[Barančíková , G. 2007. Validácia modelu RothC na vybraných monitorovacích lokalitách [Validation of RothC model on selected soil monitoring localities]. In Vedecké práce Výskumného ústavu pôdoznalectvaa ochrany pôdy, vol. 29, Brati-slava : VÚPOP, pp. 9-22. ISBN 978-80-89128-40-2 ]Search in Google Scholar
[Barančíková , G. - Šoltýsová , B. - Koco , Š. 2010a. Prediction of soil organic carbon stock in conditions of Easter Slovak Lowland. In Agriculture(Poľnohospodárstvo), vol. 56, 2010, no. 2, pp. 35-45.]Search in Google Scholar
[Barančíková , G. - Halás , J. - Gutteková , M. - Makovníková , J. - Nováková , M. - Skalský , R. - Tarasovičová , Z. 2010b. Application of RothC model to predict soil organic carbon stock on agricultural soils of Slovakia. In Soil & Water Research, vol. 5, 2010, no. 1, pp. 1-9.]Search in Google Scholar
[Barančíková G. - Gutteková , M. - Halas , J. - Koco , Š. - Makovníková , J. - Nováková , M. - Skalský , R. - Tarasovičová , Z. - Vilček , J. 2011. Pôdny organický uhlík v poľnohospodárskejkrajine - modelovanie zmien v priestore a čase [Soilorganic carbon in agricultural land - modelling ofchanges in space and time]. Bratislava : Výskumný ústav pôdoznalectva a ochrany pôdy, 2011. 85 pp. ISBN 978-80-89128-86-0 ]Search in Google Scholar
[Barančíková , G. - Makovníková , J. - Skalský , R. - Tarasovičová , Z. - Nováková , M. - Halás , J. - Gutteková , M. - Koco , Š. 2012. Environmental aspects of soil organic carbon stock changes in cropland of Slovakia. In Soil & Water Research, vol. 7, 2012, no. 2, pp. 45-51.]Search in Google Scholar
[Bhatacharyya , T. - Pal , D.K. - deshmukh , A.S. - deshmukh , R.R. - ray , S.k. - candran , p. - mandal , c. - telpande , b. - nimje , a.m. - tiwary , p. 2011. Evaluation of RothC model using four long term fertilizer experiments in black soils, India. In Agriculture, Ecosystem & Environment, vol. 144, 2011, no. 1, pp. 222-234.]Search in Google Scholar
[Bielek , P. - Jurčová , O. 2010. Metodika bilancie pôdnejorganickej hmoty a stanovenia potreby organickéhohnojenia poľnohospodárskych pôd [Methodologyof soil organic matter balance and determination theneed for organic fertilization of agricultural soils]. Bratislava : Výskumný ústav pôdoznalectva a ochrany pôdy, 2010. 145 pp. ISBN 978-80-89128-80-8 ]Search in Google Scholar
[Brejda , J.J. - Moortman , T.B. - Karlen , D.L. - Dao , T.H. 2000. Identification of regional soil quality factors and Indicators: I. Central and Southern High Plains. In Soil Science Society of America Journal, vol. 64, 2000, pp. 2115-2124.]Search in Google Scholar
[Cerri , C.E.P. - Easter , M. - Paustian , K. - Kil - lian , K. - Coleman , K. - Bernoux , M. - Fal - loon , P. - Powlson , D.S. - Batjes , N.H. - Milne , E. - Cerri , C.C. 2007. Predicted soil organic carbon stocks and changes in the Brazilian Amazon between 2000 and 2030. In Agriculture, Ecosystems & Environment, vol. 122, 2007, pp. 58-72.]Search in Google Scholar
[Coleman , K. - Jenkinson , D.S. - Crocker , G.J. - Grace , P.R. - Klir , J. - Korschens , M. - Poul - ton , P.R. - Richter , D.D. 1997. Simulating trends in soil organic carbon in long-term experiments using RothC-26.3. In Geoderma, vol. 81, 1997, no. 1-2, pp. 29-44.]Search in Google Scholar
[Coleman , K. - Jenkinson , D.S. 2005. ROTHC-26.3 A model for the turnover of carbon in soil. Model description and windows users guide, November 1999 issue (modified April, 2005), 45 pp. Available on http://www.rothamsted.bbsrc.ac.uk/aen/carbon/mod26_3_win.pdf ]Search in Google Scholar
[Džatko , a. - Mašát , K. - Cambel , B. 1989. Agroklimatickéregióny SR [Agro-climatic regions of Slovakia]. Záverečná správa VCPÚ-ÚPVR, Bratislava, 123 pp.]Search in Google Scholar
[Falloon , P. - Smith , P. 2002. Simulating SOC changes in long-term experiments with RothC and CENTURY: model evaluation for a regional scale application. In SoilUse and Management, vol. 18, 2002, no. 2, pp. 101-111. DOI: 10.1111/j.1475-2743.2002.tb00227.x 10.1111/j.1475-2743.2002.tb00227.x]Search in Google Scholar
[Gonzales -Molina , l. - etchevers -barra , j.d. - paz -pellat , f. - diaz -solis , h. - fuentes - ponce , m.h. - covaleda -ocon , s. - pando - moreno , M. 2011. performance of the RothC-26.3 model in short-term experiments in Mexican sites and systems. In The Journal of Agricultural Science, vol. 149, 2011, no. 4, pp. 415-425.]Search in Google Scholar
[Guo , L.B. - Gifford , R.M. 2002. Soil carbon stocks and land use change: a meta analysis. In Global ChangeBiology, vol. 8, 2002, pp. 345-360.]Search in Google Scholar
[HOUGHTON, J.T. - DING, Y. - GRIGGS, D.J. - NOGUER, M. - VAN DEN LINDEN, P.J. - DAI, X. - MASKELL, K. - JOHNSON, C.A. (eds.). 2001. Climate Changes 2001: The scientific basis. New York: Cambridge University Press. Intergovermental Panel on Climate Change.]Search in Google Scholar
[Chukov , S.N. 2000. Study by 13C - NMR spectroscopy of humus acids molecular parameters in anthropogenically disturbed soils. In Proceedings of 10th InternationalMeeting of the IHSS. Toulouse : Progep, 2000, pp. 81-84.]Search in Google Scholar
[IPCC, 2006. National Greenhouse Gas Inventory Guidelines. vol. 4, Chapter 5: Cropland. Institute of Global Environemntal Strategies (IGES), Kanagawa, 66 p.]Search in Google Scholar
[IUSS Working Group WRB. 2006. World reference base for soil resources. 2006. World Soil Resources Reports No. 103, Roma : FAO, pp. 145.]Search in Google Scholar
[Nováková , M. 2007. Interpolácia meteorologických údajov pre potreby monitoringu stavu vývoja a odhadu úrod poľnohospodárskych plodín [Weather interpolation as a baseline for crop growth monitoring and crop yield forecasting]. In Vedecké práce Výskumného ústavupôdoznalectva a ochrany pôdy, vol. 29. Bratislava : VÚPOP, 2007. pp. 95-105, ISBN 978-80-89128-40-2 ]Search in Google Scholar
[Peltonieni , M. - Thuring , E. - Ogle , L. - Palo - suo , T. - Schrump , M. - Wutzler , T. - But - terbach -Bahl , K. - Chertov , O. - Komarov , A. - Mikhailov , A. - Gärdenes , A. - Perry , C. - Liski , J. - Smith , P. - Mäkup ää, R. 2007. Models in country scale carbon accounting of forest soils. In Silva Fennica, vol. 41, 2007, pp. 575-602. ]Search in Google Scholar
[Shiroto , Y. - Yokozawa , m. 2005. Applying the Rothamsted Carbon Model for long-term experiments on Japanese paddy soils and modifying it by simple tunning of the decomposition rate. In Soil Science andPlant Nutrition, vol. 51, 2005, pp. 405-415.]Search in Google Scholar
[Schulp , C.J.E. - Verbung , P.H. 2009. Effect of land use history and site factors on spatial variation of soil organic carbon across a physiographic region. In Agriculture,Ecosystems and Environment, vol. 133, 2009, pp 86-97.]Search in Google Scholar
[Skalský , R. - Balkovič , J. 2002. Digital database of selected soil profiles of complex soil survey of Slovakia (KPP-DB). In Vedecké práce Výskumného ústavupôdoznalectva a ochrany pôdy Vedecké práce, vol. 25, Bratislava : VÚPOP, 2002, pp. 129-140, ISBN 80-89128-07-6 ]Search in Google Scholar
[Smith , J. - Smith , P. - Wattenbach , M. - Zaehle , S. - Hiederer , R. - Jones , R.J.A. - Montanarella , L. - Rounsevell , M. - Reginster , I. - Ewert , F. 2005. Projected changes in mineral soil carbon of European croplands and grasslands, 1990-2080. In Global Change Biology, vol. 11, 2005, no. 12, pp. 2141-2152. DOI: 10.1111/j.1365-2486.2005.001075.x 10.1111/j.1365-2486.2005.001075.x34991279]Search in Google Scholar
[Smith , P. - Martino , D. - Cai , Z. - Gwary , D. - Janzen , H. - Kumar, P. - McCarl , B. - Ogle, S. - O´Mara , F. - Rice, C. - Scholes, B. - Sirotenko , o. 2007a. Chapter 8: Agriculture. In metz , b. - davidson , o.r. - bosch , p.r. - dave , R. - meyer , l.a. (eds.). Climate Change 2007: Mitigation. Contribution of Working Group III to the FourthAssessment report of the Intergovermental Panel onClimate Change. Cambridge, New York. ]Search in Google Scholar
[Smith , P. - Andren, O. - Brussaard, l. - Smith , J. - Smith , P. - Wattenbach , M. - Gottschalk , P. - Romanenkov , V.A. - Ševcova , L.K. - Sirotenko , O.D. - Rukhovič , D.I. - Koroleva , P.V. - Romanenko , I.A. - Lisovoj , N.V. 2007b. Projected changes in the organic carbon stocks of cropland mineral soils of European Russia and the Ukraine 1990-2070. In Global Change Biology, vol. 3, 2007, pp. 342-354.]Search in Google Scholar
[SOBOCKÁ, J. - Balkovič , J. - Lapin , M. 2007. A CENTURY 5 Model using for estimation of soil organic matter behaviour at predicted climate change. In Soil &Water Research, vol. 2, 2007, pp. 25-34. ]Search in Google Scholar
[Takáč, K. - Šiška , B. - Píš, V. 2011. Evaluation of adaptive measures to reduce climate change impact on soil organic carbon stock in Žitný ostrov region. In Agriculture (Poľnohospodárstvo), vol. 57, 2011, no. 3, pp. 85-95. DOI: 10.2478/v10207-011-0009-9 10.2478/v10207-011-0009-9]Search in Google Scholar
[Tarasovičová , Z. - Nováková, M. - Skalský, R. - Balkovič , j. 2009. Geografická databáza vstupov o počasí, pôde, využívaní krajiny pre model RothC [Geographical database of RothC model inputs on weather, soil and land use]. In Vedecké práceVýskumného ústavu pôdoznalectva a ochrany pôdy, vol. 31, Bratislava: VÚPOP, 2009, pp. 201-210. ISBN 978-80-89128-59-4 ]Search in Google Scholar
[Tarasovičová , Z. - Barančíková , G. 2011. Nový prístup pri tvorbe vstupov uhlíka trvalých trávnych porastov Slovenska pre model RothC [New approach of carbon inputs preparation of Slovakia grassland for RothC model]. In Vedecké práce Výskumného ústavupôdoznalectva a ochrany pôdy, vol. 33, Bratislava : VÚPOP, pp. 184-193. ISBN 978-80-89128-59-4. ]Search in Google Scholar
[Viaud, V. - Angers, D.A. - Walter, C. 2010. Towards landscape-scale modeling of soil organic matter dynamics in agroecosystems. In Soil Science Society ofAmerica Journal, vol. 74, 2010, no. 6, pp. 1847-1860. DOI: 10.2136/sssaj2009.041210.2136/sssaj2009.0412]Search in Google Scholar
[Van Wesemael, B. - Paustian , K. - Meersmans , J. - Goidts , E. - Barančíková, G. - Easter , M. 2010. Agricultural management explains historic changes in regional soil carbon stocks. In PNAS, vol. 107, 2010, pp. 14926-14930.]Search in Google Scholar
[Yokozava, M. - Shirato, Y. - Sakamoto, T. - Yonemura, S. - Nakai, M. - Ohkura , T. 2010. Use of the RothC model to estimate the carbon sequestration potential of organic matter application in Japanese arable soils. In Soil Science and Plant Nutrition, vol. 56, 2010, pp. 168-176. DOI:10.1111/j.1747-0765.2009.00422.x 10.1111/j.1747-0765.2009.00422.x]Search in Google Scholar
[Xu , X. - Liu, W. - Kiely, G. 2011. Modeling the change in soil organic carbon of grassland in response to climate change: Effects of measures versus modelled carbon pool for inizializing Rothamsted Carbon model. In Agriculture, Ecosystems and Environment, vol. 140, 2011, no. 3-4, pp. 372-381.]Search in Google Scholar