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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 ...
Available online: https://www.meted.ucar.edu/training_module.php?id=1310
Published by: The University Corporation for Atmospheric Research ; 2018
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) product, available in the NWS' AWIPS-2 (Advanced Weather Interactive Processing System). It also explores key features that can be seen in DNB imagery throughout the lunar cycle, and some practical uses of this imagery. This lesson is part of the Satellite Foundational Course for JPSS (SatFC-J).
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 ; Aurora ; Fog ; Lesson/ Tutorial ; Arctic ; Satellite Skills and Knowledge for Operational Meteorologists
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Advances in Space-Based Nighttime Visible Observation, 2nd Edition
This updated one-hour lesson explores the types of atmospheric and surface features that can be observed at night. It describes recent technical improvements in nighttime visible imaging with the VIIRS Day/Night Band on board the Suomi NPP and JPSS satellites, and the lunar phases and other conditions necessary for effective nighttime visible imaging. This lays the foundation for the rest of the lesson, which explores operational uses of nighttime visible observations. These include the detection and monitoring of city lights, tropical cyclones, fog and stratus, polar nights, auroras, fires an ...
Available online: https://www.meted.ucar.edu/training_module.php?id=1327
Published by: The University Corporation for Atmospheric Research ; 2017
This updated one-hour lesson explores the types of atmospheric and surface features that can be observed at night. It describes recent technical improvements in nighttime visible imaging with the VIIRS Day/Night Band on board the Suomi NPP and JPSS satellites, and the lunar phases and other conditions necessary for effective nighttime visible imaging. This lays the foundation for the rest of the lesson, which explores operational uses of nighttime visible observations. These include the detection and monitoring of city lights, tropical cyclones, fog and stratus, polar nights, auroras, fires and smoke, volcanic eruptions, dust storms, air pollution, moon glint, lightning, gas flares, ships and boats, and population/economic geography. The lesson is intended for weather forecasters and other environmental scientists who use nighttime environmental data. Other users, such as those in the transportation industry and economists, may benefit from it as well.
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: Air pollution ; Weather forecasting ; Aurora ; Fog ; Lesson/ Tutorial ; Arctic ; Satellite Skills and Knowledge for Operational Meteorologists
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Ship-based Sea and Lake Ice Observing
Ships operating in areas with ice are expected to report conditions as part of standard weather reporting procedures. This lesson is aimed at those tasked with this responsibility, be they official or informal observers. The lesson begins with background information on ice, addressing such topics as where it is found, how it develops, and how to observe and report it. This sets the stage for the lesson’s scenarios, which simulate the experience of being an ice observer in four situations: on the U.S. Coast Guard Cutter Healy operating in the Arctic Ocean, on a container ship transiting the Nor ...
Available online: https://www.meted.ucar.edu/training_module.php?id=1149
Published by: The University Corporation for Atmospheric Research ; 2015
Ships operating in areas with ice are expected to report conditions as part of standard weather reporting procedures. This lesson is aimed at those tasked with this responsibility, be they official or informal observers. The lesson begins with background information on ice, addressing such topics as where it is found, how it develops, and how to observe and report it. This sets the stage for the lesson’s scenarios, which simulate the experience of being an ice observer in four situations: on the U.S. Coast Guard Cutter Healy operating in the Arctic Ocean, on a container ship transiting the North Atlantic shipping lanes, on an oil tanker operating in an area with icebergs, and on the U.S. Coast Guard Cutter Alder breaking ice on Lake Superior. Each scenario provides numerous opportunities to identify and report ice. These reports provide important information about local conditions and are vital to many users - from mariners deciding on route planning and ice monitoring organizations tasked with keeping waterways open to environmental scientists.
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: Sea ice ; Marine meteorology ; Lesson/ Tutorial ; Arctic ; Marine Weather Forecasters
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Arctic drives new era in climate and weather services
The Arctic is changing. Melting sea ice, thawing perma¬frost and a greening tundra are some of the consequences of Arctic temperatures that have been higher in the past few decades than at any other time over the past 2000 years. Unanticipated alterations in weather patterns and ocean currents are driving changes both on land and in the oceans.
Published by: WMO ; 2015
The Arctic is changing. Melting sea ice, thawing perma¬frost and a greening tundra are some of the consequences of Arctic temperatures that have been higher in the past few decades than at any other time over the past 2000 years. Unanticipated alterations in weather patterns and ocean currents are driving changes both on land and in the oceans.
Language(s): English
Format: Digital (Free)Tags: Weather service ; Climate change ; Climate services ; Arctic
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CliC Annual Report
CliC is pleased to release its 2014 Annual Report which summarizers the amazing number of activities that we sponsored, supported, and in many cases, initiated over the past few years. We hope you will take the time to read the achievements, as well as our plans for the coming year(s).
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Available online: https://dx.doi.org/10.5281/zenodo.15879
Published by: WMO ; 2015
CliC is pleased to release its 2014 Annual Report which summarizers the amazing number of activities that we sponsored, supported, and in many cases, initiated over the past few years. We hope you will take the time to read the achievements, as well as our plans for the coming year(s).
Language(s): English
Format: Digital (Free)Tags: Cryosphere ; Permafrost ; Climate ; Arctic ; Antarctica
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The Tiksi International Hydrometeorological Observatory - An Arctic members Partnership
The global community has recognized over the last few years the importance of the weather and climate of the Earth’s Polar Regions.Particularly sensitive to human activities, the Polar Regions have also demonstrated the potential for impacting reciprocally on the livability of the more heavily populated lower and mid-latitudes. In response, the WMO Polar Observations, Research and Services (PORS) was developed to “…promote and coordinate relevant programmes that are carried out in the Antarctic and Arctic regions by nations and by groups of nations.” The Polar Activities resolution of the WMO ...
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Introduction to VIIRS Imaging and Applications
This lesson introduces the VIIRS imager that operates on the current U.S. Suomi NPP satellite and is planned for future JPSS environmental satellites. VIIRS has many advanced features that improve both spectral and spatial resolution and enable the delivery of consistent, high quality, and high resolution data to users worldwide. The lesson covers the enhanced capabilities of VIIRS and highlights some of its applications. These include single channel and multispectral products used to monitor dust, volcanic ash, convection, fog and low clouds, sea surface temperature, tropical cyclones, contra ...
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Arctic Meteorology and Oceanography
Diminishing sea ice has opened the Arctic to navigation and operations like never before. Forecasters are increasingly predicting weather in support of those operations. This module is intended to provide forecasters with a brief introduction to the Arctic, including its geography, climatology, and the forecast problems they are likely to encounter. The module follows a U.S. Coast Guard Cutter on a voyage from Dutch Harbor, in the Aleutian Islands, to Barrow, on the north coast of Alaska. Various topics are addressed along the way in a series of short, stand-alone lessons.
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Arctic Report Card 2012
ssued annually since 2006, the Arctic Report Card (hereafter the Report Card) is a timely and peer-reviewed source for clear, reliable and concise environmental information on the current state of the Arctic relative to historical records. The Report Card is intended for a wide audience, including scientists, teachers, students, decision-makers and the general public interested in the Arctic environment and science.
Comprising 20 essays on different topics in the physical and biological sciences, the Report Card is organized into five sections: Atmosphere; Sea Ice & Ocean; Marin ...
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The recent shift in early summer Arctic atmospheric circulation: in Geophysical Research Letters, vol. 39, L19804
The last six years (2007–2012) show a persistent change in early summer Arctic wind patterns relative to previous decades. The persistent pattern, which has been previously recognized as the Arctic Dipole (AD), is characterized by relatively low sea-level pressure over the Siberian Arctic with high pressure over the Beaufort Sea, extending across northern North America and over Greenland. Pressure differences peak in June. In a search for a proximate cause for the newly persistent AD pattern, we note that the composite 700 hPa geopotential height field during June 2007–2012 exhibits a positive ...
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L'accumulation inquiétante des polluants dans l'Arctique: In lemonde.fr
2012S'il est vrai, comme le pense l'ex-première ministre norvégienne Gro Harlem Brundtland, que "les régions polaires demeurent celles du monde sur lesquelles on a le moins de connaissances", les travaux présentés du 22 au 27 avril à Montréal, lors de la conférence de l'Année polaire internationale 2012, ont permis de mesurer les avancées scientifiques réalisées.
C'est particulièrement le cas pour les études concernant la présence en Arctique de métaux - comme le mercure - et de polluants organiques persistants (POP), dont les impacts sur la santé et l'environnement sont très nocif ...
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On the potential contribution of open lead particle emissions to the central Arctic aerosol concentration
Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 7. Held A.; Brooks I.M.; Leck C.; et al. - Copernicus GmbH, 2011We present direct eddy covariance measurements of aerosol number fluxes, dominated by sub-50 nm particles, at the edge of an ice floe drifting in the central Arctic Ocean. The measurements were made during the ice-breaker borne ASCOS (Arctic Summer Cloud Ocean Study) expedition in August 2008 between 2°–10° W longitude and 87°–87.5° N latitude. The median aerosol transfer velocities over different surface types (open water leads, ice ridges, snow and ice surfaces) ranged from 0.27 to 0.68 mm s−1 during deposition-dominated episodes. Emission periods were observed more frequently over the open ...
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