Add to ORKGBlackwell Publishing, Ltd.Leaf digestibility and litter decomposability are related in a wide range of subarctic plant species and type
1. Global variation in litter decomposition rates is driven by climate, decomposer taxa and litter q...
There is increasing awareness that similar suites of plant traits may govern foliage palatability an...
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as li...
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. ...
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 (`...
Plant litter decomposition is a key process in terrestrial carbon cycling, yet the relative importan...
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as li...
There is some evidence that traits of fresh leaves that provide structural or chemical protection ('...
1 An experimental multispecies screening of leaf decomposition rates was undertaken in order to iden...
Aim: As the two largest components of plant detritus input, leaf and root litter together determines...
Global relationship of wood and leaf litter decomposability: the role of functional traits within an...
Comparison of decomposition and nutrient losses from three species of leaf litter in terrestrial and...
We tested the hypothesis that functional attributes of living leaves provide a basis for predicting ...
1. Global variation in litter decomposition rates is driven by climate, decomposer taxa and litter q...
There is increasing awareness that similar suites of plant traits may govern foliage palatability an...
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as li...
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. ...
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 (`...
Plant litter decomposition is a key process in terrestrial carbon cycling, yet the relative importan...
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as li...
There is some evidence that traits of fresh leaves that provide structural or chemical protection ('...
1 An experimental multispecies screening of leaf decomposition rates was undertaken in order to iden...
Aim: As the two largest components of plant detritus input, leaf and root litter together determines...
Global relationship of wood and leaf litter decomposability: the role of functional traits within an...
Comparison of decomposition and nutrient losses from three species of leaf litter in terrestrial and...
We tested the hypothesis that functional attributes of living leaves provide a basis for predicting ...
1. Global variation in litter decomposition rates is driven by climate, decomposer taxa and litter q...
There is increasing awareness that similar suites of plant traits may govern foliage palatability an...
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as li...