1. Plant chemical and structural defence compounds are well known to impact upon herbivory of fresh leaves and influence decomposition rates after leaf senescence. A number of theories predict that alleviating nutrient limitation and reducing other environmental stressors will result in decreased production of plant chemical defences. 2. In this study, we measured plant defence properties [total polyphenols (TP), condensed tannins (CT) and lignin concentrations, and protein complexation capacity (PCC)] in both fresh and senesced plant leaves in a fully factorial N and P fertilization experiment set-up at each of three elevations along an elevational gradient in Swedish subarctic tundra heath vegetation. Further, we performed a decomposition...
Nitrogen levels are predicted to rise dramatically in the coming decades as a result of increased de...
The ongoing climate changes are predicted to accelerate fast in arctic regions with increases in bot...
Global warming will lead to increased nitrogen supply in tundra ecosystems. How increased N supply a...
1. Plant chemical and structural defence compounds are well known to impact upon herbivory of fresh ...
Climate change in the Arctic has profound effects on tundra vegetation, directly through increasing ...
Several theories predict that increasing stress (e.g. decreasing nutrient availability or decreasing...
Rising temperatures associated with global climate change are likely to drive major shifts in plant ...
Temperature and nutrients are major limiting factors in subarctic tundra. Experimental manipulation ...
Anthropogenic nitrogen deposition rate in boreal forests increased over the last century and signifi...
Plant intraspecific variability has been proposed as a key mechanism by which plants adapt to enviro...
<p>Nitrogen availability limits growth in most boreal forests. However, parts of the boreal zone rec...
Accepted version of an article published in the journal: Environmental and Experimental Botany. Publ...
A long-standing paradigm in ecology holds that herbivore pressure and thus plant defences increase t...
Tundra vegetation is responding rapidly to on-going climate warming. The changes in plant abundance ...
1. Warm-adapted low-elevation plants are expected to exhibit considerable range shifts to higher alt...
Nitrogen levels are predicted to rise dramatically in the coming decades as a result of increased de...
The ongoing climate changes are predicted to accelerate fast in arctic regions with increases in bot...
Global warming will lead to increased nitrogen supply in tundra ecosystems. How increased N supply a...
1. Plant chemical and structural defence compounds are well known to impact upon herbivory of fresh ...
Climate change in the Arctic has profound effects on tundra vegetation, directly through increasing ...
Several theories predict that increasing stress (e.g. decreasing nutrient availability or decreasing...
Rising temperatures associated with global climate change are likely to drive major shifts in plant ...
Temperature and nutrients are major limiting factors in subarctic tundra. Experimental manipulation ...
Anthropogenic nitrogen deposition rate in boreal forests increased over the last century and signifi...
Plant intraspecific variability has been proposed as a key mechanism by which plants adapt to enviro...
<p>Nitrogen availability limits growth in most boreal forests. However, parts of the boreal zone rec...
Accepted version of an article published in the journal: Environmental and Experimental Botany. Publ...
A long-standing paradigm in ecology holds that herbivore pressure and thus plant defences increase t...
Tundra vegetation is responding rapidly to on-going climate warming. The changes in plant abundance ...
1. Warm-adapted low-elevation plants are expected to exhibit considerable range shifts to higher alt...
Nitrogen levels are predicted to rise dramatically in the coming decades as a result of increased de...
The ongoing climate changes are predicted to accelerate fast in arctic regions with increases in bot...
Global warming will lead to increased nitrogen supply in tundra ecosystems. How increased N supply a...