DOCSLIB.ORG

Radio Aids to Navigation 2017

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Radio Aids to Navigation 2017 Radio Aids to Marine Navigation 2017 (Atlantic, St. Lawrence, Great Lakes, Lake Winnipeg, Arctic and Pacific) EKME #3608779 Radio Aids to Marine Navigation 2017 (Atlantic, St. Lawrence, Great Lakes, Lake Winnipeg, Arctic and Pacific) Published under the authority of: Director General, Operations Fisheries and Oceans Canada Canadian Coast Guard Ottawa, Ontario K1A 0E6 Annual Edition 2017 DFO/2017-1990 Fs151-18E-PDF ISSN: 2371-8935 © Her Majesty the Queen in Right of Canada, 2017 EKME # 3608779 Available on the CCG Internet site: http://www.ccg-gcc.gc.ca/Marine- Communications/Home Disponible en français: Aides radio à la navigation maritime 2017 (Atlantique, Saint-Laurent, Grands Lacs, Lac Winnipeg, Arctique et Pacifique). DFO/2017-1990 RADIO AIDS TO MARINE NAVIGATION 2017 ATLANTIC, ST. LAWRENCE, GREAT LAKES, LAKE WINNIPEG, ARCTIC AND PACIFIC AMENDMENT REGISTER Amendment Register # Date Description Initials 1 July 28th, 2017 NOTMAR 07/2017 RJ 2 August 25th, 2017 NOTMAR 08/2017 RJ 3 September 29th, 2017 NOTMAR 09/2017 RJ 4 October 27th, 2017 NOTMAR 10/2017 RJ Annual Edition 2017 Page i DFO/2017-1990 RADIO AIDS TO MARINE NAVIGATION 2017 ATLANTIC, ST. LAWRENCE, GREAT LAKES, LAKE WINNIPEG, ARCTIC AND PACIFIC TABLE OF CONTENTS Table of Contents PART 1 Foreword 1 1.1 Advance Notices ................................................................................................................1 1.1.1 The Radio Aids to Marine Navigation Annual Publications .....................................1 1.1.2 Ship Radio Inspections ...........................................................................................1 1.1.3 The Canadian Forces Fleet MetOc Broadcast Service ...........................................1 1.1.4 Avoid Collision with Right Whales – Atlantic Ocean ................................................2 1.2 Canadian Maritime Mobile Safety and Public Correspondence Communication Frequencies .......................................................................................................................2 1.3 General Information on MCTS Listings ..............................................................................9 1.4 Telephone / Facsimile/ Telex Directory ............................................................................10 1.5 Joint Rescue Coordination Centre (JRCC) / Maritime Rescue Sub-Centre (MRSC)......... 11 1.6 Icebreaking Services ........................................................................................................12 1.7 Regional Office Addresses...............................................................................................12 1.8 Regional Notices to Shipping (NOTSHIP) Issuing Authorities .......................................... 13 PART 2 Facilities Information 1 2.1 Marine Communications and Traffic Services Centres .......................................................1 2.1.1 Halifax, Nova Scotia ...............................................................................................1 2.1.2 Iqaluit, Nunavut ......................................................................................................7 2.1.3 Labrador (Goose Bay), Newfoundland and Labrador ........................................... 15 2.1.4 Les Escoumins, Québec.......................................................................................19 2.1.5 Placentia, Newfoundland and Labrador ................................................................25 2.1.6 Port aux Basques, Newfoundland and Labrador .................................................. 29 2.1.7 Prescott, Ontario ..................................................................................................33 2.1.8 Prince Rupert, British Columbia ............................................................................37 2.1.9 Québec, Québec ..................................................................................................44 2.1.10 Sarnia, Ontario .....................................................................................................47 2.1.11 Sydney, Nova Scotia ............................................................................................51 2.1.12 Victoria, British Columbia .....................................................................................55 2.2 Canal and Lock Operations ..............................................................................................60 2.3 Canal, Port and Lock Operations .....................................................................................60 2.4 Bridge Operations ............................................................................................................61 2.5 Radio Beacon Stations Continuously in Operations .........................................................70 2.6 Radar Beacon (Racons) ..................................................................................................71 2.6.1 Atlantic Coast, Gulf and St. Lawrence River to Montréal, Eastern Arctic .............. 71 2.6.2 Lake Winnipeg .....................................................................................................76 2.6.3 Great Lakes (includes St. Lawrence River to Montréal) ........................................ 76 2.6.4 Pacific Coast ........................................................................................................78 2.6.5 Western Arctic ......................................................................................................80 PART 3 Vessel Traffic Services 1 3.1 Canadian Coast Guard Responsibilities .............................................................................1 3.2 Traffic Clearance ...............................................................................................................1 3.3 Communications ................................................................................................................2 Annual Edition 2017 Page iii RADIO AIDS TO MARINE NAVIGATION 2017 DFO/2017-1990 ATLANTIC, ST. LAWRENCE, GREAT LAKES, LAKE WINNIPEG, ARCTIC AND PACIFIC TABLE OF CONTENTS 3.3.1 Communication Difficulties ..................................................................................... 2 3.3.2 Ship Board Radio Communications Equipment Malfunction ................................... 2 3.4 Offshore Systems .............................................................................................................. 3 3.4.1 Zone Description .................................................................................................... 3 3.5 Local Vessel Traffic Services (VTS) Zones ........................................................................ 3 3.5.1 Local Vessel Traffic Services (VTS) Zone Reports ................................................ 4 3.5.2 Information Required ............................................................................................. 4 3.5.3 Entering a Zone ..................................................................................................... 4 3.5.4 Variations from Requirement ................................................................................. 5 3.5.5 Change in Information ............................................................................................ 5 3.5.6 Non-Routine Reports ............................................................................................. 5 3.6 Additional Reporting Requirements ................................................................................... 6 3.6.1 Co-Operative Vessel Traffic Services (CVTS) Agreement...................................... 6 3.6.2 Western Canada – Turn Point Special Operating Area .......................................... 7 3.6.3 Western Arctic – Mackenzie River Marine Safety Advisory Procedures ................. 8 3.7 Zone Application .............................................................................................................. 10 3.7.1 Offshore Systems ................................................................................................ 10 3.8 Advance Reporting Requirements ................................................................................... 11 3.8.1 VTS Offshore Zone Report .................................................................................. 11 3.8.2 ECAREG Zone Report ......................................................................................... 12 3.8.3 NORDREG Zone Reports .................................................................................... 14 3.8.4 Pre-Arrival Information Report (PAIR) .................................................................. 18 3.8.5 West Coast – USA Notice of Arrival ..................................................................... 19 3.9 Vessel Traffic Services Zone Schedules ......................................................................... 23 3.9.1 Bay of Fundy........................................................................................................ 23 3.9.2 Halifax Harbour and Approaches ......................................................................... 28 3.9.3 Northumberland Strait .......................................................................................... 31 3.9.4 Placentia Bay ....................................................................................................... 33 3.9.5 Port aux Basques ................................................................................................ 37 3.9.6 St. John’s ............................................................................................................
Load more

Recommended publications
  • Consensus Statement
    Arctic Climate Forum Consensus Statement 2020-2021 Arctic Winter Seasonal Climate Outlook (along with a summary of 2020 Arctic Summer Season) CONTEXT Arctic temperatures continue to warm at more than twice the global mean. Annual surface air temperatures over the last 5 years (2016–2020) in the Arctic (60°–85°N) have been the highest in the time series of observations for 1936-20201. Though the extent of winter sea-ice approached the median of the last 40 years, both the extent and the volume of Arctic sea-ice present in September 2020 were the second lowest since 1979 (with 2012 holding minimum records)2. To support Arctic decision makers in this changing climate, the recently established Arctic Climate Forum (ACF) convened by the Arctic Regional Climate Centre Network (ArcRCC-Network) under the auspices of the World Meteorological Organization (WMO) provides consensus climate outlook statements in May prior to summer thawing and sea-ice break-up, and in October before the winter freezing and the return of sea-ice. The role of the ArcRCC-Network is to foster collaborative regional climate services amongst Arctic meteorological and ice services to synthesize observations, historical trends, forecast models and fill gaps with regional expertise to produce consensus climate statements. These statements include a review of the major climate features of the previous season, and outlooks for the upcoming season for temperature, precipitation and sea-ice. The elements of the consensus statements are presented and discussed at the Arctic Climate Forum (ACF) sessions with both providers and users of climate information in the Arctic twice a year in May and October, the later typically held online.
    [Show full text]
  • Appendices Part 1 of 3
    TAZI TWÉ HYDROELECTRIC PROJECT EIS APPENDIX 2.1 Concordance Table February 2014 Report No. 10-1365-0004/DCN-171 APPENDIX 2.1 Concordance Table LIST OF ABBREVIATIONS AND ACRONYMS Abbreviation or Acronym Definition ARD/ML Acid Rock Drainage/Metal Leaching BLFN Black Lake First Nation CEA Agency Canadian Environmental Assessment Agency CEAA Canadian Environmental Assessment Act D&R Decommissioning and Reclamation EIS Environmental Impact Statement LSA local study area MOE Saskatchewan Ministry of the Environment NOx nitrogen oxides PM2.5 Particulate Matter up to 2.5 microns in size PM10 Particulate Matter up to 10.0 microns in size PSG Project-Specific Guidelines RSA regional study area SOx sulphur oxide SAR species at risk TSP total suspended particulates UTM Universal Transverse Mercator VC valued components February 2014 Project No. 10-1365-0004 1/26 APPENDIX 2.1 Concordance Table Table 1: Concordance Table to Identify Where the Project Specific Guidelines are Met in the Environmental Impact Statement Section in Section in the Project Environmental Requirement Specific Impact Guidelines Statement 1.0 INTRODUCTION The Proponent (Black Lake First Nation [BLFN] and SaskPower) has been informed that the proposed Tazi Twé Hydroelectric Project EIS represented (the Project ) will require an environmental assessment under the Environmental Assessment Act (Saskatchewan), hereafter referred by this to as “The Act,” and the Canadian Environmental Assessment Act (CEAA). The proponent is required to conduct an environmental document impact assessment
    [Show full text]
  • 3A.3 Using Canadian Gem Output for Forecasts of Thunderstorm Initiation on the Canadian Prairies
    3A.3 USING CANADIAN GEM OUTPUT FOR FORECASTS OF THUNDERSTORM INITIATION ON THE CANADIAN PRAIRIES Neil M. Taylor1∗ and William R. Burrows2 1Hydrometeorology and Arctic Lab, Environment Canada, Edmonton, AB 2Cloud Physics and Severe Weather Research Section / Hydrometeorology and Arctic Lab, Environment Canada, Edmonton, AB 1. INTRODUCTION Buban et al. 2007). An excellent review of convective initiation mechanisms is given by Predicting the location and timing of Weckwerth and Parsons (2006). Many of the thunderstorm initiation∗∗ (TI) is critical for processes described in the above studies vary on operational forecasters to issue timely and small spatial and temporal scales that are not accurate severe weather watches and warnings. readily resolved using operational observation The basic requirements for TI are sufficient networks. moisture, instability, and lift for air parcels to reach Sometimes, forecaster assessment of the pre- their level of free convection (LFC) and maintain storm environment identifies the potential for positive buoyancy through the troposphere. This, severe thunderstorms but delineation of a TI threat or course, is a very simplified conceptual model. area remains challenging. In Canada, contributing The potential for TI is sensitive to complicated factors to this can include surface observations processes both through the depth of the with coarse spatial and temporal resolution, troposphere and within the atmospheric boundary widely-spaced and infrequent rawinsonde and layer (ABL). AMDAR observations (in Canada most AMDAR Assuming the requirement for tropospheric data lack humidity observations), no operational instability (or criticality; Houston and Niyogi 2007) profiling network, and limited Doppler radar is met, the potential for TI will remain sensitive to coverage capable of detecting finelines via clear- ABL characteristics and processes.
    [Show full text]
  • Proceedings of the Eighth Central Region Fire Weather Committee Scientific and Technical Seminar
    Proceedings of the Eighth Central Region Fire Weather Committee Scientific and Technical Seminar April 3, 1992 Winnipeg Manitoba Kerry Andersonl, compiler R. FORESTRY CANADA NORTHWEST REGION NORTHERN FORESTRY CENTRE 1993 The papers presented here are published as they were submitted with only technical editing and standardization of style. The opinions of the authors do no necessarily reflect the views of Forestry Canada. JResearch Officer, Forestry Canada, Northwest Region, NorthernForestry Centre, Edmonton, Alberta. ii CONTENTS INTRODUCTION .............................................. v TECHNICAL PAPERS Forecasting Lightning Occurrence and Frequency Kerry Anderson .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. 1 Predicting the Daily Occurrence of People-Caused Forest Fires B. Todd and P.H. Kourtz ..................................... 19 Predicting the Daily Occurrence of Lightning-Caused Forest Fires P.Kourtz and B.Todd .. .. .. .. .. .. .. .. .. .. .. .. ... 37 Application of Fire Occurrence Prediction Models in Ontario's Fire Management Program Tithecott .............................................. 57 AI PREVIOUS PROCEEDINGS IN THE WESTERN REGION FIRE WEATHER COMMITTEE SCIENTIFIC AND TECHNICAL SEMINAR SERIES ... 73 SEMINAR ATTENDEES ......................................... 77 Front Cover: Comparison of two people-caused fire arrival prediction models, Northwestern Region, Ontario, 1989. III iv INTRODUCTION The Central Region Fire Weather Committee (CRWFC) currently holds two meetings each year. Annual business meetings, which
    [Show full text]
  • Sky Watchers Teachers' Guide
    Sky Watchers Teachers’ Guide Weather Resource Acknowledgements Project Management: Victoria Hudec (Outreach Officer: Ontario; SkyW atchers National Coordinator) Author and Custom Artwork: Nicole Lantz (Sprout Educational Consulting) Photography: George Lantz (Vision Photography), Victoria Hudec and iStock Diagrams: Nicole Lantz (Sprout Educational Consulting) Special thanks are extended to Julie Turner and Environment and Climate Change Canada staff across the country for the original Sky Watchers Guide to Weather. We would also like to thank the teachers, students, and educational psychologists in the Halifax Regional School Board and Colchester East-Hants Regional School Board for their input on publication design. Also, thanks to Hannah Thomas and Lisa Vitols for their assistance in the editing process. DISCLAIMER Her Majesty is not responsible for the accuracy or completeness of the information contained in the reproduced material. Her Majesty shall at all times be indemnified and held harmless against any and all claims whatsoever arising out of negli- gence or other fault in the use of the information contained in this publication or product. THIRD-PARTY MATERIALS Some of the information contained in this publication or product may be subject to copyrights held by other individuals or organizations. To obtain information concerning copyright ownership and restrictions, please contact: Environment and Climate Change Canada Public Inquiries Centre 7th Floor, Fontaine Building 200 Sacré-Coeur Boulevard Gatineau QC K1A 0H3 Telephone: 819-997-2800 Toll Free: 1-800-668-6767 (in Canada only) Email: [email protected] ISBN: En56-257/2015E-PDF Cat. No.: 978-0-660-02002-0 Sky Watchers Teachers’ Guide - Weather Resource Unless otherwise specified, you may not reproduce materials in this publication, in whole or in part, for the purposes of commercial redistribution without prior written permission from Environment and Climate Change Canada’s copyright administrator.
    [Show full text]
  • Program and Abstracts of 2004 Congress / Programme Et Résumés
    38th Congress of the Canadian Meteorological and Oceanographic Society 38ième Congrès de la Société canadienne de météorologie et d’océanographie Human Dimensions of Weather and Climate La dimension humaine de la météo et du climat 31 May - 03 June 2004 / 31 mai - 03 juin 2004 Edmonton, Alberta, Canada Canadian Meteorological and La Société canadienne de Oceanographic Society météorologie et d’océanographie 38th CMOS Congress / 38ième Congrès de la SCMO 31 May–03 June / 31 mai–03 juin, 2004 Edmonton, Alberta Human Dimensions of Weather and Climate La dimension humaine de la météo et du climat Program and Abstracts Programme et résumés Editorial Team / rédaction de manuscrit Geoff Strong, Steve Ricketts, Bob Kochtubajda, Paul Myers Editorial Assistant & Compiler / Adjoint rédacteur et compilateur Yvonne Wilkinson, Delisle, SK www.cmos.ca / www.scmo.ca ISBN 0-9732812-1-9 Front cover design by: Couverture créer par: Philip K Gregory Lapel Marketing & Associates Inc. Saskatoon, SK, Canada E-mail: [email protected] Front page photos, depicting Human Dimensions of Weather and Climate (from top, left-right): Photos prémière page, dépeindrent La dimension humaine de la météo et du climat (haut, gauche à droit) The Edmonton Tornado – July 1987 (courtesy Bob Charlton, dec., University of Alberta, Edmonton, AB) Tornado à Edmonton – juillet 1987 Gulf of Alaska storm (courtesy Howard Freeland, DFO/MPO, Sidney, BC) Tempête dans le golfe d’Alaska Prairie drought – 1997-2004 (unknown) Sécheresse dans les Prairies - 1997-2004 Saguenay flood – July 1996
    [Show full text]
  • Complete Guide to Canadian Products in Afos ·
    NOAA USD SEATTLE ·- NOAA' TECHNICAL MEMORANDUM NWS CR-75 COMPLETE GUIDE TO CANADIAN PRODUCTS IN AFOS · Craig Sanders Center Weather Service Unit Farmington, Minnesota J ~U.LY }985 ·u"s. DEPARTMENT OF / National Oceanic and National Weather COMMERCE Atmospheric Administration I Service .U61 Nn 7c; -· NOAA TECHNICAL MEMORANOUM NWS CR~75 COMPLETE GUIDE TO CANADIAN PRODUCTS IN AFOS Craig Sanders Center Weather Service Unit Farmington, Minnesota 1 AUG 1§{3§ NOAA library, E/AI216 7600 Sand Polnt Way N.E. Bin C-15700 • Seattle, WA 98115 July 1985 UNITED STATES I Nallenal Dc11nle ••• I Nallonal Weather DEPARTMENT OF COMMERCE Alrnespborlc A•rntnlslraU•• Service Malcol11 la~rlto, Secrolary John V. Byrne. Administrator Archard E. Hallgren. • Assistant Administrator COMPLETE GUIDE TO CANADIAN PRODUCTS IN AFOS (~ .(~j , C 0 N T E N T S PUBLIC AVIATION DATA MAPS DA.TA MAPS YUKON TERRITORY PlS Pl A7 A3 BRITISH COLUMBIA .Pl6-P21 P2-P3 A8-A12 A3 ALBERTA P22-P24 P4 Al3-Al4 A4 SASKATCHEWAN P2S-P26 PS-P6 AlS-Al6 A4 MANITOBA •P27-P28 P7-P8 A17-Al8 A4 ONTARIO P29-P33 pg Al9-A22 AS QUEBEC P34-P37 P10-Pll A23-A26 AS MARITIMES P38-P39 Pll-P12 A27-A28 AS (New Brunswick, Nova Scotia, Prince Edward Island) C)'· NEWFOUNDLAND, LABRADOR P40-P41 P13 A29-A30 AS NORTHWEST TERRITORIES P42-P46 P14 A31-A3S A6 AVIATION AREAS OF RESPONSIBILITY A1 WINDS ALOFT FORECAST POINTS A2 APPENDIX I I-1 - I-7 3-LETTER ENCODE HMO NUMBER ENCODE APPENDIX II II-1 - II-6 3-LETTER DECODE . APPENDIX II I III-1 - III-4 )" I~MO NU~1BER DECODE .•,.
    [Show full text]
  • An Examination of Lake Breezes in Southern Manitoba Masters Of
    An Examination of Lake Breezes in Southern Manitoba By Michelle Curry A thesis submitted to the Faculty of Graduate Studies of The University of Manitoba In partial fulfillment of the requirements of the degree of Masters of Science Department of Environment and Geography University of Manitoba Copyright Michelle Curry © 2015 Abstract Lakes represent a major topographic feature in southern Manitoba, having a direct meteorological influence on a number of communities, including Winnipeg. Therefore, it is crucial that we have an understanding of the characteristics of lake breezes in the region and the influence that they can have on local weather. The Effects of Lake Breezes on Weather in Manitoba (ELBOW-MB) project in 2013 sought to fill in the gaps in our current knowledge of lake breezes in southern Manitoba. The primary research objectives of this thesis are to: (1) provide a radar-based climatology of lake breeze frequency and characteristics and, (2) to characterize the detailed thermodynamic and kinematic properties of lake breezes and lake- breeze fronts. The two results papers presented within this thesis represent the first detailed analysis of lake breezes in southern Manitoba and help to fill important gaps in our knowledge about the occurrence and characteristics of lake-breeze circulations. ii Acknowledgements I would like to thank my supervisor Dr. John Hanesiak first and foremost for his guidance, advice, and encouragement over the course of my masters program, and my undergraduate program. Without his support, I don’t think I would have gotten as far in my academic career. I would also like to thank the rest of my committee.
    [Show full text]
  • Background Current Status
    SUBMISSION TO THE NUNAVUT WILDLIFE MANAGEMENT BOARD FOR Information: Decision: X Issue: Recommendation to address the decline of the Bluenose East caribou herd. Background • The Bluenose East caribou herd is a shared herd harvested by hunters in the Northwest Territories and Nunavut. • The Bluenose East caribou herd has declined from a high of about 104,000 caribou in 2000 to the current population status in the order of 68,000 caribou (2013, declining trend). An accelerated decline occurred between 2000 and 2006. After a short increase measured in 2010, the herd was assessed to decline again between 2010 and 2013, from 123,000 to 68,000 caribou. • The Bluenose East herd is shared inter-jurisdictionally between Sathu, North Slave and West Kitikmeot regions. • Overall harvest of the herd was estimated in the order of 3,500 caribou in 2009 - 2010 (estimate only, no harvest monitoring). Of this, subsistence harvest in Nunavut was estimated between 1000 – 1500 caribou annually (Kugluktuk HTO/GN-DoE) and is likely to have decreased over the past 5-6 years. There is no commercial or sport harvest on this herd in Nunavut. • Based on past survey results, the population is at medium-high risk due to its rapid significant decline rate of 13% (2010 to 2013), low adult survival rate, intermediate population size, combined inter-jurisdictional harvest, reduced recruitment from 2012 to 2014, and reduced pregnancy rate in 2010 and 2012. • Overall harvest on the Bluenose East Caribou herd is estimated to be about 3,500 animals annually. The Nunavut harvest is an estimated 1000 - 1500 caribou per year, all of which are harvested by Kugluktuk.
    [Show full text]
  • Supplementary Guidelines on Performance Assessment of Public Weather Services
    World Meteorological Organization SUPPLEMENTARY GUIDELINES ON PERFORMANCE ASSESSMENT OF PUBLIC WEATHER SERVICES PWS-7 WMO/TD No. 1103 World Meteorological Organization SUPPLEMENTARY GUIDELINES ON PERFORMANCE ASSESSMENT OF PUBLIC WEATHER SERVICES PWS-7 WMO/TD No. 1103 Geneva, Switzerland 2002 Lead author and coordinator of text: Joseph Shaykewich (Contributions by: C.C.Chan, Robert Landis, Wolfgang Kusch,Yung-Fong Hwang, Samuel Shongwe) Edited by: Haleh Kootval Cover: Josiane Bagès © 2002, World Meteorological Organization WMO/TD No. 1103 NOTE The designations employed and the presentation of material in this publication do not imply the expression of any opinion whatsoever on the part of any of the participating agencies concerning the legal status of any country, territory, city or area, or of its authorities, or concern- ing the delimitation of its frontiers or boundaries. CONTENTS Page CHAPTER 1 – INTRODUCTION . 1 CHAPTER 2 – PERSPECTIVES ON THE PERFORMANCE ASSESSMENT PROCESS . 2 2.1 As a Component of a Service Improvement Strategy . 2 2.2 As Part of a Quality Management System . 2 CHAPTER 3 - CLIENTS OF ASSESSMENT & REPORTING REQUIREMENTS . 4 3.1 Operations . 4 3.2 Management . 4 3.3 Funding Agency . 4 3.4 Public . 4 CHAPTER 4 - THE ASSESSMENT PROCESS . 5 4.1 Assessment as a Continuous Process . 5 4.2 User-Based Assessment . 5 4.3 Scientific Program Assessment . 6 4.4 Assessment of End-user Requirements . 6 4.5 Assessment for the Development or Modification of a Program . 7 4.6 Assessment of the Value of Weather Forecast Services . 7 4.7 Assessment of the Performance of the Scientific Programs . 9 4.7.1 For External Reporting .
    [Show full text]
  • Utility of Idea-I As a Wildfire Smoke Plume Forecast Tool: a Mid
    THE UTILITY OF IDEA-I AS A WILDFIRE SMOKE PLUME FORECAST TOOL: A MID- JULY 2014 CASE STUDY by Kyle M. Hosley A thesis submitted in partial fulfillment of The requirements for the degree of Master of Science (Department of Atmospheric and Oceanic Science) At the UNIVERSITY OF WISCONSIN-MADISON 2016 APPROVED _________________________________ Signature _________________________________ Date Steven A. Ackerman Professor, Department of Atmospheric and Oceanic Sciences Director of the Cooperative Institute for Meteorological Satellite Studies University of Wisconsin-Madison Department of Atmospheric Science i Abstract New capabilities have been developed to forecast aerosol transport by aggregating trajectory output from the aerosol forecasting tool Infusing satellite Data into Environmental Applications - International (IDEA-I). These capabilities include estimates of aerosol optical depth (AOD) within the planetary boundary layer (PBL), cross-sections of extinction coefficient, and extinction coefficient profiles, all of which are obtained by aggregating multi-day IDEA-I trajectory forecasts. We compare results from these new capabilities with in situ surface measurements and satellite observations, including MODerate resolution Imaging Spectrometer (MODIS) AOD and true color imagery, AirNow fine particulate (PM2.5) observations, satellite- based lidar observations from the Cloud-Aerosol LIdar with Orthogonal Polarization (CALIOP) sensor, and surface-based lidar observations from the University of Wisconsin Space Science and Engineering Center
    [Show full text]
  • Forecasting Severe Weather Using
    Severe Weather Intensity Index using the 1-km Global Environmental Multiscale Limited Area Model Output by Anna-Belle Filion Department of Atmospheric and Oceanic Sciences McGill University, Montréal August 2013 A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements of the degree of Master of Science © Anna-Belle Filion 2013 Abstract Severe weather (SW) can have a huge impact on someone’s life and property. Presently at Environment Canada (EC), there is no useful automated tool to help the forecasters in their SW forecast. The goal of this thesis was to develop a useful automated tool to help the SW forecasters in their SW predictions. A severe weather intensity (SWI) index was created from the 1-km Global Environmental Multiscale Limited Area Model (GEM-LAM) outputs. The GEM-LAM 1-km was run on summer days in 2008 and 2009 over Alberta, Ontario, and Quebec. The dataset of summer 2009 was used to create algorithms that use the model’s outputs to detect severe thunderstorm structural features, compute the quantity of the ingredients needed to initiate severe thunderstorms, and estimate the intensity and the type of SW expected. The post-processed fields were subjectively verified with the SW observations and radar images for the summer of 2009 leading to a decision tree for the SWI index for each region. An object-oriented method was used to verify the SWI index forecasts with the SW observations for the summer of 2008. The results showed that the SWI index forecast was very accurate over Ontario, accurate over Quebec, and much less accurate over Alberta.
    [Show full text]