Forecasting Heavy Rains and Landslides in Eastern Africa

The University Corporation for Atmospheric Research, 2015

Good rainfall draws many people to settle across the eastern Africa highlands for farming and other businesses. However, factors such as steep terrain, logging, livestock grazing, agriculture, and construction, have increased erosion and contributed to less stable slopes. These factors can lead to devastating landslides and mudslides, especially during episodes of very heavy rain. Forecasting and monitoring heavy rainfall is challenging, especially in mountainous regions that have few surface observations. This make satellite data critical for meteorologists and hydrologists forecasting for th ...

English

 Forecasting Heavy Rains and Landslides in Eastern Africa

 Available online: https://www.meted.ucar.edu/training_module.php?id=1203

Published by: The University Corporation for Atmospheric Research ; 2015

Good rainfall draws many people to settle across the eastern Africa highlands for farming and other businesses. However, factors such as steep terrain, logging, livestock grazing, agriculture, and construction, have increased erosion and contributed to less stable slopes. These factors can lead to devastating landslides and mudslides, especially during episodes of very heavy rain. Forecasting and monitoring heavy rainfall is challenging, especially in mountainous regions that have few surface observations. This make satellite data critical for meteorologists and hydrologists forecasting for these areas. This lesson provides background information and a case study on how to use MSG satellite imagery and derived products, numerical weather prediction output, climatology, and other data in the forecast process so early advisories can be delivered to government officials and the public. The lesson is intended for weather forecasters although hydrologists, other scientists, and students can profit from it as well. Note that the lesson has been developed with funding from EUMETSAT for the ASMET project.

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: Climatology ; Weather forecasting ; Landslide ; Convection ; Lesson/ Tutorial ; East Africa ; Kenya ; Satellite Skills and Knowledge for Operational Meteorologists Add tag

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Extreme High Swell Events on the Moroccan Atlantic Coast

The University Corporation for Atmospheric Research, 2015

High swell events can develop far from the coast under cyclonic conditions, and take several days to travel to land. If early warnings are not issued, they can take an area by surprise and have a devastating impact. This lesson aims to improve the ability of marine forecasters to forecast extreme marine events related to high swells. It does so by providing background information on winds and waves, and presenting a process for monitoring and forecasting high swell events using a variety of data. These include ASCAT scatterometer wind data and the ECMWF Extreme Forecast Index (EFI) product, wh ...

English

 Extreme High Swell Events on the Moroccan Atlantic Coast

 Available online: https://www.meted.ucar.edu/training_module.php?id=1206

Published by: The University Corporation for Atmospheric Research ; 2015

High swell events can develop far from the coast under cyclonic conditions, and take several days to travel to land. If early warnings are not issued, they can take an area by surprise and have a devastating impact. This lesson aims to improve the ability of marine forecasters to forecast extreme marine events related to high swells. It does so by providing background information on winds and waves, and presenting a process for monitoring and forecasting high swell events using a variety of data. These include ASCAT scatterometer wind data and the ECMWF Extreme Forecast Index (EFI) product, which helps verify model output and improve the quality of heavy swell forecasts. The forecast process is applied to two cases that occurred on the Moroccan Atlantic coast in 2014. Note that the lesson has been developed with funding from EUMETSAT for the ASMET project.

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 ; Wave ; Marine meteorology ; Lesson/ Tutorial ; Morocco ; Atlantic Ocean ; Marine Weather Forecasters ; Satellite Skills and Knowledge for Operational Meteorologists Add tag

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Introduction to Tropical Meteorology, 2nd Edition: Chapter 6 Vertical Transport

The University Corporation for Atmospheric Research, 2015

This chapter examines vertical transport of heat, moisture, momentum, trace gases, and aerosols, including the role of tropical deep convection and turbulence. Diurnal and seasonal variations in surface fluxes and boundary layer depth are examined. The boundary layer is compared over the ocean, humid, and dry tropics, including its role in dispersing chemicals and aerosols. Boundary layer clouds are examined in terms of their connection to sub-cloud layer properties. Comparisons are made between heat and moisture transport under a variety of convective modes such as mesoscale convective system ...

English

 Introduction to Tropical Meteorology, 2nd Edition: Chapter 6 Vertical Transport

 Available online: https://www.meted.ucar.edu/training_module.php?id=1113

Published by: The University Corporation for Atmospheric Research ; 2015

This chapter examines vertical transport of heat, moisture, momentum, trace gases, and aerosols, including the role of tropical deep convection and turbulence. Diurnal and seasonal variations in surface fluxes and boundary layer depth are examined. The boundary layer is compared over the ocean, humid, and dry tropics, including its role in dispersing chemicals and aerosols. Boundary layer clouds are examined in terms of their connection to sub-cloud layer properties. Comparisons are made between heat and moisture transport under a variety of convective modes such as mesoscale convective systems and shallow convection. The trade wind inversion, its maintenance, and east-west structure are presented. The final sections focus on how the tropical sub-cloud layer, clouds, and transport processes are represented in numerical models.

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 ; Numerical weather prediction ; Tropical meteorology ; Lesson/ Tutorial ; NWP Skills and Knowledge for Operational Meteorologists Add tag

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Using ASCAT Wind and Other Data in Marine Forecasting

The University Corporation for Atmospheric Research, 2015

This case study lesson demonstrates the use of scatterometer wind and, to a lesser extent, altimeter significant wave height products in marine forecasting. A brief introduction to cold fronts and their impact on weather and sea state conditions sets the stage for the main part of the lesson, the case study. The case follows the passage of a cold front over the South Atlantic Ocean on 23 and 24 November 2013 when the Polarstern research vessel was transiting the area. Learners use ASCAT wind and Jason significant wave height data to help determine current conditions and evaluate GFS and WAVEWA ...

English

 Using ASCAT Wind and Other Data in Marine Forecasting

 Available online: https://www.meted.ucar.edu/training_module.php?id=1204

Published by: The University Corporation for Atmospheric Research ; 2015

This case study lesson demonstrates the use of scatterometer wind and, to a lesser extent, altimeter significant wave height products in marine forecasting. A brief introduction to cold fronts and their impact on weather and sea state conditions sets the stage for the main part of the lesson, the case study. The case follows the passage of a cold front over the South Atlantic Ocean on 23 and 24 November 2013 when the Polarstern research vessel was transiting the area. Learners use ASCAT wind and Jason significant wave height data to help determine current conditions and evaluate GFS and WAVEWATCH III analyses and forecasts. The lesson is intended for operational marine forecasters, meteorologists, and meteorological technicians at coastal stations, as well as meteorology students. Note that the lesson has been developed with funding from EUMETSAT for the ASMET project.

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 ; Marine meteorology ; Lesson/ Tutorial ; South Africa ; Marine Weather Forecasters ; Satellite Skills and Knowledge for Operational Meteorologists Add tag

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WMO Satellite User Readiness Navigator (SATURN)

The University Corporation for Atmospheric Research, 2015

The SATURN (SATellite User Readiness Navigator) developed jointly by WMO and meteorological satellite operators provides unified access to information that helps users to prepare for the new generation of meteorological satellites to be launched in the 2015-2020 timeframe. Next-generation geostationary satellites are being launched by JMA, NOAA, CMA, KMA, ROSHYDROMET and EUMETSAT, with unprecedented capabilities for severe weather monitoring, nowcasting and short range forecasting, and for a number of other application areas. However, the new systems also pose unprecedented challenges to users ...

English

 WMO Satellite User Readiness Navigator (SATURN)

 Available online: https://www.meted.ucar.edu/training_module.php?id=1181

Published by: The University Corporation for Atmospheric Research ; 2015

The SATURN (SATellite User Readiness Navigator) developed jointly by WMO and meteorological satellite operators provides unified access to information that helps users to prepare for the new generation of meteorological satellites to be launched in the 2015-2020 timeframe. Next-generation geostationary satellites are being launched by JMA, NOAA, CMA, KMA, ROSHYDROMET and EUMETSAT, with unprecedented capabilities for severe weather monitoring, nowcasting and short range forecasting, and for a number of other application areas. However, the new systems also pose unprecedented challenges to users, for example an order-of-magnitude increase in the amount of data and products to be generated from the on-board advanced imagers and sounders. Users also need to prepare for changes in data formats, reception techniques, data types from geostationary sounders and the capabilities of 16-channel imagers. The SATURN site features a Reference User Readiness Project, with a generic timeline to guide user readiness planning. This resource is made available courtesy of the World Meteorological Organization Space Programme and is not produced, owned or hosted by UCAR/COMET.

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 ; Training ; Lesson/ Tutorial ; Satellite Skills and Knowledge for Operational Meteorologists Add tag

No review, please log in to add yours !

NWP Essentials: Model Physics

The University Corporation for Atmospheric Research, 2015

This lesson describes model parameterizations of surface, PBL, and free atmospheric processes. It specifically addresses how models treat these processes, how such processes can potentially interact with each other, and how they can influence forecasts of sensible weather elements. Topics covered include: soil moisture processes, radiative processes involving clouds, and turbulent processes in the PBL and free atmosphere.

English

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NWP Essentials: Precipitation and Clouds

The University Corporation for Atmospheric Research, 2015

Both the processes of convection and of rainfall formation are typically subgrid scale, and require parameterisation. This lesson examines two types of precipitation parameterisation used by models: Convective parameterisation Microphysics The lesson also discusses how to identify when these parameterisations are not performing well and steps to address the issues that arise.

English

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HYSPLIT Applications for Emergency Decision Support, 2nd Edition

The University Corporation for Atmospheric Research, 2015

This module helps forecasters provide decision support services during hazardous materials emergencies. Topics covered include: Types of weather data inputs required for short-range dispersion models typically used by emergency managers Types of inputs required to run the web version of the HYSPLIT model with the ALOHA source term, which is now available to NWS forecasters The types and scales of events that are appropriate and inappropriate for modeling by HYSPLIT Key uncertainties that can cause misleading dispersion model forecasts The processes and limitations of CAMEO/ALOHA and HYSPLIT Ho ...

English

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NWP Essentials: Data Assimilation

The University Corporation for Atmospheric Research, 2015

This lesson introduces the processes of model data assimilation. It also discusses the impacts of errors in the data assimilation on model forecasts and how a human forecaster can compensate for them.

English

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Seamless prediction of the Earth system : from minutes to months

World Meteorological Organization (WMO) - WMO, 2015 (WMO-No. 1156)

This book collects together White Papers that have been written to describe the state of the science and to discuss the major challenges for making further advances. The authors of each chapter have attempted to draw together key aspects of the science that was presented at WWOSC-2014. The overarching theme of this book and of WWOSC-2014 is “Seamless Prediction of the Earth System: from minutes to months”. The book is structured with chapters that address topics regarding: Observations and Data Assimilation; Predictability and Processes; Numerical Prediction of the Earth System; Weather-relate ...

English, Spanish''Spanish

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WMO Guidelines on Multi-hazard Impact-based Forecast and Warning Services

World Meteorological Organization (WMO) - WMO, 2015 (WMO-No. 1150)

Improving the understanding of the potential impacts of severe hydrometeorological events poses a challenge to NMHSs and their partner agencies, particularly disaster reduction and civil protection agencies (DRCPAs). These Guidelines establish a road map that identifies the various milestones from weather forecasts and warnings to multi-hazard impact-based forecast and warning services.
For completeness, these Guidelines also describe the ultimate step of forecasting actual impacts, although it is recognized that this is a highly sophisticated exercise, requiring strong collaboration w ...

English, French, Spanish, Russian, Arabic, Chinese

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Directives de l’OMM sur les services de prévision et d’alerte multidanger axées sur les impacts

Organisation météorologique mondiale (OMM) - OMM, 2015 (OMM-No. 1150)

Mieux comprendre les incidences potentielles des phenomenes hydrometeorologiques violents represente un defi pour les SMHN et leurs partenaires, notamment les organismes de protection civile et de prevention des catastrophes. A cette fin, les presentes directives repertorient les diverses etapes a suivre, depuis l’elaboration de previsions et d’alertes meteorologiques jusqu’a la prestation de services de prevision et d’alerte multidanger axees sur les impacts.

French, English

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المبادئ التوجيهية للمنظمة (WMO) بشأن خدمات التنبؤ والإنذار بالأخطار المتعددة على أساس الآثار مطبوع

المنظمة العالمية للأرصاد - المنظمة العالمية للأرصاد, 2015 (مجموعة مطبوعات المنظمة-No. 1150)

وتحسين فهم الآثار التي يمكن أن تترتب على الظواهر الجوية الهيدرولوجية الخطيرة يمثل تحدياً للمرافق الوطنية ) NMHSs ( والوكالات الشريكة، لاسيما وكالات الحد من مخاطر الكوارث والحماية المدنية ) )DRCPAs وتشكل هذه المبادئ التوجيهية خارطة طريق تحدد النقاط البارزة المختلفة بدءاً بخدمات التنبؤ والإنذار بالطقس ووصولاً إلى خدمات التنبؤ والإنذار بالمخاطر المتعددة على أساس الآثار. وحتى تكون هذه المبادئ التوجيهية كاملة، فإنها تعرض أيضاً الخطوة الأخيرة المتمثلة في التنبؤ بالآثار الفعلية، وإن كان من المعروف أنها عملية متطورة جداً تتطلب تعاوناً وثيقاً مع الوكالات الشريكة وبحوثاً هامة في مسائل التعرض لتلك الآثار ...

Arabic, English

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WMO基于影响的 多灾种预报和预警服务 指导原则

世界气象组织 (WMO) - 世界气象组织 (WMO), 2015 (世界气象组织 (WMO)-No. 1150)

提高对水文-气象灾害事件潜在影响的认识会给NMHS及其伙伴机构，特别是减灾和民 防机构（DRCPA）带来挑战。本指导原则可制定路线图，用以确定从天气预报和预警到多 灾种基于影响预报和预警服务的各项进度。 为了保证完整性，本指导原则还阐明了实际影响的最终预报步骤，尽管认识到这是一 个极为复杂的工作，不仅需要与伙伴机构开展强有力的合作，还要大力开展暴露度和脆弱 性研究。对于许多WMO会员而言，这一步骤并不是NMHS的职责，而是相关DRCPA和其 他伙伴的职责。

Chinese, English

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Руководящие указания ВМО по обслуживанию прогнозами и предупреждениями о многих опасных явлениях с учетом их возможных последствий

Всемирная Метеорологическая Организация (BMO) - BMO, 2015 (BMO-No. 1150)

Улучшение понимания потенциальных последствий суровых гидрометеорологических явлений является сложной задачей для НМГС и являющихся их партнерами учреждений, в частности учреждений, занимающихся вопросами уменьшения опасности бедствий и гражданской обороны (УУОБГO). Настоящие Руководящие указания устанавливают «дорожную карту», в которой определяются различные этапы перехода от обслуживания прогнозами погоды и предупреждениями к обслуживанию прогнозами многих опасных явлений и предупреждениями о них с учетом возможных последствий. Для полноты картины в данных Руководящих указаниях также описыв ...

Russian, English

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