Add to ORKGThe question on whether actual tidal morphologies are in equilibrium with current environmental conditions or retain signatures of past climatic changes or human interventions is a classical and fascinating one, furthermore being of intellectual as well as practical interest. Understanding the dynamic response of tidal landscapes to past conditions is critical to predict their response to future environmental changes, such as rate of relative sea-level rise and sediment supply. This is an open and fundamentally important point, particularly in times of natural and anthropogenic changes, during which tidal environments are most exposed to possibly irreversible transformations with far-reaching socio-economic and ecological implications world...
This PhD project aims at analysing signatures of the past natural and anthropogenic forcings imprint...
In times of natural and anthropogenic climate change, tidal bio-geomorphic systems are most exposed ...
In times of natural and anthropogenic climate change, tidal bio-geomorphic systems are most exposed ...
The question on whether actual tidal morphologies are in equilibrium with current environmental cond...
AbstractThe resilience of marsh ecosystems to expected sea-level rise is determined by a complex int...
none6noTidal landscapes are currently threatened by climate change and increasing human interference...
Many salt-marsh systems worldwide are currently threatened by drowning and lateral erosion that are ...
Many salt-marsh systems worldwide are currently threatened by drowning and lateral erosion that are ...
Many salt-marsh systems worldwide are currently threatened by drowning and lateral erosion that are ...
Tidal landscapes are currently threatened by climate change and increasing human interferences, and ...
Many salt-marsh systems worldwide are currently threatened by drowning and lateral erosion that are ...
Tidal landscapes are currently threatened by climate change and increasing human interferences, and ...
Tidal systems are subjected to a variety of internal and external drivers whose interplay and feedba...
The resilience of marsh ecosystems to expected sea-level rise is determined by a complex interplay o...
The resilience of marsh ecosystems to expected sea-level rise is determined by a complex interplay o...
This PhD project aims at analysing signatures of the past natural and anthropogenic forcings imprint...
In times of natural and anthropogenic climate change, tidal bio-geomorphic systems are most exposed ...
In times of natural and anthropogenic climate change, tidal bio-geomorphic systems are most exposed ...
The question on whether actual tidal morphologies are in equilibrium with current environmental cond...
AbstractThe resilience of marsh ecosystems to expected sea-level rise is determined by a complex int...
none6noTidal landscapes are currently threatened by climate change and increasing human interference...
Many salt-marsh systems worldwide are currently threatened by drowning and lateral erosion that are ...
Many salt-marsh systems worldwide are currently threatened by drowning and lateral erosion that are ...
Many salt-marsh systems worldwide are currently threatened by drowning and lateral erosion that are ...
Tidal landscapes are currently threatened by climate change and increasing human interferences, and ...
Many salt-marsh systems worldwide are currently threatened by drowning and lateral erosion that are ...
Tidal landscapes are currently threatened by climate change and increasing human interferences, and ...
Tidal systems are subjected to a variety of internal and external drivers whose interplay and feedba...
The resilience of marsh ecosystems to expected sea-level rise is determined by a complex interplay o...
The resilience of marsh ecosystems to expected sea-level rise is determined by a complex interplay o...
This PhD project aims at analysing signatures of the past natural and anthropogenic forcings imprint...
In times of natural and anthropogenic climate change, tidal bio-geomorphic systems are most exposed ...
In times of natural and anthropogenic climate change, tidal bio-geomorphic systems are most exposed ...