Global Campus
The WMO Global Campus E-Library
The WMO Global Campus initiative is proud to offer this WMOLearn Library of resources. This library provides a searchable collection of educational resources, including WMO publications and education and training materials from various contributing organisations and individuals. Search by WMO competency framework, Main Topics, Region and Country, and/or Nature of Information to find materials useful for training or self-directed learning.
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WMO Global Campus resources provided on this Site are provided “as is”, without warranty of any kind, either express or implied, including, without limitation, warranties of merchantability, fitness for a particular purpose and non-infringement. The WMO specifically does not make any warranties or representations as to the accuracy or completeness of any such resources.
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Reservoir Pool Elevation: Considerations for Long-term Asset Management and Planning
Long-term management of critical water resources infrastructure needs to incorporate projected changes to environmental conditions. Reservoirs form the heart of water resource assets. Long-range plans for the repair, replacement, maintenance and renovation of these facilities depend on accurate projections of reservoir pool elevations. Environmental conditions, in turn, dictate the magnitude and timing of inflows and outflows from reservoirs, and thus the resulting water surface elevation. This lesson explores the factors that affect reservoir pool elevation and the considerations and challeng ...
Introduction to Tropical Meteorology, 2nd Edition: Chapter 7: Synoptic and Mesoscale Systems
In this chapter, we examine the wide-variety of synoptic and mesoscale weather systems that affect the tropics, including, tropical easterly waves, upper tropospheric troughs, monsoon depressions, subtropical cyclones, westerly wind bursts, and cold fronts. Extratropical interactions, such as those caused by Rossby wave trains and the MJO, are examined. The chapter presents a review of thunderstorms and lightning. The structure, formation mechanisms, and impacts of mesoscale convective systems are examined. The distribution of lightning globally and within mesoscale systems is examined. Mesosc ...
North Wall Effects on Winds and Waves
North Wall events refer to high wind and wave events that occur along the north edge of warm, fast, western boundary currents. These events occur along the Gulf Stream off the mid-Atlantic states of the U.S. and along the Kuroshio Current near Japan and Taiwan. This module explores the relationships between atmospheric stability, winds, waves, and ocean currents during North Wall events. Using three different case studies, we examine the relevant aspects of several topics, including the synoptic setting, ocean currents, evolution of the marine boundary layer, growth of ocean waves, and potenti ...
Introduction to Tropical Meteorology, 2nd Edition, Chapter 9: Observations, Analysis, and Prediction
The chapter describes the challenges of tropical weather forecasting. We examine types of observations and weather analysis techniques used by tropical forecasters. Those analysis tools are applied to examples of tropical synoptic weather systems as well as mesoscale analysis and nowcasting. The last three sections focus on numerical weather prediction (NWP) including: the fundamentals, data assimilation, comparisons of statistical and dynamical models, ensemble techniques, cumulus convection in NWP, tropical cyclone prediction, and methods of forecast verification and validation. We have spec ...
Vorticity Minima and Anticomma Patterns
Vorticity minima signatures are common features of the atmosphere. They indicate areas of descending circulation and atmospheric forcing and can be used to diagnose dynamic features such as the axis of maximum winds and deformation zones. This module provides insight on the analysis of these dynamic atmospheric features. This module is part of the series: "Dynamic Feature Identification: The Satellite Palette".
Mesoscale Aspects of Winter Weather Forecasting Topics
The Mesoscale Aspects of Winter Weather Forecasting effort is comprised of a growing series of in-depth case exercises bundled with supporting topics. This site provides access to the supporting topics seperate from the case exercises.
Topics in Dynamic Meteorology: Thermal Wind
This lesson explores the dynamic links between temperature, pressure, and wind in the atmosphere. The qualitative description of the relationships is augmented with "Math Sidebars" that provide a quantitative treatment. Numerous applications to climatology and forecasting conclude the module.
The Structure of the NWS Fire Weather Program
The Structure of the NWS Fire Weather Program explores the joint agreement between NOAA’s NWS and land management agencies to develop an appreciation of the contribution each agency makes in providing the best possible fire weather services. As part of the Advanced Fire Weather Forecasters Course, this module focuses on the NWS Fire Weather Program itself to set the stage for other course modules.
Interviews with Frank Leitz, Senior Chemical Engineer, Bureau of Reclamation
In these three short video interviews, Frank Leitz, Senior Chemical Engineer with the Bureau of Reclamation shares stories and lessons learned from his work on water purification and desalination projects. In the first video, “Lessons-learned: Cost-modeling for Desalination Projects”, Frank shares some historical lessons from his experience estimating the cost of desalination projects. In the second video, “The Pioneering Role of the Yuma Desalting Plant in Large-Scale Membrane Desalination”, Frank provides some interesting background to the story of the creation of this historic and innovativ ...
Forecasting Aviation Icing: Icing Type and Severity
This module discusses the current theories of atmospheric conditions associated with aircraft icing and applies the theories to the icing diagnosis and forecast process. The contribution of liquid water content, temperature, and droplet size parameters to icing are examined. Identification of icing type, icing severity, and the hazards associated with icing features are presented. Tools to help diagnose atmospheric processes that may be contributing to icing and the special case of supercooled large drop (SLD) icing are examined and applied in short exercises. The use of graphics, animations, ...
The Value of Accurate Water Levels
NOAA’s Center for Operational Oceanographic Products and Services (CO-OPS) operates the National Water Level Observation Network (NWLON) a system of water level sensors, that form the backbone of our nation’s coastal observation infrastructure. This short video, intended for decision makers and the general public, describes the value of accurate NWLON water level data provided by CO-OPS.
GOES-R Series Faculty Virtual Course: Aviation Products
In this webinar recording, Amanda Terborg (with input from Dr. Chad Gravelle), will demonstrate the capabilities of GOES-R/16 in analyzing hazards affecting the aviation industry. The talk focuses specifically on four hazards (but there are others): 1) fog and low stratus, 2) in-flight turbulence, 3) dust, and 4) volcanic ash. Through the use of GOES-R/16 spectral bands, band differences, and RGB composites, satellite data users can detect the development and evolution of aviation threats better than with any previous geostationary satellites. This is a recorded webinar presented by an instruc ...
GOES-16 Case Exercise: 8 May 2017 Colorado Hail Event
GOES-16, the first satellite in the GOES-R series, launched in November 2016 and now provides 16 multispectral bands of satellite data, including CONUS scans every five minutes, with 0.5 kilometer visible imagery resolution and 2.0 km longwave infrared resolution. This lesson harnesses GOES-16’s increased temporal and spatial resolutions to identify convective development and intensity signatures on traditional longwave IR and visible band imagery, and compares the experience to using legacy GOES products. The lesson is geared toward early-career forecasters, those forecasters wanting more exp ...
Should Synopticians Worry About Climate?
This lecture was presented during the ongoing workshops on Climate Variability that are part of the NWS Climate Professional Development Series. During the presentation, Dr. Sardeshmukh presents statistical evidence that demonstrates the impact that climate variability has on weather. The Webcast has an accompanying bibliography and climate glossary.
Freezing and Melting, Precipitation Type, and Numerical Weather Prediction
This Webcast is based on a COMET classroom presentation by Dr. Gary Lackmann at the 2nd MSC Winter Weather Course held in Boulder, Colorado on 22 February 2002. Dr. Lackmann reviews the basic thermodynamics of freezing and melting and how operational models represent these processes. He also touches upon the biases that occur in the models by looking at examples of melting snow aloft, melting snow at the surface, freezing aloft (ice pellets), and freezing rain. Dr. Lackmann is a faculty member in the Department of Marine, Earth, and Atmospheric Sciences at North Carolina State University.
Introduction to Hydrography
This module describes hydrography pertaining to nautical charting and navigation. It covers how nautical charts are created, who creates them, the products available, and how to find and use them.
Precipitation Estimates, Part 2: Analysis
This is part two of a two-module series on estimation of observed precipitation. Through the use of rich illustrations, animations, and interactions, this module provides an introduction to the science behind successful application of the products and tools available through the NWS Multisensor Precipitation Estimator (MPE) software and related products. An overview is presented of the key fields available in MPE along with illustrations of their use. These include radar, gauge, satellite, bias-adjusted radar, and multisensor fields of precipitation accumulation along with data displays and ta ...
Shallow Water Waves
This is the fourth lesson in our series on open water waves. As deep-water waves approach the coastline, they encounter shallower water and begin to interact with the sea floor while evolving into shallow water waves. This lesson uses an interactive wave calculator to look at a variety of shallow-water wave behaviors, including shoaling, refraction, reflection, breaking, attenuation, and coastal run-up and set-up. All are important considerations when forecasting for small craft and other recreational interests in the near-shore environment.
Climate and Water Resources Management, Part 2: General Principles in Integrating Climate Change
This lesson describes a common approach used by the United States Bureau of Reclamation to scope a study on integrating climate change information into water resources management and planning. Learners will become familiar with the types of questions that must be addressed for considering climate change impacts when scoping their study. Examples are given for several different water resources mission areas. Note that this is the second of a two lesson series, the first one is titled, "Climate and Water Resources Management, Part 1: Climate Variability and Change."
Climate and Water Resources Management, Part 2: General Principles in Integrating Climate Change
This lesson describes a common approach used by the United States Bureau of Reclamation to scope a study on integrating climate change information into water resources management and planning. Learners will become familiar with the types of questions that must be addressed for considering climate change impacts when scoping their study. Examples are given for several different water resources mission areas. Note that this is the second of a two lesson series, the first one is titled, "Climate and Water Resources Management, Part 1: Climate Variability and Change."
Hurricane Strike!™
Designed primarily for middle school students and funded by FEMA and the NWS, this module creates a scenario to frame learning activities that focus on hurricane science and safety. Versions are also available for hearing, motor, and visually impaired students, as well as Spanish-speaking students. Over the course of seven days, Hurricane Erin forms in the Atlantic Ocean, crosses the Florida peninsula, and then makes another landfall at Fort Walton Beach. During these days, the learner is introduced to many basic concepts of atmospheric science, climate, and geography, while also learning some ...
Weather Observing Fundamentals
"Weather Observing Fundamentals" provides guidance for U.S. Navy Aerographer's Mates, Quartermasters, and civilian observers tasked with taking and reporting routine, special, and synoptic observations. Although the focus of this lesson is on shipboard observations, much of the content applies to land-based observing and reporting as well. The lesson details standard procedures for taking accurate weather observations and for encoding those observations on COMNAVMETOCCOM Report 3141/3. Exercises throughout the lesson and four weather identification drills at the end provide learners with oppor ...
Introduction to Tropical Meteorology, 2nd Edition, Chapter 3: Global Circulation
The chapter begins with a review of the general principles of atmospheric motion including scale analysis of tropical motions. An overview of the general circulation of the atmosphere and ocean is presented including stratospheric general circulation. Special emphasis is given to the Hadley circulation including its maintenance, seasonal migration, northern and southern hemispheric differences, and the contrast between tropical and midlatitude wind systems. Tropical circulations are examined in a theoretical framework as responses to heating at the equator. Regional monsoons, their conceptual ...
SatFC-J: The VIIRS Day/Night Band
This lesson introduces the innovative Day/Night Band (DNB). Producing both daytime and nighttime visible images, the unique aspect of the DNB is its nocturnal low-light imaging capability. It views reflected moonlight from clouds and Earth's surface, surface light emissions from various natural sources (such as fires) and anthropogenic sources (such as city lights and gas flares), and even from certain atmospheric light emissions such as the aurora, airglow, and lightning flashes. The lesson describes the capabilities and benefits of the DNB, in particular using the Near-Constant Contrast (NCC ...
Deformation Zone Diagnosis
Following an analysis of the main features of a deformation zone, the diagnosis of temporal and spatial changes in these features can be used to deduce underlying meteorological processes and their progression. In turn, this knowledge can then be used in the forecast process to adjust the forecast accordingly. This module takes 35-45 minutes to complete. It is part of the series: "Dynamic Feature Identification: The Satellite Palette".
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