Preparing for the rising tide

Douglas Ellen - Boston Harbor Association, the (TBHA), 2013

This report discusses current models prediction that Boston will experience up to two feet of sea level rise by 2050 and up to six feet by 2100, and it provides vulnerability analyses for Boston Harbor and time-phased preparedness plans for Boston’s long and central wharves and UMass Boston campus to increase their resilience to coastal flooding over time.

English

 Preparing for the rising tide

  Available online: http://www.ebcne.org/fileadmin/misc/Posts_to_EBC_Website/preparing_for_the_risin [...]

Ellen Douglas

Published by: Boston Harbor Association, the (TBHA) ; 2013

This report discusses current models prediction that Boston will experience up to two feet of sea level rise by 2050 and up to six feet by 2100, and it provides vulnerability analyses for Boston Harbor and time-phased preparedness plans for Boston’s long and central wharves and UMass Boston campus to increase their resilience to coastal flooding over time.

Language(s): English

Format: Digital (Free)

Tags: Natural hazards ; Disaster Risk Management (DRM) ; Hazard risk assessment or analysis ; Urban zone ; Extratropical cyclone ; Storm surge ; Flood ; Landslide ; Climate change ; United States of America Add tag

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Satellite Feature Identification: Atmospheric Rivers

The University Corporation for Atmospheric Research, 2012

The Satellite Feature Identification: Atmospheric Rivers lesson presents the global moisture transport phenomenon known as the Atmospheric River (AR). ARs are responsible for transporting the majority of maritime moisture from low to middle latitudes. Advanced satellite products, including Integrated Water Vapor and Total Precipitable Water, provide excellent observations of AR development and evolution. This lesson demonstrates the usefulness of these products in forecasting the impacts of ARs, especially when they are combined with numerical weather prediction products. Several AR case studi ...

English

 Satellite Feature Identification: Atmospheric Rivers

 Available online: https://www.meted.ucar.edu/training_module.php?id=904

Published by: The University Corporation for Atmospheric Research ; 2012

The Satellite Feature Identification: Atmospheric Rivers lesson presents the global moisture transport phenomenon known as the Atmospheric River (AR). ARs are responsible for transporting the majority of maritime moisture from low to middle latitudes. Advanced satellite products, including Integrated Water Vapor and Total Precipitable Water, provide excellent observations of AR development and evolution. This lesson demonstrates the usefulness of these products in forecasting the impacts of ARs, especially when they are combined with numerical weather prediction products. Several AR case studies highlight the importance of using satellite information regarding ARs and allow the user to practice forecasting their impacts. This lesson is part of the series: "Dynamic Feature Identification: The Satellite Palette".

Disclaimer regarding 3rd party resources: WMO endeavours to ensure, but cannot and does not guarantee the accuracy, accessibility, integrity and timeliness of the information available on its website. WMO may make changes to the content of this website at any time without notice.

The responsibility for opinions expressed in articles, publications, studies and other contributions rests solely with their authors, and their posting on this website does not constitute an endorsement by WMO of the opinion expressed therein.

WMO shall not be liable for any damages incurred as a result of the use of its website. Please do not misuse our website.

Language(s): English

Format: Digital (Standard Copyright)

Tags: Weather forecasting ; Extratropical cyclone ; Lesson/ Tutorial ; Satellite Skills and Knowledge for Operational Meteorologists Add tag

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An exploration of the link between development, economic growth, and natural risk

Hallegatte Stéphane; World Bank the - World Bank, 2012

This paper investigates the link between development, economic growth, and the economic losses from natural disasters in a general analytical framework, with an application to hurricane flood risks in New Orleans. It concludes that where capital accumulates through increased density of capital at risk in a given area, and the costs of protection therefore increase more slowly than capital at risk, (i) protection improves over time and the probability of disaster occurrence decreases; (ii) capital at risk -- and thus economic losses in case of disaster -- increases faster than economic growth; ...

English

 An exploration of the link between development, economic growth, and natural risk

  Available online: http://www-wds.worldbank.org/external/default/WDSContentServer/IW3P/IB/2012/10/0 [...]

Stéphane Hallegatte ; World Bank

Published by: World Bank ; 2012

This paper investigates the link between development, economic growth, and the economic losses from natural disasters in a general analytical framework, with an application to hurricane flood risks in New Orleans. It concludes that where capital accumulates through increased density of capital at risk in a given area, and the costs of protection therefore increase more slowly than capital at risk, (i) protection improves over time and the probability of disaster occurrence decreases; (ii) capital at risk -- and thus economic losses in case of disaster -- increases faster than economic growth; (iii) increased risk-taking reinforces economic growth. In this context, average annual losses from disasters grow with income, and they grow faster than income at low levels of development and slower than income at high levels of development.

Language(s): English

Format: Digital (Free)

Tags: Natural hazards ; Flood ; Extratropical cyclone ; Disaster Risk Management (DRM) ; Social and Economic development ; United States of America Add tag

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A Forecaster's Overview of the Northwest Pacific

The University Corporation for Atmospheric Research, 2010

This module provides an introduction to the northwest Pacific for weather forecasters. It touches on major aspects of the geography, oceanography, and climatology. Geography looks at plate tectonics, topography, and human population. Oceanography examines ocean currents, coastal tidal ranges, and sea ice distribution. Climatology briefly discusses jets streams, distribution of synoptic features, storm tracks of tropical and extratropical cyclones, the fronts, and sensible weather associated with the Northeast and Southwest Monsoons.

English

 A Forecaster's Overview of the Northwest Pacific

 Available online: https://www.meted.ucar.edu/training_module.php?id=569

Published by: The University Corporation for Atmospheric Research ; 2010

This module provides an introduction to the northwest Pacific for weather forecasters. It touches on major aspects of the geography, oceanography, and climatology. Geography looks at plate tectonics, topography, and human population. Oceanography examines ocean currents, coastal tidal ranges, and sea ice distribution. Climatology briefly discusses jets streams, distribution of synoptic features, storm tracks of tropical and extratropical cyclones, the fronts, and sensible weather associated with the Northeast and Southwest Monsoons.

Disclaimer regarding 3rd party resources: WMO endeavours to ensure, but cannot and does not guarantee the accuracy, accessibility, integrity and timeliness of the information available on its website. WMO may make changes to the content of this website at any time without notice.

The responsibility for opinions expressed in articles, publications, studies and other contributions rests solely with their authors, and their posting on this website does not constitute an endorsement by WMO of the opinion expressed therein.

WMO shall not be liable for any damages incurred as a result of the use of its website. Please do not misuse our website.

Language(s): English

Format: Digital (Standard Copyright)

Tags: Tropical cyclone ; Marine meteorology ; Climate services ; Lesson/ Tutorial ; Climatology ; Monsoon ; Sea ice ; Extratropical cyclone ; Competencies for Provision of Climate Services ; Marine Weather Forecasters ; China ; Japan ; Yellow Sea Add tag

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Diagnosing and Forecasting Extratropical Transition: A Case Exercise on Hurricane Michael

The University Corporation for Atmospheric Research, 2002

This exercise tracks Hurricane Michael as it moved into the Maritime region of the Canadian east coast in October, 2000. Analyze data and respond to questions focusing on forecasting the progression of the storm. This case exercise accompanies the Webcast, Hurricanes Canadian Style: Extratropical Transition.

English

 Diagnosing and Forecasting Extratropical Transition: A Case Exercise on Hurricane Michael

 Available online: https://www.meted.ucar.edu/training_module.php?id=40

Published by: The University Corporation for Atmospheric Research ; 2002

This exercise tracks Hurricane Michael as it moved into the Maritime region of the Canadian east coast in October, 2000. Analyze data and respond to questions focusing on forecasting the progression of the storm. This case exercise accompanies the Webcast, Hurricanes Canadian Style: Extratropical Transition.

Disclaimer regarding 3rd party resources: WMO endeavours to ensure, but cannot and does not guarantee the accuracy, accessibility, integrity and timeliness of the information available on its website. WMO may make changes to the content of this website at any time without notice.

The responsibility for opinions expressed in articles, publications, studies and other contributions rests solely with their authors, and their posting on this website does not constitute an endorsement by WMO of the opinion expressed therein.

WMO shall not be liable for any damages incurred as a result of the use of its website. Please do not misuse our website.

Language(s): English

Format: Digital (Standard Copyright)

Tags: Hurricane ; Extratropical cyclone ; Lesson/ Tutorial Add tag

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Hurricanes Canadian Style: Extratropical Transition

The University Corporation for Atmospheric Research, 2002

This Webcast is based on a presentation delivered by Jim Abraham of MSC at the Winter Weather Course in February 2001. The presentation discusses how, under the right synoptic conditions, hurricanes and tropical storms undergo a transition process to extratropical cyclones as they move into northern latitudes. During the transition process these "hybrid" systems can bring damaging weather conditions to Eastern Canada and the Northeastern States. It uses several case examples to demonstrate the process.

English

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