article id 10334,
category
Research article
Highlights:
Effect of salvage logging on post-fire understory vegetation was assessed; Effect of salvage logging differed depending on forest types; In dry-poor stands, Calluna vulgaris was hindering other plant species; In wet stands, logging had positive effect on understory vegetation diversity; Salvage logging enhanced the effect of natural disturbance in dry-rich stands.
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Fire is a common disturbance in boreal forests causing changes in biological diversity at various spatial scales. In the past 100 years, forest management has limited fire outbreaks, but in the future, the fire-affected forest area is expected to increase in many regions due to climate change. Burned forests are typically salvage-logged, but the effect of this type of management versus natural regeneration on biological diversity is not well understood, particularly the mid-term effect to tree establishment and understory vegetation composition and diversity. Various management methods were used after a large fire in 1992 in a peatland-forest complex and neighbouring managed forests, which created an experimental setup for study of the effect of management after fire in the Sliteres National park, northwestern Latvia. Understory vegetation was described in plots using a design of four forest and three management types: natural regeneration (unmanaged) and managed sites with salvage logging followed by no further human intervention and salvage logging with planting. Post-fire management had different effect in each forest type. Species richness was higher in forest types with salvage logging than in natural regenerated sites on rich wet and rich dry forest types, but not for the poor forest types. Tree regeneration was generally greater in salvage-logged stands, but differed between forest types. Species composition was related to tree regeneration and canopy openness. In contrast to other studies, salvage logging had a positive mid-term effect to ground vegetation diversity and tree establishment in the studied stands, implying potential for concomitant management and conservation of ground cover vegetation in semi-natural stands.
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Kārkliņa,
Latvian State Forest Research Institute “Silava”, 111 Rigas Street, LV-2169, Salaspils, Latvia
E-mail:
annija.karklina@silava.lv
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Brūmelis,
University of Latvia, Faculty of Biology, Jelgavas street 1, LV-1004, Riga, Latvia
E-mail:
guntis.brumelis@lu.lv
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Dauškane,
University of Latvia, Faculty of Biology, Jelgavas street 1, LV-1004, Riga, Latvia
E-mail:
iluta.dauskane@lu.lv
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Elferts,
Latvian State Forest Research Institute “Silava”, 111 Rigas Street, LV-2169, Salaspils, Latvia; University of Latvia, Faculty of Biology, Jelgavas street 1, LV-1004, Riga, Latvia
E-mail:
didzis.elferts@lu.lv
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Freimane,
Latvian State Forest Research Institute “Silava”, 111 Rigas Street, LV-2169, Salaspils, Latvia
E-mail:
lasma.freimane@silava.lv
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Kitenberga,
Latvian State Forest Research Institute “Silava”, 111 Rigas Street, LV-2169, Salaspils, Latvia
E-mail:
mara.kitenberga@silava.lv
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Lībiete,
Latvian State Forest Research Institute “Silava”, 111 Rigas Street, LV-2169, Salaspils, Latvia
E-mail:
zane.libiete@silava.lv
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Matisons,
Latvian State Forest Research Institute “Silava”, 111 Rigas Street, LV-2169, Salaspils, Latvia
E-mail:
robism@inbox.lv
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Jansons,
Latvian State Forest Research Institute “Silava”, 111 Rigas Street, LV-2169, Salaspils, Latvia
E-mail:
aris.jansons@silava.lv