Young and old forest in the boreal: critical stages of ecosystem dynamics and management under global change

Elsevier BV - Tập 5 - Trang 1-15 - 2018
Timo Kuuluvainen1, Sylvie Gauthier2
1Department of Forest Sciences, University of Helsinki, Helsinki, Finland
2Natural Resources Canada, Canadian Forest Service, Laurentian Forestry Center, Quebec, Canada

Tóm tắt

The circumboreal forest encompasses diverse landscape structures, dynamics and forest age distributions determined by their physical setting, and historical and current disturbance regimes. However, due to intensifying forest utilisation, and in certain areas due to increasing natural disturbances, boreal forest age-class structures have changed rapidly, so that the proportion of old forest has substantially declined, while that of young post-harvest and post-natural-disturbance forest proportions have increased. In the future, with a warming climate in certain boreal regions, this trend may further be enhanced due to an increase in natural disturbances and large-scale use of forest biomass to replace fossil-based fuels and products. The major drivers of change of forest age class distributions and structures include the use of clearcut short-rotation harvesting, more frequent and severe natural disturbances due to climate warming in certain regions. The decline in old forest area, and increase in managed young forest lacking natural post-disturbance structural legacies, represent a major transformation in the ecological conditions of the boreal forest beyond historical limits of variability. This may introduce a threat to biodiversity, ecosystem resilience and long-term adaptive capacity of the forest ecosystem. To safeguard boreal forest biodiversity and ecosystem functioning, and to maintain the multiple services provided to societies by this forest biome, it is pivotal to maintain an adequate share and the ecological qualities of young post-disturbance stages, along with mature forest stages with old-growth characteristics. This requires management for natural post-disturbance legacy structures, and innovative use of diverse uneven-aged and continuous cover management approaches to maintain critical late-successional forest structures in landscapes.

Tài liệu tham khảo

Aakala T, Kuuluvainen T, Wallenius T, Kauhanen H (2011) Tree mortality episodes in the intact Picea abies-dominated taiga in the Archaangelsk region of northern European Russia. J Veg Sci 22:322–333

Aitken SN, Yeaman S, Holliday JA, Wang T, Curtis‐McLane S (2008). Adaptation, migration or extirpation: climate change outcomes for tree populations. Evol Appl 1(1):95–111

Allen CD, Maclady AK, Chenghouni H, Bachelet D, MacDovell N, Vennetier M, Kitzberger T, Rigling A, Breshears DD, Hogg EH, Gonzalez P, Fensham R, Zhang Z, Castro J, Demidova N, Lim J-H, Allard G, Running SW, Semerco A, Cobb N (2010) A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests. For Ecol Manag 259:660–684

Andrew ME, Wulder MA, Cardille JA (2014) Protected areas in boreal Canada: a baseline and considerations for the continued development of a representative and effective reserve network. Environ Rev 22:135–160

Angelstam P, Andersson L (2001) Estimates of the needs for forest reserves in Sweden. Scand J For Res (Suppl) 3:38–51

Angelstam P, Axelsson R, Elbakidze M, Laestadius L, Lazdinis M, Nordberg M, Patru-Stupaiu I, Smith M (2011) Knowledge production and learning for sustainable forest management on the ground: Pan-European landscapes as a time machine. Forestry. https://doi.org/10.1093/forestry/cpr048

Angers VA, Gauthier S, Drapeau P, Jayen K Bergeron Y (2011). Tree mortality and snag dynamics in North American boreal tree species after a wildfire: a long-term study. Internat J Wildl Fire: 20(6):751–763

Auvinen A-P, Hildén M, Toivonen H, Primmer E, Niemelä J, Aapala K, Bäck S, Härmä P, Ikävalko J, Järvenpää E, Kaipiainen H, Korhonen KT, Kumela H, Kärkkäinen L, Lankoski J, Laukkanen M, Mannerkoski I, Nuutinen T, Nöjd A, Punttila P, Salminen O, Söderman G, Törmä M, Virkkala R (2007) Evaluation of the Finnish National Biodiversity Action Plan 1997-2005. Monogr Boreal Environ Res 29:1–55

Bartemucci P, Coates KD, Harper KA, Wright EF (2002) Gap disturbances in northern old-growth forests of British Columbia, Canada. J Veg Sci 13:685–696

Bauhus J, Puettmann C, Messier C (2009) Silviculture for old-growth attributes. For Ecol Manag 258:525–537

Bélisle AC, Gauthier S, Cyr D, Bergeron Y, Morin H (2011) Fire regime and old-growth boreal forests in Central Quebec, Canada: an ecosystem management perspective. Silva Fenn 45:889–908

Berg Å, Ehnström B, Gustafsson L, Hallingbäck T, Jonsell M, Weslien J (1994) Threatened plant, animal and fungus species in Swedish forests: distribution and habitat associations. Cons Biol 8(3):718–731

Bergeron Y, Fenton N (2012) Boreal forests of eastern Canada revisited: old growth, nonfire disturbances, forest succession and biodiversity. Botany 90:509–523

Bergeron Y, Gauthier S, Flannigan M, Kafka V (2004) Fire regimes at the transition between mixed wood and coniferous boreal forest in northwestern Quebec. Ecology 85:1916–1932

Bergeron Y, Gauthier S, Kafka V, Lefort P, Lesieur D (2001) Natural fire frequency for the eastern Canadian boreal forest: consequences for sustainable forestry. Can J For Res 31:384–391

Bergeron Y, Harvey B, Leduc A, Gauthier S (1999) Forest management guidelines based on natural disturbance dynamics: stand- and forest-level considerations. For Chron 75:55–61

Bergeron Y, Leduc A, Harvey B, Gauthier S (2002) Natural fire regime: a guide for sustainable management of the Canadian boreal forest. Silva Fenn 36(1):81–95

Blarquez O, Carcaillet C, Frejaville T, Bergeron Y (2014) Disentangling the trajectories of alpha, beta and gamma plant diversity of north American boreal ecoregions since 15,500 years. Front Ecol Evol 2:1–8

Boucher D, Gauthier S, Noël J, Greene DF, Bergeron Y (2014). Salvage logging affects early post-fire tree composition in Canadian boreal forest. For Ecol Manage 325:118–127

Boulanger Y, Gauthier S, Burton PJ (2014) A refinement of models projecting future Canadian fire regimes using homogeneous fire regime zones. Can J For Res 44(4):365–376. https://doi.org/10.1139/cjfr-2013-0372

Boulanger Y, Sirois L (2007) Postfire succession of saproxylic arthropods, with emphasis on Coleoptera, in the north boreal black spruce forest of Québec. Env Entomol 36:128–141

Bradshaw CJA, Warkentin IG (2015) Global estimates of boreal forest carbon stocks and flux. Glob Planet Change 128:24–30

Bradshaw CJA, Warkentin IG, Sodhi NS (2009) Urgent preservation of boreal carbon stocks and biodiversity. Trends Ecol Evol 24:541–548

Brandt JP, Flannigan MD, Maynard DG, Thompson ID, Volney WJA (2013) An introduction to Canada’s boreal zone: ecosystem processes, health, sustainability, and environmental issues. Environ Rev 21(4):207–226

Burton PJ (2013). Exploring complexity in boreal forests. In:Messier C, Puettmann KJ, Coates KD (eds.). Managing forests as complex adaptive systems. Building resilience to the challenge of global change. Routledge, New York. pp. 79–109

Burton PJ, Bergeron Y, Bogdanski BEC, Juday GP, Kuuluvainen T, BJ MA, Ogden A, Teplyakov VK, Alfaro RI, Francis DA, Gauthier S, Hantula J (2010) Sustainability of boreal forests and forestry in a changing environment. In: Mery G, Katila P, Galloway G, Alfaro RI, Kanninen M, Lobovikov M, Varjo J (eds) Forests and Society - Responding to Global Drivers of Change. International Union of Forest Research Organizations (IUFRO), Vienna, pp 249–282

Burton PJ, Kneeshaw DD, Coates KD (1999) Managing forest harvesting to maintain old growth in boreal and sub-boreal forests. For Chron 75:623–631

Burton PJ, Macdonald SE (2011) The restorative imperative: challenges, objectives and approaches to restoring naturalness in forests. Silva Fenn 45(5):843–863

Burton PJ, Messier C, Puettmann KJ, Coates KD (2013) Exploring complexity in boreal forests. Managing forests as complex adaptive systems. Building resilience to the challenge of global change. Routledge, London, pp 79–109

Burton PJ, Messier C, Weetman GF, Prepas EE, Adamowicz WL, Tittler R (2003) The current state of boreal forestry and the drive for change. In: Burton PJ, Messier C, Smith DW, Adamowicz WL (eds) Towards Sustainable Management of the Boreal Forest. NRC Research Press, Canada, pp 1–40

Cyr D, Gauthier S, Bergeron Y (2007) Scale-dependent determinants of heterogeneity in fire frequency in a coniferous boreal forest of eastern Canada. Landscape Ecol 22(9):1325–1339.

Carcaillet C, Richard PJH, Bergeron Y, Fréchette B, Ali AA (2010) Resilience of the boreal forest in response to Holocene fire-frequency changes assessed by pollen diversity and population dynamics. Int J Wildland Fire 19(8):1026–1039

Carleton TJ, Maclellan P (1994) Woody vegetation responses to fire versus clear-cutting logging: a comparative survey in the Central Canadian boreal forest. Écoscience 1(2):141–152

Cyr D, Gauthier S, Bergeron Y (2007) Scale-dependent determinants of heterogeneity in fire frequency in a coniferous boreal forest of eastern Canada. Landscape Ecol 22(9):1325–1339

Cyr DS, Gauthier S, Bergeron Y, Carcaillet C (2009) Forest management is driving the eastern north American 1 boreal forest outside its natural range of variability. Front Ecol Environ 7(10):519–524. https://doi.org/10.1890/080088

Dukes JS, Pontius J, Orwig D, Garnas JR, Rodgers VL, Brazee N, Cooke B, Theoharides KA, Stange EE, Harrington R, Ehrenfeld J, Gurevitch J, Lerdau M, Stinson K, Wick R, Ayres M (2009) Responses of insect pests, pathogens, and invasive plant species to climate change in the forests of northeastern North America: what can we predict? Can J For Res 39(2):231–248. https://doi.org/10.1139/X08-171

EASAC (2017) Multi-functionality and sustainability in the European Union’s forests. EASAC Policy Report 32, p 41

Esseen PA, Ehnström B, Ericson L, Sjöberg K (1997) Boreal forests. Ecol Bull 46:16–47

Fenton NJ, Bergeron Y (2008) Does time or habitat make old-growth forests species rich? Bryophyte richness in boreal Picea mariana forests. Biol Conserv 41(5):1389–1399

Finnish Statistical Yearbook of Forestry (2012). Finnish Foresr Research Institute. Vammalan Kirjapaino OY, Sastamala, Finland. 452 p

Flannigan MD, Krawchuk MA, de Groot WJ, Wotton M, Gowman LM (2009) Implications of changing climate for global wildland fire. Int J Wildland Fire 18(5):483–507

Flannigan MD, Logan KA, Amiro BD, Skinner WR, Stocks BJ (2005) Future area burned in Canada. Clim Chang 72:1–2): 1–16. https://doi.org/10.1007/s10584-005-5935-y

Gauthier S, Bernier P, Burton PJ, Edwards J, Isaac K, Isabel N, Jayen K, Le Goff H, Nelson EA (2014) Climate change vulnerability and adaptation in the managed Canadian boreal forest. Environ Rev 22(3):256–285. https://doi.org/10.1139/er-2013-0064

Gauthier S, Bernier P, Kuuluvainen T, Shvidenko AZ, Schepaschenko DG (2015a) Boreal forest health and global change. Science 349:819–822. https://doi.org/10.1126/science.aaa9092

Gauthier S, Bernier PY, Boulanger Y, Guo XJ, Guindon L, Beaudoin A (2015b) Vulnerability of timber supply to projected changes in fire regime in Canada’s managed forests. Can J For Res 45:1439–1447. https://doi.org/10.1139/cjfr-2015-0079

Gauthier S, Leduc A, Bergeron Y, Le Goff H (2009c) Fire frequency and forest management based on natural disturbances. In: Gauthier S, Vaillancourt M-A, Leduc A, De Grandpre L, Kneeshaw DD, Morin H, Drapeau P, Bergeron Y (eds) Ecosystem management in the boreal forest. Presses de l’Université du Québec, Québec, QC, pp 39–56

Gauthier S, Vaillancourt M-A, Kneeshaw DD, Drapeau P, De Grandpre L, Claveau Y, Pare D (2009a) Forest ecosystem management: origins and foundations. In: Gauthier S, Vaillancourt M-A, Leduc A, De Grandpre L, Kneeshaw DD, Morin H, Drapeau P, Bergeron Y (eds) Ecosystem Management in the Boreal Forest. Presses de l’Université du Québec, Québec, QC, pp 13–38

Gauthier S, Vaillancourt M-A, Leduc A, De Grandpré L, Kneeshaw D, Morin H, Drapeau P, Bergeron Y (2009b) Ecosystem Management in the Boreal Forest. Natural Resources Canada, Canadian Forest Service, Laurentian Forestry Centre, Quebec, Quebec, p 492

Girard F, Payette S, Gagnon R (2008) Rapid expansion of lichen woodlands within the closed-crown boreal forest zone over the last 50 years caused by stand disturbances in eastern Canada. J Biogeogr 35:529–537

Greene DF, Gauthier S, Noël J, Rousseau M, Bergeron Y (2006) A field experiment to determine the effect of post-fire salvage on seedbeds and tree regeneration. Front Ecol Environ 4:69–74

Groisman P, Shugart H, Kicklighter D, Henebry G, Tchebakova N, Maksyutov S, Monier E, Gutman G, Gulev S, Qi J, Prischepov A, Kukavskaya E, Porfiriev B, Shiklomanov A, Loboda T, Shiklomanov N, Nghiem S, Bergen K, Albrechtová J, Chen J, Shahgedanova M, Shvidenko A, Speranskaya N, Soja A, de Beurs K, Bylygina O, McCarty J, Zhuang Q, Zolina O (2017) Northern Eurasia Future Initiative (NEFI): facing the challenges and pathways of global change in the twenty-first century. Prog Earth Planetary Sci 4:41. https://doi.org/10.1186/s40645-017-0154-5

Gromtsev A (2002) Natural disturbance dynamics in the boreal forests of European Russia: a review. Silva Fenn 36:41–55

Guindon L, Bernier PY, Beaudoin A, Pouliot D, Villemaire P, Hall RJ, Latifovic R, St-Amant R (2014) Annual mapping of large forest disturbances across Canada’s forests using 250 m MODIS imagery from 2000 to 2011. Can J For Res 44:1545–1554

Halme P, Allen KA, Aunins A, Bradshaw RHW, Brumelis G, Cada V, Clear JL, Eriksson A-M, Hannon G, Hyvärinen E, Ikauniece S, Iršėnaitė R, Jonsson BG, Junninen K, Kareksela S, Komonen A, Kotiaho JS, Kouki J, Kuuluvainen T, Mazziotta A, Mönkkönen M, Nyholm K, Olden A, Shorohova E, Strange N, Toivanen T, Vanha-Majamaa I, Wallenius T, Ylisirniö A-L, Zin E (2013) Challenges of ecological restoration: lessons from forests in northern Europe. Biol Conserv 167:248–256

Hannah L, Midgley G, Andelman S, Araújo M, Hughes G, Martinez-Meyer E, Williams P (2007) Protected area needs in a changing climate. Front Ecol Environ 5(3):131–138

Hanski I (2000) Extinction debt and species credit in boreal forests: modelling the consequences of different approaches to biodiversity conservation. Ann Zool Fenn 37:271–280

Helmisaari H-S, Kaarakka L, Olsson BA (2014) Increased utilization of different tree parts for energy purposes in the Nordic countries. //dx.doi.org/10.1080/02827581.2014.926097. Accessed 21 May 2017

Jasinski JPP, Payette S (2005) The creation of alternative stable states in the southern boreal forest, Québec, Canada. Ecol Monogr 75:561–583

Johnson EA (1992) Fire and vegetation dynamics: studies from the North American boreal forest. Cambridge Studies in Ecology. Cambridge University Press, Cambridge

Josefsson T, Hörnberg G, Östlund L (2009) Long-term human impact and vegetation changes in a boreal forest reserve: implications for the use of protected areas as ecological references. Ecosystems 12(6):1017–1036

Kafka V, Gauthier S, Bergeron Y (2001) Fire impacts and crowning in the boreal forest: study of a large wildfire in western Quebec. Int J Wildl Fire 10:119–127

Keto-Tokoi P, Kuuluvainen T (2014) Primeval forests of Finland. Cultural history, ecology and conservation. Maahenki 302, p

Kneeshaw D, Bergeron Y, Kuuluvainen T (2011) Forest ecosystem structure and disturbance dynamics across the circumboreal forest. In: Millington A, Blumler M, Schickhoff U (eds) Handbook of biogeography. Sage Publications, London

Kotiaho JS (2017) On effective biodiversity conservation, sustainaability of bioeconomy, and honesty of the Finnish forest policy. Ann Zool Fenn 54:13–25 https://doi.org/10.5735/086.054.0104. Accessed 21 May 2017

Kouki J, Löfman S, Martikainen P, Rouvinen S, Uotila A (2001) Forest fragmentation in Fennoscandia: linking habitat requirements of wood-associated threatened species to landscape and habitat changes. Scand J For Res (Suppl) 3:27–37

Kuuluvainen T (2009) Forest management and biodiversity conservation based on natural ecosystem dynamics in northern Europe: the complexity challenge. Ambio 38:309–315

Kuuluvainen T (2016) Ecosystem management of the boreal forest. Oxford Encyclopedia of Environmental Science. https://doi.org/10.1093/acrefore/9780199389414.013.15

Kuuluvainen T, Aakala T (2011) Natural forest dynamics in boreal Fennoscandia: a review and classification. Silva Fenn 45(5):823–841

Kuuluvainen T, Grenfell R (2012) Natural disturbance emulation in boreal forest ecosystem management: theories, strategies and a comparison with conventional even-aged management. Can J For Res 42:1185–1203

Kuuluvainen T, Siitonen J (2013) Fennoscandian boreal forests as complex adaptive systems. Properties, management challenges and opportunities. In: Messier C, Puettmaan KJ, Coates KD (eds) Managing forests as complex adaptive systems. Building resilience to the challenge of global change. Earthscan, New York, pp 244–268

Kuuluvainen T, Tahvonen O, Aakala T (2012) Even-aged and uneven-aged forest management in boreal Fennoscandia: a review. Ambio 41(7):720–737

Langor DW, Cameron EK, McQuarrie CJK, McBeath A, McClay A, Peter B, Pybus M, Ramsfield T, Ryall K, Scarr T, Yemshanov D, DeMerchand I, Foottit R, Pohj GR (2014) Non-native species in Canada’s boreal zone: diversity, impacts, and risk. Environ Rev 22:372–420

Leduc A, Bernier PY, Mansuy N, Raulier F, Gauthier S, Bergeron Y (2015) Using salvage logging and tolerance to risk to reduce the impact of forest fires on timber supply calculations. Can J For Res 45:480–486. https://doi.org/10.1139/cjfr-2014-0434

Lindenmayer DB, Burton PJ, Franklin JF (2013) Salvage logging and its ecological consequences. Island Press, Australia

Lindenmayer DB, Franklin JF (2002) Conserving forest biodiversity. A comprehensive multiscaled approach. Island Press, Washington

Lindner M, Maroschek M, Netherer S, Kremer A, Barbati A, Garcia-Gonzalo J, Seidl R, Delzon S, Corona P, Kolström M, Lexer MJ, Marchetti M (2010) Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystems. For Ecol Manag 259:698–709

Maynard DG, Paré D, Thiffault E, Lafleur B, Hogg KE, Kishchuk B (2014). How do natural disturbances and human activities affect soils and tree nutrition and growth in the Canadian boreal forest? Environ Rev 22(2):161–178

McAfee BJ, Camino RD, Burton PJ, Eddy B, Fähser L, Messier C, Reed MG, Spies T, Vides R, Baker C, Barriga M, Campos J, Corrales O, Espinoza L, Gibson S, Glatthorn J, Martineau-Delisle C, Prins C, Rose NA (2010) Managing forested landscapes for socio-ecological resilience. IUFRO International Union of Forestry Research Organizations, pp 401–439

McCarthy J (2001) Gap dynamics of forest trees: a review with particular attention to boreal forests. Environ Rev 9:1–59

McKenney DW, Pedlar JH, Papadopol P, Hutchinson MF (2006) The development of 1901–2000 historical monthly climate models for Canada and the United States. Agric For Meteorol 138(1):69–81

Millar CI, Stephenson NL, Stephens SL (2007) Climate change and forests of the future: managing in the face of uncertainty. Ecol Appl 17:2145–2151

Moen J, Rist L, Bishop K, Chapin FS III, Ellison D, Kuuluvainen T, Petersson H, Puettmann KJ, Rayner J, Warkentin IG, Bradshaw CJA (2014) Eye on the taiga: removing global policy impediments to safeguard the boreal forest. Cons Lett 7(4):408–418. https://doi.org/10.1111/conl.12098

Nappi A, Dery S, Bujold F, Chabot M, Dumont M-C, Duval J, Drapeau P, Gauthier S, Brais S, Peltier J, Bergeron I (2011) Harvesting in Burned Forests — Issues and Orientations for Ecosystem-Based Management. Ministère des Ressources naturelles et de la Faune, Direction de l’environnement et de la protection des forêts, Québec, p 47

Nappi A, Drapeau P, Saint-Germain M, Angers VA (2010) Effect of fire severity on long-term occupancy of burned boreal conifer forests by saproxylic insects and wood-foraging birds. Int J Wildland Fire 19:500–511

Nappi A, Drapeau P, Savard JP (2004) Salvage logging after wildfire in the boreal forest: is it becoming a hot issue for wildlife? For Chron 80(1):67–74

Nguyen-Xuan T, Bergeron Y, Simard D, Fyles JW, Paré D (2000) The importance of forest floor disturbance in the early regeneration patterns of the boreal forest of western and Central Quebec: a wildfire versus logging comparison. Can J For Res 30:1353–1364

Nordén J, Penttilä R, Siitonen J, Tomppo E, Ovaskainen O (2013) Specialist species of wood-inhabiting fungi struggle while generalists thrive in fragmented boreal landscapes. J Ecol 101:701–712

O’Neill GA, Ukrainetz NK, Carlson MR, Cartwright CV, Jaquish BC, King JN, Krakowski J, Russell JH, Stoehr M, Xie C-Y, Yanchuk AD (2008) Assisted migration to address climate change in British Columbia: recommendations for interim seed transfer standards. BC Ministry of Forests and Range, Research Branch, Victoria For Sci Branch Tech Rep, p 48

Pan Y, Birdsey RA, Fang J, Houghton R, Kauppi PE, Kurz WA, Phillips OL, Shvidenko A, Lewis SL, Canadell JG, Ciais P, Jackson RB, Pacala SW, McGuire AD, Piao S, Rautiainen A, Sitch S, Hayes D (2011) A large and persistent carbon sink in the world’s forests. Science 333:988–994

Payette S (1992) Fire as a controlling process in the north American boreal forest. In: Shugart HH, Leemans R, Bonan GB (eds) A systems analysis of the global boreal forest. Cambridge University Press, New York, pp 144–169

Pedlar JH, McKenney DW, Aubin I, Beardmore T, Beaulieu J, Iverson L, O’Neill GA, Winder RS, Ste-Marie C (2012) Placing forestry in the assisted migration debate. BioScience 62(9):835–842

Pennanen J (2002) Forest age distribution under mixed-severity fire regimes – a simulation-based analysis for middle boreal Fennoscandia. Silva Fenn 36:213–231

Peura M, Burgas D, Eyvindson K, Repo A, Mönkkönen M (2018) Continuous cover forestry is a cost-efficient tool to increase multifunctionality of boreal production forests in Fennoscandia. Biol Conserv 217:104–112

Pickett STA, White PS (eds) (1985) The ecology of natural disturbance and patch dynamics. Academic Press, New York, p. 472

Price DT, Alfaro RI, Brown KJ, Flannigan MD, Fleming RA, Hogg EH, Girardin MP, Lakusta T, Johnson M, McKenney DW, Pedlar JH, Stratton T, Sturrock RN, Thompson ID, Trofymov JA, Venier LA (2013) Anticipating the consequences of climate change for Canada’s boreal forest ecosystems. Environ Rev 21(4):322–365

Puettmann KJ, Coates KD, Messier C (2009) A critique of silviculture: managing for complexity. Island Press, Washington, DC

Pukkala T (2016) Which type of forest management provides most ecosystem services? Forest Ecosystems 3:9. https://doi.org/10.1186/s40663-016-0068-5

Pukkala T, Lähde E, Laiho O, Salo K, Hotanen J-P (2011) A multifunctional comparison of even-aged and uneven-aged forest management in a boreal region. Can J For Res 41:851–862. https://doi.org/10.1139/X11-009

Pukkala T, Laiho O, Lähde E (2016) Continuous cover management reduces wind damage. For Ecol Manag 372:120–127

Rämö J, Tahvonen O (2014) Economics of harvesting of uneven-aged forest stands in Fennoscandia. Scan J For Res. https://doi.org/10.1080/02827581.2014.982166

Rassi P, Hyvärinen E, Juslén A, Mannerkoski I (2010) The 2010 red list of Finnish species. Ympäristöministeriö & Suomen Ympäristökeskus, Helsinki, p 685

Raulier F, Le Goff H, Gauthier S, Rapanoela R, Bergeron Y (2013) Introducing two indicators for fire risk consideration in the management of boreal forests. Ecol Indic 24:451–461

Raunio A, Schulman A, Kontula T (2008) The assessment of threatened habitat types in Finland – part 1: results and basis for assessment. Finnish Environment Institute, Helsinki, p 264 (in Finnish with English summary).

Régnière J, St-Amant R, Duval P (2012) Predicting insect distributions under climate change from physiological responses: spruce budworm as an example. Biol Invasions 14:1571–1586

Rijal B (2017) A forest management decision support system for sustainable management of flammable boreal forest landscapes. Ph.D. Thesis. Département de Sciences du Bois et de la Forêt. Université Laval

Rogers BM, Soja AJ, Goulden ML, Randerson JT (2015) Influence of tree species on continental differences in boreal fires and climate feedbacks. Nat Geosci. https://doi.org/10.1038/NGEO2352

Saint-Germain M, Greene DF (2009) Salvage logging in the boreal and cordilleran forests of Canada: integrating industrial and ecological concerns in management plans. For Chron 85(1):120–134

Sánchez-Pinillos M, Coll L, De Cáceres M, Ameztequi A (2016) Assessing the persistence capasity of communities facing natural disturbances on the basis on species response traits. Ecol Indicators. https://doi.org/10.1016/j.ecolind.2016.01.024. Accessed 21 Sept 2017

Savage DW, Martell DL, Wotton BM (2010) Evaluation of two risk mitigation strategies for dealing with fire-related uncertainty in timber supply modelling. Can J For Res 40(6):1136–1154

Seymour RS, Hunter ML (1992) New forestry in eastern spruce-fir forests: principles and applications to Maine (Vol. 716). College of Forest Resources, University of Maine

Scheffer M, Hirota M, Holmgren M, van Nes EH, Chapin FS (2012) Thresholds for boreal biome transitions. Proc Nat Aca Sci USA 109:21384–21389

Schmiegelow FK, Stepnisky DP, Stambaugh CA, Koivula M (2006) Reconciling salvage logging of boreal forests with a natural-disturbance management model. Cons Biol 20(4):971–983

Shorohova E, Kneeshaw D, Kuuluvainen T, Gauthier S (2011) Variability and dynamics of old-growth forests in the circumboreal zone: implications for conservation, restoration and management. Silva Fenn 45:785–806

Shorohova E, Kuuluvainen T, Kangur A, Jogiste K (2009) Natural stand structures, disturbance regimes and successional dynamics in the Eurasian boreal forests: a review with special reference to Russian studies. Ann For Sci 66(2):201

Siitonen J (2001) Forest management, coarse woody debris and saproxylic organisms: Fennoscandian boreal forests as an example. Ecol Bull 49:11–41

Stevens-Rumann CS, Kemp KB, Higuera PE, Harvey BJ, Rother MT, Donato DC, Morgan P, Veblen TT (2017) Evidence for declining forest resilience to wildfires under climate change. Ecol Lett https://doi.org/10.1111/ele.12889. Accessed 21 Sep 2017

Suffling, R, Smith, B, Molin, JD (1982). Estimating past forest age distributions and disturbance rates in north-western Ontario: a demographic approach. Journal of Environmental Management, 14(1), 45–56.

Swanson ME, Franklin JF, Beschta RL, Crisafulli CM, DellaSala DA, Hutto RL, Lindenmayer DB, Swanson FJ (2011) The forgotten stage of forest succession: early-successional ecosystems on forest sites. Front Ecol Environ 9(2):117–125

Tabor K, Williams JW (2010) Globally downscaled climate projections for assessing the conservation impacts of climate change. Ecol Appl 20:554–565

Thorn S, Bässler C, Brandl B, Burton BJ, Cahall R, Cambell JL, Castro J, Choi C-Y, Cobb T, Donato DC, Durska E, Fontaine JB, Gauthier S, Hebert C, Hothorn T, Hutto RL, Lee E-J, Lrverkus AB, Lindenmayer DB, Obrist MK, Rost J, Seibold S, Seidl R, Thom D, Waldron K, Wermelinger B, Winter M-B, Zmihorski M, Muller J (2017) Impacts of salvage logging on biodiversity: a meta-analysis. J Appl Ecol. https://doi.org/10.1111/1365-2664.12945

Venier LA, Thompson ID, Fleming R, Malcolm J, Aubin I, Trofymov JA, Langor D, Sturrock R, Patry C, Outerbridge RO, Holmes SB, Heussler S, De Grandpré L, Chen HYH, Bayne E, Arsenault A, Brandt JP (2014) Effects of natural resource development on the terrestrial biodiversity of Canadian boreal forests. Eviron Rev 22:457–490

Waldron K, Ruel J-C, Gauthier S (2013) Forest structural attributes after windthrow and consequences of salvage logging. For Ecol Manag 289:28–37

Whittaker RH (1975) Communities and Ecosystems. 2d ed. Macmillan, New York

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