AbstractThe world’s river deltas are increasingly vulnerable due to pressures from human activities and environmental change. In deltaic regions, the distribution of salinity controls the resourcing of fresh water for agriculture, aquaculture and human consumption; it also regulates the functioning of critical natural habitats. Despite numerous insightful studies, there are still significant uncertainties on the spatio-temporal patterns of salinity across deltaic systems. In particular, there is a need for a better understanding of the salinity distribution across deltas’ channels and for simple predictive relationships linking salinity to deltas’ characteristics and environmental conditions. We address this gap through idealized three-dime...
Circulation of saline water is important for maintaining water quality in the Ganges-Brahmaputra-Meg...
Using numerical experiments, we investigate how river‐dominated delta channel networks are likely to...
Reprint from Transactions, American Geophysical Union, V. 36, Number 4, August 1955.Includes bibliog...
AbstractSalinity in deltaic systems is expected to increase in the near future due to sea level rise...
The present project is an effort to identify key parameters and controlling factors of salinity vari...
Salinity in deltaic systems is expected to increase in the near future due to sea level rise. This w...
Most river deltas are densely populated areas with intensive agriculture. The increased shortage of ...
Large-scale river diversions on the lower Mississippi River are considered to be an important compon...
NetCDF files containing salinity output data from five Delft3D simulations. Annual flow distribution...
Long-term hydrodynamic and salinity transport modeling of the Sacramento–San Joaquin Delta is needed...
On the list of challenges facing the world largest deltas, increased saline water intrusion (SWI) in...
The Yellow River Delta occupies an important position in the global ecosystem because of its valuabl...
Continuous data of vertical-profile salinity were analyzed for four stations located successively up...
On the list of challenges facing the world largest deltas, increased saline water intrusion (SWI) in...
Circulation of saline water is important for maintaining water quality in the Ganges-Brahmaputra-Meg...
Using numerical experiments, we investigate how river‐dominated delta channel networks are likely to...
Reprint from Transactions, American Geophysical Union, V. 36, Number 4, August 1955.Includes bibliog...
AbstractSalinity in deltaic systems is expected to increase in the near future due to sea level rise...
The present project is an effort to identify key parameters and controlling factors of salinity vari...
Salinity in deltaic systems is expected to increase in the near future due to sea level rise. This w...
Most river deltas are densely populated areas with intensive agriculture. The increased shortage of ...
Large-scale river diversions on the lower Mississippi River are considered to be an important compon...
NetCDF files containing salinity output data from five Delft3D simulations. Annual flow distribution...
Long-term hydrodynamic and salinity transport modeling of the Sacramento–San Joaquin Delta is needed...
On the list of challenges facing the world largest deltas, increased saline water intrusion (SWI) in...
The Yellow River Delta occupies an important position in the global ecosystem because of its valuabl...
Continuous data of vertical-profile salinity were analyzed for four stations located successively up...
On the list of challenges facing the world largest deltas, increased saline water intrusion (SWI) in...
Circulation of saline water is important for maintaining water quality in the Ganges-Brahmaputra-Meg...
Using numerical experiments, we investigate how river‐dominated delta channel networks are likely to...
Reprint from Transactions, American Geophysical Union, V. 36, Number 4, August 1955.Includes bibliog...