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Carbon sequestration in soil following afforestation of former agricultural land in the Czech Republic

Carbon sequestration in soil following afforestation of former agricultural land in the Czech... ReferencesAhmed, I. U., Smith, A. R., Jones, D. L., Godbold, D. L., 2016: Tree species identity influences the vertical distribution of labile and recalcitrant carbon in a temperate deciduous forest soil. Forest Ecology and Management, 359:352-360.Andivia, E., Rolo, V., Jonard, M., Formanek, P., Ponette, Q., 2016: Tree species identity mediates mechanisms of top soil carbon sequestration in a Norway spruce and European beech mixed forest. Annals of Forest Science, 73:437-447.Augusto, L., De Schrijver, A., Vesterdal, L., Smolander, A., Prescott. C., Ranger, J., 2015: Influences of evergreen gymnosperm and deciduous angiosperm tree species on the functioning of temperate and boreal forests. Biological Reviews, 90:444-466.Bates, D., Maechler, M., Bolker, B., Walker, S., 2015: Fitting Linear Mixed-Effects Models Using lme4. Journal of Statistical Software, 67:1-48.Bartoš, J., 2014: Biologické a ekonomické aspekty zalesňování zemědělských půd. Disertační práce, Praha, FLD ČZU v Praze, 128 p.Blanco-Canqui, H., Lal, R., 2004: Mechanisms of carbon sequestration in soil aggregates. Critical Reviews in Plant Sciences, 23:481−504.10.1080/07352680490886842Campbell, J. E., Lobell, D. B., Genova, R. C., Field, C. B., 2008: The global potential of bioenergy on abandoned agriculture lands. Environmental Science & Technology, 242:5791-5794.Cienciala, E., Exnerová, Z., Schelhaas, M. J., 2008: Development of forest carbon stock and wood production in the Czech Republic until 2060. Annals of Forest Research, 65:603.Cukor, J., Baláš, M., Kupka, I., Tužinský, M., 2017a: The condition of forest stands on afforested agricultural land in the Orlické hory Mts. Journal of Forest Science, 63:1-8.Cukor, J., Linhart, L., Vacek, Z., Baláš, M., Linda, R., 2017b: The Effects of Alginite Fertilization on Selected Tree Species Seedlings Performance on Afforested Agricultural Land. Forestry Journal, 63: 48-56.de Groot, R. S., Wilson, M. A., Boumans, R. M. J., 2002: A typology for the classification, description and valuation of ecosystem functions, goods and services. Ecological Economics, 41:393-408.10.1016/S0921-8009(02)00089-7Dixon, R. K., Brown, S., Houghton, R. A., Solomon, A. M., Trexler, M. C., Wisniewski, J., 1994: Carbon Pools and Flux of Global Forest Ecosystems. Science, 263:185-190.Fabiánek, T., Menšík, L., Tomášková, I., Kulhavý, J., 2009: Effects of spruce, beech and mixed commercial stand on humus conditions of forest soils. Journal of Forest Science, 55:119-126.Fujisaki, K., Perrin, A. S., Desjardins, T., Bernoux, M., Balbino, L. C., Brossard, M., 2015: From forest to cropland and pasture systems: a critical review of soil organic carbon stocks changes in Amazonia. Global change biology, 21:2773-2786.FAO, 2008: Fighting food inflation through sustainable investment: grain production and export potential in CIS countries e rising food prices: causes, consequences and policy responses. Rome: Food and Agriculture Organization of the United Nations; 2008 March 10. 16 p. Sponsored by the European Bank for Reconstruction and development and the FAO.Grüneberg, E., Ziche, D., Wellbrock, N., 2014: Organic carbon stocks and sequestration rates of forest soils in Germany. Global Change Biology, 20:2644-2662.10.1111/gcb.12558Guo, L. B., Gifford, R. M., 2002: Soil carbon stocks and land use change: a meta analysis. Global Change Biology, 4:345-360.10.1046/j.1354-1013.2002.00486.xHatlapatková, L., Podrázský, V., 2011: Obnova vrstev nadložního humusu na zalesněných zemědělských půdách. Zprávy lesnického výzkumu, 56:228-234.Holubík, O., Podrázský, V., Vopravil, J., Khel, T., Remeš, J., 2014: Effect of agricultural lands afforestation and tree species composition on the soil reaction, total organic carbon and nitrogen content in the uppermost mineral soil profile. Soil & Water Research, 9:192-200.Kacálek, D., Dušek, D., Novák, J., Slodičák, M., Bartoš, J., Černohous, V., Balcar, V., 2011: Former agriculture impacts on properties of Norway spruce forest floor and soil. Forest Systems, 20:437-443.Kacálek, D., Novák, J., Bartoš, J., Slodičák, M., Balcar, V., Černohous, V., 2010: Vlastnosti nadložního humusu a svrchní vrstvy půdy ve vztahu k druhům dřevin. Zprávy lesnického výzkumu, 55:19-25.Kindler, E., 2016: A comparison of the concepts: Ecosystem services and forest functions to improve interdisciplinary exchange. Forest Policy and Economics, 67: 52-59.10.1016/j.forpol.2016.03.011Kuneš, I., Balcar, V., Benešová, T., Baláš, M., Zadina, J., Zahradník, D. et al., 2009: Influence of pulverized limestone and amphibolite mixture on the growth performance of Alnus incana [L.] Moench plantation on an acidified mountain site. Journal of Forest Science, 55:469-476.Kupka, I., Podrázský, V., Kubeček, J., 2013: Soil-forming effect of Douglas fir at lower altitudes - a case study. Journal of Forest Science, 59:345-351.Lal, R., 2005: Forest soils and carbon sequestration. Forest Ecology and Management, 220:242-258.Lugato, E., Berti, A., 2008: Potential carbon sequestration in a cultivated soil under different climate change scenarios: A modelling approach for evaluating promising management practices in northeast Italy. Agriculture Ecosystems & Environment, 128:97-103.Matějka, K., Vacek, S., Podrázský, V., 2010: Development of forest soils in the Krkonoše Mts. in the period 1980-2009. Journal of Forest Science, 56: 485-504.Menšík, L., Fabiánek, T., Tesař, V., Kulhavý, J., 2009a: Humus conditions and stand characteristics of artificially established young stands in the process of the transformation of spruce monocultures. Journal of Forest Science, 55:215-223.Menšík, L., Kulhavý, J., Kantor, P., Remeš, J., 2009b: Humus conditions of stands with different proportions of Douglas fir in the Hůrky Training Forest District and Křtiny Training Forest Enterprise. Journal of Forest Science, 55:345-356.Murty, D., Kirschbaum, M. U. F., McMurtrie, R. E., McGilvray, A., 2002: Does conversion of forest to agricultural land change soil carbon and nitrogen? a review of the literature. Global Change Biology, 8:105-123.Novara, A., La Mantia, T., Rühl, J., Badalucco, L., Kuzyakov, Y., Gristina, L., Laudicina, V. A., 2014: Dynamics of soil organic carbon pools after agricultural abandonment. Geoderma, 235-236: 191-198.Pan, Y. D., Birdsey, R. A., Fang, J. Y., Houghton, R., Kauppi, P. E., Kunz, W. A. et al., 2011: A Large and Persistent Carbon Sink in the World‘s Forests. Science, 333:988-993.Paul, K. I., Polglase, P. J., Nyakuengama, J. G., Khanna, P. K., 2002: Change in soil carbon following afforestation. Forest Ecology and Management, 168:241-257.Podrázský, V., Štěpaník, R., 2002: Vývoj půd na zalesněných zemědělských plochách - oblast LS Český Rudolec. Zprávy lesnického výzkumu, 47:53-56.Podrázský, V., Remeš, J., Ulbrichová, I., 2003: Biological and chemical amelioration effects on the localities degraded by bulldozer site preparartion in the Ore Mts. - Czech Republic. Journalof Forest Science, 49:141-147.Podrázský, V., Ulbrichová, I., 2004: Restoration of forest soils on reforested abandoned agricultural lands. Journal of Forest Science, 50:249-255.Podrázský, V., 2008: Tvorba povrchového humusu při zalesňování zemědělských ploch a po buldozerové přípravě v Krušných horách. Zprávy lesnického výzkumu, 53:258-263.Podrázský, V., Remeš, J., 2009: Soil-forming effect of Grand fir (Abies grandis [Dougl. ex D. Don] Lindl.). Journal of Forest Science, 55:533-539.Podrázský, V., Remeš, J., Hart, V., Moser, W. K., 2009: Production and humus form development in forest stands established on agricultural lands - Kostelecnad Černými lesy region. Journal of Forest Science, 55:299-305.Podrázský, V., Remeš, J., 2010: Vliv druhové skladby lesních porostů na stav humusových forem na území ŠLP v Kostelci nad Černými Lesy. Zprávy lesnického výzkumu, 55:71-77.Podrázský, V., Procházka, J., Remeš, J., 2011: Produkce a vývoj půdního prostředí porostů na bývalých zemědělských půdách v oblasti Českomoravské vrchoviny. Zprávy lesnického výzkumu, 56:27-35.Podrázský, V., Remeš, J., Tauchman, P., Hart, V., 2010: Douglaska tisolistá a její funkční účinky na zalesněných zemědělských půdách. Zprávy lesnického výzkumu, 55:12-18.Post, W. M., Kwon, K. C., 2000: Soil carbon sequestration and land-use change: processes and potential. Global Change Biology, 6:317-327.Prishchepov, A. V., Radeloff, V. C., Baumann, M., Kuemmerle, T., Müller, D., 2012: Effects of institutional changes on land use: agricultural land abandonment during the transition from state-command to marketdriven economies in post-Soviet Eastern Europe. Environmental Research Letters, 7:13.Pukkala, T., 2014: Does biofuel harvesting and continuous cover management increase carbon sequestration? Forest Policy and Economics, 43:41-50.10.1016/j.forpol.2014.03.004R Core Team, 2016: R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria.Rounsevell, M. D. A., Reginster, I., Araújo, M.B., Carter, T. R., Dendoncker, N., Ewert, F. et al., 2006: A coherent set of future land use change scenarios for Europe. Agriculture, Ecosystems and Environment 114:57-68.Ruskule, A., Nikodemus, O., Kasparinskis, R., Prižavoite, D., Bojāre, D., Brūmelis, G., 2016: Soil - vegetation interaction in abandoned farmland within the temperate region of Europe. New Forests, 47:587-605.10.1007/s11056-016-9532-xSchulp, C. J. E., Nabuurs, G. J., Verburg, P. H., Waal, R. W., 2008: Effect of tree species on carbon stocks in forest floor and mineral soil and implications for soil carbon inventories. Forest Ecology and Management, 256:482-490.Segura, C., Jiménez, M. J., Nieto, O., Navarro, F. B., Fernández-Ondoño, E., 2016: Changes in soil organic carbon over 20 years after afforestation in semiarid SE Spain. Forest Ecology and Management, 381:268-278.Stenger, A., Harou, P., Navrud, S., 2009: Valuing environmental goods and services derived from the forests. Journal of Forest Economics, 15:1-14.10.1016/j.jfe.2008.03.001Stoate, C., Báldi, A., Bejca, P., Boatman, N. D., Herzon, I., Doorn, A. et al., 2009: Ecological impacts of early 21st century agricultural change in Europe - A review. Journal of Environmental Management, 91:22-46.Šály, R., 1978: Pôda, základ lesnej produkcie. Bratislava, Príroda, 235 p.Torreano, S., 2004: Soil development and properties. In: Burley, J., Evans, J., Youngquist, J. A. (ed.): Encyclopedia of Forest Sciences, Vol. 3. Oxford, Elsevier, p. 1208-1216.Tužinský, M., Kupka, I., Podrázský, V., Prknová, H., 2015: Influence of the mineral rock alginite on survival rate and rate-growth of selected tree species on agricultural land. Journal of Forest Science, 61:399-405.Vacek, S., Podrázský, V., Mikeska, M., Moser, W. K., 2003: Introskeletal erosion threat in mountain forests of the Czech Republic. Journal of Forest Science, 49:313-320.Vacek, S., Hejcman, M., Semelová, V., Remeš, J., Podrázský, V., 2009: Effect of soil chemical properties on growth, foliation and nutrition of Norway spruce stand affected by yellowing in the Bohemian Forest Mts., Czech Republic. European Journal of Forest Research, 128:367-375.Vacek, Z., Vacek, S., Remeš, J., Štefančík, I., Bulušek, D., Bílek, L., 2013: Struktura a modelový vývoj lesních porostů v NPR Trčkov-CHKO Orlické hory, Česká Republika. Forestry Journal, 59:248-263.Vacek, Z., Vacek, S., Podrázský, V., Král, J., Bulušek, D., Putalová, T. et al., 2016: Structural diversity and production of alder stands on former agricultural land at high altitudes. Dendrobiology, 75:31-44.10.12657/denbio.075.004Vacek, Z., Vacek, S., Bulušek, D., Podrázský, V., Remeš, J., Král, J., Putalová, T., 2017: Effect of fungi pathogens and climatic factors on production, biodiversity and health status of ash mountain forest. Dendrobiology, 77:161-175.Vanguelova, E. I., Nisbet, T. R., Moffat, A. J., Broadmeadow, S., Sanders, T. G. M., Morison, J. I. L., 2013: A new evaluation of carbon stocks in British forest soils. Soil Use and Management, 29:169-181.Venables, W. N., Ripley, B. D., 2002: Modern Applied Statistics with S. Fourth Edition. Springer, New York.Viewegh, J., Kusbach, A., Mikeska, M., 2003: Czech forest ecosystem classification. Journal of Forest Science, 49:74-82.Vopravil, J., Podrázský, V., Khel, T., Holubík, O., Vacek, S., 2014: Effect of afforestation of agricultural soils and tree species composition on soil physical characteristics changes. Ekologia, 33:67-80.Wiesmeier, M., Prietzel, J., Barthold, F., Spörlein, P., Geuß, U., Hangen, E. et al., 2013: Storage and drivers of organic carbon in forest soils of southeast Germany (Bavaria) - Implications for carbon sequestration. Forest Ecology and Management, 295:162-172.Wiesmeier, M., von Lützov, M., Spörlein, P., Geuß, U., Hangen, E., Reischl, A. et al., 2015: Land use effects on organic carbon storage in soils of Bavaria: The importance of soil types. Soil & Tillage Research, 146:296-302.Woziwoda, B., Parzych, A., Kopeć, D., 2014: Species diversity, biomass accumulation and carbon sequestration in the understorey of post-agricultural Scots pine forests. Silva Fennica, 48:1119.10.14214/sf.1119Wulf, M., 2004: Plant species richness of afforestations with different former use and habitat continuity. Forest Ecology and Management, 195:191-204. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Forestry Journal de Gruyter

Carbon sequestration in soil following afforestation of former agricultural land in the Czech Republic

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References (104)

Publisher
de Gruyter
Copyright
© by Jan Cukor
ISSN
0323-1046
eISSN
2454-0358
DOI
10.1515/forj-2017-0011
Publisher site
See Article on Publisher Site

Abstract

ReferencesAhmed, I. U., Smith, A. R., Jones, D. L., Godbold, D. L., 2016: Tree species identity influences the vertical distribution of labile and recalcitrant carbon in a temperate deciduous forest soil. Forest Ecology and Management, 359:352-360.Andivia, E., Rolo, V., Jonard, M., Formanek, P., Ponette, Q., 2016: Tree species identity mediates mechanisms of top soil carbon sequestration in a Norway spruce and European beech mixed forest. Annals of Forest Science, 73:437-447.Augusto, L., De Schrijver, A., Vesterdal, L., Smolander, A., Prescott. C., Ranger, J., 2015: Influences of evergreen gymnosperm and deciduous angiosperm tree species on the functioning of temperate and boreal forests. Biological Reviews, 90:444-466.Bates, D., Maechler, M., Bolker, B., Walker, S., 2015: Fitting Linear Mixed-Effects Models Using lme4. Journal of Statistical Software, 67:1-48.Bartoš, J., 2014: Biologické a ekonomické aspekty zalesňování zemědělských půd. Disertační práce, Praha, FLD ČZU v Praze, 128 p.Blanco-Canqui, H., Lal, R., 2004: Mechanisms of carbon sequestration in soil aggregates. Critical Reviews in Plant Sciences, 23:481−504.10.1080/07352680490886842Campbell, J. E., Lobell, D. B., Genova, R. C., Field, C. B., 2008: The global potential of bioenergy on abandoned agriculture lands. Environmental Science & Technology, 242:5791-5794.Cienciala, E., Exnerová, Z., Schelhaas, M. J., 2008: Development of forest carbon stock and wood production in the Czech Republic until 2060. Annals of Forest Research, 65:603.Cukor, J., Baláš, M., Kupka, I., Tužinský, M., 2017a: The condition of forest stands on afforested agricultural land in the Orlické hory Mts. Journal of Forest Science, 63:1-8.Cukor, J., Linhart, L., Vacek, Z., Baláš, M., Linda, R., 2017b: The Effects of Alginite Fertilization on Selected Tree Species Seedlings Performance on Afforested Agricultural Land. Forestry Journal, 63: 48-56.de Groot, R. S., Wilson, M. A., Boumans, R. M. J., 2002: A typology for the classification, description and valuation of ecosystem functions, goods and services. Ecological Economics, 41:393-408.10.1016/S0921-8009(02)00089-7Dixon, R. K., Brown, S., Houghton, R. A., Solomon, A. M., Trexler, M. C., Wisniewski, J., 1994: Carbon Pools and Flux of Global Forest Ecosystems. Science, 263:185-190.Fabiánek, T., Menšík, L., Tomášková, I., Kulhavý, J., 2009: Effects of spruce, beech and mixed commercial stand on humus conditions of forest soils. Journal of Forest Science, 55:119-126.Fujisaki, K., Perrin, A. S., Desjardins, T., Bernoux, M., Balbino, L. C., Brossard, M., 2015: From forest to cropland and pasture systems: a critical review of soil organic carbon stocks changes in Amazonia. Global change biology, 21:2773-2786.FAO, 2008: Fighting food inflation through sustainable investment: grain production and export potential in CIS countries e rising food prices: causes, consequences and policy responses. Rome: Food and Agriculture Organization of the United Nations; 2008 March 10. 16 p. Sponsored by the European Bank for Reconstruction and development and the FAO.Grüneberg, E., Ziche, D., Wellbrock, N., 2014: Organic carbon stocks and sequestration rates of forest soils in Germany. Global Change Biology, 20:2644-2662.10.1111/gcb.12558Guo, L. B., Gifford, R. M., 2002: Soil carbon stocks and land use change: a meta analysis. Global Change Biology, 4:345-360.10.1046/j.1354-1013.2002.00486.xHatlapatková, L., Podrázský, V., 2011: Obnova vrstev nadložního humusu na zalesněných zemědělských půdách. Zprávy lesnického výzkumu, 56:228-234.Holubík, O., Podrázský, V., Vopravil, J., Khel, T., Remeš, J., 2014: Effect of agricultural lands afforestation and tree species composition on the soil reaction, total organic carbon and nitrogen content in the uppermost mineral soil profile. Soil & Water Research, 9:192-200.Kacálek, D., Dušek, D., Novák, J., Slodičák, M., Bartoš, J., Černohous, V., Balcar, V., 2011: Former agriculture impacts on properties of Norway spruce forest floor and soil. Forest Systems, 20:437-443.Kacálek, D., Novák, J., Bartoš, J., Slodičák, M., Balcar, V., Černohous, V., 2010: Vlastnosti nadložního humusu a svrchní vrstvy půdy ve vztahu k druhům dřevin. Zprávy lesnického výzkumu, 55:19-25.Kindler, E., 2016: A comparison of the concepts: Ecosystem services and forest functions to improve interdisciplinary exchange. Forest Policy and Economics, 67: 52-59.10.1016/j.forpol.2016.03.011Kuneš, I., Balcar, V., Benešová, T., Baláš, M., Zadina, J., Zahradník, D. et al., 2009: Influence of pulverized limestone and amphibolite mixture on the growth performance of Alnus incana [L.] Moench plantation on an acidified mountain site. Journal of Forest Science, 55:469-476.Kupka, I., Podrázský, V., Kubeček, J., 2013: Soil-forming effect of Douglas fir at lower altitudes - a case study. Journal of Forest Science, 59:345-351.Lal, R., 2005: Forest soils and carbon sequestration. Forest Ecology and Management, 220:242-258.Lugato, E., Berti, A., 2008: Potential carbon sequestration in a cultivated soil under different climate change scenarios: A modelling approach for evaluating promising management practices in northeast Italy. Agriculture Ecosystems & Environment, 128:97-103.Matějka, K., Vacek, S., Podrázský, V., 2010: Development of forest soils in the Krkonoše Mts. in the period 1980-2009. Journal of Forest Science, 56: 485-504.Menšík, L., Fabiánek, T., Tesař, V., Kulhavý, J., 2009a: Humus conditions and stand characteristics of artificially established young stands in the process of the transformation of spruce monocultures. Journal of Forest Science, 55:215-223.Menšík, L., Kulhavý, J., Kantor, P., Remeš, J., 2009b: Humus conditions of stands with different proportions of Douglas fir in the Hůrky Training Forest District and Křtiny Training Forest Enterprise. Journal of Forest Science, 55:345-356.Murty, D., Kirschbaum, M. U. F., McMurtrie, R. E., McGilvray, A., 2002: Does conversion of forest to agricultural land change soil carbon and nitrogen? a review of the literature. Global Change Biology, 8:105-123.Novara, A., La Mantia, T., Rühl, J., Badalucco, L., Kuzyakov, Y., Gristina, L., Laudicina, V. A., 2014: Dynamics of soil organic carbon pools after agricultural abandonment. Geoderma, 235-236: 191-198.Pan, Y. D., Birdsey, R. A., Fang, J. Y., Houghton, R., Kauppi, P. E., Kunz, W. A. et al., 2011: A Large and Persistent Carbon Sink in the World‘s Forests. Science, 333:988-993.Paul, K. I., Polglase, P. J., Nyakuengama, J. G., Khanna, P. K., 2002: Change in soil carbon following afforestation. Forest Ecology and Management, 168:241-257.Podrázský, V., Štěpaník, R., 2002: Vývoj půd na zalesněných zemědělských plochách - oblast LS Český Rudolec. Zprávy lesnického výzkumu, 47:53-56.Podrázský, V., Remeš, J., Ulbrichová, I., 2003: Biological and chemical amelioration effects on the localities degraded by bulldozer site preparartion in the Ore Mts. - Czech Republic. Journalof Forest Science, 49:141-147.Podrázský, V., Ulbrichová, I., 2004: Restoration of forest soils on reforested abandoned agricultural lands. Journal of Forest Science, 50:249-255.Podrázský, V., 2008: Tvorba povrchového humusu při zalesňování zemědělských ploch a po buldozerové přípravě v Krušných horách. Zprávy lesnického výzkumu, 53:258-263.Podrázský, V., Remeš, J., 2009: Soil-forming effect of Grand fir (Abies grandis [Dougl. ex D. Don] Lindl.). Journal of Forest Science, 55:533-539.Podrázský, V., Remeš, J., Hart, V., Moser, W. K., 2009: Production and humus form development in forest stands established on agricultural lands - Kostelecnad Černými lesy region. Journal of Forest Science, 55:299-305.Podrázský, V., Remeš, J., 2010: Vliv druhové skladby lesních porostů na stav humusových forem na území ŠLP v Kostelci nad Černými Lesy. Zprávy lesnického výzkumu, 55:71-77.Podrázský, V., Procházka, J., Remeš, J., 2011: Produkce a vývoj půdního prostředí porostů na bývalých zemědělských půdách v oblasti Českomoravské vrchoviny. Zprávy lesnického výzkumu, 56:27-35.Podrázský, V., Remeš, J., Tauchman, P., Hart, V., 2010: Douglaska tisolistá a její funkční účinky na zalesněných zemědělských půdách. Zprávy lesnického výzkumu, 55:12-18.Post, W. M., Kwon, K. C., 2000: Soil carbon sequestration and land-use change: processes and potential. Global Change Biology, 6:317-327.Prishchepov, A. V., Radeloff, V. C., Baumann, M., Kuemmerle, T., Müller, D., 2012: Effects of institutional changes on land use: agricultural land abandonment during the transition from state-command to marketdriven economies in post-Soviet Eastern Europe. Environmental Research Letters, 7:13.Pukkala, T., 2014: Does biofuel harvesting and continuous cover management increase carbon sequestration? Forest Policy and Economics, 43:41-50.10.1016/j.forpol.2014.03.004R Core Team, 2016: R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria.Rounsevell, M. D. A., Reginster, I., Araújo, M.B., Carter, T. R., Dendoncker, N., Ewert, F. et al., 2006: A coherent set of future land use change scenarios for Europe. Agriculture, Ecosystems and Environment 114:57-68.Ruskule, A., Nikodemus, O., Kasparinskis, R., Prižavoite, D., Bojāre, D., Brūmelis, G., 2016: Soil - vegetation interaction in abandoned farmland within the temperate region of Europe. New Forests, 47:587-605.10.1007/s11056-016-9532-xSchulp, C. J. E., Nabuurs, G. J., Verburg, P. H., Waal, R. W., 2008: Effect of tree species on carbon stocks in forest floor and mineral soil and implications for soil carbon inventories. Forest Ecology and Management, 256:482-490.Segura, C., Jiménez, M. J., Nieto, O., Navarro, F. B., Fernández-Ondoño, E., 2016: Changes in soil organic carbon over 20 years after afforestation in semiarid SE Spain. Forest Ecology and Management, 381:268-278.Stenger, A., Harou, P., Navrud, S., 2009: Valuing environmental goods and services derived from the forests. Journal of Forest Economics, 15:1-14.10.1016/j.jfe.2008.03.001Stoate, C., Báldi, A., Bejca, P., Boatman, N. D., Herzon, I., Doorn, A. et al., 2009: Ecological impacts of early 21st century agricultural change in Europe - A review. Journal of Environmental Management, 91:22-46.Šály, R., 1978: Pôda, základ lesnej produkcie. Bratislava, Príroda, 235 p.Torreano, S., 2004: Soil development and properties. In: Burley, J., Evans, J., Youngquist, J. A. (ed.): Encyclopedia of Forest Sciences, Vol. 3. Oxford, Elsevier, p. 1208-1216.Tužinský, M., Kupka, I., Podrázský, V., Prknová, H., 2015: Influence of the mineral rock alginite on survival rate and rate-growth of selected tree species on agricultural land. Journal of Forest Science, 61:399-405.Vacek, S., Podrázský, V., Mikeska, M., Moser, W. K., 2003: Introskeletal erosion threat in mountain forests of the Czech Republic. Journal of Forest Science, 49:313-320.Vacek, S., Hejcman, M., Semelová, V., Remeš, J., Podrázský, V., 2009: Effect of soil chemical properties on growth, foliation and nutrition of Norway spruce stand affected by yellowing in the Bohemian Forest Mts., Czech Republic. 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Forestry Journalde Gruyter

Published: Jun 27, 2017

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