Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
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Ecosystem response to climatic change: the importance of the cold seasonMigrate or evolve: options for plant pathogens under climate change.Phenolic responses of mountain crowberry (Empetrum nigrum ssp. hermaphroditum) to global climate change are compound specific and depend on grazing by reindeer (Rangifer tarandus).Changes in vegetation cover and composition in the Swedish mountain region.Changes versus homeostasis in alpine and sub-alpine vegetation over three decades in the sub-arctic.Arctic fungal communities associated with roots of Bistorta vivipara do not respond to the same fine-scale edaphic gradients as the aboveground vegetation.Enhanced winter soil frost reduces methane emission during the subsequent growing season in a boreal peatland.Chytrids dominate arctic marine fungal communities.Complex biotic interactions drive long-term vegetation dynamics in a subarctic ecosystem.Outbreaks by canopy-feeding geometrid moth cause state-dependent shifts in understorey plant communitiesAbrupt changes in the composition and function of fungal communities along an environmental gradient in the high Arctic.Variable temperature effects of Open Top Chambers at polar and alpine sites explained by irradiance and snow depth.Linking winter conditions to regional disease dynamics in a wild plant-pathogen metapopulation.The effect of tar spot pathogen on host plant carbon balance and its possible consequences on a tundra ecosystem.Effects of warming and nitrogen on above- and below-ground herbivory of an exotic invasive plant and its native congenerImpacts of exotic forest pathogens on Mediterranean ecosystems: four case studiesSnow cover consistently affects growth and reproduction of Empetrum hermaphroditum across latitudinal and local climatic gradientsThe role of bryophytes for tree seedling responses to winter climate change: Implications for the stress gradient hypothesisContrasting long-term alpine and subalpine precipitation trends in a mid-latitude North American mountain system, Colorado Front Range, USAWinter climate change in plant–soil systems: summary of recent findings and future perspectivesThe snow and the willows: earlier spring snowmelt reduces performance in the low-lying alpine shrubSalix herbaceaIncreased photosynthesis compensates for shorter growing season in subarctic tundra—8 years of snow accumulation manipulations
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Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
description
article
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im Juni 2011 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2011
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name
Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
@en
Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
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type
label
Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
@en
Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
@nl
prefLabel
Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
@en
Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
@nl
P2093
P2860
P356
P1476
Carbon balance of Arctic tundra under increased snow cover mediated by a plant pathogen
@en
P2093
Johan Olofsson
Lars Ericson
Mikaela Torp
Robert Baxter
Sari Stark
P2860
P2888
P304
P356
10.1038/NCLIMATE1142
P577
2011-06-19T00:00:00Z