A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
about
Ecosystem response to climatic change: the importance of the cold seasonConsequence of altered nitrogen cycles in the coupled human and ecological system under changing climate: The need for long-term and site-based researchPlant functional traits mediate reproductive phenology and success in response to experimental warming and snow addition in Tibet.Idiosyncratic responses of high Arctic plants to changing snow regimesSnow cover and extreme winter warming events control flower abundance of some, but not all species in high arctic Svalbard.Predicted responses of arctic and alpine ecosystems to altered seasonality under climate change.Combined effects of extreme climatic events and elevation on nutritional quality and herbivory of Alpine plants.Plasticity in functional traits in the context of climate change: a case study of the subalpine forb Boechera stricta (Brassicaceae).Winter warming as an important co-driver for Betula nana growth in western Greenland during the past century.Trophic mismatch and its effects on the growth of young in an Arctic herbivore.A Range-Expanding Shrub Species Alters Plant Phenological Response to Experimental Warming.Nitrogen availability increases in a tundra ecosystem during five years of experimental permafrost thaw.Coupled long-term summer warming and deeper snow alters species composition and stimulates gross primary productivity in tussock tundra.Experimental icing affects growth, mortality, and flowering in a high Arctic dwarf shrub.Earlier snowmelt and warming lead to earlier but not necessarily more plant growth.'Hearing' alpine plants growing after snowmelt: ultrasonic snow sensors provide long-term series of alpine plant phenology.Absence of snow cover reduces understory plant cover and alters plant community composition in boreal forests.Precipitation manipulation experiments--challenges and recommendations for the future.Phenological response of grassland species to manipulative snowmelt and drought along an altitudinal gradientShrub canopies influence soil temperatures but not nutrient dynamics: An experimental test of tundra snow-shrub interactions.Transplantation of subalpine wood-pasture turfs along a natural climatic gradient reveals lower resistance of unwooded pastures to climate change compared to wooded ones.Plant phenological responses to a long-term experimental extension of growing season and soil warming in the tussock tundra of Alaska.Enhanced winter soil frost reduces methane emission during the subsequent growing season in a boreal peatland.Long-term increase in snow depth leads to compositional changes in arctic ectomycorrhizal fungal communities.Beyond arctic and alpine: the influence of winter climate on temperate ecosystems.Leaf anatomy, BVOC emission and CO2 exchange of arctic plants following snow addition and summer warming.Increased spring freezing vulnerability for alpine shrubs under early snowmelt.Changes in the structure and function of northern Alaskan ecosystems when considering variable leaf-out times across groupings of species in a dynamic vegetation model.Weather-driven change in primary productivity explains variation in the amplitude of two herbivore population cycles in a boreal system.Disentangling the mechanisms behind winter snow impact on vegetation activity in northern ecosystems.How does climate change affect regeneration of Mediterranean high-mountain plants? An integration and synthesis of current knowledge.Contrasting Effects of Extreme Drought and Snowmelt Patterns on Mountain Plants along an Elevation Gradient.Elevation and experimental snowmelt manipulation affect emergence phenology and abundance of soil-hibernating arthropodsIndirect effects of global change accumulate to alter plant diversity but not ecosystem function in alpine tundraWinter warming effects on tundra shrub performance are species-specific and dependent on spring conditionsRoot phenology unresponsive to earlier snowmelt despite advanced above-ground phenology in two subarctic plant communitiesLong-term experimentally deepened snow decreases growing-season respiration in a low- and high-arctic tundra ecosystemCarbon balance of Arctic tundra under increased snow cover mediated by a plant pathogenThe snow and the willows: earlier spring snowmelt reduces performance in the low-lying alpine shrubSalix herbaceaSnow cover manipulation effects on microbial community structure and soil chemistry in a mountain bog
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A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
description
article
@en
im Januar 2010 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 2010
@uk
name
A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
@en
A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
@nl
type
label
A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
@en
A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
@nl
prefLabel
A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
@en
A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
@nl
P2860
P1433
P1476
A review of snow manipulation experiments in Arctic and alpine tundra ecosystems
@en
P2093
Christian Rixen
P2860
P304
P356
10.1111/J.1751-8369.2010.00153.X
P50
P577
2010-01-01T00:00:00Z