Salt marsh macrophytes, such as Spartina alterniflora, play a critical role in uptake and transformation of inorganic nitrogen before it reaches coastal waters, thereby reducing the potential for eutrophication. Although nitrogen availability typically limits S. alterniflora growth, it may be possible to exceed the nitrogen uptake capacity of S. alterniflora. Increasing either nitrogen concentrations or salinity are key factors regulating S. alterniflora nitrogen uptake. Investigating the effects of nutrients and salinity on S. alterniflora is important given that increases in inorganic nitrogen supply to surface waters from agriculture and urbanization occur simultaneously with freshwater withdrawals that reduce flow and increase salinity....
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
Sea level rise is expected to push saline waters into previously fresher regions of estuaries, and h...
Sea level rise is expected to push saline waters into previously fresher regions of estuaries, and h...
Salt marsh macrophytes, such as Spartina alterniflora, play a critical role in uptake and transforma...
The responses of Spartina alterniflora above- and belowground biomass to various combinations of N, ...
Primary production is nitrogen limited in most salt marshes with the possible exception of those imp...
Primary production is nitrogen limited in most salt marshes with the possible exception of those imp...
Nitrogen limits plant growth in most salt marshes. As foliar N-uptake makes a significant contributi...
In saltmarsh plant communities, bottom-up pressure from nutrient enrichment is predicted to increase...
In saltmarsh plant communities, bottom-up pressure from nutrient enrichment is predicted to increase...
Drought and salinity are the most serious environmental factors affecting crop productivity worldwid...
Coastal wetlands are important carbon sinks globally, but their ability to store carbon hinges on th...
© The Author(s), 2018. This is the author's version of the work and is distributed under the terms o...
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
In Southern European estuaries and associated salt marshes, the anthropogenic nutrient inputs, toget...
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
Sea level rise is expected to push saline waters into previously fresher regions of estuaries, and h...
Sea level rise is expected to push saline waters into previously fresher regions of estuaries, and h...
Salt marsh macrophytes, such as Spartina alterniflora, play a critical role in uptake and transforma...
The responses of Spartina alterniflora above- and belowground biomass to various combinations of N, ...
Primary production is nitrogen limited in most salt marshes with the possible exception of those imp...
Primary production is nitrogen limited in most salt marshes with the possible exception of those imp...
Nitrogen limits plant growth in most salt marshes. As foliar N-uptake makes a significant contributi...
In saltmarsh plant communities, bottom-up pressure from nutrient enrichment is predicted to increase...
In saltmarsh plant communities, bottom-up pressure from nutrient enrichment is predicted to increase...
Drought and salinity are the most serious environmental factors affecting crop productivity worldwid...
Coastal wetlands are important carbon sinks globally, but their ability to store carbon hinges on th...
© The Author(s), 2018. This is the author's version of the work and is distributed under the terms o...
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
In Southern European estuaries and associated salt marshes, the anthropogenic nutrient inputs, toget...
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
Sea level rise is expected to push saline waters into previously fresher regions of estuaries, and h...
Sea level rise is expected to push saline waters into previously fresher regions of estuaries, and h...