Short-term impacts of energy wood harvesting on ectomycorrhizal fungal communities of Norway spruce saplings

Huusko, Karoliina; Tarvainen, Oili; Saravesi, Karita; Pennanen, Taina; Fritze, Hannu; Kubin, Eero; Markkola, Annamari

doi:10.1038/ismej.2014.154

Cited by 13 publications

(2 citation statements)

References 58 publications

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“…Despite lower ECM colonization following stump harvest, as compared to control plots with mounding, increased initial height growth was reported for Norway spruce seedlings (Menkis, Uotila, Arhipova, & Vasaitis, 2010). Two more studies consolidate small short-term impacts of stump harvest on ECM fungal communities and seedling growth (Huusko et al, 2015;Kļaviņa et al, 2016).…”

Section: Potential Impacts On Stand Growthmentioning

confidence: 99%

Stump harvesting for bioenergy: A review of climatic and environmental impacts in northern Europe and America

Persson

Egnell²

2018

WIREs Energy & Environment

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Stump harvesting is defined as an intensification of forest management in comparison with stem-only harvesting and removal of tops and branches. It increases soil mixing and the proportion of bare soil. In contrast to earlier hypotheses, stump harvesting was found to reduce emissions of carbon dioxide (CO 2 ), nitrous oxide, and methane in the short term. In the long term, heterotrophic soil CO 2 evolution is reduced. Both model and empirical studies indicate that stump removal can reduce the soil organic carbon (SOC) pool in the short term, but long-term experiments (32-39 years) could not verify any SOC decline. Life cycle assessment studies showed that stumps as fuel resulted in markedly lower emissions of CO 2 into the atmosphere, viewed over a whole forest rotation compared to heating by natural gas and coal. Stump removal does not seem to affect timber production in the next forest rotation and often reduces the infection rate of root rot. It increases the natural regeneration of birch and pine, it can increase nitrate leaching at N-rich sites, and it can increase the number of water-filled cavities where methylmercury is formed. Stump extraction decreases the amount of dwarf shrubs in young clearcuts, but after 1-2 decades, these species are generally recovered. Many species dependent on dead wood are adversely affected by intense stump harvest. Model studies suggest that the risk of species extinction is small when only 10% of the total clear-cut area in the forest landscape is stump harvested, but the risk of extinction rises at increasing extraction intensities.

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Section: Potential Impacts On Stand Growthmentioning

confidence: 99%

Stump harvesting for bioenergy: A review of climatic and environmental impacts in northern Europe and America

Persson

Egnell²

2018

WIREs Energy & Environment

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“…What is more, coarse wooden material degradation will prepare fermented porous-structured moisture-retaining nutritious grounds for better germination and rooting of seedlings and anchorage of developing trees (Fukasawa et al 2017 , 2020 ; Stroheker et al 2018 ) and provides also habitat for saproxylic communities (Fukasawa 2021 ). Seed beds of decaying logs or stumps may harbor less fungal seed pathogens and they can provide favoring associations of N 2 -fixing bacteria with specific selections of mycorrhiza-promoting fungi (Huusko et al 2015 ; Izumi et al 2006 ; Tedersoo et al 2008 ; Willis and Walters 2018 ). Saprotrophs are mostly generalists with regard to substrates, although fungal species heterogeneity exists, e.g.…”

Section: Fungal Communities Associated With Treesmentioning

confidence: 99%

Applying molecular and genetic methods to trees and their fungal communities

Müller

Kües

Budde

et al. 2023

Appl Microbiol Biotechnol

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Forests provide invaluable economic, ecological, and social services. At the same time, they are exposed to several threats, such as fragmentation, changing climatic conditions, or increasingly destructive pests and pathogens. Trees, the inherent species of forests, cannot be viewed as isolated organisms. Manifold (micro)organisms are associated with trees playing a pivotal role in forest ecosystems. Of these organisms, fungi may have the greatest impact on the life of trees. A multitude of molecular and genetic methods are now available to investigate tree species and their associated organisms. Due to their smaller genome sizes compared to tree species, whole genomes of different fungi are routinely compared. Such studies have only recently started in forest tree species. Here, we summarize the application of molecular and genetic methods in forest conservation genetics, tree breeding, and association genetics as well as for the investigation of fungal communities and their interrelated ecological functions. These techniques provide valuable insights into the molecular basis of adaptive traits, the impacts of forest management, and changing environmental conditions on tree species and fungal communities and can enhance tree-breeding cycles due to reduced time for field testing. It becomes clear that there are multifaceted interactions among microbial species as well as between these organisms and trees. We demonstrate the versatility of the different approaches based on case studies on trees and fungi. Key points • Current knowledge of genetic methods applied to forest trees and associated fungi. • Genomic methods are essential in conservation, breeding, management, and research. • Important role of phytobiomes for trees and their ecosystems.

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Dark Septate Endophytes (DSE) in Boreal and Subarctic Forests

Ruotsalainen

2018

Endophytes of Forest Trees

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Short-term impacts of energy wood harvesting on ectomycorrhizal fungal communities of Norway spruce saplings

Cited by 13 publications

References 58 publications

Stump harvesting for bioenergy: A review of climatic and environmental impacts in northern Europe and America

Stump harvesting for bioenergy: A review of climatic and environmental impacts in northern Europe and America

Applying molecular and genetic methods to trees and their fungal communities

Dark Septate Endophytes (DSE) in Boreal and Subarctic Forests

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