Add to ORKGOne of the major concerns about global warming is the potential for an increase in decomposition and soil respiration rates, increasing CO2 emissions and creating a positive feedback between global warming and soil respiration. This is particularly important in ecosystems with large belowground biomass, such as grasslands where over 90% of the carbon is allocated belowground. A better understanding of the relative influence of climate and litter quality on litter decomposition is needed to predict these changes accurately in grasslands. The Long-Term Intersite Decomposition Experiment Team (LIDET) dataset was used to evaluate the influence of climatic variables (temperature, precipitation, actual evapotranspiration, and climate decompositio...
Plant litter decomposition plays a key role in ecosystem function: it is the main source for the for...
Differences in litter decomposition patterns among mesic, semiarid, and arid grassland ecosystems ca...
International audienceAims In subalpine grasslands, litter decomposition controls soil nutrient avai...
Climate change is likely to alter decomposition rates through direct effects on soil biotic activity...
Carbon (C) and nitrogen (N) cycling under future climate change is associated with large uncertainti...
Decomposition of plant litter is an important process in the terrestrial carbon cycle and makes up a...
The aim of the study was to examine whether the effect of projected temperature rises due to the glo...
Grassland ecosystems play a critical role in the global carbon cycle, and their cumulative carbon di...
Knowledge of how ecosystem carbon (C) processes respond to variations in precipitation is crucial fo...
The breakdown and decomposition of plant inputs are critical for nutrient cycling, soil development,...
We analyzed results from 10-year long field incubations of foliar and fine root litter from the Long...
Background and aims: Fine root decomposition contributes significantly to element cycling in terrest...
Litter decomposition greatly influences soil structure, nutrient content and carbon sequestration, b...
Carbon (C) and nitrogen (N) cycling under future climate change is associated with large uncertainti...
Plant litter decomposition plays a key role in ecosystem function: it is the main source for the for...
Differences in litter decomposition patterns among mesic, semiarid, and arid grassland ecosystems ca...
International audienceAims In subalpine grasslands, litter decomposition controls soil nutrient avai...
Climate change is likely to alter decomposition rates through direct effects on soil biotic activity...
Carbon (C) and nitrogen (N) cycling under future climate change is associated with large uncertainti...
Decomposition of plant litter is an important process in the terrestrial carbon cycle and makes up a...
The aim of the study was to examine whether the effect of projected temperature rises due to the glo...
Grassland ecosystems play a critical role in the global carbon cycle, and their cumulative carbon di...
Knowledge of how ecosystem carbon (C) processes respond to variations in precipitation is crucial fo...
The breakdown and decomposition of plant inputs are critical for nutrient cycling, soil development,...
We analyzed results from 10-year long field incubations of foliar and fine root litter from the Long...
Background and aims: Fine root decomposition contributes significantly to element cycling in terrest...
Litter decomposition greatly influences soil structure, nutrient content and carbon sequestration, b...
Carbon (C) and nitrogen (N) cycling under future climate change is associated with large uncertainti...
Plant litter decomposition plays a key role in ecosystem function: it is the main source for the for...
Differences in litter decomposition patterns among mesic, semiarid, and arid grassland ecosystems ca...
International audienceAims In subalpine grasslands, litter decomposition controls soil nutrient avai...