Add to ORKGThe breakdown and decomposition of plant inputs are critical for nutrient cycling, soil development, and climate-ecosystem feedbacks, but uncertainties persist in how the rates and products of litter decomposition are affected by soil temperature, rhizosphere, and depth of input. We investigated the effects of soil warming (+ 4 °C), rhizosphere, and depth of litter placement on the decomposition of Avena fatua (wild oat grass) root litter in a Mediterranean grassland ecosystem. Field lysimeters were subjected to three environmental treatments (heating, control, and plant removal) and three 13C-labeled root litter addition treatments (to A horizon, to B horizon, and no-addition disturbance control) for each of two harvest time points. We bur...
- Root litter is the dominant soil carbon and nutrient input in many ecosystems, yet few studies hav...
Plant roots are the primary source of soil organic carbon (C) and critically support the growth and ...
The aim of the study was to examine whether the effect of projected temperature rises due to the glo...
The breakdown and decomposition of plant inputs are critical for nutrient cycling, soil development,...
Grassland ecosystems play a critical role in the global carbon cycle, and their cumulative carbon di...
One of the major concerns about global warming is the potential for an increase in decomposition and...
Recent studies suggest the long-standing discrepancy between measured and modeled leaf litter decomp...
Climate change is likely to alter decomposition rates through direct effects on soil biotic activity...
Plant litter decomposition plays a key role in ecosystem function: it is the main source for the for...
Background and aims: Fine root decomposition contributes significantly to element cycling in terrest...
AimsWe examined the importance of litter quality and microclimate on early-stage litter mass loss, a...
- Root litter is the dominant soil carbon and nutrient input in many ecosystems, yet few studies hav...
Plant roots are the primary source of soil organic carbon (C) and critically support the growth and ...
The aim of the study was to examine whether the effect of projected temperature rises due to the glo...
The breakdown and decomposition of plant inputs are critical for nutrient cycling, soil development,...
Grassland ecosystems play a critical role in the global carbon cycle, and their cumulative carbon di...
One of the major concerns about global warming is the potential for an increase in decomposition and...
Recent studies suggest the long-standing discrepancy between measured and modeled leaf litter decomp...
Climate change is likely to alter decomposition rates through direct effects on soil biotic activity...
Plant litter decomposition plays a key role in ecosystem function: it is the main source for the for...
Background and aims: Fine root decomposition contributes significantly to element cycling in terrest...
AimsWe examined the importance of litter quality and microclimate on early-stage litter mass loss, a...
- Root litter is the dominant soil carbon and nutrient input in many ecosystems, yet few studies hav...
Plant roots are the primary source of soil organic carbon (C) and critically support the growth and ...
The aim of the study was to examine whether the effect of projected temperature rises due to the glo...