2018 State of U.S. High Tide Flooding with a 2019 Outlook:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Silver Spring, Maryland
National Oceanic and Atmospheric Administration
2019
|
| Schriftenreihe: | NOAA technical report NOS CO-OPS
90 |
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | 1 Online-Ressource |
Internformat
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| 505 | 8 | |a Tide gauges of the U.S. National Oceanic and Atmospheric Administration (NOAA) are measuring rapid increases in coastal flood risk along U.S. coastlines due to relative sea level (RSL) rise. The most noticeable impact of RSL rise is the increasing frequency of high tide flooding (HTF) that in 2018 was 1) disrupting vehicular traffic along the U.S. East Coast due to flooded roadways, 2) inhibiting parking and thus slowing commerce at stores in downtown Annapolis, Maryland, 3) raising groundwater elevations and degrading septic system functionalities in South Florida, and 4) salting farmlands within coastal Delaware and Maryland. In 2018, the national annual HTF frequency reached 5 days (median value) and tied the historical record set in 2015. HTF was most prevalent along the Northeast Atlantic Coasts (median of 10 days) and broke records within the Chesapeake Bay (e.g., 22 days in Washington D.C. and 12 days in Annapolis and Baltimore) and along the Eastern Gulf of Mexico Coasts with some major flooding from several hurricanes. In all, 12 individual (out of 98 U.S. tide gauge) locations broke or tied their HTF records. There are now over 40 locations whose HTF decadal trends reveal significant acceleration (nonlinear increase) and 25 locations whose HTF trends are linearly increasing, implying that impacts will soon become chronic without adaptation. HTF in 2019 is projected to be higher than normal at about 40 locations along the U.S. West and East Coasts in part due to a minor El Niño that is predicted to persist until early next year. The national median HTF frequency is projected to be more than 100% greater than it typically was in 2000. Regionally in 2019, the Northeast Atlantic is projected to experience a median of 8 days of flooding, which is a 140% increase since 2000. Flooding along the Southeast (5 days—190% increase over 2000), Eastern Gulf (3 days—100% increase since 2000) and | |
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Datensatz im Suchindex
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| any_adam_object | |
| author | Sweet, William |
| author_facet | Sweet, William |
| author_role | aut |
| author_sort | Sweet, William |
| author_variant | w s ws |
| building | Verbundindex |
| bvnumber | BV046055083 |
| contents | Tide gauges of the U.S. National Oceanic and Atmospheric Administration (NOAA) are measuring rapid increases in coastal flood risk along U.S. coastlines due to relative sea level (RSL) rise. The most noticeable impact of RSL rise is the increasing frequency of high tide flooding (HTF) that in 2018 was 1) disrupting vehicular traffic along the U.S. East Coast due to flooded roadways, 2) inhibiting parking and thus slowing commerce at stores in downtown Annapolis, Maryland, 3) raising groundwater elevations and degrading septic system functionalities in South Florida, and 4) salting farmlands within coastal Delaware and Maryland. In 2018, the national annual HTF frequency reached 5 days (median value) and tied the historical record set in 2015. HTF was most prevalent along the Northeast Atlantic Coasts (median of 10 days) and broke records within the Chesapeake Bay (e.g., 22 days in Washington D.C. and 12 days in Annapolis and Baltimore) and along the Eastern Gulf of Mexico Coasts with some major flooding from several hurricanes. In all, 12 individual (out of 98 U.S. tide gauge) locations broke or tied their HTF records. There are now over 40 locations whose HTF decadal trends reveal significant acceleration (nonlinear increase) and 25 locations whose HTF trends are linearly increasing, implying that impacts will soon become chronic without adaptation. HTF in 2019 is projected to be higher than normal at about 40 locations along the U.S. West and East Coasts in part due to a minor El Niño that is predicted to persist until early next year. The national median HTF frequency is projected to be more than 100% greater than it typically was in 2000. Regionally in 2019, the Northeast Atlantic is projected to experience a median of 8 days of flooding, which is a 140% increase since 2000. Flooding along the Southeast (5 days—190% increase over 2000), Eastern Gulf (3 days—100% increase since 2000) and |
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| format | Electronic eBook |
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| spelling | Sweet, William aut 2018 State of U.S. High Tide Flooding with a 2019 Outlook National Oceanic and Atmospheric Administration Silver Spring, Maryland National Oceanic and Atmospheric Administration 2019 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier NOAA technical report NOS CO-OPS 90 Tide gauges of the U.S. National Oceanic and Atmospheric Administration (NOAA) are measuring rapid increases in coastal flood risk along U.S. coastlines due to relative sea level (RSL) rise. The most noticeable impact of RSL rise is the increasing frequency of high tide flooding (HTF) that in 2018 was 1) disrupting vehicular traffic along the U.S. East Coast due to flooded roadways, 2) inhibiting parking and thus slowing commerce at stores in downtown Annapolis, Maryland, 3) raising groundwater elevations and degrading septic system functionalities in South Florida, and 4) salting farmlands within coastal Delaware and Maryland. In 2018, the national annual HTF frequency reached 5 days (median value) and tied the historical record set in 2015. HTF was most prevalent along the Northeast Atlantic Coasts (median of 10 days) and broke records within the Chesapeake Bay (e.g., 22 days in Washington D.C. and 12 days in Annapolis and Baltimore) and along the Eastern Gulf of Mexico Coasts with some major flooding from several hurricanes. In all, 12 individual (out of 98 U.S. tide gauge) locations broke or tied their HTF records. There are now over 40 locations whose HTF decadal trends reveal significant acceleration (nonlinear increase) and 25 locations whose HTF trends are linearly increasing, implying that impacts will soon become chronic without adaptation. HTF in 2019 is projected to be higher than normal at about 40 locations along the U.S. West and East Coasts in part due to a minor El Niño that is predicted to persist until early next year. The national median HTF frequency is projected to be more than 100% greater than it typically was in 2000. Regionally in 2019, the Northeast Atlantic is projected to experience a median of 8 days of flooding, which is a 140% increase since 2000. Flooding along the Southeast (5 days—190% increase over 2000), Eastern Gulf (3 days—100% increase since 2000) and Überflutung (DE-588)4293487-4 gnd rswk-swf Küste (DE-588)4033469-7 gnd rswk-swf Überflutung (DE-588)4293487-4 s Küste (DE-588)4033469-7 s DE-604 USA National Oceanic and Atmospheric Administration Sonstige (DE-588)18185-7 oth Center for Operational Oceanographic Products and Services Sonstige oth USA National Ocean Service Sonstige (DE-588)290311-8 oth NOAA technical report NOS CO-OPS 90 (DE-604)BV021845306 90 https://repository.library.noaa.gov/view/noaa/20691 kostenfrei Volltext |
| spellingShingle | Sweet, William 2018 State of U.S. High Tide Flooding with a 2019 Outlook NOAA technical report NOS CO-OPS Tide gauges of the U.S. National Oceanic and Atmospheric Administration (NOAA) are measuring rapid increases in coastal flood risk along U.S. coastlines due to relative sea level (RSL) rise. The most noticeable impact of RSL rise is the increasing frequency of high tide flooding (HTF) that in 2018 was 1) disrupting vehicular traffic along the U.S. East Coast due to flooded roadways, 2) inhibiting parking and thus slowing commerce at stores in downtown Annapolis, Maryland, 3) raising groundwater elevations and degrading septic system functionalities in South Florida, and 4) salting farmlands within coastal Delaware and Maryland. In 2018, the national annual HTF frequency reached 5 days (median value) and tied the historical record set in 2015. HTF was most prevalent along the Northeast Atlantic Coasts (median of 10 days) and broke records within the Chesapeake Bay (e.g., 22 days in Washington D.C. and 12 days in Annapolis and Baltimore) and along the Eastern Gulf of Mexico Coasts with some major flooding from several hurricanes. In all, 12 individual (out of 98 U.S. tide gauge) locations broke or tied their HTF records. There are now over 40 locations whose HTF decadal trends reveal significant acceleration (nonlinear increase) and 25 locations whose HTF trends are linearly increasing, implying that impacts will soon become chronic without adaptation. HTF in 2019 is projected to be higher than normal at about 40 locations along the U.S. West and East Coasts in part due to a minor El Niño that is predicted to persist until early next year. The national median HTF frequency is projected to be more than 100% greater than it typically was in 2000. Regionally in 2019, the Northeast Atlantic is projected to experience a median of 8 days of flooding, which is a 140% increase since 2000. Flooding along the Southeast (5 days—190% increase over 2000), Eastern Gulf (3 days—100% increase since 2000) and Überflutung (DE-588)4293487-4 gnd Küste (DE-588)4033469-7 gnd |
| subject_GND | (DE-588)4293487-4 (DE-588)4033469-7 |
| title | 2018 State of U.S. High Tide Flooding with a 2019 Outlook |
| title_auth | 2018 State of U.S. High Tide Flooding with a 2019 Outlook |
| title_exact_search | 2018 State of U.S. High Tide Flooding with a 2019 Outlook |
| title_full | 2018 State of U.S. High Tide Flooding with a 2019 Outlook National Oceanic and Atmospheric Administration |
| title_fullStr | 2018 State of U.S. High Tide Flooding with a 2019 Outlook National Oceanic and Atmospheric Administration |
| title_full_unstemmed | 2018 State of U.S. High Tide Flooding with a 2019 Outlook National Oceanic and Atmospheric Administration |
| title_short | 2018 State of U.S. High Tide Flooding with a 2019 Outlook |
| title_sort | 2018 state of u s high tide flooding with a 2019 outlook |
| topic | Überflutung (DE-588)4293487-4 gnd Küste (DE-588)4033469-7 gnd |
| topic_facet | Überflutung Küste |
| url | https://repository.library.noaa.gov/view/noaa/20691 |
| volume_link | (DE-604)BV021845306 |
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