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Full-Text Articles in Physical Sciences and Mathematics
Tidal Response To Sea-Level Rise In Different Types Of Estuaries: The Importance Of Length, Bathymetry, And Geometry, Jb Du, Jian Shen, Yinglong J. Zhang, Fei Ye, Z Liu, Zg Wang, Yp Wang, X Yu, M Sisson, Harry V. Wang
Tidal Response To Sea-Level Rise In Different Types Of Estuaries: The Importance Of Length, Bathymetry, And Geometry, Jb Du, Jian Shen, Yinglong J. Zhang, Fei Ye, Z Liu, Zg Wang, Yp Wang, X Yu, M Sisson, Harry V. Wang
VIMS Articles
Tidal response to sea-level rise (SLR) varies in different coastal systems. To provide a generic pattern of tidal response to SLR, a systematic investigation was conducted using numerical techniques applied to idealized and realistic estuaries, with model results cross-checked by analytical solutions. Our results reveal that the response of tidal range to SLR is nonlinear, spatially heterogeneous, and highly affected by the length and bathymetry of an estuary and weakly affected by the estuary convergence with an exception of strong convergence. Contrary to the common assumption that SLR leads to a weakened bottom friction, resulting in increased tidal amplitude, we …
Integrated Ocean, Earth, And Atmospheric Observations For Resilience Planning In Hampton Roads, Virginia, Jon Derek Loftis, Molly Mitchell, Larry Atkinson, Ben Hamlington, Thomas R. Allen, David R. Forrest, Et Al
Integrated Ocean, Earth, And Atmospheric Observations For Resilience Planning In Hampton Roads, Virginia, Jon Derek Loftis, Molly Mitchell, Larry Atkinson, Ben Hamlington, Thomas R. Allen, David R. Forrest, Et Al
VIMS Articles
Building flood resilience in coastal communities requires a precise understanding of the temporal and spatial scales of inundation and the ability to detect and predict changes in flooding. In Hampton Roads, the Intergovernmental Pilot Project's Scientific Advisory Committee recommended an integrated network of ocean, earth, and atmospheric data collection from both private and public sector organizations that engage in active scientific monitoring and observing. Since its establishment, the network has grown to include monitoring of water levels, land subsidence, wave measurements, current measurements, and atmospheric conditions. High-resolution land elevation and land cover data sets have also been developed. These products …
Stormsense: A New Integrated Network Of Iot Water Level Sensors In The Smart Cities Of Hampton Roads, Va, Jon Derek Loftis, David R. Forrest, Sridhar Katragadda, Kyle Spencer, Tammie Organski, Cuong Nguyen, Sokwoo Rhee
Stormsense: A New Integrated Network Of Iot Water Level Sensors In The Smart Cities Of Hampton Roads, Va, Jon Derek Loftis, David R. Forrest, Sridhar Katragadda, Kyle Spencer, Tammie Organski, Cuong Nguyen, Sokwoo Rhee
VIMS Articles
Propagation of cost-effective water level sensors powered through the Internet of Things (IoT) has expanded the available offerings of ingestible data streams at the disposal of modern smart cities. StormSense is an IoT-enabled inundation forecasting research initiative and an active participant in the Global City Teams Challenge, seeking to enhance flood preparedness in the smart cities of Hampton Roads, VA, for flooding resulting from storm surge, rain, and tides. In this study, we present the results of the new StormSense water level sensors to help establish the “regional resilience monitoring network” noted as a key recommendation from the Intergovernmental Pilot …