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Scandinavian Journal of Forest Research Volume 33, 2018 - Issue 6
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Articles

Long-term growth response of black spruce advance regeneration (layers), natural seedlings and planted seedlings to scarification: 25th year update

Marcel PrévostMinistère des Forêts, de la Faune et des Parcs du Québec, Québec, QC, CanadaCorrespondence[email protected]
&
Daniel DumaisMinistère des Forêts, de la Faune et des Parcs du Québec, Québec, QC, Canada
Pages 583-593 | Received 21 Sep 2017, Accepted 14 Jan 2018, Published online: 06 Feb 2018

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Read on this site (2)

Toshiya Yoshida, Haruka Yamazaki & Toshizumi Miyamoto. (2023) Scarification with surface soil replacement can promote understory reinitiation as well as the growth of a secondary birch stand. Journal of Forest Research 28:1, pages 51-56.
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Daniel Dumais & Marcel Prévost. (2019) Nine-year physiology, nutrition and morphological development of Picea glauca reintroduced by planting in a high-graded yellow birch–conifer stand. Scandinavian Journal of Forest Research 34:8, pages 656-666.
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Articles from other publishers (12)

Charles Marty, Rock Ouimet, Olivier Fradette, Maxime Paré, Patrick Faubert & Claude Villeneuve. (2024) Assessing soil carbon dynamics following mechanical site preparation in boreal lichen woodlands of Québec, Canada. Forest Ecology and Management 553, pages 121600.
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Charles Marty, Olivier Fradette, Louis Duchesne, Patrick Faubert, Rock Ouimet & Claude Villeneuve. (2023) Natural regeneration potential and dynamics in boreal lichen woodlands of eastern Canada following soil scarification. Frontiers in Forests and Global Change 6.
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Krista Reicis, Robert L Bradley, Gilles Joanisse, Nelson Thiffault, Dalton Scott & William F J Parsons. (2023) Mechanical scarification can reduce competitive traits of boreal ericaceous shrubs and improve nutritional site quality. Forestry: An International Journal of Forest Research 96:2, pages 293-303.
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Andrzej Węgiel, Jakub Jakubowski, Marta Molińska-Glura, Krzysztof Polowy, Jolanta Węgiel & Roman Gornowicz. (2023) Effect of logging residue removal and mechanical site preparation on productivity of the subsequent Scots pine (Pinus sylvestris L.) stands. Annals of Forest Science 80:1.
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Laureen F. I. Echiverri, S. Ellen Macdonald & Scott E. Nielsen. (2022) Neighboring edges: Interacting edge effects from linear disturbances in treed fens. Applied Vegetation Science 25:1.
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Joannie Beaulne, Michelle Garneau, Gabriel Magnan & Étienne Boucher. (2021) Peat deposits store more carbon than trees in forested peatlands of the boreal biome. Scientific Reports 11:1.
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Maxence Martin, Miguel Montoro Girona & Hubert Morin. (2020) Driving factors of conifer regeneration dynamics in eastern Canadian boreal old-growth forests. PLOS ONE 15:7, pages e0230221.
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Myriam Delmaire, Nelson Thiffault, Evelyne Thiffault & Julie Bouliane. (2020) White spruce enrichment planting in boreal mixedwoods as influenced by localized site preparation: 11-year update. The Forestry Chronicle 96:01, pages 27-35.
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Solveiga Luguza, Guntars Snepsts, Janis Donis, Iveta Desaine, Endijs Baders, Mara Kitenberga, Didzis Elferts & Aris Jansons. (2020) Advance Regeneration of Norway Spruce and Scots Pine in Hemiboreal Forests in Latvia. Forests 11:2, pages 215.
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Karin HjelmUrban NilssonUlf JohanssonPer Nordin. (2019) Effects of mechanical site preparation and slash removal on long-term productivity of conifer plantations in Sweden. Canadian Journal of Forest Research 49:10, pages 1311-1319.
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Martin Barrette, Nelson Thiffault, Jean-Pierre Tremblay & Isabelle Auger. (2019) Balsam fir stands of northeastern North America are resilient to spruce plantation. Forest Ecology and Management 450, pages 117504.
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Mona Saursaunet, Karen Mathisen & Christina Skarpe. (2018) Effects of Increased Soil Scarification Intensity on Natural Regeneration of Scots Pine Pinus sylvestris L. and Birch Betula spp. L.. Forests 9:5, pages 262.
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