This work is licensed under the Creative Commons Attribution 4.0 International License.
Aldea, J., Bianchi, S., Nilsson, U., Hynynen, J., Lee, D., Holmström, E., Huuskonen, S. 2023. Evaluation of growth models for mixed forests used in Swedish and Finnish decision support systems. – Forest Ecology and Management, 529, 120721. https://doi.org/10.1016/j.foreco.2022.120721.AldeaJ.BianchiS.NilssonU.HynynenJ.LeeD.HolmströmE.HuuskonenS.2023. Evaluation of growth models for mixed forests used in Swedish and Finnish decision support systems. – Forest Ecology and Management, 529, 120721. https://doi.org/10.1016/j.foreco.2022.120721.Search in Google Scholar
Allen II, M.G., Antón-Fernández, C., Astrup, R. 2020. A stand-level growth and yield model for thinned and unthinned managed Norway spruce forests in Norway. – Scandinavian Journal of Forest Research, 35, 238–251. https://doi.org/10.1080/02827581.2020.1773 525.Allen IIM.G.Antón-FernándezC.AstrupR.2020. A stand-level growth and yield model for thinned and unthinned managed Norway spruce forests in Norway. – Scandinavian Journal of Forest Research, 35, 238–251. https://doi.org/10.1080/02827581.2020.1773 525.Search in Google Scholar
Álvarez-González, J.G., Zingg, A., Gadow, K.V. 2010. Estimating growth in beech forests: A study based on long term experiments in Switzerland. – Annals of Forest Science, 67. https://doi.org/10.1051/forest/2009113.Álvarez-GonzálezJ.G.ZinggA.GadowK.V.2010. Estimating growth in beech forests: A study based on long term experiments in Switzerland. – Annals of Forest Science, 67. https://doi.org/10.1051/forest/2009113.Search in Google Scholar
Antanaitis, V.V., Zagreev, V.V. (Антанайтис, B.B., Загреев, B.B.) 1981. Forest Growth. (Прирост леса). Moscow, Lesnaya Prom-st’. (Лесная пром-сть). 200 pp. (In Russian).AntanaitisV.V.ZagreevV.V.АнтанайтисB.B.ЗагреевB.B.1981. Forest Growth. (Прирост леса). Moscow, Lesnaya Prom-st’. (Лесная пром-сть). 200 pp. (In Russian).Search in Google Scholar
Bravo, F., Fabrika, M., Ammer, C., Barreiro, S., Bielak, K., Coll, L., Fonseca, T., Kangur, A., Löf, M., Merganičová, K., Pach, M., Pretzsch, H., Stojanović, D., Schuler, L., Peric, S., Rötzer, T., Del Río, M., Dodan, M., Bravo-Oviedo, A. 2019. Modelling approaches for mixed forests dynamics prognosis. Research gaps and opportunities. – Forest Systems, 28. https://doi.org/10.5424/fs/2019281-14342.BravoF.FabrikaM.AmmerC.BarreiroS.BielakK.CollL.FonsecaT.KangurA.LöfM.MerganičováK.PachM.PretzschH.StojanovićD.SchulerL.PericS.RötzerT.Del RíoM.DodanM.Bravo-OviedoA.2019. Modelling approaches for mixed forests dynamics prognosis. Research gaps and opportunities. – Forest Systems, 28. https://doi.org/10.5424/fs/2019281-14342.Search in Google Scholar
Cao, Q.V. 2014. Linking individual-tree and wholestand models for forest growth and yield prediction. – Forest Ecosystems, 1. https://doi.org/10.1186/s40663-014-0018-z.CaoQ.V.2014. Linking individual-tree and wholestand models for forest growth and yield prediction. – Forest Ecosystems, 1. https://doi.org/10.1186/s40663-014-0018-z.Search in Google Scholar
Cieszewski, C.J., Bailey, R.L. 2000. Generalized algebraic difference approach: Theory based derivation of dynamic site equations with polymorphism and variable asymptotes. – Forest Science, 46, 116–126.CieszewskiC.J.BaileyR.L.2000. Generalized algebraic difference approach: Theory based derivation of dynamic site equations with polymorphism and variable asymptotes. – Forest Science, 46, 116–126.Search in Google Scholar
Elfving, B. 2010. Growth modelling in the Heureka system. Umeå, Swedish Agricultural University. 97 pp.ElfvingB.2010. Growth modelling in the Heureka system. Umeå, Swedish Agricultural University. 97 pp.Search in Google Scholar
ForMIS. 2023. Models. (Mudelid). [WWW document]. – URL https://formis.emu.ee/growfunc/?do=gf_list. WWW document. [Accessed 8 August 2023]. (In Estonian).ForMIS. 2023. Models. (Mudelid). [WWW document]. – URL https://formis.emu.ee/growfunc/?do=gf_list. WWW document. [Accessed 8 August 2023]. (In Estonian).Search in Google Scholar
García, O. 2011. A parsimonious dynamic stand model for interior spruce in British Columbia. – Forest Science, 57, 265–280.GarcíaO.2011. A parsimonious dynamic stand model for interior spruce in British Columbia. – Forest Science, 57, 265–280.Search in Google Scholar
García, O., Burkhart, H.E., Amateis, R.L. 2011. A biologically-consistent stand growth model for loblolly pine in the Piedmont physiographic region, USA. – Forest Ecology and Management, 262, 2035–2041. https://doi.org/10.1016/j.foreco.2011.08.047.GarciaO.BurkhartH.E.AmateisR.L.2011. A biologically-consistent stand growth model for loblolly pine in the Piedmont physiographic region, USA. – Forest Ecology and Management, 262, 2035–2041. https://doi.org/10.1016/j.foreco.2011.08.047.Search in Google Scholar
García, O., Ruiz, F. 2003. A growth model for eucalypt in Galicia, Spain. – Forest Ecology and Management, 173, 49–62. https://doi.org/10.1016/S0378-1127(01)00817-9.GarcíaO.RuizF.2003. A growth model for eucalypt in Galicia, Spain. – Forest Ecology and Management, 173, 49–62. https://doi.org/10.1016/S0378-1127(01)00817-9.Search in Google Scholar
Hevia, A., Cao, Q.V., Álvarez-González, J.G., Ruiz-González, A.D., Gadow, K.V. 2015. Compatibility of whole-stand and individualtree models using composite estimators and disaggregation. – Forest Ecology and Management, 348, 46–56. https://doi.org/10.1016/j.foreco.2015.03.035.HeviaA.CaoQ.V.Álvarez-GonzálezJ.G.Ruiz-GonzálezA.D.GadowK.V.2015. Compatibility of whole-stand and individualtree models using composite estimators and disaggregation. – Forest Ecology and Management, 348, 46–56. https://doi.org/10.1016/j.foreco.2015.03.035.Search in Google Scholar
Hordo, M., Kiviste, A., Sims, A., Lang, M. 2008. Outliers and/or measurement errors on the permanent sample plot data. – Proceedings of the Sustainable Forestry in Theory and Practice: Recent Advances in Inventory and Monitoring, Statistics and Modeling, Information and Knowledge Management, and Policy Science, Scotland. Edinburgh, 1–15.HordoM.KivisteA.SimsA.LangM.2008. Outliers and/or measurement errors on the permanent sample plot data. – Proceedings of the Sustainable Forestry in Theory and Practice: Recent Advances in Inventory and Monitoring, Statistics and Modeling, Information and Knowledge Management, and Policy Science, Scotland. Edinburgh, 1–15.Search in Google Scholar
Hynynen, J., Ojansuu, R., Hökkä, H., Siipilehto, J., Salminen, H., Haapala, P. 2002. Models for Predicting Stand Development in MELA System. Vantaa, Metsäntutkimuslaitos. 116 pp.HynynenJ.OjansuuR.HökkäH.SiipilehtoJ.SalminenH.HaapalaP.2002. Models for Predicting Stand Development in MELA System. Vantaa, Metsäntutkimuslaitos. 116 pp.Search in Google Scholar
Kärki, T., Maltamo, M., Eerikäinen, K. 2000. Diameter distribution, stem volume and stem quality models for grey alder (Alnus incana) in eastern Finland. – New Forests, 20, 65–86. https://doi.org/10.1023/A:1006793616781.KärkiT.MaltamoM.EerikäinenK.2000. Diameter distribution, stem volume and stem quality models for grey alder (Alnus incana) in eastern Finland. – New Forests, 20, 65–86. https://doi.org/10.1023/A:1006793616781.Search in Google Scholar
Kiviste, A., Hordo, M. 2002. Network of permanent forest growth plots in Estonia. (Eesti metsa kasvukäigu püsiproovitükkide võrgustik). – Forestry Studies /Metsandusliku Uurimused, 37, 43–58. (In Estonian with English summary).KivisteA.HordoM.2002. Network of permanent forest growth plots in Estonia. (Eesti metsa kasvukäigu püsiproovitükkide võrgustik). – Forestry Studies / Metsandusliku Uurimused, 37, 43–58. (In Estonian with English summary).Search in Google Scholar
Kiviste, A., Hordo, M., Kangur, A., Kardakov, A., Laarmann, D., Lilleleht, A., Metslaid, S., Sims, A., Korjus, H. 2015. Monitoring and modeling of forest ecosystems: The Estonian Network of Forest Research Plots. – Forestry Studies / Metsanduslikud Uurimused, 62, 26–38. https://doi.org/10.1515/fsmu-2015-0003.KivisteA.HordoM.KangurA.KardakovA.LaarmannD.LillelehtA.MetslaidS.SimsA.KorjusH.2015. Monitoring and modeling of forest ecosystems: The Estonian Network of Forest Research Plots. – Forestry Studies / Metsanduslikud Uurimused, 62, 26–38. https://doi.org/10.1515/fsmu-2015-0003.Search in Google Scholar
Kiviste, A., Kiviste, K. 2009. Algebraic difference equations for stand height, diameter, and volume depending on stand age and site factors for Estonian state forests. – Mathematical and Computational Forestry and Natural-Resource Sciences, 1, 67–77.KivisteA.KivisteK.2009. Algebraic difference equations for stand height, diameter, and volume depending on stand age and site factors for Estonian state forests. – Mathematical and Computational Forestry and Natural-Resource Sciences, 1, 67–77.Search in Google Scholar
Kiviste, A., Padari, A., Metslaid, S. 2022. A date-dependent model for determining the share of tree seasonal radial growth for Estonian conditions. – Forestry Studies /Metsanduslikud Uurimused, 77, 76–89. https://doi.org/10.2478/fsmu-2022-0014.KivisteA.PadariA.MetslaidS.2022. A date-dependent model for determining the share of tree seasonal radial growth for Estonian conditions. – Forestry Studies /Metsanduslikud Uurimused, 77, 76–89. https://doi.org/10.2478/fsmu-2022-0014.Search in Google Scholar
Kohava, P. 1992. Initial algorithms for determining the annual increment of stand stock on a computer. (Esialgsed algoritmid puistu tagavara jooksva juurdekasvu määramiseks arvutil). Eesti Metsakorralduskeskus. 13 pp. (In Estonian).KohavaP.1992. Initial algorithms for determining the annual increment of stand stock on a computer. (Esialgsed algoritmid puistu tagavara jooksva juurdekasvu määramiseks arvutil). Eesti Metsakorralduskeskus. 13 pp. (In Estonian).Search in Google Scholar
Liepa, I. 2008. Annual volume increment of coniferous forests in Latvia. – LLU Raksti, 46–52.LiepaI.2008. Annual volume increment of coniferous forests in Latvia. – LLU Raksti, 46–52.Search in Google Scholar
Mäkinen, H., Seo, J.-W., Nöjd, P., Schmitt, U., Jalkanen, R. 2008. Seasonal dynamics of wood formation: A comparison between pinning, microcoring and dendrometer measurements. – European Journal of Forest Research, 127, 235–245. https://doi.org/10.1007/s10342-007-0199-x.MäkinenH.SeoJ.-W.NöjdP.SchmittU.JalkanenR.2008. Seasonal dynamics of wood formation: A comparison between pinning, microcoring and dendrometer measurements. – European Journal of Forest Research, 127, 235–245. https://doi.org/10.1007/s10342-007-0199-x.Search in Google Scholar
Metsa korraldamise juhend. 2023. Forest inventory act. – RT I, 13.07.2023, 33. (In Estonian).Metsa korraldamise juhend. 2023. Forest inventory act. – RT I, 13.07.2023, 33. (In Estonian).Search in Google Scholar
Nilson, A. 2014. Patterns of pine forest structure and growth. (Männikute ehituse ja kasvu seaduspärasusi). – Kurm, M. (eds.). Pine in Estonia. (Mänd Eestis). Tartu, Eesti Maaülikool, 218–295. (In Estonian).NilsonA.2014. Patterns of pine forest structure and growth. (Männikute ehituse ja kasvu seaduspärasusi). – KurmM. (eds.). Pine in Estonia. (Mänd Eestis). Tartu, Eesti Maaülikool, 218–295. (In Estonian).Search in Google Scholar
Peuhkurinen, J., Maltamo, M., Malinen, J. 2008. Estimating species-specific diameter distributions and saw log recoveries of boreal forests from airborne laser scanning data and aerial photographs: A distribution-based approach. – Silva Fennica, 42, 625–641.PeuhkurinenJ.MaltamoM.MalinenJ.2008. Estimating species-specific diameter distributions and saw log recoveries of boreal forests from airborne laser scanning data and aerial photographs: A distribution-based approach. – Silva Fennica, 42, 625–641.Search in Google Scholar
Pretzsch, H. 2009. Forest Dynamics, Growth and Yield, From Measurement to Model. Berlin, Springer. 664 pp.PretzschH.2009. Forest Dynamics, Growth and Yield, From Measurement to Model. Berlin, Springer. 664 pp.Search in Google Scholar
Sun, H.-G., Zhang, J.-G., Duan, A.-G., He, C.-Y. 2007. A review of stand basal area growth models. – Forestry Studies in China, 9, 85–94. https://doi.org/10.1007/s11632-007-0014-2.SunH.-G.ZhangJ.-G.DuanA.-G.HeC.-Y.2007. A review of stand basal area growth models. – Forestry Studies in China, 9, 85–94. https://doi.org/10.1007/s11632-007-0014-2.Search in Google Scholar
Vaus, M. 2005. Forest survey. (Metsatakseerimine). Tartu, OÜ Halo Kirjastus. 178 pp. (In Estonian).VausM.2005. Forest survey. (Metsatakseerimine). Tartu, OÜ Halo Kirjastus. 178 pp. (In Estonian).Search in Google Scholar
Vitas, A. 2011. Seasonal growth variations of pine, spruce, and birch recorded by band dendrometers in NE Lithuania. – Baltic Forestry, 17, 30–35.VitasA.2011. Seasonal growth variations of pine, spruce, and birch recorded by band dendrometers in NE Lithuania. – Baltic Forestry, 17, 30–35.Search in Google Scholar
Zhang, C.-Y., Petráš, R., Zhao, X.-H., Gadow, K.V. 2010. Estimating beech growth and survival: a study based on longterm experiments in Slovakia. – Allgemeine Forst-und Jagdzeitung, 181, 45–52.ZhangC.-Y.PetrášR.ZhaoX.-H.GadowK.V.2010. Estimating beech growth and survival: a study based on longterm experiments in Slovakia. – Allgemeine Forst-und Jagdzeitung, 181, 45–52.Search in Google Scholar
