Add to ORKG1. Herbivory and litter decomposition are key controllers of ecosystem carbon and nutrient cycling. We hypothesized that foliar defences of plant species against vertebrate herbivores would reduce leaf digestibility and would subsequently, through 'afterlife effects', reduce litter decomposability. 2. We tested this hypothesis by screening 32 subarctic plant species, belonging to eight types in terms of life form and nutrient economy strategy, for (1) leaf digestibility in cow rumen juice; (2) biochemical and structural traits that might explain variation in digestibility; and (3) litter mass loss during simultaneous incubation in an outdoor subarctic litter bed. 3. Interspecific variation in green-leaf digestibility corresponded significan...
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as li...
Plant traits have become popular as predictors of interspecific variation in important ecosystem pro...
EU EVK2-2001-15 000356Background and Aims The rate of plant decomposition depends on both the decom...
1. Herbivory and litter decomposition are key controllers of ecosystem carbon and nutrient cycling. ...
1. Herbivory and litter decomposition are key controllers of ecosystem carbon and nutrient cycling. ...
There is some evidence that traits of fresh leaves that provide structural or chemical protection (`...
Blackwell Publishing, Ltd.Leaf digestibility and litter decomposability are related in a wide range ...
Physical supporting or defense structures of plants, which decrease palatability, remain in plant ti...
There is some evidence that traits of fresh leaves that provide structural or chemical protection ('...
Plant traits have become popular as predictors of interspecific variation in important ecosystem pro...
1. Recent evidence indicates tight control of plant resource economics over interspecific trait vari...
Conceptual frameworks relating plant traits to ecosystem processes such as organic matter dynamics a...
The leaf economics spectrum (LES) describes co-variation in leaf functional traits relevant to carbo...
1. Herbivores often induce changes in plant defensive chemistry or nutrient content that may respect...
Evidence is growing that leaf litter generally decomposes faster than expected in its environment of...
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as li...
Plant traits have become popular as predictors of interspecific variation in important ecosystem pro...
EU EVK2-2001-15 000356Background and Aims The rate of plant decomposition depends on both the decom...
1. Herbivory and litter decomposition are key controllers of ecosystem carbon and nutrient cycling. ...
1. Herbivory and litter decomposition are key controllers of ecosystem carbon and nutrient cycling. ...
There is some evidence that traits of fresh leaves that provide structural or chemical protection (`...
Blackwell Publishing, Ltd.Leaf digestibility and litter decomposability are related in a wide range ...
Physical supporting or defense structures of plants, which decrease palatability, remain in plant ti...
There is some evidence that traits of fresh leaves that provide structural or chemical protection ('...
Plant traits have become popular as predictors of interspecific variation in important ecosystem pro...
1. Recent evidence indicates tight control of plant resource economics over interspecific trait vari...
Conceptual frameworks relating plant traits to ecosystem processes such as organic matter dynamics a...
The leaf economics spectrum (LES) describes co-variation in leaf functional traits relevant to carbo...
1. Herbivores often induce changes in plant defensive chemistry or nutrient content that may respect...
Evidence is growing that leaf litter generally decomposes faster than expected in its environment of...
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as li...
Plant traits have become popular as predictors of interspecific variation in important ecosystem pro...
EU EVK2-2001-15 000356Background and Aims The rate of plant decomposition depends on both the decom...