Add to ORKGMost plant production by emergent coastal marshes occurs belowground. This belowground production adds to the accumulation of organic matter sustaining salt marshes as sea level rises, thus preventing excessive flooding, eventual plant death, and habitat loss. The ubiquitous nutrient enrichment of coastal salt marshes stimulating aboveground plant growth may result in higher rates of inorganic matter accumulation that compensates for marsh flooding caused by sea level rise. Results from several short-term experiments, however, demonstrate that root and rhizome biomass and carbon accumulation is reduced with nutrient enrichment, suggesting that eutrophication of coastal waters may not be a compensatory counterbalance to the effects of global...
Coastal salt marshes are among Earth's most productive ecosystems and provide a number of ecosystem ...
The root:shoot ratio of grassland plants may be lower in high fertility sites than in low fertility ...
Abstract Understanding the threat to ecosystems from excess nitrogen in coastal water...
Although the broadly observed increase in nutrient loading rates to coastal waters in the last 100 y...
Salt marshes are highly productive coastal wetlands that provide important ecosystem services such a...
Twelve salt marshes in south Louisiana (USA) were classified as either ‘impaired’ or ‘healthy’ befor...
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...
Salt marshes respond to sea-level rise through a series of complex and dynamic bio-physical feedback...
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
<div><p>Coastal salt marshes are among Earth's most productive ecosystems and provide a number of ec...
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
Anthropogenically-enhanced nutrient availability is often cited among the most important drivers of ...
Salt marsh ecosystems have been considered not susceptible to nitrogen overloading because early stu...
Salt marsh ecosystems have been considered not susceptible to nitrogen overloading because early stu...
Coastal salt marshes are among Earth's most productive ecosystems and provide a number of ecosystem ...
The root:shoot ratio of grassland plants may be lower in high fertility sites than in low fertility ...
Abstract Understanding the threat to ecosystems from excess nitrogen in coastal water...
Although the broadly observed increase in nutrient loading rates to coastal waters in the last 100 y...
Salt marshes are highly productive coastal wetlands that provide important ecosystem services such a...
Twelve salt marshes in south Louisiana (USA) were classified as either ‘impaired’ or ‘healthy’ befor...
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...
Salt marshes respond to sea-level rise through a series of complex and dynamic bio-physical feedback...
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
<div><p>Coastal salt marshes are among Earth's most productive ecosystems and provide a number of ec...
The resilience of salt marshes to sea level rise depends on vertical accretion through belowground b...
Anthropogenically-enhanced nutrient availability is often cited among the most important drivers of ...
Salt marsh ecosystems have been considered not susceptible to nitrogen overloading because early stu...
Salt marsh ecosystems have been considered not susceptible to nitrogen overloading because early stu...
Coastal salt marshes are among Earth's most productive ecosystems and provide a number of ecosystem ...
The root:shoot ratio of grassland plants may be lower in high fertility sites than in low fertility ...
Abstract Understanding the threat to ecosystems from excess nitrogen in coastal water...