This work is licensed under the Creative Commons Attribution 4.0 International License.
Etverk, I. 2007. A Short Forestry Course. (Väike metsanduskursus). Tartu, Eesti Loodusfoto. 55 pp. (In Estonian).EtverkI.2007A Short Forestry Course. (Väike metsanduskursus)TartuEesti Loodusfoto55(In Estonian).Search in Google Scholar
Hånell, B., Nordfjell, T., Eliasson, L. 2000. Productivity and costs in shelterwood harvesting. – Scandinavian Journal of Forest Research, 15(5), 561–569. https://doi.org/10.1080/028275800750173537.HånellB.NordfjellT.EliassonL.2000Productivity and costs in shelterwood harvestingScandinavian Journal of Forest Research155561569https://doi.org/10.1080/028275800750173537.10.1080/028275800750173537Search in Google Scholar
Hanewinkel, M. 2002. Comparative economic investigations of even-aged and uneven-aged silvicultural systems: a critical analysis of different methods. – Forestry, 75(4), 473–481.HanewinkelM.2002Comparative economic investigations of even-aged and uneven-aged silvicultural systems: a critical analysis of different methodsForestry75447348110.1093/forestry/75.4.473Search in Google Scholar
Hazard-Daniel, S.W., Hiesl, P., Loeb, S.C., Straka, T.J. 2017. An incremental economic analysis of establishing early successional habitat for biodiversity. – Resources, 6(4), 53. https://doi.org/10.3390/resources6040053.Hazard-DanielS.W.HieslP.LoebS.C.StrakaT.J.2017An incremental economic analysis of establishing early successional habitat for biodiversityResources6453https://doi.org/10.3390/resources6040053.10.3390/resources6040053Search in Google Scholar
Hynynen, J., Ahtikoski, A., Siitonen, J., Sievänen, R., Liski, J. 2005. Applying the MOTTI simulator to analyse the effects of alternative management schedules on timber and non-timber production. – Forest Ecology and Management, 207(1–2), 5–18. https://doi.org/10.1016/j.foreco.2004.10.015.HynynenJ.AhtikoskiA.SiitonenJ.SievänenR.LiskiJ.2005Applying the MOTTI simulator to analyse the effects of alternative management schedules on timber and non-timber productionForest Ecology and Management2071–2518https://doi.org/10.1016/j.foreco.2004.10.015.10.1016/j.foreco.2004.10.015Search in Google Scholar
Keskkonnaagentuur. 2021. Yearbook Forest 2019. (Aastaraamat Mets 2019). Estonian Environment Agency. [WWW document]. – URL https://keskkonnaagentuur.ee/media/882/download. [Accessed 4 April 2022].Keskkonnaagentuur2021Yearbook Forest 2019. (Aastaraamat Mets 2019)Estonian Environment Agency[WWW document]. – URL https://keskkonnaagentuur.ee/media/882/download. [Accessed 4 April 2022].Search in Google Scholar
Keskkonnaministeerium. 2019. Identification of the issues in the field of ecology for the initiation of the Forestry Development Plan 2030. (MAK 2030 algatamise ökoloogia valdkonna alamtöörühma probleemide kaardistus). Tallinn, Keskonnaministerium. 68 pp. (In Estonian).Keskkonnaministeerium2019Identification of the issues in the field of ecology for the initiation of the Forestry Development Plan 2030. (MAK 2030 algatamise ökoloogia valdkonna alamtöörühma probleemide kaardistus)TallinnKeskonnaministerium68(In Estonian).Search in Google Scholar
Keskkonnaministeerium. 2021. Estonian forestry development programme until 2030. Draft 08.12.2021. (Eesti metsanduse arengukava aastani 2030. Kavand seisuga 08.12.2021). [WWW document]. – URL https://envir.ee/media/4935/download. [Accessed 28 March 2022]. (In Estonian).Keskkonnaministeerium2021Estonian forestry development programme until 2030. Draft 08.12.2021. (Eesti metsanduse arengukava aastani 2030. Kavand seisuga 08.12.2021)[WWW document]. – URL https://envir.ee/media/4935/download. [Accessed 28 March 2022]. (In Estonian).Search in Google Scholar
Kiviste, A. 1997. Difference equations of stand height, diameeter and volume depending on stand age and site factors for Estonian state forests (on the basis of 1984–1993 forest inventory data). (Eesti riigimetsa puistute kõrguse, diameetri ja tagavara vanuseridade diferentsmudel 1984–1993. aasta metsakorralduse takseerikirjelduste andmeil). – EPMÜ teadustööde kogumik / Transactions of the Estonian Agricultural University, 189, 63–75. (In Estonian).KivisteA.1997Difference equations of stand height, diameeter and volume depending on stand age and site factors for Estonian state forests (on the basis of 1984–1993 forest inventory data). (Eesti riigimetsa puistute kõrguse, diameetri ja tagavara vanuseridade diferentsmudel 1984–1993. aasta metsakorralduse takseerikirjelduste andmeil)EPMÜ teadustööde kogumik / Transactions of the Estonian Agricultural University1896375(In Estonian).Search in Google Scholar
Kõresaar, P. 2000. The dune pine forest natural regeneration in Surju Forest. (Luitemännikute looduslikust uuenemisest Surju metskonnas). – Kursusetöö. Tartu, Eesti Põllumajandusülikooli metsandusteaduskond. 59 pp. (In Estonian).KõresaarP.2000The dune pine forest natural regeneration in Surju Forest. (Luitemännikute looduslikust uuenemisest Surju metskonnas)Kursusetöö.TartuEesti Põllumajandusülikooli metsandusteaduskond59(In Estonian).Search in Google Scholar
Laas, E., Väät, T. 2004. Shelterwood system in Scots pine stands and pine regeneration under shelterwood. (Turberaied männikutes ja männiuuenduse tekkimine turberaiealadel). – Forestry Studies / Metsanduslikud Uurimused, 41, 86–100. (In Estonian with English summary).LaasE.VäätT.2004Shelterwood system in Scots pine stands and pine regeneration under shelterwood. (Turberaied männikutes ja männiuuenduse tekkimine turberaiealadel)Forestry Studies / Metsanduslikud Uurimused4186100(In Estonian with English summary).Search in Google Scholar
Metsa majandamise eeskiri. 2021. Rules of Forest Management. – Riigi Teataja I, 06.04.2021, 8. (In Estonian).Metsa majandamise eeskiri2021Rules of Forest ManagementRiigi Teataja I060420218(In Estonian).Search in Google Scholar
Metsaseadus. 1998. Forest Act. – Riigi Teataja I, 113, 1872. (In Estonian).Metsaseadus1998Forest ActRiigi Teataja I1131872(In Estonian)Search in Google Scholar
Metsaseadus. 2006. Forest Act. – Riigi Teataja I, 30, 232. (In Estonian).Metsaseadus2006Forest ActRiigi Teataja I30232(In Estonian).Search in Google Scholar
Metsaseadus. 2020. Forest Act. – Riigi Teataja I, 10.07.2020, 75. (In Estonian).Metsaseadus2020Forest ActRiigi Teataja I1007202075(In Estonian).Search in Google Scholar
Örd, A. 1977. Scots pine regeneration with shelterwood cuttings. (Männi uuendamine aegjärksete raietega). – Etverk, I. (ed.). Metsamajandus. Tallinn, Valgus, 15–22. (In Estonian).ÖrdA.1977Scots pine regeneration with shelterwood cuttings. (Männi uuendamine aegjärksete raietega)EtverkI.(ed.).MetsamajandusTallinnValgus1522(In Estonian).Search in Google Scholar
Örd, A. 2000. Protection Forests and their Management in Estonia. (Kaitsemetsad ja nende majandamine Eestis). Tallinn, Keskkonnaministeerium. 234 pp. (In Estonian).ÖrdA.2000Protection Forests and their Management in Estonia. (Kaitsemetsad ja nende majandamine Eestis)TallinnKeskkonnaministeerium234(In Estonian).Search in Google Scholar
Padari, A. 2017. Creating an updated assortment model. (Uuendatud sortimenteerimise mudeli koostamine). Tartu, Estonian University of Life Sciences. 26 pp. (In Estonian).PadariA.2017Creating an updated assortment model. (Uuendatud sortimenteerimise mudeli koostamine)TartuEstonian University of Life Sciences26(In Estonian).Search in Google Scholar
Pommerening, A., Murphy, S.T. 2004. A review of the history, definitions and methods of continuous cover forestry with special attention to afforestation and restocking. – Forestry, 77(1), 27–44. https://doi.org/10.1093/forestry/77.1.27.PommereningA.MurphyS.T.2004A review of the history, definitions and methods of continuous cover forestry with special attention to afforestation and restockingForestry7712744https://doi.org/10.1093/forestry/77.1.27.10.1093/forestry/77.1.27Search in Google Scholar
Pretzsch, H., Biber, P., Ďurský, J. 2002. The single tree-based stand simulator SILVA: construction, application and evaluation. – Forest Ecology and Management, 162(1), 3–21. https://doi.org/10.1016/S0378-1127(02)00047-6.PretzschH.BiberP.ĎurskýJ.2002The single tree-based stand simulator SILVA: construction, application and evaluationForest Ecology and Management1621321https://doi.org/10.1016/S0378-1127(02)00047-6.10.1016/S0378-1127(02)00047-6Search in Google Scholar
Reventlow, D.O.J., Nord-Larsen, T., Biber, P., Hilmers, T., Pretzsch, H. 2021. Simulating conversion of even-aged Norway spruce into uneven-aged mixed forest: effects of different scenarios on production, economy and heterogeneity. – European Journal of Forest Research, 140, 1005–1027. https://doi.org/10.1007/s10342-021-01381-0.ReventlowD.O.J.Nord-LarsenT.BiberP.HilmersT.PretzschH.2021Simulating conversion of even-aged Norway spruce into uneven-aged mixed forest: effects of different scenarios on production, economy and heterogeneityEuropean Journal of Forest Research14010051027https://doi.org/10.1007/s10342-021-01381-0.10.1007/s10342-021-01381-0Search in Google Scholar
Rist, E. 2017. Shelterwood regeneration methods in Uulu-Rannametsa pine forests. (Turberaied Uulu-Rannametsa luitemännikutes). – Master thesis. Tartu, Estonian University of Life Sciences. 60 pp. (In Estonian with English summary).RistE.2017Shelterwood regeneration methods in Uulu-Rannametsa pine forests. (Turberaied Uulu-Rannametsa luitemännikutes)Master thesis.TartuEstonian University of Life Sciences60(In Estonian with English summary).Search in Google Scholar
Rosenvald, R., Rosenvald, K., Kaart, T., Soolmann, E. 2020. Effects of stand parameters on conifer regeneration success in pine shelterwood stands in Estonia. – European Journal of Forest Research, 139, 29–40. https://doi.org/10.1007/s10342-019-01255-6.RosenvaldR.RosenvaldK.KaartT.SoolmannE.2020Effects of stand parameters on conifer regeneration success in pine shelterwood stands in EstoniaEuropean Journal of Forest Research1392940https://doi.org/10.1007/s10342-019-01255-6.10.1007/s10342-019-01255-6Search in Google Scholar
Soolmann, E. 2014. Factors affecting the natural regeneration under uniform shelterwood cuttings system. (Aegjärksel raiel loodusliku uuenduse teket mõjutavad tegurid). – Master thesis. Tartu, Estonian University of Life Sciences. 61 pp. (In Estonian with English summary).SoolmannE.2014Factors affecting the natural regeneration under uniform shelterwood cuttings system. (Aegjärksel raiel loodusliku uuenduse teket mõjutavad tegurid)Master thesis.TartuEstonian University of Life Sciences61(In Estonian with English summary).Search in Google Scholar
Strand, M., Löfvenius, M.O., Bergsten, U., Lundmark, T., Rosvall, O. 2006. Height growth of planted conifer seedlings in relation to solar radiation and position in Scots pine shelterwood. – Forest Ecology and Managment, 224(3), 258–265.StrandM.LöfveniusM.O.BergstenU.LundmarkT.RosvallO.2006Height growth of planted conifer seedlings in relation to solar radiation and position in Scots pine shelterwoodForest Ecology and Managment224325826510.1016/j.foreco.2005.12.038Search in Google Scholar
Tahvonen, O. 2007. Optimal choice between even- and uneven-aged forest management systems. – Natural Resource Modelling, 22(2), 289–321.TahvonenO.2007Optimal choice between even- and uneven-aged forest management systemsNatural Resource Modelling22228932110.1111/j.1939-7445.2008.00037.xSearch in Google Scholar
Tishler, M. 2020. The forest may not regenerate enough well after shelterwood cutting. (Turberaiel ei pruugi mets uueneda piisavalt hästi). – Eesti Mets, 1, 30–33. (In Estonian).TishlerM.2020The forest may not regenerate enough well after shelterwood cutting. (Turberaiel ei pruugi mets uueneda piisavalt hästi)Eesti Mets13033(In Estonian).Search in Google Scholar
Tishler, M., Tullus, T., Tullus, A., Jäärats, A., Lutter, R., Lundmark, T., Tullus, H. 2020. Effects of shelterwood method and plant stock type on the early growth and survival of pine seedlings in regeneration stands under hemiboreal conditions. – Scandinavian Journal of Forest Research, 35(1–2), 85–95. https://doi.org/10.1080/02827581.2019.1707273.TishlerM.TullusT.TullusA.JääratsA.LutterR.LundmarkT.TullusH.2020Effects of shelterwood method and plant stock type on the early growth and survival of pine seedlings in regeneration stands under hemiboreal conditionsScandinavian Journal of Forest Research351–28595https://doi.org/10.1080/02827581.2019.1707273.10.1080/02827581.2019.1707273Search in Google Scholar
Tullus, H. 2014. Ecological-economical analysis of shelterwood regeneration method and establishment of the network of demonstration-experimental areas. (Turberaiete ökoloogilis-majanduslik analüüs ja näidiskatsealade võrgustiku rajamine). – RMK Research Project Report. 11 pp. [WWW document]. – URL http://files.voog.com/0000/0004/9218/files/Rakendusuuringu_lopparuanne_turberaie.pdf. [Accessed 11 March 2022]. (In Estonian).TullusH.2014Ecological-economical analysis of shelterwood regeneration method and establishment of the network of demonstration-experimental areas. (Turberaiete ökoloogilis-majanduslik analüüs ja näidiskatsealade võrgustiku rajamine)RMK Research Project Report. 11 pp. [WWW document]. – URL http://files.voog.com/0000/0004/9218/files/Rakendusuuringu_lopparuanne_turberaie.pdf. [Accessed 11 March 2022]. (In Estonian).Search in Google Scholar
Valgepea, M., Raudsaar, M., Karu, H., Suursild, E., Pärt, E., Sims, A., Kauer, K., Astover, A., Maasik, M., Vaasa, A., Kaimre, P. 2021. Analysis of the carbon sequestration capacity of land use, land-use change and forestry sector up to 2050. (Maakasutuse, maakasutuse muutuse ja metsanduse sektori sidumisvõimekuse analüüs kuni aastani 2050). Tartu, Keskkonnaagentuur, Eesti Maaülikool. 164 pp. https://doi.org/10.15159/eds.rep.21.01. (In Estonian).ValgepeaM.RaudsaarM.KaruH.SuursildE.PärtE.SimsA.KauerK.AstoverA.MaasikM.VaasaA.KaimreP.2021Analysis of the carbon sequestration capacity of land use, land-use change and forestry sector up to 2050. (Maakasutuse, maakasutuse muutuse ja metsanduse sektori sidumisvõimekuse analüüs kuni aastani 2050)TartuKeskkonnaagentuur, Eesti Maaülikool164https://doi.org/10.15159/eds.rep.21.01. (In Estonian).Search in Google Scholar
Valkonen, S., Ruuska, J., Siipilehto, J. 2002. Effect of retained trees on the development of young Scots pine stands in Southern Finland. – Forest Ecology and Managment, 166(1–3), 227–243. https://doi.org/10.1016/S0378-1127(01)00668-5.ValkonenS.RuuskaJ.SiipilehtoJ.2002Effect of retained trees on the development of young Scots pine stands in Southern FinlandForest Ecology and Managment1661–3227243https://doi.org/10.1016/S0378-1127(01)00668-5.10.1016/S0378-1127(01)00668-5Search in Google Scholar
Zdors, L., Donis, J. 2017. Evaluating the edge effect on the initial survival and growth of Scots pine and Norway spruce after planting in different size gaps in shelterwood. – Baltic Forestry, 23(2), 534–543.ZdorsL.DonisJ.2017Evaluating the edge effect on the initial survival and growth of Scots pine and Norway spruce after planting in different size gaps in shelterwoodBaltic Forestry232534543Search in Google Scholar