2015
DOI: 10.1002/ece3.1412
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Interactions with successional stage and nutrient status determines the life‐form‐specific effects of increased soil temperature on boreal forest floor vegetation

Abstract: The boreal forest is one of the largest terrestrial biomes and plays a key role for the global carbon balance and climate. The forest floor vegetation has a strong influence on the carbon and nitrogen cycles of the forests and is sensitive to changes in temperature conditions and nutrient availability. Additionally, the effects of climate warming on forest floor vegetation have been suggested to be moderated by the tree layer. Data on the effects of soil warming on forest floor vegetation from the boreal fores… Show more

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Cited by 21 publications
(22 citation statements)
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“…The response of the vegetation to a warmer climate will largely resemble that due to nitrogen deposition (i.e., eutrophication effects; cf. Walker et al 2006, Hedwall et al 2015, and we cannot exclude the possibility that some of the effects we attribute to eutrophication are due to climate change. As most evidence of climate driven eutrophication effects originates from northern ecosystems with low nitrogen deposition, it is, however, largely uncertain how these drivers may interact.…”
Section: Driversmentioning
confidence: 99%
“…The response of the vegetation to a warmer climate will largely resemble that due to nitrogen deposition (i.e., eutrophication effects; cf. Walker et al 2006, Hedwall et al 2015, and we cannot exclude the possibility that some of the effects we attribute to eutrophication are due to climate change. As most evidence of climate driven eutrophication effects originates from northern ecosystems with low nitrogen deposition, it is, however, largely uncertain how these drivers may interact.…”
Section: Driversmentioning
confidence: 99%
“…According to long-term remote sensing data, warming-induced changes in vegetation productivity and growing season length are already visible in the Northern Hemisphere (Park et al 2016). Ground vegetation is affected when temperatures increase and nutrient levels change due to warming (Hedwall et al 2015). Vegetation BVOC emissions from the subarctic heath were found to increase by warming induced vegetation change together with litter addition (Valolahti et al 2015).…”
Section: Introductionmentioning
confidence: 98%
“…In contrast to undisturbed forests, bryophyte community metrics such as total cover or species richness tend to decline in managed (e.g., Quinby, ; Dovčiak, Halpern, Saracco, Evans, & Liguori, ; Gallo & Lencinas, ), fertilized (cf. Hedwall, Skoglund, & Linder, ), polluted (Zvereva & Kozlov, ), and fragmented (Baldwin & Bradfield, ) forest ecosystems. In addition to these community metrics, the abundance or presence of individual bryophyte species can often indicate specific environmental conditions (e.g., canopy gaps, Promis, Gärtner, Reif, & Cruz, ; Stehn et al., ), or disturbance (e.g., fire, Macdonald, ; forest pests, Stehn et al., ).…”
Section: Introductionmentioning
confidence: 99%