The influence of partial harvesting and forest floor disturbance on nutrient availability and understory vegetation in boreal mixedwoods

Frey, Brent R.; Lieffers, Victor J.; Munson, Alison D.; Blenis, Peter V.

doi:10.1139/x03-042

Cited by 74 publications

(54 citation statements)

References 53 publications

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“…Nonetheless, the overall difference between stands was small, and there was no significant difference in species diversity among understory vegetation (Table 3). Similar results are reported in stands under single-tree selection cutting [47,59,60]. Understory vegetation accounted for 6% of total carbon accumulations in this forest ( Figure 5).…”

Section: Discussionsupporting

confidence: 86%

Structural Complexity and Ecosystem Functions in a Natural Mixed Forest under a Single-Tree Selection Silviculture

et al. 2017

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Abstract:The objective of forest management has become broader, and it is essential to harmonize timber production with conservation of the forest ecosystem. Selection cutting is recognized as a major alternative of clear-cutting, because it can maintain the complexity and heterogeneity of a natural forest; however, its long-term evaluations are limited. This study compared various attributes of stand structures, which are indicators of biodiversity and ecosystem carbon stock between managed and unmanaged blocks (12.6 ha area in total) in a natural mixed forest in Hokkaido, the northernmost island of Japan. We found that 30 years' implementation of single-tree selection did not affect the volume, size structure, species diversity nor spatial distribution of overstory trees in the managed stands. Also, the total carbon stock in the managed stands was almost equal to that of the unmanaged stands. In contrast, several structural attributes and indicator elements that are significant for biodiversity (such as large-diameter live trees, dead trees, cavities, epiphytic bryophytes, and some avian guilds) showed marked decrease in the managed stands. We conclude that it is required to leave these structures and elements to some extent for deriving the merit of the management as an alternative silvicultural regime in the region.

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Section: Discussionsupporting

confidence: 86%

Structural Complexity and Ecosystem Functions in a Natural Mixed Forest under a Single-Tree Selection Silviculture

et al. 2017

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“…While we might anticipate that logging slash from harvesting would provide a labile C source, slash was generally layered on the surface of the litter or moss layer, well separated from the F horizon we sampled for our incubation studies. Studies reporting net immobilization after forest harvesting have been associated with more aggressive site preparation and assimilation of organic residues into the upper soil profile such as drum chopping in loblolly pine plantations (Vitousek and Matson, 1985) and soil mixing in a boreal mixedwood (Frey et al, 2003).…”

Section: Harvesting Impacts and Logging Slashmentioning

confidence: 99%

Impact of harvesting and logging slash on nitrogen and carbon dynamics in soils from upland spruce forests in northeastern Ontario

Hazlett

Gordon

Voroney

et al. 2007

Soil Biology and Biochemistry

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The potential impact of timber harvesting in the boreal forest on aquatic ecosystem water quality and productivity depends in part on the production of nutrients within the soil of the harvested catchment. Nitrogen supplied by organic matter decomposition is of particular interest because of the important role that N plays in biotic processes in surface waters, and in forest nutrition in general. Logging slash quality and input to the forest floor has the potential to influence N availability after harvest on clearcut sites. Net production of organic and inorganic-N and microbial biomass C and N concentrations were determined during a 90-day laboratory incubation at constant temperature and moisture. Incubated soils included F horizon and shallow mineral soil horizons (0-5 cm) from unharvested and full-tree harvested (2 and 12 growing seasons since harvest) boreal forest sites at the Esker Lakes Research Area (ELRA), in northeastern Ontario, Canada. In an ancillary experiment, black spruce foliage was added to unharvested forest floor material after 30 days during a 90-day laboratory incubation to simulate the influence of logging slash from full-tree harvesting on C and N dynamics. Twelve-year old clearcut F horizon material released on average 75 and 5 times more NO À 3 -N and 3 and 2 times as much inorganic-N than soil collected from unharvested and 2-year-old clearcuts, respectively. This increase in NO À 3 -N accumulation during the incubation was accompanied by decreases in both exchangeable NH þ 4 -N and microbial biomass C and N levels. Net daily changes in microbial biomass N were significantly related to organic and inorganic-N accumulation or loss within the F horizon. Mineral soil release of inorganic-N was lower than release from the forest floor. Nitrate-nitrogen accumulation was lower, and NH þ 4 -N accumulation was higher in mineral soil from unharvested sites when compared to 12-year-old clearcuts. Calculated harvest response ratios indicated that incubated mineral soil from the 12-year-old clearcut sites released significantly greater amounts of NO À 3 -N than 2-year-old clearcuts. Incorporation of black spruce needles into F horizon material reduced the production of organic and inorganic-N and increased microbial biomass N. Laboratory incubations of F horizon and shallow mineral soil from 12-year-old clearcuts suggested that these boreal soils have the capacity for increased inorganic-N production compared to uncut stands several years after harvesting. This has the potential to increase N availability to growing boreal forest plantations and increase N leaching due to greater NO À 3 -N levels in the forest soil. r

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“…Narrow strips of aspen, of a width equivalent to about one-third the aspen height (i.e., about 4-5 m wide), are clearcut and planted with white spruce at densities of 1200-1600 stems/ha. Aspen will also regenerate in these narrow strips, but at relatively low densities because of the proximity of aspen in leave strips (Frey et al 2003). Light availability in clearcut strips can be controlled to some extent by the strip orientation; models developed by Comeau and Bedford (2002) suggest that light availability in 5-m wide strips will be less than 20% unless they are oriented in a north-south direction.…”

Section: Strip Clearcuttingmentioning

confidence: 99%

“…More than one manual cutting treatment will almost certainly be required at that stand age, especially on productive sites where aspen suckers grow vigorously (Fraser et al 2002). The density and height of aspen suckers will, however, be tempered somewhat by the presence of surrounding aspen (e.g., Frey et al 2003;Prévost and Pothier 2003;Comeau, unpublished data). Aspen may be removed in small (i.e., 0.5 to 1 m) radii around spruce as early as the second year after planting, with larger radii treatments being applied when the height and crown width of aspen have increased.…”

Section: Tending Individual Sprucementioning

confidence: 99%

Implications of selected approaches for regenerating and managing western boreal mixedwoods

Comeau

Kabzems²,

McClarnon³

et al. 2005

The Forestry Chronicle

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We describe a range of approaches for managing boreal mixedwood stands composed of trembling aspen (Populus tremuloides Michx.) and white spruce (Picea glauca (Moench) Voss) in British Columbia and Alberta. Successful management of these complex forests requires a combination of well-defined objectives at the landscape level and flexible planning at the stand level. A variety of management strategies must be applied concurrently across the landscape to ensure that the natural mix of forest types and structural diversity is maintained. Selected approaches are discussed with regard to their suitability to particular stand conditions and sets of objectives, the types of tending and harvesting activities required, expected outcomes, and costs. The three approaches discussed are: 1) creation and management of two-storied intimate mixtures; 2) creation of a single-storied mixture of aspen and white spruce; and, 3) creation of a mosaic of discrete patches of each species.Key words: boreal mixedwood management, mixedwood silvicultural systems, aspen, white spruce, planning Mots clés : aménagement des peuplements mélangés de la forêt boréale, régimes sylvicoles des peuplements mélangés, tremble, épinette blanche, planification

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The influence of partial harvesting and forest floor disturbance on nutrient availability and understory vegetation in boreal mixedwoods

Cited by 74 publications

References 53 publications

Structural Complexity and Ecosystem Functions in a Natural Mixed Forest under a Single-Tree Selection Silviculture

Structural Complexity and Ecosystem Functions in a Natural Mixed Forest under a Single-Tree Selection Silviculture

Impact of harvesting and logging slash on nitrogen and carbon dynamics in soils from upland spruce forests in northeastern Ontario

Implications of selected approaches for regenerating and managing western boreal mixedwoods

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