Category :
Research article
article id 468,
category
Research article
Antti Lännenpää,
Tuomas Aakala,
Heikki Kauhanen,
Timo Kuuluvainen.
(2008).
Tree mortality agents in pristine Norway spruce forests in northern Fennoscandia.
Silva Fennica
vol.
42
no.
2
article id 468.
https://doi.org/10.14214/sf.468
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We examined tree mortality agents in pristine old Norway spruce (Picea abies (L.) Karst.) forests in northern Finland and northwestern Russia. The data was collected on nine 40 m 400 m transects. The primary mortality agents of recently dead trees were recorded and their frequencies were calculated. The pattern of tree growth prior to death was studied based on increment core samples and compared with the growth of healthy dominant trees. Of all recently dead trees, 72% could be associated with a primary mortality agent. In both study areas the most common primary mortality agent was a Coniophora (Mérat) DC. -genus fungi, which was found on average in 33% of trees sampled. The fungi Phellinus chrysoloma (Fr.) Don and Onnia leporina (Fr.) H. Jahn as mortality agents were more common in the Finnish area compared to the Russian area. Analysis on the growth patterns indicated weak differences between different pathogens’ influence on prior-to-death growth of trees, so that fungi rotting the whole tree decreased tree growth more rapidly than fungi rotting only the heart wood. The results demonstrated that in old Norway spruce forests of northern Fennoscandia the most common primary tree mortality agents were wood rotting fungi, which weaken the mechanical stability of tree stems until they fall due to snow or wind, which should be considered only as secondary mortality agents. It is evident that tree death in pristine forest typically results from a long-lasting process involving both biotic and abiotic factors.
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Lännenpää,
Department of Forest Ecology, University of Helsinki, Finland
E-mail:
al@nn.fi
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Aakala,
Department of Forest Ecology, University of Helsinki, Finland
E-mail:
tuomas.aakala@helsinki.fi
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Kauhanen,
Kolari Research Unit, Finnish Forest Research Institute, Finland
E-mail:
hk@nn.fi
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Kuuluvainen,
Department of Forest Ecology, University of Helsinki, Finland
E-mail:
tk@nn.fi
article id 259,
category
Research article
Jani Laturi,
Jarmo Mikkola,
Jussi Uusivuori.
(2008).
Carbon reservoirs in wood products-in-use in Finland: current sinks and scenarios until 2050.
Silva Fennica
vol.
42
no.
2
article id 259.
https://doi.org/10.14214/sf.259
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This study addresses the question of how much carbon will be sequestered in wood products during the coming decades in Finland. Using sawnwood and other wood material consumption data since the 1950s and inventory data of carbon reservoirs of wood products in the Finnish construction and civil engineering sector, we first derive estimates for the carbon reservoirs in wood products-in-use in that sector. We then extend the estimate to include all wood products-in-use. We find that the carbon pool of wood products in the Finnish construction and civil engineering sector grew by about 12% since an inventory for 2000, and that the overall estimate for carbon reservoirs of Finnish wood products in 2004 was 26.6 million tons of carbon. In building the scenarios until 2050, econometric time series models accounting for the relationship between wood material consumption and the development of GDP were used. The results indicate that the range of carbon reservoirs of wood products in Finland will be 39.6–64.2 million tons of carbon in the year 2050. The impacts of different forms of the decay function on the time-path of a carbon sink and its value in wood products were also studied. When a logistic decay pattern is used, the discounted value of the predicted carbon sink of wood products in Finland is between EUR850 and EUR1380 million – at the price level of EUR15/CO2 ton – as opposed to 440–900 million euros, if a geometric decay pattern is used.
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Laturi,
Finnish Forest Research Institute, Vantaa Research Unit, P.O. Box 18, FI-01301 Vantaa, Finland
E-mail:
jani.laturi@metla.fi
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Mikkola,
Finnish Forest Research Institute, Vantaa Research Unit, P.O. Box 18, FI-01301 Vantaa, Finland
E-mail:
jm@nn.fi
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Uusivuori,
Finnish Forest Research Institute, Vantaa Research Unit, P.O. Box 18, FI-01301 Vantaa, Finland
E-mail:
ju@nn.fi
article id 258,
category
Research article
Ursula Schatz,
Henrik Heräjärvi,
Kari Kannisto,
Matti Rantatalo.
(2008).
Influence of saw and secateur pruning on stem discolouration, wound cicatrisation and diameter growth of Betula pendula.
Silva Fennica
vol.
42
no.
2
article id 258.
https://doi.org/10.14214/sf.258
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The aim of this case study was to compare the impacts of saw and secateur pruning on silver birch (Betula pendula Roth). Data were collected from two saw pruned stands in 2005, and one secateur pruned stand in 2003. All the stands were located in southern Finland. The sample stems were felled, and their butt logs were sawn into flitches, whose knot features and colour defects were measured. In addition, discs were sawn from each stem in order to study the annual ring widths. In this material, pruning with secateurs appeared to cause less colour defects than pruning with a saw. Irrespective of the pruning method used, the colour defects in the stem wood were at their largest in cases where the basal knob or the stem bark appeared to be damaged by pruning. Colour defects spread mainly towards the pith, only in a few cases towards the stem surface. The cicatrisation time of the knots as well as the length of the bark stick remaining inside the stem did not show significant differences between the two pruning methods. Pruning of the lowest living branches appears to have no effect on the diameter growth of silver birch trees.
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Schatz,
Peltotievantie 27, FI-99440 Leppäjärvi, Finland
E-mail:
us@nn.fin
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Heräjärvi,
Finnish Forest Research Institute, Joensuu Research Unit, P.O. Box 111, FI-80101 Joensuu, Finland
E-mail:
henrik.herajarvi@metla.fi
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Kannisto,
Finnish Forest Research Institute, Parkano Research Unit, Kaironiementie 54, FI-39700 Parkano, Finland
E-mail:
kk@nn.fi
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Rantatalo,
Peltotievantie 27, FI-99440 Leppäjärvi, Finland
E-mail:
mr@nn.fi
article id 257,
category
Research article
Nadir Ayrilmis.
(2008).
Effect of compression wood on dimensional stability of medium density fiberboard.
Silva Fennica
vol.
42
no.
2
article id 257.
https://doi.org/10.14214/sf.257
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This study evaluated the effect of compression wood on dimensional stability of medium density fiberboards (MDF) manufactured from fiber furnishes of pine (Pinus nigra Arnold var. pallasiana) containing compression wood. Two panel types were manufactured from two different compression wood (CW) portion / normal wood (NW) portions in the furnish, 75/25 and 10/90, respectively. Linear and thickness variations of the panels exposed to various relative humidites at 20 °C, linear expansion/contraction and thickness swelling/shrinkage, were measured according to the procedures defined by DIN EN 318 (2005) standard test method. Panels made from fiber furnish containing 75% the CW had higher linear expansion and linear contraction values with an average value of 0.286% and 0.247% than those of panels made from fiber furnish containing 10% the CW with an average value of 0.184% and 0.152%, respectively. As for thickness swelling and thickness shrinkage properties, panels made from fiber furnish containing 75% the CW had the thickness swelling and thickness shrinkage values with an average of 5.042% and 4.402% while panels made from fiber furnish containing 10% the CW had the values with 3.621% and 2.861%, respectively. Consequently, based on the findings obtained from this study, expansion and swelling properties of the MDF panels were negatively affected by compression wood increase.
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Ayrilmis,
University of Istanbul, Faculty of Forestry, Department of Wood Mechanics and Technology, Bahcekoy, TR-34473 Istanbul, Turkey
E-mail:
nadiray@istanbul.edu.tr
article id 256,
category
Research article
Juha Laitila.
(2008).
Harvesting technology and the cost of fuel chips from early thinnings.
Silva Fennica
vol.
42
no.
2
article id 256.
https://doi.org/10.14214/sf.256
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This study compared and analyzed the procurement cost of whole tree chips when using supply chains based on comminution at the roadside landing or at the terminal. It also identified the bottlenecks of the most common logging systems used in Finland. The study was done by using existing and published productivity parameters and models. The procurement cost calculations were made for a stand where the forwarding distance was 200 metres, removal of whole trees was 60 m per hectare and the area of the stand was 2.0 hectares. The average size of the removed whole trees was 30 litres. The direct transport distance from the stand to the terminal or to the end use facility was 40 km while the secondary distance from the terminal to the end use facility was 10 km. A stumpage price for the harvested raw material was not included in this study. According to the study the cost of whole trees chips were 31.9–41.6 euros/m at the plant, or 14.9–19.4 euros/MWh when the moisture content of chips was estimated to be 40%. The two-machine system was found to be the most cost competitive logging system in pre-commercial thinnings thanks to both efficient cutting and, especially, forwarding work. In the manual worker based logging, the costs of felling bunching were the same as the mechanised system, whereas in forwarding the costs were almost double. Using the harwarder system the logging costs were found to be the highest, but in the larger tree volumes and removals the costs were almost equal to the manual worker based logging. The supply chain based on chipping at the roadside landing was more cost efficient compared to the chipping at the terminal system. The lower comminution cost at the terminal was not enough to cover the higher transportation cost of unprocessed material to the terminal, handling cost of chips at the terminal or the delivery cost to the end use facility.
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Laitila,
Finnish Forest Research Institute, Joensuu Research Unit, Joensuu, Finland
E-mail:
juha.laitila@metla.fi
article id 255,
category
Research article
Claude Vidal,
Adrian Lanz,
Erkki Tomppo,
Klemens Schadauer,
Thomas Gschwantner,
Lucio di Cosmo,
Nicolas Robert.
(2008).
Establishing forest inventory reference definitions for forest and growing stock: a study towards common reporting.
Silva Fennica
vol.
42
no.
2
article id 255.
https://doi.org/10.14214/sf.255
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International agreements such as the Kyoto protocol and Convention on Biological Diversity (1992), as well as, criteria and indicator processes require reports on the status of nations’ forests. Any comparison of the current status and trends of forest resources among nations presumes that the nations’ applied definitions and concepts produce comparable estimates of the status of forests. In spite of this, the FAO has already collected global information for 60 years and made noticeable efforts in creating common definitions, but forest related data are still collected using diverse definitions, even regarding basic concepts such as forest and forest area. A simple consequence is that the cross-countries estimates are not comparable. The reasons behind the differences in the definitions are diverse histories, and sometimes different use of forests. In an ideal case, national forest inventories should fulfil both national and international needs. In addition to the FAO’s Forest Resources Assessment process, other efforts are made to assess the status of forests in European countries, e.g. European Forest Information and Communication System (EFICS). EFICS produced reports about forest inventories but does not suggest any common definition or method to convert estimates from one definition to another one. This article presents principles and methods to create commonly acceptable and adoptable definitions for forest inventories. The principles and methods are demonstrated using two examples: the reference definitions of forest and growing stock. The article is based on the work of COST Action E43 (http://www.metla.fi/eu/cost/e43/).
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Vidal,
Inventaire Forestier National, Château des Barres, Nogent-sur-Vernisson, France
E-mail:
claude.vidal@ifn.fr
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Lanz,
WSL/FNP, Abteilung Landschaftsinventuren, Birmensdorf, Switzerland
E-mail:
al@nn.ch
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Tomppo,
Finnish Forest Research Institute, Vantaa Research Unit, Vantaa, Finland
E-mail:
et@nn.fi
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Schadauer,
Bundesamt und Forschungszentrum für Wald, Wien, Austria
E-mail:
ks@nn.at
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Gschwantner,
Bundesamt und Forschungszentrum für Wald, Wien, Austria
E-mail:
tg@nn.at
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di Cosmo,
ISAFA, Villazzano, Italy
E-mail:
ldc@nn.it
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Robert,
Inventaire Forestier National, Ch‰teau des Barres, Nogent-sur-Vernisson, France
E-mail:
nr@nn.fr
article id 254,
category
Research article
Johanna Joensuu,
Kari Heliövaara,
Eino Savolainen.
(2008).
Risk of bark beetle (Coleoptera, Scolytidae) damage in a spruce forest restoration area in central Finland.
Silva Fennica
vol.
42
no.
2
article id 254.
https://doi.org/10.14214/sf.254
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A beetle inventory using window traps was performed to examine the effect of forest restoration by artificial addition of dead wood on the abundance of beetles and to evaluate the risk of bark beetle damage in a forest restoration area. The number of beetle families was slightly increased, but no consistent differences were found in the abundance of families containing saproxylic Coleoptera between the restoration and control plots. The abundance and species number of bark beetles and longhorn beetles were significantly higher on the restoration plots. Ips typographus and Pityogenes chalcographus increased only slightly in abundance. In the regression models produced, the abundance of bark beetles was best explained by the volume of recently dead wood. However, the bark beetle species whose abundance increased most were secondary and the material also suggests an increase in the abundance of bark beetles’ natural enemies. The risk of bark beetle damage in the area is thus considered insignificant.
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Joensuu,
Dept. of Forest Ecology, University of Helsinki, Finland
E-mail:
johanna.joensuu@metsanhoitajat.fi
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Heliövaara,
Dept. of Forest Ecology, University of Helsinki, Finland
E-mail:
kh@nn.fi
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Savolainen,
Kuopio Natural History Museum, Kuopio, Finland
E-mail:
es@nn.fi
article id 253,
category
Research article
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Our current knowledge of the P retention efficiency of peatland buffer zone areas used to reduce sediment and nutrient leaching from forestry areas is insufficient. Especially the role of P sorption by soil in buffer zones needs closer examination as there is considerable variation in the efficiency of P retention. Six sites in southern Finland were chosen for the study. The buffer zone areas varied between 0.1–4.9% of the catchment area. A total of 10 kg of solute PO4–P was added to the inflow of the buffer zone areas and the concentrations of PO4–P in inflow and outflow were measured for 2–4 years. P retention characteristics of the surface peat were determined with sorption-desorption isotherms before and after PO4–P addition and the effective buffer zone area over which the added P was spread was determined from soil water samples. P retention in the two largest buffer zone areas was complete (100% retention), and the third largest buffer retained 94%. Retention in the three smallest buffer zones was 24%, 95% and 95% of the added P. As a result of P addition reduction in peat P retention capacity was detected in three out of four cases. The effective buffer zone area varied from 67% to 100% of the total buffer zone area. Factors contributing to efficient P retention were large buffer size and low hydrological load whereas high hydrological load combined with the formation of preferential flow paths, especially during early spring or late autumn was disadvantageous. High P retention capacity in peat contributed to the sustainability of P retention. The study showed that even relatively small buffer zone areas are able to efficiently reduce P load.
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Väänänen,
Department of Forest Ecology, University of Helsinki, P.O. Box 27, FI-00014 University of Helsinki, Finland
E-mail:
riitta.vaananen@helsinki.fi
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Nieminen,
Finnish Forest Research Institute, Vantaa Research Unit, Finland
E-mail:
mn@nn.fi
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Vuollekoski,
Finnish Forest Research Institute, Vantaa Research Unit, Finland
E-mail:
mv@nn.fi
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Nousiainen,
Finnish Forest Research Institute, Vantaa Research Unit, Finland
E-mail:
hn@nn.fi
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Sallantaus,
Finnish Environment Institute, Nature Division, Helsinki, Finland
E-mail:
ts@nn.fi
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Tuittila,
Department of Forest Ecology, University of Helsinki, Finland
E-mail:
est@nn.fi
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Ilvesniemi,
Finnish Forest Research Institute, Vantaa Research Unit, Finland
E-mail:
hi@nn.fi
article id 252,
category
Research article
Tuomo Kalliokoski,
Pekka Nygren,
Risto Sievänen.
(2008).
Coarse root architecture of three boreal tree species growing in mixed stands.
Silva Fennica
vol.
42
no.
2
article id 252.
https://doi.org/10.14214/sf.252
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Root system architecture determines many of the vital functions of a tree, e.g. stability of anchorage and resource uptake. The shoot:root ratio is determined through the allocation of resources. Studies on below-ground architectural elements in boreal mixed forests are relatively scarce despite the fact that knowledge on below-ground interactions and allocation changes in relation to stand developmental stage and soil fertility is needed both in ecological and silvicultural research. In this study, sixty tree root systems of three different tree species, Betula pendula, Picea abies and Pinus sylvestris, were excavated in five mixed forest stands in order to quantify differences between the species and sites in terms of rooting behaviour. Root architecture differed greatly between the species, implying different solutions for the functions of root systems. Half of the P. sylvestris had developed a taproot as a response to anchorage needs, while P. abies correspondingly had pronounced secondary growth of proximal roots. Betula pendula had the most extensive root system, illustrating the greater demand of deciduous trees for water. Betula pendula was also the most sensitive to soil fertility: it favoured exploration on the poorest site, as illustrated by the high total root length, whereas on the most fertile site its strategy was to efficiently exploit soil resources through increased branching intensity. The results obtained in this study provide basic knowledge on the architectural characteristics of boreal tree root systems for use by forestry professionals and modellers.
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Kalliokoski,
The Finnish Forest Research Institute, Vantaa Research Unit, P.O. Box 18, FI-01301 Vantaa, Finland
E-mail:
tuomo.kalliokoski@metla.fi
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Nygren,
Department of Forest Ecology, P.O. Box 27, FI-00014 University of Helsinki, Finland
E-mail:
pn@nn.fi
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Sievänen,
The Finnish Forest Research Institute, Vantaa Research Unit, P.O. Box 18, FI-01301 Vantaa, Finland
E-mail:
rs@nn.fi
article id 251,
category
Research article
Lina R. Steinke,
Andrea C. Premoli,
Cintia P. Souto,
Mikael Hedrén.
(2008).
Adaptive and neutral variation of the resprouter Nothofagus antarctica growing in distinct habitats in north-western Patagonia.
Silva Fennica
vol.
42
no.
2
article id 251.
https://doi.org/10.14214/sf.251
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N. antarctica occurs in the widest range of habitat types among all South American Notho–fagus. The aim of this study is to investigate adaptive responses by variation in morphological (tree form and leaf characters), and environmental traits (soils) of the polymorphic N. ant–arctica. Also we analyze the effect of genetic drift and limited gene flow in such predominantly apomict by means of neutral variation (isozymes). We studied four potentially different morphological variants each associated with a separate habitat 1) an arboreal variant growing in optimal environments; 2) a sparsely branched variant of temporarily flooded basins or flats; 3) a dwarf variant growing at high elevation, and 4) a shrub-like variant inhabiting matorral environments. The study was restricted latitudinally to Nahuel Huapi National Park, Argentina. For each habitat type we investigated two sites. Nothofagus antarctica shows locally occurring phenotypes. The forest and the high elevation variants were morphologically distinct from the matorral and the basin types. The latter were undistinguishable except for more profuse branching in the matorral type as a result of sprouting due to recent fires. Isozyme evidence indicates a great deal of within-population genetic diversity which is maintained by outcrossing and significant among-site divergence (FST = 18%) that reflects limited gene flow.The apparent high phenotypic and genetic variability in N. antarctica is due to both plasticity and genotypic effects as a result of stable population structure and long periods of isolation which may be reinforced by selection at diverse biotopes.
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Steinke,
Plant Ecology and Systematics, Lund University, Ecology Department, 223 62 Lund, Sweden
E-mail:
lks@nn.se
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Premoli,
Universidad Nacional del Comahue, Laboratorio Ecotono – CRUB, Quintral 1250, 8400 Bariloche, Argentina
E-mail:
apremoli@crub.uncoma.edu.ar
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Souto,
Universidad Nacional del Comahue, Laboratorio Ecotono – CRUB, Quintral 1250, 8400 Bariloche, Argentina
E-mail:
cps@nn.ar
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Hedrén,
Plant Ecology and Systematics, Lund University, Ecology Department, 223 62 Lund, Sweden
E-mail:
mh@nn.se
article id 250,
category
Research article
Saara Lilja-Rothsten,
Michelle de Chantal,
Chris Peterson,
Timo Kuuluvainen,
Ilkka Vanha-Majamaa,
Pasi Puttonen.
(2008).
Microsites before and after restoration in managed Picea abies stands in southern Finland: effects of fire and partial cutting with dead wood creation.
Silva Fennica
vol.
42
no.
2
article id 250.
https://doi.org/10.14214/sf.250
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Different types of microsites, e.g. CWD (coarse woody debris), mounds, and uprooting pits, are important for tree regeneration and biodiversity. However, microsite diversity is greatly reduced in managed stands. We studied how restoration treatments changed microsite distribution in mature managed Picea abies stands. Four cutting treatments were used: uncut, low-CWD (5 m3 ha–1 of down retention trees, DRT, and 50 m3 ha–1 of standing retention trees), intermediate-CWD (as previous but leaving 30 m3 ha–1 of DRT), and high-CWD (as previous but with 60 m3 ha–1 of DRT). Timber harvested from stands ranged from 108–168 m3 ha–1. Half of the stands were burned, and half remained unburned. Sampling was stratified into upland and paludified biotopes within each stand. The pre-treatment microsite distributions were dominated by level ground in both biotopes; mounds and microsites on or next to CWD or a stump were slightly more abundant in the paludified than in the upland biotopes. Microsites were more diverse after cutting, with and without fire. The cutting treatment increased the relative abundances of microsites on or next to CWD. Fire consumed small diameter dead wood and flattened mounds. Microsites were more diverse in paludified than in upland biotopes. The results demonstrate that microsite diversity can rapidly be restored to structurally impoverished managed Picea stands despite a large portion of wood volume being harvested.
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Lilja-Rothsten,
University of Helsinki, Dept. of Forest Ecology, Finland
E-mail:
saara.lilja@helsinki.fi
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Chantal,
University of Helsinki, Dept. of Forest Ecology, Finland
E-mail:
mdc@nn.fi
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Peterson,
Dept. of Plant Biology, University of Georgia, Athens, GA, USA
E-mail:
cp@nn.us
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Kuuluvainen,
University of Helsinki, Dept. of Forest Ecology, Finland
E-mail:
tk@nn.fi
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Vanha-Majamaa,
The Finnish Forest Research Institute, Vantaa Unit, Finland
E-mail:
ivm@nn.fi
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Puttonen,
The Finnish Forest Research Institute, Vantaa Unit, Finland
E-mail:
pp@nn.fi