Add to ORKGThis study uses direct measurements of vertical accretion, marsh elevation change, and suspended-sediment concentrations (SSC) to investigate salt marsh response to changing fine-sediment
Salt marshes respond to sea-level rise through a series of complex and dynamic bio-physical feedback...
Accelerated sea-level rise (SLR) poses the threat of salt marsh submergence, especially in marshes t...
Tidal marshes will be threatened by increasing rates of sea-level rise (SLR) over the next century. ...
This study uses direct measurements of vertical accretion, marsh elevation change, and suspended-sed...
The broad goal of our research was to use site-specific data to develop local and regionally applica...
Predicted sea-level rise (SLR) could have catastrophic impacts on the coastal zone. Salt marshes hav...
Coastal salt marsh ecosystems in California are at risk from projected rates of sea-level rise (SLR)...
We studied the ecological resilience of salt marshes by deriving sea level rise (SLR) thresholds in ...
Tidal marsh survival in the face of sea level rise (SLR) and declining sediment supply often depends...
Historical aerial photos, from 1937 to the present, show Skagit Delta tidal marshes prograding into ...
Global assessments predict the impact of sea-level rise on salt marshes with present-day levels of s...
Coastal marshes provide essential ecosystem services related to biodiversity, water quality, and pro...
Salt marshes are valued for their ecosystem services, and their vulnerability is typically assessed ...
Land subsidence in and around Humboldt Bay, California contributes to sea-level rise up to 2-3 times...
There is widespread concern that rapidly rising sea levels may drown salt marshes by exceeding the r...
Salt marshes respond to sea-level rise through a series of complex and dynamic bio-physical feedback...
Accelerated sea-level rise (SLR) poses the threat of salt marsh submergence, especially in marshes t...
Tidal marshes will be threatened by increasing rates of sea-level rise (SLR) over the next century. ...
This study uses direct measurements of vertical accretion, marsh elevation change, and suspended-sed...
The broad goal of our research was to use site-specific data to develop local and regionally applica...
Predicted sea-level rise (SLR) could have catastrophic impacts on the coastal zone. Salt marshes hav...
Coastal salt marsh ecosystems in California are at risk from projected rates of sea-level rise (SLR)...
We studied the ecological resilience of salt marshes by deriving sea level rise (SLR) thresholds in ...
Tidal marsh survival in the face of sea level rise (SLR) and declining sediment supply often depends...
Historical aerial photos, from 1937 to the present, show Skagit Delta tidal marshes prograding into ...
Global assessments predict the impact of sea-level rise on salt marshes with present-day levels of s...
Coastal marshes provide essential ecosystem services related to biodiversity, water quality, and pro...
Salt marshes are valued for their ecosystem services, and their vulnerability is typically assessed ...
Land subsidence in and around Humboldt Bay, California contributes to sea-level rise up to 2-3 times...
There is widespread concern that rapidly rising sea levels may drown salt marshes by exceeding the r...
Salt marshes respond to sea-level rise through a series of complex and dynamic bio-physical feedback...
Accelerated sea-level rise (SLR) poses the threat of salt marsh submergence, especially in marshes t...
Tidal marshes will be threatened by increasing rates of sea-level rise (SLR) over the next century. ...