Add to ORKGLitter, as afterlife of plants, plays an important role in driving belowground decomposition processes. Here we tested effects of litter species identity and diversity on carbon (C) and nitrogen (N) dynamics during litter decomposition in N-limited alpine meadow soil from the Qinghai-Tibet Plateau. We incubated litters of four meadow species, a sedge ("S", Kobresia humilis), a grass ("G", Elymus nutans), a herb ("H", Saussurea superba), and a legume ("L", Oxytropis falcata), in monoculture and in mixture with meadow soil. CO2 release was measured 21 times during the incubation, and soil available N and microbial biomass C and N were measured before and after the experiment. The organic C decay rate did not differ much among soils amended wi...
Increasing plant species richness generally enhances plant biomass production, which may enhance acc...
Litters of reproductive organs have rarely been studied despite their role in allocating nutrients f...
Increasing plant species richness generally enhances plant biomass production, which may enhance acc...
EU EVK2-2001-15 000356Background and Aims The rate of plant decomposition depends on both the decom...
Anthropogenic activities introduce nitrogen (N) into terrestrial ecosystems, inducing changes in qua...
Root litter decomposition is the dominant source of soil organic carbon (C) and nitrogen (N) in gras...
Decomposition of litter mixtures generally cannot be predicted from the component species incubated ...
While litter decomposition is a fundamental ecological process, previous studies have mainly focused...
Litter decomposition is the physical and chemical breakdown of dead plant material, which is affecte...
Litter decomposition is the physical and chemical breakdown of dead plant material, which is affecte...
Litter decomposition contributes largely to global carbon (C) and nitrogen (N) cycling, and it is st...
Background and aims: Decomposition of organic matter varies depending upon interactions between the ...
Litters of leaves and roots of different qualities occur naturally above- and below-ground, respecti...
The effects of nitrogen (N) and phosphorus (P) addition on litter decomposition are poorly understoo...
Litters of leaves and roots of different qualities occur naturally above- and belowground, respectiv...
Increasing plant species richness generally enhances plant biomass production, which may enhance acc...
Litters of reproductive organs have rarely been studied despite their role in allocating nutrients f...
Increasing plant species richness generally enhances plant biomass production, which may enhance acc...
EU EVK2-2001-15 000356Background and Aims The rate of plant decomposition depends on both the decom...
Anthropogenic activities introduce nitrogen (N) into terrestrial ecosystems, inducing changes in qua...
Root litter decomposition is the dominant source of soil organic carbon (C) and nitrogen (N) in gras...
Decomposition of litter mixtures generally cannot be predicted from the component species incubated ...
While litter decomposition is a fundamental ecological process, previous studies have mainly focused...
Litter decomposition is the physical and chemical breakdown of dead plant material, which is affecte...
Litter decomposition is the physical and chemical breakdown of dead plant material, which is affecte...
Litter decomposition contributes largely to global carbon (C) and nitrogen (N) cycling, and it is st...
Background and aims: Decomposition of organic matter varies depending upon interactions between the ...
Litters of leaves and roots of different qualities occur naturally above- and below-ground, respecti...
The effects of nitrogen (N) and phosphorus (P) addition on litter decomposition are poorly understoo...
Litters of leaves and roots of different qualities occur naturally above- and belowground, respectiv...
Increasing plant species richness generally enhances plant biomass production, which may enhance acc...
Litters of reproductive organs have rarely been studied despite their role in allocating nutrients f...
Increasing plant species richness generally enhances plant biomass production, which may enhance acc...