Post-harvest soil nitrate dynamics in aspen- and spruce-dominated boreal forests

In the past 10 to 15 years, alternative silvicultural treatments involving partial harvesting have been developed for boreal forests, with the goal of achieving a balance between biodiversity maintenance and continued timber production. Most prior research has focussed on the impacts of partial harvesting on biological diversity, while stand dynamic responses remain little studied. In this paper we explore partial stand harvesting in the Canadian boreal—its rationale, current extent, and impact on stand dynamic patterns. Empirical studies from the boreal and elsewhere indicate that residual trees of many species respond to partial harvesting with enhanced growth, commonly showing a lagged response after which peak growth occurs five to 25 years following harvest. Post-harvest mortality is also prevalent but much more variable, with losses of residual trees ranging from nearly zero to more than 50% above background mortality rates in the initial years following harvest. With the exception of strip cutting in parts of northern Ontario and Quebec (HARP/CPPTM), operational partial harvesting in the Canadian boreal currently involves very low levels of retention. Available data suggest that such low retention levels, particularly when spatially dispersed, generally result in unacceptably high rates of post-harvest mortality, which are unlikely to be offset by increases in residual tree growth. There is an urgent need for development of spatially explicit stand simulation models that will allow accurate yield predictions for partial harvest systems to assess their feasibility in boreal forest management. Key words: ecosystem management, natural disturbance emulation, boreal forest, partial cut, structural retention, growth response, windthrow, post-harvest mortality

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Moving towards carbon neutrality: CO2 exchange of a black spruce forest ecosystem during the first 10 years of recovery after harvest

Canadian Journal of Forest Research ◽

10.1139/x2012-133 ◽

2012 ◽

Vol 42 (11) ◽

pp. 1908-1918 ◽

Cited By ~ 10

Author(s):

Carole Coursolle ◽

Marc-André Giasson ◽

Hank A. Margolis ◽

Pierre Y. Bernier

Keyword(s):

Boreal Forests ◽

Black Spruce ◽

Ecosystem Respiration ◽

Co2 Exchange ◽

Relative Role ◽

Ecosystem Productivity ◽

Eastern Canada ◽

Post Harvest ◽

C Dynamics ◽

Rate Of Increase

Disturbances control the landscape-level C dynamics of boreal forests, but post-disturbance C dynamics are usually poorly quantified. In the current study, we use 10 years of CO2 flux measurements at a boreal black spruce ( Picea mariana (Mill.) B.S.P.) cutover in eastern Canada to estimate time to C neutrality, quantify the relative role of respiration versus photosynthesis during recovery, and determine the agreement between cumulated CO2 fluxes and plot-level changes in C content. The site was a net source of 139 g C·m–2·year–1 2 years post-harvest, dropped further to a source of 173 g C·m–2·year–1 4 years post-harvest, following a scarification treatment, and was nearly C neutral 10 years post-harvest. Gross ecosystem productivity (GEP) increased by 50 g C·m–2·year–1 post-scarification, while ecosystem respiration (ER) increased by only 23 g C·m–2·year–1. The resulting net rate of increase of 27 g C·m–2·year–1 in net ecosystem productivity was driven by changes in increasing leaf area. In fact, vegetation regrowth had a much greater impact on annual fluxes than did interannual variability in climate. Biometric-based measurements of total C losses after harvest were in relatively good agreement with eddy-covariance-based estimates 8 years after the harvest.

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Bird communities associated with live residual tree patches within cut blocks and burned habitat in mixedwood boreal forests

Canadian Journal of Forest Research ◽

10.1139/x00-061 ◽

2000 ◽

Vol 30 (8) ◽

pp. 1281-1295 ◽

Cited By ~ 37

Author(s):

Jim Schieck ◽

Keith A Hobson

Keyword(s):

Boreal Forest ◽

Boreal Forests ◽

Bird Communities ◽

Forest Birds ◽

Forest Bird ◽

Post Harvest ◽

Riparian Habitats ◽

Residual Tree ◽

Mixedwood Boreal Forest ◽

Trees And Shrubs

By retaining patches of trees in cut blocks, managers expect to retain some forest birds and create bird communities more similar to those found after fires. We surveyed birds from a range of patch sizes (1 to >3000 live residual trees), at four ages (2, 15, 30, 60 years), following two disturbance types (harvest, fire) in mixedwood boreal forest. Bird communities varied among patch sizes, forest ages, and disturbance types. Immediately post-disturbance, bird communities from large patches (>100 residual trees) were more similar to those from old forest than were communities from small patches ([Formula: see text]10 residual trees). Birds that nest or forage in open or riparian habitats had highest densities in small patches 2 years post-harvest, whereas birds that nest in large snags had highest densities in small patches 2 years post-fire. Throughout the chronosequence following both disturbance types, birds from small patches became more similar to those from old forest. Birds that nest and forage in small trees and shrubs were common 15 and 30 years post-disturbance, and generalist forest birds were common 60 years post-disturbance. Birds associated with old forest were present in all patch sizes 15, 30, and 60 years post-disturbance, although larger patches had higher densities of these species.

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Field nitrogen budgets and post-harvest soil nitrate as indicators of N leaching to groundwater in a Pacific Northwest dairy grass field

Nutrient Cycling in Agroecosystems ◽

10.1007/s10705-016-9819-5 ◽

2017 ◽

Vol 107 (1) ◽

pp. 107-123 ◽

Cited By ~ 2

Author(s):

Barbara M. Carey ◽

Charles F. Pitz ◽

Joseph H. Harrison

Keyword(s):

Pacific Northwest ◽

N Leaching ◽

Soil Nitrate ◽

Nitrogen Budgets ◽

Post Harvest

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Testes de nitrato no solo como indicadores complementares no manejo da adubação nitrogenada em milho

Ciência Rural ◽

10.1590/s0103-84782004000400054 ◽

2004 ◽

Vol 34 (4) ◽

pp. 1279-1287 ◽

Cited By ~ 10

Author(s):

Lisandro Rambo ◽

Paulo Regis Ferreira da Silva ◽

Gilber Argenta ◽

Cimelio Bayer

Keyword(s):

Soil Nitrate ◽

Post Harvest

A recomendação de nitrogênio (N) para a cultura do milho teve um avanço expressivo recentemente na região Sul do Brasil, quando passou a considerar a cultura anterior em adição ao teor de matéria orgânica do solo e a expectativa do rendimento de grãos. A busca de otimização do sistema de recomendação é constante e, nesse sentido, há grande potencial da inclusão de parâmetros de solo e de planta como indicadores complementares da disponibilidade de N no solo, principalmente em sistemas altamente produtivos e com aplicação de altas doses de N. Dentre os parâmetros de solo destacam-se os testes de nitrato, os quais indicam a quantidade de N disponível e são denominados testes de intensidade. Em função da época de realização, os testes de nitrato podem ser divididos basicamente em (i) teste de pré-semeadura - TPS ("preplant soil nitrate test" - PPNT), (ii) teste de pré-aplicação de N em cobertura - TPNC ("pre-sidedress soil nitrate test" - PSNT), e (iii) teste de pós-colheita - TPC ("post-harvest soil nitrate test" - PHNT). Dentre estes testes, destaca-se o TPNC, o qual tem sido mais estudado e difundido, principalmente nos EUA, pois permite avaliar a variação da disponibilidade de N do solo durante o ciclo da cultura, possibilitando o manejo da adubação nitrogenada em situações específicas. Esta revisão visa abordar o potencial dos testes de nitrato na avaliação da disponibilidade de N no decorrer do ciclo do milho e sua utilização na predição da necessidade de N a ser suplementado. A hipótese é de que a utilização dos testes de nitrato resultem em maior flexibilidade no manejo da adubação nitrogenada em milho.

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Early effects of pre- and post-harvest herbicide application and partial cutting in regenerating aspen – jack pine mixtures in northeastern Ontario

Canadian Journal of Forest Research ◽

10.1139/x11-021 ◽

2011 ◽

Vol 41 (5) ◽

pp. 1082-1090 ◽

Cited By ~ 9

Author(s):

Rongzhou Man ◽

James A. Rice ◽

G. Blake MacDonald

Keyword(s):

Populus Tremuloides ◽

Boreal Forests ◽

Pinus Banksiana ◽

Rapid Development ◽

Acer Rubrum ◽

Jack Pine ◽

Light Transmittance ◽

Red Maple ◽

Partial Cutting ◽

Post Harvest

Silvicultural options to obtain mixtures of broadleaved and conifer tree species in boreal forests remain limited, especially for mixtures of broadleaves and shade-intolerant conifers. In this study, we tested a series of treatment packages that included variation in harvesting pattern, site preparation, renewal treatments, and timing and patterns of tending to establish trembling aspen (Populus tremuloides Michx.) and jack pine (Pinus banksiana Lamb.) mixedwoods in intimate mixtures or spatial mosaics in northeastern Ontario. Preharvest spray resulted in fewer but better growth of aspen suckers compared with postharvest spray, which both reduced sucker density and decreased their vigour. Partial cutting reduced aspen regeneration in both the harvested and leave corridors but did not affect other broadleaved species, in this case predominantly red maple (Acer rubrum L.). After treatment, the rapid development of understory vegetation (shrubs, herbs, and grasses) and regeneration reduced total light transmittance at 0.5 m but had no effect at 4.0 m after 5 years. Future stands will be jack pine dominated following both pre- and post-harvest sprays, despite higher density, more uniform distribution, and better growth of broadleaved regeneration with preharvest spray, but will be balanced broadleaf and conifer mixtures in the partial cut areas.

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The Combined Role of Retention Pattern and Post-Harvest Site Preparation in Regulating Plant Functional Diversity: A Case Study in Boreal Forest Ecosystems

Forests ◽

10.3390/f10111006 ◽

2019 ◽

Vol 10 (11) ◽

pp. 1006 ◽

Cited By ~ 1

Author(s):

Liping Wei ◽

Nicole J. Fenton ◽

Benoit Lafleur ◽

Yves Bergeron

Keyword(s):

Plant Species ◽

Functional Diversity ◽

Prescribed Fire ◽

Boreal Forests ◽

Site Preparation ◽

Post Harvest ◽

Clear Cut ◽

Understory Diversity ◽

Forest Attributes ◽

Harvest Site

Changes in the light availability in forests generated by diversified retention patterns (e.g., clear cut, partial harvest) have been shown to strongly filter the plant species present. Modified soil microsite conditions due to post-harvest site preparation (e.g., mechanical site preparation, prescribed fire) might also be an important determinant of plant diversity. The objective here was to detect how retention pattern and post-harvest site preparation act as filters that explain the understory functional diversity in boreal forests. We also assessed whether these effects were dependent on forest attributes (stand type, time since fire, and time since harvest). We retrieved data from seven different studies within 101 sites in boreal forests in Eastern Canada. Our data included forests harvested with two retention patterns: careful logging and clear cut, plus unharvested control forests. Three post-harvest site preparation techniques were applied: plow or disk trenching after careful logging, and prescribed fire after clear cut. We collected trait data (10 traits) representing plant morphology, regeneration strategy, or resource utilization for common species. Our results demonstrated significant variation in functional diversity after harvest. The combined effect of retention pattern and site preparation was the most important factor explaining understory diversity compared to retention pattern only and forest attributes. According to RLQ analysis, harvested forests with site preparation favored traits reflecting resistance or resilience ability after disturbance (clonal guerilla species, geophytes, and species with higher seed weight). Yet harvested forests without site preparation mainly affected understory plant species via their light requirements. Forest attributes did not play significant roles in affecting the relationship between site preparation and functional diversity or traits. Our results indicated the importance of the compounding effects of light variation and soil disturbance in filtering understory diversity and composition in boreal forests. Whether these results are also valid for other ecosystems still needs to be demonstrated.

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