Leaf litters of jarrah (Eucalyptus marginata Donn ex Sm.) and banksia (Banksia menziesii R. Br.) were decomposed at woodland and wetland conditions for two years to test site influence on the rates of decomposition. Weight loss was rapid in early rains but slowed substantially in the following months, resulting in 2/3 to 1/2 weights remaining after two years of field exposure. Litter weight loss was well described by a two-substrate quality decay model
Canopy Cover Effects on the Rate of Leaf-Litter DecompositionBy: Jahmia Bridges-Butler & Eva HillDec...
The decomposition process in wetlands is affected by various factors, among which hydrology and litt...
Leaf decomposition rates of nine types of litter, ranging in lignin content from 1.04 to 25.71%, wer...
The breakdown of litter from eight common plants was investigated in Sunnyside Swamp, a wetland conn...
The decomposition of plant litter is one of the most crucial processes in the biogeochemical cycle o...
Litter decay is a fundamental process in ecosystem carbon flux and nutrient cycling. In wetlands, sh...
Decomposition is a key ecosystem function, and the rate of decomposition in forests affects their ca...
Soil processes are essential in enabling forest regeneration in disturbed landscapes. Little is know...
Decomposition of site-specific litter mixtures was monitored for 100 wk in four Roodplaht communitie...
This study examined, first, the response of litter decomposition and soil CO2 efflux (RS) to differe...
Indo-Malaysian peatswamp forests are waterlogged, seasonally flooded, nutrient limited habitats that...
Future climates have the potential to alter decomposition rates in tropical forest with implications...
This study was carried out in the demonstration farm of the Faculty of Forestry, University of Khart...
Allochthonous (e.g., riparian) plant litter is among the organic matter resources that are important...
Distinct O1 and O2 layers, representing annual litter fall, enabled the sequential loss of biomass a...
Canopy Cover Effects on the Rate of Leaf-Litter DecompositionBy: Jahmia Bridges-Butler & Eva HillDec...
The decomposition process in wetlands is affected by various factors, among which hydrology and litt...
Leaf decomposition rates of nine types of litter, ranging in lignin content from 1.04 to 25.71%, wer...
The breakdown of litter from eight common plants was investigated in Sunnyside Swamp, a wetland conn...
The decomposition of plant litter is one of the most crucial processes in the biogeochemical cycle o...
Litter decay is a fundamental process in ecosystem carbon flux and nutrient cycling. In wetlands, sh...
Decomposition is a key ecosystem function, and the rate of decomposition in forests affects their ca...
Soil processes are essential in enabling forest regeneration in disturbed landscapes. Little is know...
Decomposition of site-specific litter mixtures was monitored for 100 wk in four Roodplaht communitie...
This study examined, first, the response of litter decomposition and soil CO2 efflux (RS) to differe...
Indo-Malaysian peatswamp forests are waterlogged, seasonally flooded, nutrient limited habitats that...
Future climates have the potential to alter decomposition rates in tropical forest with implications...
This study was carried out in the demonstration farm of the Faculty of Forestry, University of Khart...
Allochthonous (e.g., riparian) plant litter is among the organic matter resources that are important...
Distinct O1 and O2 layers, representing annual litter fall, enabled the sequential loss of biomass a...
Canopy Cover Effects on the Rate of Leaf-Litter DecompositionBy: Jahmia Bridges-Butler & Eva HillDec...
The decomposition process in wetlands is affected by various factors, among which hydrology and litt...
Leaf decomposition rates of nine types of litter, ranging in lignin content from 1.04 to 25.71%, wer...