Forest Management and Biodiversity Conservation Based on Natural Ecosystem Dynamics in Northern Europe: The Complexity Challenge

AMBIO ◽  
2009 ◽  
Vol 38 (6) ◽  
pp. 309-315 ◽  
Author(s):  
Timo Kuuluvainen
Keyword(s):  
Forest Management ◽  
Biodiversity Conservation ◽  
Ecosystem Dynamics ◽  
Northern Europe ◽  
Natural Ecosystem

scholarly journals Representative boreal forest habitats in northern Europe, and a revised model for ecosystem management and biodiversity conservation

AMBIO ◽  
2021 ◽  
Author(s):  
Håkan Berglund ◽  
Timo Kuuluvainen
Keyword(s):  
Biodiversity Conservation ◽  
Ecosystem Management ◽  
Boreal Forests ◽  
Conservation Status ◽  
Reference Conditions ◽  
Ecosystem Dynamics ◽  
Northern Europe ◽  
Favourable Conservation Status ◽  
Natural Range ◽  
Range Of Variation

AbstractThe natural range of variation of ecosystems provides reference conditions for sustainable management and biodiversity conservation. We review how the understanding of natural reference conditions of boreal forests in northern Europe has changed from earlier perceptions of even-aged dynamics driven by stand-replacing disturbances towards current understanding highlighting the role of non-stand-replacing disturbances and the resultant complex forest dynamics and structures. We show how earlier views and conceptual models of forest disturbance dynamics, including the influential ASIO model, provide estimates of reference conditions that are outside the natural range of variation. Based on a research synthesis, we present a revised forest reference model incorporating the observed complexity of ecosystem dynamics and the prevalence of old forests. Finally, we outline a management model and demonstrate its use in forest ecosystem management and show how regional conservation area needs can be estimated. We conclude that attaining favourable conservation status in northern Europe’s boreal forests requires increasing emphasis on ecosystem management and conservation for old forest characteristics.

scholarly journals Participatory assessment of biodiversity conservation in community forestry in Nepal

1970 ◽  
Vol 16 (1) ◽  
pp. 46-56 ◽  
Author(s):  
K.P. Acharya ◽  
K.R. Goutam ◽  
B.K. Acharya ◽  
G. Gautam
Keyword(s):  
Forest Management ◽  
Biodiversity Conservation ◽  
Community Forestry ◽  
Effective Means ◽  
Rural Livelihoods ◽  
Community Forest Management ◽  
Managed Forests ◽  
Community Forest ◽  
Participatory Assessment ◽  
Community Forest User Groups

The Community Forestry has been the most effective means of managing common forest resources in Nepal. Besides rehabilitating degraded hills, improving environment and contributing to the rural livelihoods, community forestry is claimed to be a major means of biodiversity conservation. It is also argued that the prevalent approach of community forest management threats to the conservation of biodiversity. This paper is based on the findings from two community forest user groups from Central Nepal and argues that the users’ innovative practices of active forest management favor biodiversity conservation. The study has documented users’ innovations to conserve biodiversity in community managed forests. Key words: Nepal, community forestry, biodiversity conservation and livelihoods Banko Janakari Vol.16(1) 2006 pp46-56

scholarly journals Structural Equation Modeling: Theory and Applications in Forest Management

2012 ◽  
Vol 2012 ◽  
pp. 1-16 ◽  
Author(s):  
Tzeng Yih Lam ◽  
Douglas A. Maguire
Keyword(s):  
Structural Equation Modeling ◽  
Forest Management ◽  
Measurement Errors ◽  
Structural Equation ◽  
Light Attenuation ◽  
Measurement Model ◽  
Ecosystem Dynamics ◽  
Path Model ◽  
Management Tool ◽  
Equation Modeling

Forest ecosystem dynamics are driven by a complex array of simultaneous cause-and-effect relationships. Understanding this complex web requires specialized analytical techniques such as Structural Equation Modeling (SEM). The SEM framework and implementation steps are outlined in this study, and we then demonstrate the technique by application to overstory-understory relationships in mature Douglas-fir forests in the northwestern USA. A SEM model was formulated with (1) a path model representing the effects of successively higher layers of vegetation on late-seral herbs through processes such as light attenuation and (2) a measurement model accounting for measurement errors. The fitted SEM model suggested a direct negative effect of light attenuation on late-seral herbs cover but a direct positive effect of northern aspect. Moreover, many processes have indirect effects mediated through midstory vegetation. SEM is recommended as a forest management tool for designing silvicultural treatments and systems for attaining complex arrays of management objectives.

scholarly journals Reconciling forest profitability and biodiversity conservation under disturbance risk: the role of forest management and salvage logging

2020 ◽  
Vol 15 (9) ◽  
pp. 0940a3
Author(s):  
Andrey L D Augustynczik ◽  
Thomas Asbeck ◽  
Marco Basile ◽  
Marlotte Jonker ◽  
Anna Knuff ◽  
...  
Keyword(s):  
Forest Management ◽  
Biodiversity Conservation ◽  
Salvage Logging

European Forest Management Portfolios Optimized for Uncertain Future Climate

2021 ◽  
Author(s):  
Konstantin Gregor ◽  
Thomas Knoke ◽  
Andreas Krause ◽  
Mats Lindeskog ◽  
Anja Rammig
Keyword(s):  
Forest Management ◽  
Global Climate ◽  
Optimization Techniques ◽  
Wood Products ◽  
Future Climate ◽  
The Other ◽  
Ecosystem Functions ◽  
Northern Europe ◽  
Climate Scenarios ◽  
Wide Range

<p>Forests are considered a major player in climate change mitigation since they influence local and global climate through biogeochemical and biogeophysical feedbacks. However, they are themselves vulnerable to future environmental changes. Thus, forest management needs to focus on both mitigation and adaptation. The special challenge is that decisions on management strategies must be taken today while still a broad range of emission pathways is possible, and a good decision regarding one assumed pathway might turn out to be a bad decision when a different one materializes.</p><p>With our study we try to aid this decision-making process by finding management portfolios that provide relevant ecosystem functions such as local and global climate regulation, water availability, flood protection, and timber production for a wide range of future climate scenarios. To simulate according ecosystem processes and functions, we run the dynamic vegetation model LPJ-GUESS for the most relevant forest types across Europe for four different RCPs and five different management options. We analyze our simulation outputs using robust optimization techniques to determine optimal forest management portfolios for each 0.5° grid cell in Europe that ensure a balanced provision of all considered ecosystem functions in the future under any of the four RCPs.</p><p>Generally, our simulations and optimizations show that diversified management portfolios are most suitable to provide the set of considered ecosystem functions in all climate scenarios everywhere in Europe. While the portfolios show different compositions in different regions, they are quite similar in adjacent grid cells. The suggested future forest composition in Europe tends to be fairly close to present day values except for Northern Europe where a much higher proportion of deciduous types is proposed.</p><p>Management as high forest (trees emerging from seeds) remains the most important form of management. The proposed share of coppice management is much higher in Central and Northern Europe (~20%) than in Southern Europe, where its disadvantages (e.g., high water consumption and its non-suitability to provide long-lived wood products) are more pronounced.</p><p>A succession of ~30% of managed forest to natural forest is proposed by the optimization as it provides highest carbon storage and surface roughness values. However, this infeasibly high share is reduced if the provision of wood harvest is valued higher in the optimization compared to the other ecosystem functions.</p><p>Current public focus on forests lies often on their potential for carbon sequestration, but future forest management must also address the other services that they provide. This work gives insights on how this may be done.</p>

Conservation de la biodiversité dans les paysages forestiers aménagés : utilisation des seuils critiques d’habitat

2010 ◽  
Vol 86 (5) ◽  
pp. 572-579 ◽  
Author(s):  
Ghislain Rompré ◽  
Yan Boucher ◽  
Louis Bélanger ◽  
Sylvie Côté ◽  
W. Douglas Robinson
Keyword(s):  
Forest Management ◽  
Biodiversity Conservation ◽  
Forest Ecosystem ◽  
Natural Disturbance ◽  
Critical Threshold ◽  
Detailed Knowledge ◽  
Population Declines ◽  
Sensitive Species ◽  
Forest Management Planning ◽  
Ecological Threshold

In Canada, as in other large forested countries of the world, managers and scientists alike question what can happen to forest biodiversity under long-term industrial forest management. Recent studies may help us understand how species react when habitat is lost past a certain threshold in the landscape. In the case of population, a “critical threshold for habitat” does exist in forested habitat, which is defined by the minimal proportion of habitat needed to be preserved to avoid drastic population declines or massive species loss. In this paper, two types of thresholds are described, the first refers to population, and the second refers to the community of species. Many ecologists agree with the assumption that the specialist, sensitive species are the first to disappear (local extirpation for specialist species). For most species with large home range (such as birds), the threshold may generally be located between 30% and 40% of the habitat still remaining, compared to the proportion observed under a natural disturbance regime. We suggest, in order to protect the most sensitive species and to deal with uncertainty associated with thresholds, to maintain at least 40% of residual habitats. Although there is still much to understand concerning these thresholds, we nevertheless recommend their use for the diagnostic analysis that must be performed in the context of forest management planning and biodiversity conservation, as these thresholds could represent the minimal proportion of habitat to preserve integrity of the forest ecosystem. However, to be effective, the application of thresholds should be based on detailed knowledge of ecosystem characteristics and dynamics. Key words: ecological threshold, forest management, forest ecosystem, habitat loss, mature and old forests, population, community, biodiversity, conservation

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