21. Climatology And Meteorology meteorology Federal Meteorological Handbook 1 Table of Contents October 1995. HeatIndex Chart. ozone Depletion ozone Depletion issue and NOAA. Severe Weather http://www.uwsp.edu/geo/internet/climate.html

Climatology and Meteorology Resource s Last revised March 31, 2003 Choose one of the topics below: Atmospheric Chemistry and Composition Data Resources Ocean Data Physical Geography Resource Page ... UW-SP Geography/Geology Education Page: More Educational Resources related to Weather and Climate Atmospheric Chemistry and Composition Carbon Dioxide Carbon Dioxide Information Analysis Center - Links to reports and data concerning atmospheric carbon dioxide. Access to "Trends: A compendium of Data on Global Change" NOAA OACES CO Group - Information about sources and sinks of carbon dioxide in th eocean. The group collects data on both atmospheric and oceanic carbon dioxide. Global Fossil Fuel Emissions: 1860-1989 - Link to Carbon Dioxide Information Analysis Center FTP directory. Global, Regional and National Fossil Carbon Emissions: 1950-1990 - Link to Carbon Dioxide Information Analysis Center FTP directory Methane Resources to come Ozone Global Ozone Variations, 1958-1986 - Link to Carbon Dioxide Information Analysis Center FTP directory Meteor-3 TOMS Data - Link to Carbon Dioxide Information Analysis Center FTP directory Nimbus-7 TOMS Data - Link to Carbon Dioxide Information Analysis Center FTP directory Particulates Lamb's Dust Veil Index, 1500-1983

22. U.S. EPA: Ozone Depletion Science depletion, images and animations of ozone levels and ozone depletion, and international organizations ozone Images from the Department of meteorology, University of Reading, UK http://www.epa.gov/ozone/science

Ozone Depletion Recent Additions Contact Us Print Version Search: EPA Home Ozone Depletion Glossary About Us ... Fun Stuff The Science of Ozone Depletion Ozone depletion is the result of a complex set of circumstances and chemistry. This page has links to articles that give overviews or broad information , shorter pieces that focus on specific aspects of ozone depletion images and animations of ozone levels and ozone depletion, and international organizations that issue regular updates. Please note that this site is intended only to provide general information about the science of ozone depletion. Therefore, it is written without detailed citations of original research. If you need such references, please see either the answers to frequently asked questions , by Robert Parson, or NASA's Ozone Resource File , both of which provide detailed information and full citations to original papers. You can also find many original papers at the

23. Meteorology is impossible to separate Chapman s contributions to the fields of meteorology andaeronomy photochemistry of atmospheric oxygen as it applies to ozone, and his http://www.gi.alaska.edu/chapman/meteorology.html

Meteorology Bernard Haurwitz National Center for Atmospheric Research Boulder, Colorado Benson Fogle Geophysical Institute University of Alaska College, Alaska Chapman's meteorological studies and his impact on meteorology are more than enough to secure him a position of lasting influence in this field, even though his major interests are concentrated on other branches of terrestrial and space physics. Along with many others he felt that the word "meteorology" is an inappropriate name for this field, and in a letter published in 1946 entitled "A Plea for the Abolition of Meteorology" he suggested that it be renamed "aeronomy." As this suggestion was not accepted by meteorologists, he proposed later that the term "aeronomy" be adopted for the science of that part of the upper atmosphere "where dissociation and ionization become important." It is impossible to separate Chapman's contributions to the fields of meteorology and aeronomy, since they overlap, but three of his accomplishments of particular interest to modern meteorologists may be singled out for special mention. These are his work on diffusion in the earth's atmosphere, his studies of the photochemistry of atmospheric oxygen as it applies to ozone, and his work on atmospheric tides and oscillations. Among Chapman's many papers applying diffusion theory to stellar and planetary atmospheres, special mention must be made of his and Kendall's theory of the origin of noctilucent clouds, published in 1965. This theory, based on a systematic investigation of the upward diffusion of water vapor and the downward diffusion of meteoric dust, attributes the appearance of these clouds to the simultaneous occurrence of a descent of the turbopause to the mesopause, a low mesopause temperature, and the presence of moist air below the mesopause. While acceptance of their theory will depend on the observation of the three required conditions when noctilucent clouds are present and absent, the theoretical discussion of the diffusion and convection and of their effect on the formation of noctilucent clouds will remain a guide for future studies.

24. SEMCOG Ozone Action FAQS The ozone Action meteorology team is led by meteorologists from the State of MichiganDepartment of Environmental Quality and includes meteorologists from AIR http://www.semcog.org/Services/OzoneAction/FAQS.htm

home services ozone action faqs Have an Ozone Action question? Check out our FAQs for an answer. Ozone Action! Today's Air Quality How to Take Action Teachers ... Contact Us Ozone Action! Frequently Asked Questions What is Ozone Action? Ozone Action is a voluntary emissions reduction initiative that asks people to do what they can to reduce pollution on the days it counts the most. Ozone Action tips keeps tons of ozone-forming pollutants out of the air we breathe and helps to keep air cleaner. Southeast Michigan has been taking Ozone Action since 1994. Is ozone a health problem? It depends on where it is. At ground level, excess ozone is a human health threat, causing lung problems and eye irritation. Everybody is vulnerable to ozone's affects, but children, the elderly, people with respiratory conditions, and those who work, exercise, or play strenuously outdoors are particularly at risk. In the stratosphere, however, the ozone layer acts as a shield, protecting us from harmful ultraviolet rays. Ozone Action addresses the importance of preventing the formation of ground-level ozone and protecting public health. When is Ozone Action season in Southeast Michigan?

25. POP - Pannonian Ozone Project (IMP-BOKU Environmental Meteorology) of summer ozone levels in Northeastern Austria. The project was carried out bythe Austrian Research Centre Seibersdorf, the Institute for meteorology and http://www.boku.ac.at/imp/envmet/pop.html

IMP Institute of Meteorology and Physics University of Agricultural Sciences , Vienna, Austria Environmental Meteorology Group Project Catalogue Publications related to this project Project: Pannonian Ozone Project (POP) Staff: Andreas Stohl, Gerhard Wotawa Co-operation: Austrian Environmental Protection Agency Austrian research Centre Seibersdorf Seibersdorf RIVM, Netherlands Summary: The Pannonian Ozone Project (POP) was initiated in 1993 with the aim to develop scientific tools to support the planning process for the reduction of summer ozone levels in North-eastern Austria. The project was carried out by the Austrian Research Centre Seibersdorf, the Institute for Meteorology and Physics (University for Agricultural Sciences, Vienna) and the Austrian Federal Environment Agency. POP was funded by the Austrian Federal Ministries for Science and Traffic Affairs, for Environment, Youth and Family, and for Agriculture and Forestry as well as by the Provinial Governments of Vienna, Lower Austria and Burgenland. After 3 years of work the project has achieved the following results: A harmonized data set of air quality measurements from fixed monitoring stations and two aircrafts from two summers in the study area.

26. VOTALP (IMP-BOKU Environmental Meteorology) Project VOTALP Vertical ozone Transports in the Alps. What is the contributionof stratospheric intrusions to Alpine ozone concentrations? http://www.boku.ac.at/imp/envmet/votalp.html

IMP Institute of Meteorology and Physics University of Agricultural Sciences , Vienna, Austria Environmental Meteorology Group Project Catalogue Publications related to this project Project: VOTALP - Vertical Ozone Transports in the Alps For detailed information, visit the VOTALP home page Staff: Co-operation: Summary: VOTALP is a EU research project started in April 1996. The four major questions of VOTALP are: What is the contribution of stratospheric intrusions to Alpine ozone concentrations? How important is the advection of polluted air towards the Alps, for instance during foehn, and how is the air brought down into the valleys? How important is the in-situ production of photooxidants in Alpine valleys? What is the effect of exchange processes between the valley atmosphere and the free troposphere on the ozone concentrations in the valleys and in the free troposphere? VOTALP combines measurements with model simulations to provide answers to these questions. The follow-up project VOTALP-2 is being carried out in the period April 1998 - March 2000. Publications Project Catalogue Top of page Last update: 10 Nov 1998 by P. Seibert

27. Books About Weather/Meteorology concise, accurate treatment of introductory meteorology while integrating currentand relevant environmental issues such as stratospheric ozone depletion and http://books.weatherimages.org/

The following books are all about some aspect of meteorology. If you are interested in meteorology as either a hobby or a profession, I encourage you to take a look at these books and maybe even buy one:-) Just click on the picture of the book to bring up another page with prices, reviews, and other info about that product. There are 42 books listed here. Enjoy! This book reflects the full scope of modern dynamic meteorology, while providing a coherent presentation of the fundamentals. The text emphasizes physical principles rather than mathematical elegance. This highly acclaimed book, created for the enthusiastic students who begin to study meteorology offers a rigorous mathematical and physical treatment of the dynamics, thermodynamics and hydrodynamics of the troposphere. It also provides the indispensable background in mathematics and physics to understand the theory of atmospheric motion. Among the topics discussed are the equations of motion in inertial coordinates, meteorological equations of motion, air in motion:models of the winds, vorticity and circulation, atmospheric energetics and atmospheric wave motion. With numerous problems in each section to develop and reinforce the study. Suitable for introductory graduate and advanced undergraduate courses in atmospheric science and oceanography, this text provides a systematic approach to the thermodynamics of the atmosphere and the ocean and their relationship. Appendices list notation, physical constants, units and their SI equivalents, several tables, and properties of seawater. Selected answers are provided to chapter-end problems.

28. Meteorology - Wikipedia, The Free Encyclopedia of engineering than to meteorology, it is clear that meteorology has taken accurateand understandable information about topics like the ozone layer, climate http://en.wikipedia.org/wiki/Meteorology

Meteorology From Wikipedia, the free encyclopedia. Server will be down for maintenance on 2004-06-11 from about 18:00 to 18:30 UTC. Meteorology is the study of the atmosphere that focuses on weather processes and forecasting. Meteorological phenomena are observable weather events which illuminate and are explained by the science of meteorology. Those events are bound by the variables that exist in Earth 's atmosphere. They are temperature pressure water vapor , and the gradients and interactions of each variable, and how they change in time. The majority of Earth's observed weather is located in the troposphere Meteorology, climatology atmospheric physics and atmospheric chemistry are sub-disciplines of the atmospheric sciences Table of contents 1 History of meteorology 2 Meteorology and climatology: some challenges for this century 2.1 Possibilities for future improvements 3 Meteorological topics and phenomena ... edit History of meteorology Also refer to the timeline of meteorology The term meteorology goes back to the book Meteorologica (about 340 BC ) by Aristotle , who combined observations with speculation as to the origin of celestial phenomena. The

29. Correlation Of Ozone And Meteorology With Hydrogen Peroxide In Urban And Rural R 8, pp. 1890–1904. Correlation of ozone and meteorology with Hydrogen Peroxidein Urban and Rural Regions of North Carolina. Viney P. Aneja and Mita Das http://ams.allenpress.com/amsonline/?request=get-abstract&issn=1520-0450&volume=

30. Relations Between Meteorology And Ozone In The Lake Michigan Region 34, No. 3, pp. 670–678. Relations between meteorology and Ozonein the Lake Michigan Region. Steven R. Hanna and Joseph C. Chang http://ams.allenpress.com/amsonline/?request=get-abstract&issn=1520-0450&volume=

31. CRC For Southern Hemisphere Meteorology of modelling is also an important activity of the meteorology CRC. New methodsare presently being developed for the retrieval of ozone concentrations from http://www.environmentdirectory.com.au/research/crcshm.html

Cooperative Research Centre for Southern Hemisphere Meteorology The Centre was established in July, 1993 under the Australian Government's Cooperative Research Centres Program . The centre brings together Monash University , the Bureau of Meteorology , the CSIRO Divisions of Atmospheric Research and Telecommunications and Industrial Physics and Silicon Graphics Pty Ltd/Cray Research in a collaborative program of meteorological research and education. Located at Monash University, the CRC is one of the principal centres in Australia for research and graduate training in the Meteorological Sciences. Our understanding of climate variability and global change comes from many sources: studies of past changes in the atmosphere and climate, data from current observing systems and field experiments, and simulations involving mathematical models. Each contributes to our knowledge of the fundamental processes that control the physical, chemical and biological components of the Earth system. Understanding these processes is essential for improving the predictive models being developed to aid society and to assist policy makers to plan for and minimise global change. Our Centre is contributing to the international research effort to improve the understanding of some of the key processes that govern the current state of the atmosphere and its variability. What is the Meteorology CRC?

32. OMI-URD: Operational Meteorology Requirements Table 3.2 Threshold user requirements for operational meteorology. Total ozone,A, 1, better than IASI, 250 × 250, 125 × 125, n/a, 3, NWP; analysis of UV http://www.knmi.nl/onderzk/atmosam/English/WorkingGroups/OMI/omi/node4.html

Next: Climate Monitoring Requirements Up: OMI-URD Previous: OMI Mission Objectives Subsections Numerical Weather Prediction Other Forecasting Applications 3 Operational Meteorology Requirements As indicated earlier the OMI mission objectives in the area of operational meteorology are envisaged to comprise the provision of data to improve Numerical Weather Prediction (NWP), the analysis of ultraviolet radiation levels and the monitoring and prediction of the evolution of volcanic clouds. The operational meteorological application differs from other applications of OMI data in several ways: a) The timely delivery of the data is essential. If the data are not delivered in time the observations soon loose their value. b) These data will be assimilated completely automatically as large amounts of data are involved (though there is quality control through computer generation of data quality and error statistics). c) Subtle trends in the data caused by ageing of the equipment are not a major concern for numerical weather forecasting. At this moment it is still unclear whether it will be better to assimilate retrieved products (i.e. ozone profiles and columns, columns of other trace gases and aerosols, etc.) or the observed radiances directly into the weather forecast models. This question will have to be addressed in the coming years. In the following discussion it is assumed that retrieved products will be used.

33. NASA Fact Sheets These complex models can also be used to investigate links between atmospheric chemistryand meteorology, such as what effect changes in ozone amounts may have http://www.gsfc.nasa.gov/gsfc/service/gallery/fact_sheets/earthsci/ozonestu.htm

NASA's OZONE STUDIES Two decades ago, stratospheric ozone depletion was mainly of interest to atmospheric scientists. Today, it is a worldwide environmental concern that has been addressed by several international accords. Ozone depletion epitomizes the environmental problems humans face today: it is global and the direct but unintended result of human industry. Remedying it will have direct and indirect economic consequences. Since the mid-1970s, NASA has been in the forefront of research with space-based, airborne and ground-based observing programs. Ozone, a molecule made up of three oxygen atoms, shields life on Earth from the harmful effects of the ultraviolet radiation of the sun. The increased amounts of ultraviolet radiation that would reach the Earth's surface because of ozone depletion could increase the incidence of skin cancer and cataracts in humans, harm crops and interfere with marine life. Because the risks of increased ultraviolet radiation are very serious, scientists around the world are working to determine how much of the ozone-related change in the atmosphere is caused by humans and how much is attributable to natural processes, such as shifts in atmospheric dynamics, volcanic activity or cyclical changes in solar energy. Studies have shown that ozone depletion is caused by complex, coupled chemical reactions. Emissions of human-made chlorofluorocarbons (CFCs), which break down into other ozone-depleting forms of chlorine, have led to depleted atmospheric ozone. The continued build-up of CFCs, historically used in refrigeration, electronics and insulating materials, could lead to additional ozone loss worldwide. Further research is essential to provide the necessary understanding of the causes of ozone depletion.

34. Department Of Meteorology - Ozone Data GOME ozone images. http://www.met.rdg.ac.uk/Data/Global/ozone/

Search: Location: Met Dept home Weather Home Global : Ozone GOME ozone images Northern Southern Tel: +44 (0)118 378 8954 Fax: +44 (0)118 378 8905 Find Us (Postal Address, Maps, Etc) Email: infosec@met.rdg.ac.uk Maintained By: webbie@met.rdg.ac.uk

35. Radiation And Climate Group, Dept. Meteorology, Univ. Reading The recovery of the ozone layer, however, may be delayed due to chemistry Departmentof meteorology, University of Reading, Earley Gate, PO Box 243, Reading RG6 http://www.met.rdg.ac.uk/~radiation/research2.html

Our research Radiative processes in the atmosphere Building a climatology of surface ultraviolet radiation Examining uncertainties in absorption of solar radiation The radiative effects of soot aerosols Radiative forcing of climate change Causes of temperature changes near the tropopause Evaluating metrics of climate change Radiative forcing due to ozone Radiative forcing due to anthropogenic aerosol Adding ozone chemistry to the IGCM Radiative forcing due to CFC substitutes Radiative processes in the atmosphere: Building a climatology of surface ultraviolet radiation (Piers) High doses of ultraviolet radiation can have serious medical implications. This page gives climatological daily integrated surface UV data for various biological integrations of UV irradiances. Examining the uncertainties in the clear-sky absorption of solar radiation in the atmosphere (Igor and Sophie) Questions have been raised about previous databases of water vapour absorption in the 1-4 micron region. New laboratory measurements of collision-induced absorption by oxygen in the near infra-red have been made. Their effects on estimates of atmospheric absorption are being assessed. The radiative effects of soot aerosols (Ben) I spend my days wondering about soot particles. Soot, being black, absorbs sunlight and therfore heats up the atmosphere. For starters this amounts to a direct warming of the climate, for seconders this extra heating might contribute to a reduction in cloud cover whereby clouds get frazzled and disappear!

36. The Dependence Of Monitored Ozone Levels On Meteorology And Nitrogen Oxide Conce The dependence of monitored ozone levels on meteorology and nitrogen oxide concentrationsin SW Indiana and NW Kentucky Joanne M. Alexandrovich ozone Officer http://vchd.evvindiana.org/alexmssdoc.html

The dependence of monitored ozone levels on meteorology and nitrogen oxide concentrations in SW Indiana and NW Kentucky Joanne M. Alexandrovich Ozone Officer, Vanderburgh County Health Department, 1 NW M.L. King Jr. Blvd, Evansville, IN 47708 o3office@evansville.net ABSTRACT , and NO x ) and meteorological variables (wind direction and speed, temperature, humidity, pressure, and solar radiation) were examined. Several identifiable weather patterns were found to produce ozone events (high monitored maximum ozone levels lasting one or two days), and ozone episodes (high monitored maximum ozone levels lasting three days or more). However, no other clearly limiting condition to ozone formation was identified although NOx, temperature, humidity and solar radiation vary predictably with ozone variations. Locally, ozone dissociation by NO emitted from mobile sources is an important factor mitigating high ozone levels. INTRODUCTION The City of Evansville, located on the Ohio River in Vanderburgh County Indiana, is the urban hub of southwestern Indiana. The Evansville Metropolitan Statistical Area (MSA), which also includes the City and County of Henderson Kentucky, and the Indiana counties of Posey and Warrick, is home to approximately 300,000 people. Around the main cities of Evansville and Henderson, one finds manufacturing industries and suburban developments dispersed among agricultural lands. Vanderburgh County was designated as a marginal ozone nonattainment area in 1992 In recent years, area ozone monitors have recorded several exceedances but no violations of the one-hour ozone standard, however, as of 1999, seven out of the area eight area monitors have recorded violations of the new eight-hour standard.

37. Resources For Teaching Meteorology Lights. The Atmosphere. Current Air Pollution Readings National readingson air pollution; ozone Depletion Information from the EPA; http://www.csun.edu/~vceed002/geoscience/meteorology/

Chapters: Sourcebook for Teaching Science (1) Thinking Scientifically (2) The Science Curriculum (3) The Language of Science (4) Communicating Concepts (5) Problem Solving in Science (6) Science Activities and Projects (7) The Science Laboratory (8) Professional Issues Internet Resources for Teaching Science Resources for Teaching Biology Resources for Teaching Chemistry Resources for Teaching Physics Resources for Teaching Geoscience Resources for Teaching Health Lesson Development Science Laboratory Professional Development Science Education at CSUN Teaching Resources The Atmosphere Weather in California US/Intl.Weather ... Lessons/Activities Teaching Resources The Weather Channel: Automated Weather Source : Worldwide weather and teaching resources The Aurora Page : Information on the Northern Lights The Atmosphere Current Air Pollution Readings : National readings on air pollution Ozone Depletion : Information from the EPA Air Pollution : EPA resources on air quality and pollution NOAA : National Oceanic and Atmospheric Administration Climatic Monitoring Laboratory : Monitoring of greenhouse gases, aerosols, ozone, etc.)

38. Ozone Phenomenology And Meteorology In The Western Mediterranean During The Warm ozone Phenomenology and meteorology in the Western Mediterranean duringthe Warm Season results from European Projects. Gotzon Gangoiti http://ies.jrc.cec.eu.int/Units/cc/events/torino2001/torinocd/Documents/Urban/UO

List Articles by: Session Author Number or Keywords Ozone Phenomenology and Meteorology in the Western Mediterranean during the Warm Season: results from European Projects Gotzon Gangoiti, Millán M. Millán, Rosa Salvador and Enrique Mantilla FUNDACIÓN C.E.A.M. Parque Tecnológico, C/ Charles Darwin, 14. E-46980 Paterna, Valencia, Spain.  E-mail address: Gotzon@ceam.es Introduction temperature observed during the flight tracks. Flight data were gathered on 16, 18 and 19 July 1991. Mesoscale model evaluations and data are compared to substantiate the modelling results. Grid selection and spatial resolution are also discussed. Results during the flight campaign and model simulations E uropean C entre for M edium-range W eather F orecast (ECMWF) analysis data (1º horizontal long-lat resolution) at 0000, 0600, 1200 and 1800 UTC. Topography and land use were interpolated to the model grids from the global 30’’ lat-long data sets Figure 2: Horizontal winds and O3 concentrations at marked flight tracks (100-200 m MSL) during the morning-to-afternoon transition (left) and during the afternoon/evening (right). UTC flight time is shown for every sub-track; wind scale is depicted in the lower-right corner. The Gulf of Lyon jet brings 50-60 ppb of O3 of continental origin (morning). An individual peak is observed in the southern tracks of the morning flights. During the afternoon , the diurnal anticyclonic circulation in the WMB tends to pile up the O3 in the northern flight tracks.

39. FMI - Research - Meteorology In respect of ozone and climate change research see also headings Middleand upper atmosphere and Climate change . Climate. ozone. http://www.fmi.fi/research_meteorology/meteorology.html

Research Meteorology Climate Energy ... Polar research Meteorological Research The basic goal of the meteorological research is to understand why the atmosphere behaves as observed. Another purpose of the research is to create necessary qualifications and tools for the institute's service activities, which benefit both the society and economy of the country. Internationality is one of the characteristics of our research. Here, as in other projects, we cooperate with other Nordic and European partners. The academic meteorological education in Finland is given by the Meteorological Department of the Helsinki University, which is the other center of the meteorological research in Finland. The research unit has its premises in the centre of Helsinki. There are about 40 persons out of which 80% have acquired an academic education. 14 researchers have PhD degree. Roughly one quarter of the funding comes from external sources where the EU based source is a substantial one. The research is concentrated on current topics described below. In respect of ozone and climate change research see also headings Middle and upper atmosphere and Climate change Climate.

40. Martindale's Calculators On-Line Center: Weather, Meterology, Climatology For more information see meteorology Understanding the Atmosphere or WeatherWise ozoneTODAY S ozone CALCULATIONS ozone ANALYSIS TODAY S ozone FROM EARTH http://www.martindalecenter.com/CalculatorsD_Wea.html

M ARTINDALE'S C ALCULATORS O N- L INE C ENTER WEATHER - METEOROLOGY - CLIMATOLOGY US/Pacific: Thursday, June 10, 2004 Sydney, Australia: Friday, June 11, 2004 File Download Time Calculator Author, ... Calculators ATMOSPHERE/WEATHER SIMULATIONS A CONVECTIVE STORM MATRIX: BUOYANCY/SHEAR DEPENDENCIES or the University Corporation for Atmospheric Research Some examples from over "15" other Simulation Modules include An MCS Matrix Gap Winds Sea Breezes ATMOSPHERE/WEATHER CALCULATIONS AIR DENSITY AND DENSITY ALTITUDE CALCULATORS - R. Shelquist, Longmont, Colorado VERY EXTENSIVE. For more information see Calculators or Richard Shelquist Home Page ATMOSPHERE COMPUTATIONS: STANDARD - LDS Vacuum Products, Inc., Altamonte Springs, Florida For more information see Technical Information or LDS Vacuum Products, Inc., ATMOSPHERE COMPUTATION: STANDARD - Aircraft Aerodynamics and Design Group, Department of Aeronautics and Astronautics, Stanford University Multimedia. Enter the Altitude in Feet, do not use coma. Computation currently will give you: Density, Temperature, Pressure, K. Viscosity and Sound Speed. For more information see Aircraft Aerodynamics and Design Group, Department of Aeronautics and Astronautics, Stanford University

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