Potential of Birch (Betula pendula Roth and B. pubescens Ehrh.) for Forestry and Forest-Based Industry Sector within the Changing Climatic and Socio-Economic Context of Western Europe

Dubois, Héloïse; Claessens, Hugues; Verkasalo, Erkki

doi:10.3390/f11030336

Article (Scientific journals)

Potential of Birch (Betula pendula Roth and B. pubescens Ehrh.) for Forestry and Forest-Based Industry Sector within the Changing Climatic and Socio-Economic Context of Western Europe

Dubois, Héloïse; Claessens, Hugues; Verkasalo, Erkki

2020 • In Forests, 11 (336), p. 26

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10.3390/f11030336

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Keywords :

birch; global change; forestry; valuation market

Abstract :

[en] Five commercial tree species comprise nearly 80% of the forest standing stock volume in Western Europe. Nowadays, there is a strong need to consider a wider diversity of tree species, as evidenced by the impact of climate change and the forest health crises over the past decades. In this context, this study focuses on the potential of birch (Betula pendula Roth and Betula pubescens Ehrh.), a neglected indigenous species, for forestry and the forest-based industry sector. We have therefore compiled, analyzed, and discussed literature regarding the strengths and weaknesses of the species and the opportunities and threats of its use for this purpose. Among the strengths, birch tolerates various climates and sites, and high genetic variability promotes its adaptability. Birch improves forest resilience by colonizing forest gaps and quickly increasing soil functioning and biodiversity. Birch is also remarkably resistant to game overpopulation-associated damage. Large-sized logs are produced within relatively short periods with proper silvicultural treatment, and the wood characteristics allow versatile and valuable uses, as shown in Northern Europe. However, its weaknesses include high sensitivity to crown competition and to wood rot as challenges for silviculture. Among the opportunities, birch is well-suited to the global changes with its adaptability to climate change and its possible integration in diverse productive mixed tree stands. In the context of societal evolutions and customer perceptions, birch wood could play an increasing role in the building and furniture sectors, and among non-wood forest products. InWestern Europe, the main obstacle to birch development is the lack of information on the wood uses and, consequently, the lack of interest among forest managers and wood processing professionals, which have led to a poor quality of the resource and to insufficient demand for its wood. Moreover, its fast height growth can affect the vitality of other species in mixed stands. Our analysis highlighted the potential of birch in the Western European forestry considering societal, ecological, and economic purposes in a changing climatic and socio-economic context and the need to (i) develop opportunities for industrial uses of birch wood, (ii) inform forest owners, managers, and industrial professionals about the potential value of birch, and (iii) define silvicultural guidelines.

Disciplines :

Phytobiology (plant sciences, forestry, mycology...)

Author, co-author :

Dubois, Héloïse ; Université de Liège - ULiège > Département GxABT > Gestion des ressources forestières et des milieux naturels

Claessens, Hugues ; Université de Liège - ULiège > Département GxABT > Gestion des ressources forestières et des milieux naturels

Verkasalo, Erkki; Natural Resources Institute Finland (Luke), 80100 Joensuu, Finland

Language :

English

Title :

Potential of Birch (Betula pendula Roth and B. pubescens Ehrh.) for Forestry and Forest-Based Industry Sector within the Changing Climatic and Socio-Economic Context of Western Europe

Alternative titles :

[en] Le Potentiel du Bouleau (Betula pendula Roth and B. pubescens Ehrh.) pour la Getsion Forestière et l'Industrie du Bois dans le Contexte Climatique et Socio-économique Changeant de l'Europe Occidentale

Publication date :

17 March 2020

Journal title :

Forests

ISSN :

1999-4907

Publisher :

MDPI AG, Basel, Switzerland

Volume :

Issue :

336

Pages :

Peer reviewed :

Peer Reviewed verified by ORBi

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since 01 April 2020

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Bibliography

Global Forest Resource Assessment 2015 of the FAO. Country Reports. Available online: http://www.fao.org/forest-resources-assessment/en/(accessed on 19 February 2020).
Piedallu, C.; Perez, V.; Gegout, J.-C.; Lebourgeois, F.; Bertrand, R. Impact potentiel du changement climatique sur la distribution de l'Epicéa, du Sapin, du Hêtre et du Chêne sessile en France. Rev. For. Fr. 2009, 61, 567-593. (In French) [CrossRef]
Lindner, M.; Maroschek, M.; Netherer, S.; Kremer, A.; Barbati, A.; Garcia-Gonzalo, J.; Seidl, R.; Delzon, S.; Corona, P.; Kolström, M.; et al. Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystems. For. Ecol. Manag. 2010, 259, 698-709. [CrossRef]
Brang, P.; Spathelf, P.; Larsen, J.B.; Bauhus, J.; Bonci[dotless]na, A.; Chauvin, C.; Drössler, L.; Garci[dotless]a-Güemes, C.; Heiri, C.; Kerr, G.; et al. Suitability of close-to-nature silviculture for adapting temperate European forests to climate change. Forestry 2014, 87, 492-503. [CrossRef]
O'Hara, L.K. What is close-to-nature silviculture in a changing world? Forestry 2016, 89, 1-6. [CrossRef]
Denman, S.; Brown, N.; Kirk, S.; Jeger, M.; Webber, J. A description of the symptoms of Acute Oak Decline in Britain and a comparative review on causes of similar disorders on oak in Europe. Forestry 2014, 87, 535-551. [CrossRef]
Latte, N.; Lebourgeois, F.; Claessens, H. Growth partitioning within beech trees (Fagus sylvatica L.) varies in response to summer heat waves and related droughts. Trees 2016, 30, 189-201. [CrossRef]
Claessens, H.; Claessens, L.; Longrée, C.; Nivelle, L.; Tahir, B.; Lisein, J.; Lecomte, H. Près de 20 ans après sa grave crise sanitaire, où en est la hêtraie ardennaise ? For. Nat. 2017, 142, 30-36. (In French)
Hemery, G.E.; Clark, J.R.; Aldinger, E.; Claessens, H.; Malvolti, M.E.; O'Connor, E.; Raftoyannis, Y.; Savill, P.S.; Brus, R. Growing scattered broadleaved tree species in Europe in a changing climate: A review of risks and opportunities. Forestry 2010, 83, 65-81. [CrossRef]
Duncker, P.S.; Raulund-Rasmussen, K.; Gundersen, P.; Katzensteiner, K.; De Jong, J.; Ravn, H.P.; Smith, M.; Eckmüllner, O.; Spiecker, H. How forest management affects ecosystem services, including timber production and economic return: Synergies and trade-offs. Ecol. Soc. 2012, 17, 17. [CrossRef]
Felton, A.; Gustafsson, L.; Roberge, J.-M.; Ranius, T.; Hjältén, J.; Rudolphi, J.; Lindbladh, M.; Weslien, J.; Rist, L.; Brunet, J.; et al. How climate change adaptation and mitigation strategies can threaten or enhance the biodiversity of production forests: Insights from Sweden. Biol. Conserv. 2016, 194, 11-20. [CrossRef]
Randin, C.F.; Engler, R.; Normand, S.; Zappa, M.; Zimmermann, N.E.; Pearman, P.B.; Vittoz, P.; Thuillier, W.; Guisan, A. Climate change and plant distribution: Local models predict high-elevation persistence. Glob. Chang. Biol. 2009, 15, 1557-1569. [CrossRef]
De Jaegere, T.; Hein, S.; Claessens, H. A Review of the Characteristics of Small-Leaved Lime (Tilia cordata Mill.) and Their Implications for Silviculture in a Changing Climate. Forests 2016, 7, 21. [CrossRef]
Kleinschmit, A. The Broadeaf Citizen-Broadening the innovatice use of European hardwoods. In Proceedings of the 6th International Scientific Conference on Hardwood Processing, Lahti, Finland, 25-28 September 2017; Möttönen, V., Heinonen, E., Eds.; Natural Resources Institute Finland: Helsinki, Finland, 2017; pp. 14-15.
Dubois, H.; Latte, N.; Lecomte, H.; Claessens, H. Le bouleau, une essence qui s'impose. Description de la ressource dans son aire de distribution. For. Nat. 2016, 140, 44-58. (In French)
Moore, P.D. Next in succession. Nature 1979, 282, 361-362. [CrossRef]
Mauer, O.; Palatova, E. The role of root system in silver birch (Betula pendula Roth) dieback in the air-polluted area of Krušné hory Mts. J. For. Sci. 2003, 49, 191-199. [CrossRef]
Boruvka, V.; Zeidler, A.; Holecek, T.; Dudík, R. Elastic and Strength Properties of Heat-Treated Beech and Birch Wood. Forests 2018, 9, 197. [CrossRef]
Niemistö, P.; Viherä-Aarnio, A.; Velling, P.; Heräjärvi, H.; Verkasalo, E. Koivun Kasvatus ja Käyttö. [Silviculture and Use of Birch]; Finnish Forest Research Institute and Metsäkustannus Ltd.: Metsäntutkimuslaitos ja Metsäkustannus, Finland, 2008; p. 254. (In Finnish)
Hynynen, J.; Niemistö, P.; Viherä-Aarnio, A.; Brunner, A.; Hein, S.; Velling, P. Silviculture of birch (Betula pendula Roth and Betula pubescens Ehrh.) in northern Europe. Forestry 2010, 83, 103-119. [CrossRef]
Kucera, B. Björkevirkets mekaniske, teknologikse og fysiske egenskaper. Norges Landbrugsvidenskaplige Forskningsråd. Sluttrapport 1984, 500, 20. (In Norwegian)
Ekström, H. Lövvirke-Tillgångar och Industriell Användning; Summary: Hardwood-Supplies and industrial utilization; Swedish University of Agriculture Sciences, Department of Forest Products: Uppsala, Sweden, 1987; Volume 197, p. 123. (In Swedish)
Verkasalo, E. Hieskoivun laatu vaneripuuna. Abstract: Quality of White Birch (Betula pubescens Ehrh.) for Veneer and Plywood. Dissertation for D. For. in wood science and forest products. Department of Logging and Utilization of Forest Resources, University of Helsinki, Finland. Finn. For. Res. Inst. Res. Pap. 1997, 632, 483. (In Finnish)
Luostarinen, K.; Verkasalo, E. Birch as Sawn Timber and in Mechanical Further Processing in Finland. A Literature Study. Silva Fenn. Monogr. 2000, 1, 40.
Heräjärvi, H. Properties of birch (Betula pendula, B. pubescens) for sawmilling and further processing in Finland. Finn. For. Res. Inst. Res. Pap. 2002, 871, 52.
Verkasalo, E.; Heräjärvi, H. Potential of European birch species for product development of veneer and plywood-Recovery, grades and mechanical properties and future market requirements. In Proceedings of the 2nd International Scientific Conference on Hardwood Processing, Paris, France, 28-29 September 2009; Rouger, F., Goueffon, M., Eds.; FCBA: Paris, France, 2009; p. 11.
Woxblom, L.; Nylinder, M. Industrial utilization of hardwood in Sweden. Ecol. Bull. 2010, 53, 43-50.
Weihrich, H. The TOWS matrix-A tool for situation analysis. Long Range Plan. 1982, 15, 54-66. [CrossRef]
Koski, V.; Rousi, M. A review of the promises and constraints of breeding silver birch (Betula pendula Roth) in Finland. Forestry 2005, 78, 187-198. [CrossRef]
Atkinson, M.D. Betula pendula Roth (B. verrucosa Ehrh.) and B. pubescens Ehrh. J. Ecol. 1992, 80, 837-870. [CrossRef]
Ranta, H.; Hokkanen, T.; Linkosalo, T.; Laukkanen, L.; Bondestam, K.; Oksanen, A. Male flowering of birch: Spatial synchronization, year-to-year variation and relation of catkin numbers and airborne pollen counts. For. Ecol. Manag. 2008, 255, 643-650. [CrossRef]
Viherä-Aarnio, A. Effects of seed origin latitude on the timing of height growth cessation and field performance of silver birch. Diss. For. 2009, 87, 47. [CrossRef]
Possen, B.J.H.M.; Oksanen, E.; Rousi, M.; Ruhanen, H.; Ahonen, V.; Tervahauta, A.; Heinonen, J.; Heiskanen, J.; Kärenlampi, S.; Vapaavuori, E. Adaptability of birch (Betula pendula Roth) and aspen (Populus tremula L.) genotypes to different soil moisture conditions. For. Ecol. Manag. 2011, 262, 1387-1399. [CrossRef]
Possen, B.J.H.M.; Rousi, M.; Silfver, T.; Anttonen, M.J.; Ruotsalainen, S.; Oksanen, E.; Vapaavuori, E. Within-stand variation in silver birch (Betula pendula Roth) phenology. Trees 2014, 12. [CrossRef]
Kasurinen, A.; Koikkalainen, K.; Anttonen, M.J.; Possen, B.; Oksanen, E.; Rousi, M.; Vapaavuori, E.; Holopainen, T. Root morphology, mycorrhizal roots and extramatrical mycelium growth in silver birch (Betula pendula Roth) genotypes exposed to experimental warming and soil moisture manipulations. Plant Soil 2016, 407, 341-353. [CrossRef]
Aspelmeier, S.; Leuschner, C. Genotypic variation in drought response of silver birch (Betula pendula): Leaf water status and carbon gain. Tree Physiol. 2004, 24, 517-528. [CrossRef] [PubMed]
Araminiene˙, V.; Varnagiryte˙-Kabašinskiene˙, I. Research on birch species in Lithuania: A review study. Res. Rural Dev. 2014, 2, 50-56.
Rosenvald, K.; Tullus, A.; Ostonen, I.; Uri, V.; Kupper, P.; Aosaar, J.; Varik, M.; Sõber, J.; Niglas, A.; Hansen, R.; et al. The effect of elevated air humidity on young silver birch and hybrid aspen biomass allocation and accumulation-Acclimation mechanisms and capacity. For. Ecol. Manag. 2014, 330, 252-260. [CrossRef]
Rousi, M.; Possen, B.J.H.M.; Hagqvist, R.; Thomas, B.R. From the Arctic Circle to the Canadian prairies-A case study of silver birch acclimation capacity. Silva Fenn. 2012, 46, 355-364. [CrossRef]
Ellenberg, H. Vegetation Mitteleuropas Mit Den Alpen in Ökologischer, Dynamischer Und Historischer Sicht; Stark veränd. u. verb. Aufl.; Stuttgart: Ulmer, Germany, 1996; p. 1095. (In German)
Noirfalise, A. Forêts et Stations Forestières en Belgique; Les Presses Agronomiques: Gembloux, Belgium, 1984; p. 235. (In French)
Perala, D.A.; Alm, A.A. Reproductive ecology of birch: A review. For. Ecol. Manag. 1990, 32, 1-38. [CrossRef]
Pääkkonen, E.; Vahala, J.; Pohjola, M.; Holopainen, T.; Kärenlampi, L. Physiological, stomatal and ultrastructural ozone responses in birch (Betula pendula Roth.) are modified by water stress. Plant Cell Environ. 1998, 21, 671-684. [CrossRef]
Ascoli, D.; Bovio, G. Tree encroachment dynamics in heathlands of Northwest Italy: The fire regime hypothesis. iForest 2010, 3, 137-143. [CrossRef]
Rosenvald, K.; Ostonen, I.; Truu, M.; Truu, J.; Uri, V.; Vares, A.; Lohmus, K. Fine-root rhizosphere and morphological adaptations to site conditions in interaction with tree mineral nutrition in young silver birch (Betula pendula Roth.) stands. Eur. J. For. Res. 2011, 130, 1055-1066. [CrossRef]
Frauendorfer, R. Forstliche Hilfstafeln Schriftenreihe der Forstlichen Bundes-Versuchsans-Talt Mariabrunn Band II; Kommissionsverlag der Österreichischen Staatsdruckerei: Wien, Austria, 1954; p. 168. (In German)
Eriksson, H.; Johansson, U.; Kiviste, A. A site-index model for pure and mixed stands of Betula pendula and Betula pubescens in Sweden. Scand. J. For. Res. 1997, 12, 149-156. [CrossRef]
Diéguez-Aranda, U.; Grandas-Arias, J.A.; Álvarez-González, J.G.; Gadow, K.V. Site quality curves for birch stands in north-western Spain. Silva Fenn. 2006, 40, 631-644. [CrossRef]
Hein, S.; Winterhalter, D.; Wilhelm, G.J.; Kohnle, U. Wertholzproduktion mit der Sandbirke (Betula pendula Roth): Waldbauliche Moglichkeiten und Grenzen. Allg. For. Jagdztg. 2009, 180, 206-219. (In German)
Lemaire, J. Contribution à l'étude de la sylviculture du Betula pendula Roth. La sylviculture du Betulla pendula Roth au Bois de Lauzelle (Louvain-la-Neuve). Master's Thesis, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, 1998; 175p. (In French).
Prévosto, B.; Coquillard, P.; Gueugnot, J. Growth models of silver birch (Betula pendula Roth.) on two volcanic mountains in the French Massif Central. Plant Ecol. 1999, 144, 231-242. [CrossRef]
Gomez-Garcia, E.; Crecente-Campo, F.; Tobin, B.; Hawkins, M.; Nieuwenhuis, M.; Dieguez-Aranda, U. A dynamic volume and biomass growth model system for even-aged downy birch stands in south-western Europe. Forestry 2014, 87, 165-176. [CrossRef]
Uri, V.; Varik, M.; Aosaar, J.; Kanal, A.; Kukumägi, M.; Lõhmus, K. Biomass production and carbon sequestration in a fertile silver birch (Betula pendula Roth) forest chronosequence. For. Ecol. Manag. 2012, 267, 117-126. [CrossRef]
Lutter, R.; Tullus, A.; Kanal, A.; Tullus, T.; Vares, A.; Tullus, H. Growth development and plant-soil relations in midterm silver birch (Betula pendula Roth) plantations on previous agricultural lands in hemiboreal Estonia. Eur. J. For. Res. 2015, 134, 653-667. [CrossRef]
Cameron, A.D. Managing birch woodlands for the production of quality timber. Forestry 1996, 69, 357-371. [CrossRef]
Rytter, L.; Werner, M. Influence of early thinning in broadleaved stands on development of remaining stems. Scand. J. For. Res. 2007, 22, 198-210. [CrossRef]
Prévosto, B.; Curt, T. Dimensional relationships of naturally established European beech trees beneath Scots pine and Silver birch canopy. For. Ecol. Manag. 2004, 194, 335-348. [CrossRef]
Rosa, J.; Gauberville, C. Que deviennent les parcelles non reconstituées plus de 10 ans après une tempête? RDV Tech. 2004, 3, 4-6. (In French)
Bormann, B.T.; Darbyshire, R.L.; Homann, P.S.; Morrissette, B.A.; Little, S.N. Managing early succession for biodiversity and long-term productivity of conifer forests in southwestern Oregon. For. Ecol. Manag. 2015, 340, 114-125. [CrossRef]
Swanson, M.E.; Franklin, J.F.; Beschta, R.L.; Crisafulli, C.M.; DellaSala, D.A.; Hutto, R.L.; Lindenmayer, D.B.; Swanson, FJ. The forgotten stage of forest succession: Early-successional ecosystems on forest sites. Front. Ecol. Environ. 2011, 9, 117-125. [CrossRef]
Patterson, G. The Value of Birch in Upland Forests for Wildlife Conservation; Forestry Commission Bulletin No. 109; HMSO: London, UK, 1993; p. 34.
Kanerva, S.; Smolander, A. Microbial activities in forest floor layers under silver birch, Norway spruce and Scots pine. Soil Biol. Biochem. 2007, 39, 1459-1467. [CrossRef]
Saetre, P. Decomposition, microbial community structure, and earthworm effects along a birch-spruce soil gradient. Ecology 1998, 79, 834-846. [CrossRef]
Priha, O.; Grayston, S.J.; Hiukka, R.; Pennanen, T.; Smolander, A. Microbial community structure and characteristics of the organic matter in soils under Pinus sylvestris, Picea abies and Betula pendula at two forest sites. Biol. Fertil. Soils 2001, 33, 17-24. [CrossRef]
Hansson, K.; Froberg, M.; Helmisaari, H.-S.; Kleja, D.B.; Olsson, B.A.; Olsson, M.; Persson, T. Carbon and nitrogen pools and fluxes above and below ground in spruce, pine and birch stands in southern Sweden. For. Ecol. Manag. 2013, 309, 28-35. [CrossRef]
Mitchell, R.J.; Campbell, C.D.; Chapman, S.J.; Osler, G.H.R.; Vanbergen, A.J.; Ross, L.C.; Cameron, C.M.; Cole, L. The cascading effects of birch on heather moorland: A test for the top-down control of an ecosystem engineer. J. Ecol. 2007, 95, 540-554. [CrossRef]
Brandtberg, P.-O.; Lundkvist, H.; Bengtsson, J. Changes in forest-floor chemistry caused by a birch admixture in Norway spruce stands. For. Ecol. Manag. 2000, 130, 253-264. [CrossRef]
Mohr, D.; Simon, M.; Topp, W. Stand composition affects soil quality in oak stands on reclaimed and natural sites. Geoderma 2005, 129, 45-53. [CrossRef]
Hansson, K.; Olsson, B.A.; Olsson, M.; Johansson, U.; Kleja, D.B. Differences in soil properties in adjacent stands of Scots pine, Norway spruce and silver birch in SW Sweden. For. Ecol. Manag. 2011, 262, 522-530. [CrossRef]
Schua, K.; Wende, S.; Wagner, S.; Feger, K.-H. Soil Chemical and Microbial Properties in a Mixed Stand of Spruce and Birch in the Ore Mountains (Germany)-A Case Study. Forests 2015, 6, 1949-1965. [CrossRef]
De Schrijver, A.; Nachtergale, L.; Staelens, J.; Luyssaert, S.; De Keersmaeker, L. Comparison of throughfall and soil solution chemistry between a high-density Corsican pine stand and a naturally regenerated silver birch stand. Environ. Pollut. 2004, 131, 93-105. [CrossRef] [PubMed]
Emmer, I.M.; Fanta, J.; Kobus, A.T.; Kooijman, A.; Sevink, J. Reversing borealization as a means to restore biodiversity in Central-European mountain forests-An example from the Krkonose Mountains, Czech Republic. Biodivers. Conserv. 1998, 7, 229-247. [CrossRef]
Dmuchowski, W.; Gozdowski, D.; Bragoszewska, P.; Baczewska, A.H.; Suwara, I. Phytoremediation of zinc contaminated soils using silver birch (Betula pendula Roth). Ecol. Eng. 2014, 71, 32-35. [CrossRef]
Branquart, E.; Liégeois, S. Normes de Gestion pour Favoriser la BiodiversitéDans les Bois Soumis au Régime Forestier (Complément à la Circulaire n°2619); Ministère de la Région Wallonne-Direction Générale des Ressources Naturelles et de l'Environnement: Jambes, Belgium, 2005; p. 84.
Kennedy, C.E.J.; Southwood, T.R.E. The Number of Species of Insects Associated with British Trees: A Re-Analysis. J. Anim. Ecol. 1984, 53, 455-478. [CrossRef]
Woodcock, B.A.; Leather, S.R.; Watt, A.D. Changing management in Scottish birch woodlands: A potential threat to local invertebrate biodiversity. Bull. Entomol. Res. 2003, 93, 159-167. [CrossRef] [PubMed]
Kreyer, D.; Zerbe, S. Short-Lived Tree Species and Their Role as Indicators for Plant Diversity in the Restoration of Natural Forests. Restor. Ecol. 2006, 14, 137-147. [CrossRef]
Felton, A.; Andersson, E.; Ventorp, D.; Lindbladh, M. A comparison of avian diversity in spruce monocultures and spruce-birch polycultures in southern Sweden. Silva Fenn. 2011, 45, 1143-1150. [CrossRef]
Ellis, T.M.; Betts, M.G. Bird abundance and diversity across a hardwood gradient within early seral plantation forest. For. Ecol. Manag. 2011, 261, 1372-1381. [CrossRef]
Ellis, T.M.; Kroll, A.J.; Betts, M.G. Early seral hardwood vegetation increases adult and fledgling bird abundance in Douglas-fir plantations of the Oregon Coast Range, USA. Can. J. For. Res. 2012, 42, 918-933. [CrossRef]
Ferreira, O.R.; Jiménez, M.C. Estrategia reproductiva del abedul frente a los indendios forestales en galicia (Birch reproductive strategy against forest fires in Galicia). Cuad. Soc. Esp. Cien. For. 2003, 15, 171-176. (In Spanish) [CrossRef]
De Schrijver, A.; Geudens, G.; Wuyts, K.; Staelens, J.; Gielis, L.; Verheyen, K. Nutrient cycling in two continuous cover scenarios for forest conversion of pine plantations on sandy soil. I. Nutrient cycling via aboveground tree biomass. Can. J. For. Res. 2009, 39, 441-452. [CrossRef]
Burgess, M.D.; Bellamy, P.E.; Gillings, S.; Noble, D.G.; Grice, P.V.; Conway, G.J. The impact of changing habitat availability on population trends of woodland birds associated with early successional plantation woodland. Bird Study 2015, 62, 39-55. [CrossRef]
Lehnert, L.W.; Bassler, C.; Brandl, R.; Burton, P.J.; Muller, J. Conservation value of forests attacked by bark beetles: Highest number of indicator species is found in early successional stages. J. Nat. Conserv. 2013, 21, 97-104. [CrossRef]
Cameron, A.D.; Dunham, R.A.; Petty, J.A. The effects of heavy thinning on stem quality and timber properties of silver birch (Betula pendula Roth). Forestry 1995, 68, 275-285. [CrossRef]
Heiskanen, V. Raudus-ja hieskoivun laatu eri kasvupaikoilla. Summary: Quality of the common birch and the white birch on different sites. Commun. Inst. For. Fenn. 1957, 48, 1-99.
Hakkila, P.; Verkasalo, E. Structure and properties of wood and woody biomass. In Forest Resources and Sustainable Management; Kellomäki, S., Ed.; Paper Engineers' Association: Helsinki, Finland, 2009; pp. 133-215.
Hytönen, J.; Saramäki, J.; Niemistö, P. Growth, stem quality and nutritional status of Betula pendula and Betula pubescens in pure stands and mixtures. Scand. J. For. Res. 2014, 29, 1-11. [CrossRef]
Roitto, M.; Siwale, W.; Tanner, J.; Ilvesniemi, H.; Julkunen-Tiitto, R.; Verkasalo, E. Characterization of Extractives in Tree Biomass and By-products of Plywood and Saw Mills from Finnish Birch in Different Climatic Regions for Value-added Chemical Products. In Proceedings of the 5th International Scientific Conference on Hardwood Processing, Québec City, QC, Canada, 15-17 September 2015; Achim, A., Blanchet, P., Schmitt, U., Bouffard, J.-F., Eds.; International academy of wood science: Québec City, QC, Canada, 2015; pp. 174-181.
Hassegawa, M.; Stevanovic, T.; Achim, A. Relationship between ethanolic extractives of yellow birch and tree characteristics. Ind. Crops Prod. 2016, 94, 1-8. [CrossRef]
Wagenführ, R.; Scheiber, C. Holzatlas. Mit 890 zum Teil mehrfarbigen Bildern; VEB Fachbuchverlag: Leipzig, Germany, 1985; p. 720. (In German)
Boedts, M. Effet du Traitement Thermique sur les Propriétés Physico-Mécaniques et la Durabilité du Bois de Bouleau. Master's Thesis, Université de Liège Gembloux Agro-Bio Tech, Gembloux, Belgium, 2016; p. 74. (In French).
Felton, A.; Lindbladh, M.; Brunet, J.; Fritz, Ö. Replacing coniferous monocultures with mixed-species production stands: An assessment of the potential benefits for forest biodiversity in northern Europe. For. Ecol. Manag. 2010, 260, 939-947. [CrossRef]
Colson, V. La Fonction Récréative Des Massifs Forestiers Wallons: Analyses et Evaluation Dans le Cadre D'une Politique Forestière Intégrée. Unpublished Ph.D. Thesis, Faculté Universitaire des Sciences Agronomiques, Gembloux, Belgium, 2009; p. 277. (In French).
Verkasalo, E. Koivupuutavaran vikaantuminen pitkittyneessä metsävarastoinnissa ja sen vaikutus viilun saantoon, laatuun ja arvoon. Summary: Deterioration of Birch Timber during Prolonged Storage in the Forest and Its Effect on the Yield, Quality and Value of Rotary-Cut Veneer. Folia For. 1993, 806, 31. (In French)
Gobakken, T. Models for Assessing Timber Grade Distribution and Economic Value of Standing Birch Trees. Scand. J. For. Res. 2000, 15, 570-578. [CrossRef]
Verkasalo, E.; Heräjärvi, H.; Möttönen, V.; Haapala, A.; Brännström, H.; Vanhanen, H.; Miina, J. Current and future products as the basis for value chains of birch in Finland. In Proceedings of the 6th International Scientific Conference on Hardwood Processing, Lahti, Finland, 25-28 September 2017; Möttönen, V., Heinonen, E., Eds.; Natural Resources Institute Finland: Helsinki, Finland, 2017; pp. 81-96.
Niemistö, P.; Kilpeläinen, H.; Heräjärvi, H. Effect of pruning season and tool on knot occlusion and stem discolouration in Betula pendula-Situation five years after pruning. Silva Fenn. 2019, 53, 29. [CrossRef]
Vanhellemont, M.; Van Acker, J.; Verheyen, K. Exploring life growth patterns in birch (Betula pendula). Scand. J. For. Res. 2016, 31, 7. [CrossRef]
Santamour, F.S., Jr.; Greene, A. European hornet damage to ash and birch trees. J. Arboric. 1986, 12, 273-279.
Klingeman, B.; Olivier, J.; Frank, H. Who's doin' all that chewin'? The European Hornet. Tenn. Green Times 2001, 2, 34-36.
Kula, E. The seasonal population dynamics of moth larvae feeding in birch stands of the Krusne Hory Mountains (The Czech Republic) from 1986-2004. Ekologia (Bratislava) 2008, 27, 119-129.
Ylioja, T.; Roininen, H.; Heinonen, J.; Rousi, M. Susceptibility of Betula pendula clones to Phytobia betulae, a dipteran miner of birch stems. Can. J. For. Res. 2000, 30, 1824-1829. [CrossRef]
Panula, E.Y.; Fekedulegn, D.B.; Green, B.J.; Ranta, H. Analysis of Airborne Betula Pollen in Finland; a 31-Year Perspective. Int. J. Environ. Res. Public Health 2009, 6, 1706-1723. [CrossRef]
Lavaud, F.; Fore, M.; Fontaine, J.-F.; Pérotin, J.M.; de Blay, F. Allergie au pollen de bouleau (Birch pollen allergy). Rev. Mal. Respir. 2014, 31, 150-161. (In French) [CrossRef]
Müller-Germann, I.; Vogel, B.; Vogel, H.; Pauling, A.; Fröhlich-Nowoisky, J.; Pöschl, U.; Després, V.R. Quantitative DNA Analyses for Airborne Birch Pollen. PLoS ONE 2015, 10, e0140949. [CrossRef]
Hao, G.-D.; Zheng, Y.; Wang, Z.; Kong, X.; Song, Z.; Lai, X.; Spangfort, M.D. High correlation of specific IgE sensitization between birch pollen, soy and apple allergens indicates pollen-food allergy syndrome among birch pollen allergic patients in northern China. J Zhejiang Univ. Sci. B (Biomed. Biotechnol.) 2016, 17, 399-404. [CrossRef] [PubMed]
Skjøth, C.A.; Sommerw, J.; Stachz, A.; Smithz, M.; Brandt, J. The long-range transport of birch (Betula) pollen from Poland and Germany causes significant pre-season concentrations in Denmark. Clin. Exp. Allergy 2007, 37, 1204-1212. [CrossRef] [PubMed]
Beggs, P.J. Impacts of climate change on aeroallergens: Past and future. Clin. Exp. Allergy 2004, 34, 1507-1513. [CrossRef] [PubMed]
Frei, T.; Gassner, E. Climate change and its impact on birch pollen quantities and the start of the pollen season an example from Switzerland for the period 1969-2006. Int. J. Biometeorol. 2008, 52, 667-674. [CrossRef] [PubMed]
Thibaudon, M.; Monnier, S. Les pollens de bouleau: Indicateur santé du changement climatique. Rev. Française Allergol. 2015, 55, 228. (In French) [CrossRef]
Reyes, O.; Casal, M.; Trabaud, L. The influence of population, fire and time of dissemination on the germination of Betula pendula seeds. Plant Ecol. 1997, 133, 201-208. [CrossRef]
Dzwonko, Z.; Loster, S.; Gawronski, S. Impact of fire severity on soil properties and the development of tree and shrub species in a Scots pine moist forest site in southern Poland. For. Ecol. Manag. 2015, 342, 56-63. [CrossRef]
Curt, T.; Prévosto, B. Rooting strategy of naturally regenerated beech in Silver birch and Scots pine woodlands. Plant Soil 2003, 255, 265-279. [CrossRef]
Blossfeld, O.; Koroll, U.; Mette, H.-J.; Wonka, R.; Giefing, D. Untersuchungen zur Qualität und Verwendung der Holzart Birke. Holztechnologie 1981, 22, 77-79. (In German)
Günzl, L.; Krames, U.; Krenn, K.; Hruschka, A.; Neugebauer, A. Beurteilung der Eigenschaften von Birken österreichischer Herkunft; Bericht 1984/85; Österreichisches Holzforschungs Institut Wien: Wien, Austria, 1986. (In German)
Günzl, L. Hat die Birke Zukunft? Österreichische Forstztg. 1989, 11, 45-47. (In German)
Pommerening, A.; Murphy, S.T. A review of the history, definitions and methods of continuous cover forestry with special attention to afforestation and restocking. Forestry 2004, 77, 27-44. [CrossRef]
Stark, H.; Nothdurft, A.; Bauhus, J. Allometries for Widely Spaced Populus ssp. and Betula ssp. in Nurse Crop Systems. Forests 2013, 4, 1003-1031. [CrossRef]
Liziniewicz, M. The Development of Beech in Monoculture and Mixtures. Master's Thesis, Swedish University of Agricultural Science, Alnarp, Sweden, 2009; p. 47.
Dudelis, J. Development of Stratified Spruce-Birch Stands in Latvia. Master's Thesis, Swedish University of Agricultural Sciences, Alnarp, Sweden, 2013; p. 42.
Tullus, A.; Lukason, O.; Vares, A.; Padari, A.; Lutter, R.; Tullus, T.; Karoles, K.; Tullus, H. Economics of Hybrid Aspen (Populus tremula L. ×P. tremuloides Michx.) and Silver Birch (Betula pendula Roth.) Plantations on Abandoned Agricultural Lands in Estonia. Balt. For. 2012, 18, 288-298.
Stark, H.; Nothdurft, A.; Block, J.; Bauhus, J. Forest restoration with Betula ssp. and Populus ssp. nurse crops increases productivity and soil fertility. For. Ecol. Manag. 2015, 339, 57-70. [CrossRef]
Price, J.S.; Heathwaite, A.L.; Baird, A.J. Hydrological processes in abandoned and restored peatlands: An overview of management approaches. Wetl. Ecol. Manag. 2003, 11, 65-83. [CrossRef]
Rock, J.; Puettmann, K.J.; Gockel, H.A.; Schulte, A. Spatial aspects of the influence of silver birch (Betula pendula L.) on growth and quality of young oaks (Quercus spp.) in central Germany. Forestry 2004, 77, 235-247. [CrossRef]
Saha, S.; Kuehne, C.; Kohnle, U.; Brang, P.; Ehring, A.; Geisel, J.; Leder, B.; Muth, M.; Petersen, R.; Peter, J.; et al. Growth and quality of young oaks (Quercus robur and Quercus petraea) grown in cluster plantings in central Europe: A weighted meta-analysis. For. Ecol. Manag. 2012, 283, 106-118. [CrossRef]
Damien, M.; Jactel, H.; Meredieu, C.; Régolini, M.; van Halder, I.; Castagneyrol, B. Pest damage in mixed forests: Disentangling the effects of neighbor identity, host density and host apparency at different spatial scales. For. Ecol. Manag. 2016, 378, 103-110. [CrossRef]
Castagneyrol, B.; Giffard, B.; Péré, C.; Jactel, H. Plant apparency, an overlooked driver of associational resistance to insect herbivory. J. Ecol. 2013, 101, 418-429. [CrossRef]
Castagneyrol, B.; Régolini, M.; Jactel, H. Tree species composition rather than diversity triggers associational resistance to the pine processionary moth. Basic Appl. Ecol. 2014, 15, 516-523. [CrossRef]
Jactel, H.; Barbaro, L.; Battisti, A.; Bosc, A.; Branco, M.; Brockerhoff, E.; Castagneyrol, B.; Dulaurent, A.-M.; Hodar, J.A.; Jacquet, J.-S.; et al. Insect-Tree Interactions in Thaumetopoea pityocampa. In Processionary Moths and Climate Change: An Update; Roques, A., Ed.; Springer: Dordrecht, The Netherland, 2015; pp. 265-310.
Reimoser, F.; Gossow, H. Impact of ungulates on forest vegetation and its dependence on the silvicultural system. For. Ecol. Manag. 1996, 88, 107-119. [CrossRef]
Härkönen, S.; Pulkkinen, A.; Heräjärvi, H. Wood quality of birch (betula spp.) trees damaged by moose. ALCES 2009, 45, 67-72.
Lehaire, F.; Ligot, G.; Morelle, K.; Lejeune, P. Les indicateurs de la pression du cerf élaphe sur la végétation du sous-bois en forêt feuillue tempérée (synthèse bibliographique). Biotechnol. Agron. Soc. Environ. 2014, 18, 262-272.
Kund, M.; Vares, A.; Sims, A.; Tullus, H.; Uri, V. Early growth and development of silver birch (Betula pendula Roth.) plantations on abandoned agricultural land. Eur. J. For. Res. 2010, 129, 679-688. [CrossRef]
Tullus, T.; Tullus, A.; Roosaluste, E.; Kaasik, A.; Lutter, R.; Tullus, H. Understorey vegetation in young naturally regenerated and planted birch (Betula spp.) stands on abandoned agricultural land. New For. 2013, 44, 591-611. [CrossRef]
Zasada, M.; Bijak, S.; Bronisz, K.; Bronisz, A.; Gaweda, T. Biomass dynamics in young silver birch stands on post-argicultural lands in central Poland. Drewno 2014, 57, 29-39. [CrossRef]
Latte, N.; Perin, J.; Lejeune, P. Evolution récente des surface forestières et de la régénération des coupes rases en Wallonie. For. Nat. 2016, 141, 46-51. (in French).
Karlsson, M.; Nilsson, N.; Örlander, G. Natural Regeneration in Clear-cuts: Effects of Scarification, Slash Removal and Clear-cut Age. Scand. J. For. Res. 2002, 17, 131-138. [CrossRef]
Fahlvik, N.; Agestam, E.; Nilsson, U.; Nyström, K. Simulating the influence of initial stand structure on the development of young mixtures of Norway spruce and birch. For. Ecol. Manag. 2005, 213, 297-311. [CrossRef]
Pulsford, S.A.; Lindenmayer, D.B.; Driscoll, D.A. A succession of theories: Purging redundancy from disturbance theory. Biol. Rev. Camb. Philos. 2014, 91, 55. [CrossRef]
Kint, V.; Geudens, G.; Mohren, G.M.J.; Lust, N. Silvicultural interpretation of natural vegetation dynamics in ageing Scots pine stands for their conversion into mixed broadleaved stands. For. Ecol. Manag. 2006, 223, 363-370. [CrossRef]
Hemery, G.E. Forest management and silvicultural responses to projected climate change impacts on European broadleaved trees and forests. Int. For. Rev. 2008, 10, 591-606. [CrossRef]
Harmer, R.; Morgan, G.; Beauchamp, K. Restocking with broadleaved species during the conversion of Tsuga heterophylla plantations to native woodland using natural regeneration. Eur. J. For. Res. 2011, 130, 161-171. [CrossRef]
Wilhelm, G.J.; Rieger, H. Naturnahe Waldwirtschaft-Mit der QD-Strategie: Eine Strategie für Den Qualitätsgeleiteten und Schonenden Gebrauch des Waldes Unter Achtung der Gesamten Lebewelt; Eugen Ulme KG: Stuttgart, Germany, 2013; p. 207. (In German)
Malcolm, D.C.; Worrell, R. Potential for the improvement of silver birch (Betula pendula Roth.) in Scotland. Forestry 2001, 75, 439-453. [CrossRef]
Renou-Wilson, F.; Pöllänen, M.; Byrne, K.; Wilson, D.; Farrell, E.P. The potential of birch afforestation as an after-use option for industrial cutaway peatlands. Suo 2010, 61, 59-76.
Schrör, H. Erzeugung, Absatz und Verwendung von Birkenholz in Nordrhein-Westfalen. Master's Thesis, Universität Göttingen, Institut für Forstbenutzung, Göttingen, Germany, 1987. (In German).
Sachsse, H. Holzqualität von Birken. Strukturelle und physikalisch-mekanische Eigenschaften von Birkenhölzern. Holz Roh-Und Werkst. 1989, 47, 27-30. [CrossRef]
Ehrhart, T.; Brandner, R.; Schickhofer, G.; Frangi, A. Rolling Shear Properties of some European Timber Species with Focus on Cross Laminated Timber (CLT): Test Configuration and Parameter Study. In Proceedings of the 2nd Meeting of the International Network on Timber Engineering Research, Šibenik, Croatia, 24-27 August 2015; Görlacher, R., Ed.; Timber Scientific Publishing, KIT Holzbau und Baukonstruktionen: Karlsruhe, Germany, 2015; pp. 61-76.
Jeitler, G.; Augustin, M.; Schickhofer, G. Mechanical properties of glued laminated TIMBER and cross laminated TIMBER produced with the wood species birch. In Proceedings of the World Conference on Timber Engineering, Vienna, Austria, 22-25 August 2016; Eberhardsteiner, J., Winter, W., Fadai, A., Pöll, M., Eds.; TU Verlag: Wien, Austria, 2016; p. 8.
Nurmi, J. Heating values of mature trees. Acta For. Fenn. 1997, 256, 28. [CrossRef]
Viikari, L.; Alén, R. Biochemical and chemical conversion of forest biomass. In Biorefining of Forest Resources; Alén, R., Ed.; Paper Engineers' Association: Helsinki, Finland, 2011; pp. 225-261.
Ahmad, W.; Kuitunen, S.; Borrega, M.; Alopaeus, V. Physicochemical Modelling for Hot Water Extraction of Birch Wood. Ind. Eng. Chem. Res. 2016, 55, 11062-11073. [CrossRef]
Möttönen, V.; Bütün, Y.; Heräjärvi, H.; Antikainen, J.; Marttila, J. Physical properties and dimensional stability after combined compression and thermal modification of birch and aspen lumber. In Proceedings of the 5th International Scientific Conference on Hardwood Processing, Québec City, QC, Canada, 15-17 September 2015; Achim, A., Blanchet, P., Schmitt, U., Bouffard, J.-F., Eds.; International academy of wood science: Québec City, QC, Canada, 2015; pp. 147-154.
Möttönen, V.; Boren, H.; Heräjärvi, H. Puun Ominaisuuksien Modifiointi: Menetelmät ja Tutkimuksen Tila; Natural resources and bioeconomy studies 11/2018; Natural Resources Institute Finland (Luke): Helsinki, Finland, 2018; p. 57. (In Finnish)
Boruvka, V.; Dudík, R.; Zeidler, A.; Holecek, T. Influence of Site Conditions and Quality of Birch Wood on Its properties and Utilization after Heat Treatment. Part I-Elastic and Strength Properties, Relationship to Water and Dimensional Stability. Forests 2019, 10, 189. [CrossRef]
Dubois, H.; Layon, J.; Claessens, H. Curiosité: Le «curly birch». Une figuration ondée, rare et recherchée du bois de bouleau. For. Nat. 2017, 145, 12-15. (In French)
Wiedenbeck, J.; Wiemann, M.; Alderman, D.; Baumgras, J.; Luppold, W. Defining Hardwood Veneer Log Quality Attributes; USDA Forest Service: Newtown, CT, USA, 2004.
Bilek, B.; Wawer, J.; Szwerc, W.; Słowik, K.; Sosnowski, S. Birch sap concentrate as a potential modern food product. Econtechmod Int. Q. J. Econ. Technol. 2018, 7, 5-9.
Vanhanen, H.; Peltola, R.; Ahtikoski, A.; Pappinen, A. Cultivation of Pakuri (Inonotus obliquus)-Potential for new income source for forest owners. In Proceedings of the The Book of Abstracts of the 10th International Mycological Congress (IMC10), Thailand, Bangkok, 10 October 2013; IMC 10 Organizing Committee, Ed.; National Center for Genetic Engineering and Biotechnology: Bangkok, Thailand, 2014; p. 418.
Hiltunen, E.; Pakkanen, T.T.; Alvila, L. Phenolic extractives from wood of birch (Betula pendula). Holzforschung 2004, 58, 326-329. [CrossRef]
Rizhikovs, J.; Zandersons, J.; Dobele, G.; Paze, A. Isolation of triterpene-rich extracts from outer birch bark by hot water and alkaline pre-treatment or the appropriate choice of solvents. Ind. Crops Prod. 2015, 76, 209-214. [CrossRef]
Rastogi, S.; Pandey, M.M.; Rawat, A.K.S. Medicinal plants of the genus Betula-Traditional uses and a phytochemical-pharmacological review. J. Ethnopharmacol. 2015, 159, 62-83. [CrossRef] [PubMed]
Mantau, U.; Saal, U.; Prins, K.; Steierer, F.; Lindner, M. EUwood-Real potential for changes in growth and use of EU forests; Final report, June 2010; EUwood: Hamburg, Germany, 2010; p. 160.
Teischinger, A. From Forest to Wood Production-A selection of challenges and opportunities for innovative hardwood utilization. In Proceedings of the 6th International Scientific Conference on Hardwood Processing, Lahti, Finland, 25-28 September 2017; Möttönen, V., Heinonen, E., Eds.; Natural Resources Institute Finland: Helsinki, Finland, 2017; p. 13.
Richter, A. Perspectives de Valorisation de la Ressource de bois D'œuvre Feuillus en France; Direction générale des politiques agricole, agroalimentaire et des territoires-DGPAAT/FCBA: Paris, France, 2011; p. 83. (In French)
Verkasalo, E.; Toppinen, A.; Arponen, J.; Heräjärvi, H. Perspectives of wood resources, industry competitiveness and wood product markets for birch industries in the Baltic Sea area. In Proceedings of the International Scientific Conference on Hardwood Processing, Quebec City, QC, Canada, 24-26 September 2007; Blanchet, P., Ed.; FPInnovations-Forintek Division: Quebec City, QC, Canada, 2007; pp. 29-35.
Kumar, A.; Verkasalo, E. Current status and future implications of Finnish wood-based panel industries. In Proceedings of the 14th Annual Meeting of the Northern European Network for Wood Science and Engineering, Tallinn, Estonia, 2-3 October 2018; Kallakas, H., Ed.; Tallinn University of Technology: Tallinn, Estonia, 2018; pp. 123-126.
Berthold, D.; Meinlschmidt, P.; Ritter, N. Hardwood processing in Germany-Challenges and opportunities for the wood based panel industry. In Proceedings of the 6th International Scientific Conference on Hardwood Processing, Lahti, Finland, 25-28 September 2017; Möttönen, V., Heinonen, E., Eds.; Natural Resources Institute Finland: Helsinki, Finland, 2017; pp. 97-108.
Bollmus, S.; Gellerich, A.; Schlotzhauer, P.; Behr, G.; Militz, H. Hardwood research at the Georg-August University of Goettingen. In Proceedings of the 6th International Scientific Conference on Hardwood Processing, Lahti, Finland, 25-28 September 2017; Möttönen, V., Heinonen, E., Eds.; Natural Resources Institute Finland: Helsinki, Finland, 2017; pp. 116-122.
Caurla, S.; Delacote, P.; Lecocq, F.; Barthès, J.; Barkaoui, A. Combining an inter-sectoral carbon tax with sectoral mitigation policies: Impacts on the French forest sector. J. For. Econ. 2013, 19, 450-461. [CrossRef]
Wilhelms, F.; Bollmus, S.; Schlotzhauer, P.; Militz, H. Drying of low quality birch timber-Quality, time and energy consumption. In Proceedings of the 6th International Scientific Conference on Hardwood Processing, Lahti, Finland, 25-28 September 2017; Möttönen, V., Heinonen, E., Eds.; Natural Resources Institute Finland: Helsinki, Finland, 2017; pp. 345-353.
Trubins, R. Introduction of GIS into IKEA's Wood Sourcing System. Aspects of Forest Resource Data Availability and System Functionality. Master's Thesis, Swedish University of Agricultural Sciences, Alnarp, Sweden, 2009; p. 56.
Kilpeläinen, H.; Lindblad, J.; Heräjärvi, H.; Verkasalo, E. Saw log recovery and stem quality of birch from thinnings in southern Finland. Silva Fenn. 2011, 45, 267-282. [CrossRef]
Välkky, E.; Jutila, L.; Karjalainen, T.; Karvinen, S.; Gerasimov, Y.; Leinonen, T. Russian Forest Policy and its Impact in Russia and Finland. In Impact of Changes in Forest and Economic Policy and the Business Preconditions in Russia and Finland; Välkky, E., Viitanen, J., Ollonqvist, P., Eds.; Working Papers of the Finnish Forest Research Institute: Vantaa, Finland, 2011; Volume 218, pp. 8-50.
Liziniewicz, M.; Andrzejczyk, T.; Drozdowski, S. The effect of birch removal on growth and quality of pedunculate oak in a 21-year-old mixed stand established by row planting. For. Ecol. Manag. 2016, 364, 165-172. [CrossRef]
Kaitaniemi, P.; Lintunen, A. Neighbor identity and competition influence tree growth in Scots pine, Siberian larch, and silver birch. Ann. For. Sci. 2010, 67, 604-610. [CrossRef]
De Silva, H.; Green, S.; Woodward, S. Incidence and severity of dieback in birch plantings associated with Anisogramma virgultorum and Marssonina betulae in Scotland. Plant Pathol. 2008, 57, 272-279. [CrossRef]
Green, S.; MacAskill, G.A. Pathogenicity of Marssonina betulae and other fungi on birch. Plant Pathol. 2007, 56, 242-250. [CrossRef]
Kozlov, M.V. Losses of birch foliage due to insect herbivory along geographical gradients in Europe: A climate-driven pattern? Clim. Chang. 2008, 87, 107-117. [CrossRef]
McLaughlin, J. Pathological effects and management implications. In Proceedings of the Ecology and Management of White Birch Workshop, Wawa, ON, Canada, 21-22 September 1999; Chen, H., Luke, A., Bidwell, W., Eds.; Queen's Printer for Ontario: Wawa, ON, Canada, 2000; pp. 19-20.
Rumbou, A.; Candresse, T.; Marais, A.; Theil, S.; Langer, J.; Jalkanen, R.; Büttner, C. A novel badnavirus discovered from Betula sp. affected by birch leaf-roll disease. PLoS ONE 2018, 13, e0193888. [CrossRef] [PubMed]
Landgraf, M.; Langer, J.; Gröhner, J.; Zinnert, L.; Bandte, M.; von Bargen, S.; Schreiner, M.; Jäckel, B.; Büttner, C. Viruserkrankungen im urbanen Grün-Eine Studie an Birken im Berliner Bezirk Steglitz-Zehlendorf. Jahrb. Baumpflege 2017, 21, 327-332. (In German)
Von Bargen, S.; Arndt, N.; Grubits, E.; Büttner, C.; Jalkanen, R. Cherry Leaf Roll Virus in birch-An old problem or an emerging virus in Finland? In Proceedings of the 3rd International Symposium on Plant Protection and Plant Health in Europe, Berlin, Germany, 14-16 May 2009; Feldmann, F., Alford, D.V., Furk, C., Eds.; Deutsche Phytomedizinische Gesellschaft: Braunschweig, Germany, 2009; pp. 242-250.
Muilenburg, V.L.; Herms, D.A. A Review of Bronze Birch Borer (Coleoptera: Buprestidae) Life History, Ecology, and Management. Environ. Entomol. 2012, 41, 1372-1385. [CrossRef] [PubMed]