Add to ORKGProjections of climate change impacts over the coming decades suggest that rising sea level will flood coastal wetlands. We studied the impacts of three intensities of flooding on litter decomposition in the native Cyperus malaccensis, and the invasives Spartina alterniflora and Phragmites australis in Shanyutan wetland (Minjiang River estuary, China). Invasive species had larger C, N and P stocks in plant-litter compartments and higher fluxes among plant-litter-soil, which increased with flooding intensity. Litter mass remaining (% of initial mass) were correlated with the N:P ratio in remaining litter, consistently with the N-limitation in this wetland. P. australis had the highest accumulated N release (P < 0.001) in all flooding intensi...
Litter production and decomposition are key processes controlling the capacity of wetland to store a...
The tidal estuarine wetlands of China are rich in plant diversity, but several human-driven processe...
Litter decay is a fundamental process in ecosystem carbon flux and nutrient cycling. In wetlands, sh...
Projections of climate change impacts over the coming decades suggest that rising sea level will flo...
Projections of climate change impacts over the coming decades suggest that rising sea levels will fl...
Flooding caused by rising sea levels can influence the biogeochemistry of estuarine wetland ecosyste...
AbstractLitter decomposition is the key process of nutrient cycling and energy flowing in wetlands, ...
We compared the influence of invasion by an alien invasive species (Spartina alterniflora, smooth co...
Wetland soils are frequently a sink of phosphorus (P). Plant invasion and increased flooding intensi...
From May 2005 to September 2006, the potential effects of marsh flooding regimes on the decompositio...
The increasing presence of successful invasive plant species can have an impact on wetlands capacity...
Tidal estuarine wetlands of China are rich in plant diversity, but several global change drivers, su...
Litter production and decomposition are key processes controlling the capacity of wetland to store a...
The increasing success of invasive plant species in wetland areas can threaten their capacity to sto...
The increasing presence of successful invasive plant species can have an impact on wetlands capacity...
Litter production and decomposition are key processes controlling the capacity of wetland to store a...
The tidal estuarine wetlands of China are rich in plant diversity, but several human-driven processe...
Litter decay is a fundamental process in ecosystem carbon flux and nutrient cycling. In wetlands, sh...
Projections of climate change impacts over the coming decades suggest that rising sea level will flo...
Projections of climate change impacts over the coming decades suggest that rising sea levels will fl...
Flooding caused by rising sea levels can influence the biogeochemistry of estuarine wetland ecosyste...
AbstractLitter decomposition is the key process of nutrient cycling and energy flowing in wetlands, ...
We compared the influence of invasion by an alien invasive species (Spartina alterniflora, smooth co...
Wetland soils are frequently a sink of phosphorus (P). Plant invasion and increased flooding intensi...
From May 2005 to September 2006, the potential effects of marsh flooding regimes on the decompositio...
The increasing presence of successful invasive plant species can have an impact on wetlands capacity...
Tidal estuarine wetlands of China are rich in plant diversity, but several global change drivers, su...
Litter production and decomposition are key processes controlling the capacity of wetland to store a...
The increasing success of invasive plant species in wetland areas can threaten their capacity to sto...
The increasing presence of successful invasive plant species can have an impact on wetlands capacity...
Litter production and decomposition are key processes controlling the capacity of wetland to store a...
The tidal estuarine wetlands of China are rich in plant diversity, but several human-driven processe...
Litter decay is a fundamental process in ecosystem carbon flux and nutrient cycling. In wetlands, sh...