Moth Outbreaks Reduce Decomposition in Subarctic Forest Soils
Hans Sandén,Mathias Mayer,Sari Stark,Taru Sandén,Lars Ola Nilsson,Jane Uhd Jepsen,Piippa R. Wäli,Boris Rewald +7 more
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In this article, the authors found that a decrease in woody fine roots was accompanied by a lower soil CO2 efflux rate and a higher soil N availability following moth outbreaks.Abstract:
Tree mortality from insect infestations can significantly reduce carbon storage in forest soils. In subarctic birch forests (Betula pubescens), ecosystem C cycling is largely affected by recurrent outbreaks of defoliating geometrid moths (Epirrita autumnata, Operophtera brumata). Here, we show that soil C stocks in birch forests across Fennoscandia did not change up to 8 years after moth outbreaks. We found that a decrease in woody fine roots was accompanied by a lower soil CO2 efflux rate and a higher soil N availability following moth outbreaks. We suggest that a high N availability and less ectomycorrhiza likely contributed to lowered heterotrophic respiration and soil enzymatic activity. Based on proxies for decomposition (heterotrophic respiration, phenol oxidase potential activity), we conclude that a decrease in decomposition is a prime cause why soil C stocks of mountain birch forest ecosystems have not changed after moth outbreaks. Compared to disturbed temperate and boreal forests, a CO2-related positive feedback of forest disturbance on climate change might therefore be smaller in subarctic regions.read more
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A tipping point in carbon storage when forest expands into tundra is related to mycorrhizal recycling of nitrogen
Karina E. Clemmensen,Mikael Brandström Durling,Anders Michelsen,Sara Hallin,Roger D. Finlay,Björn D. Lindahl +5 more
TL;DR: In this article, small-scale soil depth profiles of fungal communities and carbon and nitrogen dynamics across a subarctic-alpine forest-heath vegetation gradient were used to study how shifts in mycorrhizal types affect long-term carbon (C) and nitrogen (N) stocks.
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Below-ground responses to insect herbivory in ecosystems with woody plant canopies: A meta-analysis
TL;DR: Below-ground responses to insect herbivory are similar to vertebrate herbivore responses, which may simplify implementing Herbivory effects into ecosystem models, and an under-representation in the literature of large areas of boreal and tropical biomes is identified, calling for research priorities to fill these knowledge gaps.
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Influence of dietary aconitine and nicotine on the gut microbiota of two lepidopteran herbivores.
TL;DR: Dietary nicotine and aconitine influenced the dominant bacteria in the larval gut and determined their abundance and further the understanding of the interaction between herbivores and host plants and the coevolution of plants and insects.
References
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