Effects of environmental perturbations on abundance of subarctic plants after three, seven and ten years of treatments

Graglia, Enrico; Jonasson, Sven; Michelsen, Anders; Schmidt, Inger Kappel; Havström, Mats; Gustavsson, Lars

doi:10.1034/j.1600-0587.2001.240102.x

Cited by 102 publications

(112 citation statements)

References 33 publications

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“…Plants invest part of their additional production in a higher leaf area and in horizontal and vertical canopy growth, increasing light interception and further augmenting production. The simulated productivity increase is consistent with results from tundra warming experiments (Michelsen et al 1996;Arft et al 1999;Graglia et al 2001;Walker et al 2006;Olsrud et al 2010), and productivity trends inferred from satellites (Bunn and Goetz 2006;Beck and Goetz 2011), while the increase in LAI is consistent with a positive trend in remotely sensed NDVI across the Arctic tundra biome over the same period ( Fig. 3; Bhatt et al 2010).…”

Section: Discussionsupporting

confidence: 84%

“…Despite numerous local exceptions, the weight of evidence from observational studies suggests that, in general, Arctic vegetation is responding to rising temperatures through increases in productivity, density, cover and stature of vegetation and, in many areas, an increase in woody biomass and the representation of trees and shrubs (Post et al 2009;Callaghan et al 2011;Elmendorf et al 2012). These findings are qualitatively consistent with expectations based on the results of tundra warming experiments (Chapin et al 1995;Michelsen et al 1996;Arft et al 1999;Graglia et al 2001;Walker et al 2006;Olsrud et al 2010), and simulations using vegetation models (Kaplan et al 2003;Smith et al 2008a;Wolf et al 2008a;Wramneby et al 2010).…”

Section: Introductionsupporting

confidence: 72%

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Modelling Tundra Vegetation Response to Recent Arctic Warming

Miller

Smith

2012

AMBIO

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The Arctic land area has warmed by [1°C in the last 30 years and there is evidence that this has led to increased productivity and stature of tundra vegetation and reduced albedo, effecting a positive (amplifying) feedback to climate warming. We applied an individual-based dynamic vegetation model over the Arctic forced by observed climate and atmospheric CO 2 for 1980-2006. Averaged over the study area, the model simulated increases in primary production and leaf area index, and an increasing representation of shrubs and trees in vegetation. The main underlying mechanism was a warming-driven increase in growing season length, enhancing the production of shrubs and trees to the detriment of shaded ground-level vegetation. The simulated vegetation changes were estimated to correspond to a 1.75 % decline in snow-season albedo. Implications for modelling future climate impacts on Arctic ecosystems and for the incorporation of biogeophysical feedback mechanisms in Arctic system models are discussed.

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Section: Discussionsupporting

confidence: 84%

Section: Introductionsupporting

confidence: 72%

Modelling Tundra Vegetation Response to Recent Arctic Warming

Miller

Smith

2012

AMBIO

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“…The experiments in the forest understory (Press et al 1998), the wet (Sorensen and Michelsen 2011) and the mesic (Graglia et al 2001) heaths and the high altitude fellfield have shown that both warming and, in particular, enhanced nutrient availability promote a higher biomass of dwarf shrubs, but that subcanopy mosses and lichens decline strongly as the plant canopy closes. Hence, plant species diversity is expected to be reduced in subarctic heaths following warming because of loss of cryptogams, while plant C accumulation is expected to increase as woody plants with large stem masses increase their cover.…”

Section: Plant Functional Types Nutrient Availability and Responsivmentioning

confidence: 99%

Two Decades of Experimental Manipulations of Heaths and Forest Understory in the Subarctic

Michelsen

Rinnan

Jonasson

2012

AMBIO

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“…In a tundra ecosystem in Northern Sweden, Graglia et al (2001) showed in a 10-year fertilization experiment that grasses increased in abundance in response to fertilizer application. Similarly, Van Wijk et al (2003) reported that the biomass of deciduous shrub and graminoid plant types responded most strongly to nutrient addition on sites in Alaska and Northern Sweden during a long-term fertilization experiment ([3 year).…”

Section: Graminoidsmentioning

confidence: 99%

“…In environments with sufficient nutrients, plants with a high potential growth rate and a high leaf area ratio (the leaf area per unit total plant biomass) will have advantages over plants with lower potential growth rate (Berendse 1994;Lambers et al 1998). This might explain why graminoids often increase in abundance after the application of fertilizer (Graglia et al 2001;Van Wijk et al 2003;Bret-Harte et al 2004. In bog ecosystems, a shift in dominance from one plant functional group toward another might have great impact.…”

Section: Introductionmentioning

confidence: 99%

Dwarf shrubs are stronger competitors than graminoid species at high nutrient supply in peat bogs

Kool

Heijmans

2009

Plant Ecol

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Climate warming is likely to increase nutrient mineralization rates in bog ecosystems which may change the plant species composition. We examined the competitive relationships between two graminoid species, Eriophorum vaginatum and Rhynchospora alba, and two ericoid species, Calluna vulgaris and Vaccinium oxycoccus, at different nutrient supply rates. In a greenhouse, the plants were grown in monocultures and mixtures at four nutrient treatments: control, high N, high P, and high N ? P. The results show that the ericoids responded more strongly to the nutrient treatments than the graminoids. The dwarf shrubs showed higher growth rates and reduced root:shoot ratio at high N ? P supply. When grown in mixture the ericoids increased their growth, while graminoids decreased in biomass or showed signs of nutrient limitation compared to their monoculture plants. This suggests that under increased nutrient availability, bogs are more likely to turn into dwarf shrub dominated ecosystems and not grassland.

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Effects of environmental perturbations on abundance of subarctic plants after three, seven and ten years of treatments

Cited by 102 publications

References 33 publications

Modelling Tundra Vegetation Response to Recent Arctic Warming

Modelling Tundra Vegetation Response to Recent Arctic Warming

Two Decades of Experimental Manipulations of Heaths and Forest Understory in the Subarctic

Dwarf shrubs are stronger competitors than graminoid species at high nutrient supply in peat bogs

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