapping Bridging Research Environmental Application, and Operation , (2010 ) -.
Hartemink, A. E., McBratney, A. B. & Mendonça-Santos, M. De L. (Eds.), 2008. Digital Soil Mapping with Limited Data. Springer. The Netherlands.
'', in Digital Soil Mapping with Limited Data , (2008 ) -.
Hengl, T., Heuvelink, G. & Stein, A., 2004. A generic framework for spatial prediction of soil variables based on regression-kriging. Geoderma. 122. (1–2) 75–93.
Stein A. , 'A generic framework for spatial prediction of soil variables based on regression-kriging ' (2004 ) 122 Geoderma : 75 -93 .
Hengl, T., 2006. Finding the right pixel size. Computers & Geosciences. 32. 1283–1298.
Hengl T. , 'Finding the right pixel size ' (2006 ) 32 Computers & Geosciences : 1283 -1298 .
Illés, G., Kovács, G. & Heil, B., 2011. Comparing and evaluating digital soil mapping methods in a Hungarian forest reserve. Can. J. Soil Sci. 91. (4) 615–626.
Heil B. , 'Comparing and evaluating digital soil mapping methods in a Hungarian forest reserve ' (2011 ) 91 Can. J. Soil Sci. : 615 -626 .
Jenny, H., 1941. Factors of Soil Formation. McGraw-Hill. New York.
Jenny H. , '', in Factors of Soil Formation , (1941 ) -.
Kreybig, L., 1937. The survey, analytical and mapping method of the Hungarian Royal Institute of Geology (in Hungarian and German). M. Kir. Földtani Intézet évkönyve 31. 147–244.
Kreybig L. , 'The survey, analytical and mapping method of the Hungarian Royal Institute of Geology (in Hungarian and German) ' (1937 ) 31 M. Kir. Földtani Intézet évkönyve : 147 -244 .
Lagacherie P., 2008. Digital soil mapping: A state of art. In: Digital Soil Mapping with Limited Data. (Eds: Hartemink, A. E., McBratney, A. B. & Mendonçasantos, M. De L.) 3–14. Springer. The Netherlands.
Lagacherie P. , '', in Digital Soil Mapping with Limited Data , (2008 ) -.
Mallavan, B. P., Minasny, B. & McBratney, A. B., 2010. Homosoil, a methodology for quantitative extrapolation of soil information across the Globe. Digital soil mapping. In: Digital Soil Mapping Bridging Research Environmental Application, and Operation. (Eds: Boettinger, J. L. et al.) 137–150. Springer. Heidelberg.
McBratney A. B. , '', in Digital Soil Mapping Bridging Research Environmental Application, and Operation , (2010 ) -.
McBratney, A. B., Mendonça Santos, M. L. & Minasny, B., 2003. On digital soil mapping. Geoderma. 117. 3–52.
Minasny B. , 'On digital soil mapping ' (2003 ) 117 Geoderma : 3 -52 .
Mermut, A. R. & Eswaran, H., 2000. Some major developments in soil science since the mid-1960s. Geoderma. 100. 403–426.
Eswaran H. , 'Some major developments in soil science since the mid-1960s ' (2000 ) 100 Geoderma : 403 -426 .
Montanarella, L., 2010. Need for interpreted soil information for policy making. In: 19th World Congress of Soil Science, Soil Solutions for a Changing World, 1-6 August 2010, Brisbane, Australia. DVD.
Montanarella L. , '', in 19th World Congress of Soil Science, Soil Solutions for a Changing World, 1-6 August 2010, Brisbane, Australia , (2010 ) -.
Omuto, C., Nachtergaele, F. & Rojas, R. V., 2013. State of the Art Report on Global and Regional Soil Information: Where are we? Where to go? Global Soil Partnership Technical Report. FAO. Rome.
Rojas R. V. , '', in State of the Art Report on Global and Regional Soil Information: Where are we? Where to go? Global Soil Partnership Technical Report , (2013 ) -.
Pásztor, L., Szabó, J. & Bakacsi, Zs., 2010. Digital processing and upgrading of legacy data collected during the 1:25 000 scale Kreybig soil survey. Acta Geodaetica et Geophysica Hungarica. 45. 127–136.
Bakacsi Z.s. , 'Digital processing and upgrading of legacy data collected during the 1:25 000 scale Kreybig soil survey ' (2010 ) 45 Acta Geodaetica et Geophysica Hungarica : 127 -136 .
Pásztor, L. et al., 2006. Large-scale soil maps improved by digital soil mapping and GIS-based soil status assessment. Agrokémia és Talajtan. 55. 79–88.
Pásztor L. , 'Large-scale soil maps improved by digital soil mapping and GIS-based soil status assessment ' (2006 ) 55 Agrokémia és Talajtan : 79 -88 .
Pásztor, L. et al., 2013a. Elaboration and applications of spatial soil information systems and digital soil mapping at the Research Institute for Soil Science and Agricultural Chemistry of the Hungarian Academy of Sciences. Geocarto International. 28. (1) 13–27.
Pásztor L. , 'Elaboration and applications of spatial soil information systems and digital soil mapping at the Research Institute for Soil Science and Agricultural Chemistry of the Hungarian Academy of Sciences ' (2013 ) 28 Geocarto International : 13 -27 .
Pásztor, L. et al., 2013b. Downscaling of categorical soil maps with the aid of auxiliary spatial soil information and data mining methods. (In Hungarian) Agrokémia és Talajtan. 62. 205–218.
Pásztor L. , 'Downscaling of categorical soil maps with the aid of auxiliary spatial soil information and data mining methods ' (2013 ) 62 Agrokémia és Talajtan : 205 -218 .
Pásztor, L. et al., 2014. Elaboration of novel, countrywide maps for the satisfaction of recent demands on spatial, soil related information in Hungary. In: Global Soil Map: Basis of the Global Spatial Soil Information System (Eds.: Arrouays, D. et al.). 207–212. Taylor & Francis Group. London.
Pásztor L. , '', in Global Soil Map: Basis of the Global Spatial Soil Information System , (2014 ) -.
Sanchez, P. A. et al., 2009. Digital soil map of the world. Science. 325. 680–681.
Sanchez P. A. , 'Digital soil map of the world ' (2009 ) 325 Science : 680 -681 .
Sisák, I. & Beno, A., 2014. Probability-based harmonization of digital maps to produce conceptual soil maps. Agrokémia és Talajtan. 63. 89–98.
Beno A. , 'Probability-based harmonization of digital maps to produce conceptual soil maps ' (2014 ) 63 Agrokémia és Talajtan : 89 -98 .
Szatmári, G. & Barta, K., 2013. Digital mapping of the organic matter content of chernozem soils on an area endangered by erosion in the Mezoföld region (In Hungarian) Agrokémia és Talajtan. 62. 47–60.
Barta K. , 'Digital mapping of the organic matter content of chernozem soils on an area endangered by erosion in the Mezoföld region ' (2013 ) 62 Agrokémia és Talajtan : 47 -60 .
Szatmári, G. et al., 2013. Large-scale mapping of soil organic matter content by regression kriging in Zala County (In Hungarian) Agrokémia és Talajtan 62. 219–234.
Szatmári G. , 'Large-scale mapping of soil organic matter content by regression kriging in Zala County ' (2013 ) 62 Agrokémia és Talajtan : 219 -234 .
Tóth, G. et al., 2008. Soils of the European Union. EUR 23439 EN. Office for Official Publications of the European Communities. Luxembourg. Várallyay, Gy. 2002. Soil survey and soil monitoring in Hungary. In: European Soil Bureau Research Report 9. 139–149. ESB. Ispra.
Tóth G. , '', in Soil survey and soil monitoring in Hungary , (2008 ) -.
Várallyay, Gy. et al., 1985. Soil factors determining the agro-ecological potential of Hungary. Agrokémia és Talajtan. 34. Suppl. 90–94.
Várallyay Gy. , 'Soil factors determining the agro-ecological potential of Hungary ' (1985 ) 34 Agrokémia és Talajtan : 90 -94 .
Waltner, I. et al., 2014. Digital mapping of selected WRB units based on vast and diverse legacy data. In: Global Soil Map: Basis of the Global Spatial Soil Information System (Eds.: Arrouays, D. et al.). 313–318. Taylor & Francis Group. London.
Waltner I. , '', in Global Soil Map: Basis of the Global Spatial Soil Information System , (2014 ) -.