Marine Weather Primer

Similar documents
Safety At Sea Seminar April 12, Basic Marine Weather Forecasting

Mark Thornton LakeErieWX: Marine Weather Education and Forecasting Resources

Chapter 14 Thunderstorm Fundamentals

HAZARDOUS WEATHER 1. Dr. Julie Laity Geography 266

TOPICS: What are Thunderstorms? Ingredients Stages Types Lightning Downburst and Microburst

CLOUDS & THUNDERSTORMS

Foundations of Earth Science, 6e Lutgens, Tarbuck, & Tasa

Module 11: Meteorology Topic 6 Content: Severe Weather Notes

Station A. 1. In the Northern Hemisphere, the general direction of the flow of the jet stream is toward the: a. north b. east c.

Chapter Introduction. Weather. Patterns. Forecasts Chapter Wrap-Up

Weather - is the state of the atmosphere at a specific time & place

Section 13-1: Thunderstorms

Use the terms from the following list to complete the sentences below. Each term may be used only once.

Custom Weather Forecast

4. Which map best represents the type of fronts and direction of movement of these fronts in relation to the low-pressure center?

Fronts. Direction of Front

ATS 351, Spring 2010 Lab #11 Severe Weather 54 points

Mr. P s Science Test!

Guided Notes Weather. Part 2: Meteorology Air Masses Fronts Weather Maps Storms Storm Preparation

Safety Thursday Weather Resources (pt. 2) June 27, By Mark Thornton

Forecasting Weather: Air Masses and Fronts

1 of 7 Thunderstorm Notes by Paul Sirvatka College of DuPage Meteorology. Thunderstorms

Lecture Outlines PowerPoint. Chapter 19 Earth Science 11e Tarbuck/Lutgens

Earth Science, 11e. Weather Patterns and Severe Storms Chapter 19. Air masses. A cold Canadian air mass Figure Air masses. Air masses 9/5/2012

Weather Systems. The air around high-pressure weather systems tends to swirl in a clockwise direction, and usually brings clear skies.

1. Which weather map symbol is associated with extremely low air pressure? A) B) C) D) 2. The diagram below represents a weather instrument.

Science Olympiad Meteorology Quiz #2 Page 1 of 8

THUNDERSTORMS Brett Ewing October, 2003

FORMATION OF AIR MASSES

Meteorology. Review Extreme Weather a. cold front. b. warm front. What type of weather is associated with a:

12/22/2018. Water and the Atmosphere. 8 th Grade. Lesson 1 (Water in the Atmosphere) Chapter 4: Weather. Lesson 2 (Clouds) Clouds

Ch. 3: Weather Patterns

July 24, 2017 Annapolis, MD Bryan A. Jackson NWS Sterling, VA Marine Program Leader

MET Lecture 34 Downbursts

ESCI 1010 Lab 6 Midlatitude Cyclones and Thunderstorms

National Maritime Center

Unit 5 Part 2 Test PPT

Weather Systems III: Thunderstorms and Twisters

Meteorology. I. The Atmosphere - the thin envelope of gas that surrounds the earth.

RR#4 - Multiple Choice

10/21/2012. Chapter 10 Thunderstorms. Part II. Growth and Development of ordinary Cell Thunderstorms Thunderstorm Electrification.

Key. Name: OBJECTIVES

I. Air Masses A. Defined: large body of air, 1600 km or more across, with similar temperature and moisture at similar altitudes 1.

National Maritime Center

CHAPTER 11 THUNDERSTORMS AND TORNADOES MULTIPLE CHOICE QUESTIONS

3 Severe Weather. Critical Thinking

Severe Thunderstorm Forecasting and Climatology in Arizona. Ken Drozd Warning Coordination Meteorologist NOAA/NWS Tucson, AZ

AIR MASSES. Large bodies of air. SOURCE REGIONS areas where air masses originate

Lab 19.2 Synoptic Weather Maps

Weather Unit Part 2: Meteorology

8/18/2014. Chapter 17: Weather Patterns. Section 1 (Air Masses and Fronts) 8 th Grade

ERTH 365 Homework #2: Hurricane Harvey. 100 points

Meteorology Practice Exam 3: Chapters 11-14

What do you think of when someone says weather?

Weather Patterns and Severe Storms

TFS WEATHER BRIEF. Monday, March 25

Mid-Latitude Cyclones and Fronts. Lecture 12 AOS 101

DEPARTMENT OF EARTH & CLIMATE SCIENCES SAN FRANCISCO STATE UNIVERSITY. Metr Fall 2014 Test #1 September 30, 2014

Transient and Eddy. Transient/Eddy Flux. Flux Components. Lecture 3: Weather/Disturbance. Transient: deviations from time mean Time Mean

Tuesday, September 13, 16

III. Section 3.3 Vertical air motion can cause severe storms

May 17, earthsciencechapter24.notebook. Apr 8 10:54 AM Review. Grade:9th. Subject:Earth Science. Date:4/8.

Air Masses, Fronts, Storm Systems, and the Jet Stream

Unit 4 Review Guide: Weather

WEATHER THEORY. Weather Theory Page 100 Aviation Seminars. Measurement Of Temperature, Pressure And Moisture. Stability (Cont)

Chapter 21. Weather Patterns and Severe Storms

Meteorology Lecture 18

Thunderstorm: a cumulonimbus cloud or collection of cumulonimbus clouds featuring vigorous updrafts, precipitation and lightning

Chapter 8 cont. Clouds and Storms. Spring 2018

WEATHER FORECASTING Acquisition of Weather Information WFO Regions Weather Forecasting Tools Weather Forecasting Tools Weather Forecasting Methods

Physics 137 Exam 3 Review

Weather Studies Introduction to Atmospheric Science

Severe Weather Watches, Advisories & Warnings

Figure 1. Idealized global atmospheric circulation (C = surface convergence, D = surface divergence).

CHAPTER THREE Mechanics of Frontal Systems

Anthony A. Rockwood Robert A. Maddox

Type of storm viewed by Spotter A Ordinary, multi-cell thunderstorm. Type of storm viewed by Spotter B Supecell thunderstorm

THUNDERSTORMS. Convective heavy rain accompanied by lightning and thunder. Ahrens

25.1 Air Masses. Section 25.1 Objectives

Review of Basic Severe Thunderstorm & Tornado Spotting Concepts. Jim Allsopp National Weather Service Chicago/Romeoville, IL

Department of Geosciences San Francisco State University Spring Metr 201 Monteverdi Quiz #5 Key (100 points)

Guided Notes Weather. Part 1: Weather Factors Temperature Humidity Air Pressure Winds Station Models

Weather Pattern Notes

20.1 Air Masses. Weather Patterns and Severe Storms. Four Types of Source Regions. Weather in North America Fronts

777 GROUNDSCHOOL Temperature, Stability, Fronts, & Thunderstorms

Thunderstorm: a cumulonimbus cloud or collection of cumulonimbus clouds featuring vigorous updrafts, precipitation and lightning

DEPARTMENT OF EARTH & CLIMATE SCIENCES NAME SAN FRANCISCO STATE UNIVERSITY Fall ERTH FINAL EXAMINATION KEY 200 pts

Air Masses and Fronts II

Thunderstorm. Thunderstorms result from the rapid upward movement of warm, moist air.

WEATHER. rain. thunder. The explosive sound of air as it is heated by lightning.

Unit 5 Lesson 3 How is Weather Predicted? Copyright Houghton Mifflin Harcourt Publishing Company

Answers to Clicker Questions

Weather Maps. Name:& & &&&&&Advisory:& & 1.! A&weather&map&is:& & & & 2.! Weather&fronts&are:& & & & & &

Mid-Atlantic Severe Weather Event of 23 June 2015

Aviation Hazards: Thunderstorms and Deep Convection

PREDICTING THE WEATHER

Unit: Weather Study Guide

What is Storm Anticipation (SA)? Using the SPC mesoanalysis fields to anticipate what is likely to occur.

Figure 1. Idealized global atmospheric circulation (C= surface convergence, D= surface divergence).

Air Mass Thunderstorms. Air Mass Thunderstorms. Air Mass Thunderstorms. Lecture 26 Air Mass Thunderstorms and Lightning

Transcription:

1 of 73 Marine Weather Primer Mark A. Thornton LakeErieWX: Marine Weather Education and Forecasting Resources Mark@LakeErieWX.com

2 of 73

3 of 73 Marine Weather Seminars & Workshops Learn a little meteorology and reduce some of the uncertainty of coastal and offshore boating... Great Lakes Basic Marine Weather Seminar Great Lakes Wind Forecasting: A Workshop For Sailors Coastal and Offshore Marine Weather Preparing Your Mac Forecast: A Workshop For Sailors

4 of 73 Marine Weather Dashboards

5 of 73 Weather and Boating Three Steps To Safer Boating 1. Basic understanding of meteorology. 2. Understand the forecast before your outing begins. 3. Monitor the weather while underway and remain alert for rapidly changing conditions.

6 of 73 Weather and Boating Three Steps To Safer Boating 1. Basic understanding of meteorology. 2. Understand the forecast before your outing begins. 3. Monitor the weather while underway and remain alert for rapidly changing conditions.

7 of 73 Basic Meteorology Low Pressure Systems

8 of 73 A Typical Low Pressure System

9 of 73 Low Pressure Systems and Weather Temperature Changes Fog Wind Shifts Strong, Gusty Winds High Waves Thunderstorms, Tornadoes, Waterspouts

10 of 73 Frontal Boundaries

11 of 73 Stationary Fronts Stationary Fronts a boundary with less than five knots of forward movement. Can promote widespread cloudiness and prolonged precipitation. Can also be a focal point for the development of severe weather.

12 of 73 Cold Fronts Cold Fronts a boundary between colder and drier air and warmer, moister air. Temperature and moisture differences can be significant. On average, a cold front moves forward at approximately 20 knots. Shifty and gusty wind conditions along and behind the front. Very often a focal point for the development of thunderstorms and squall lines due to dynamic lift and wind shear.

13 of 73 Warms Fronts Warm Fronts boundary between warm, moist subtropical air and cooler, maritime polar air. Warm front is less steep (in cross-section) than a cold front. Warm fronts typically progress forward at around 10 knots. The lifting of warm moist air over the boundary may result in a stratus cloud deck and persistent rain. Can be a source of elevated thunderstorms, but the risk of tornadoes is limited.

14 of 73 Basic Meteorology Forces Controlling The Wind

15 of 73 The Flow Associated With Surface High and Low Pressure Clockwise & Outward Counterclockwise & Inward

16 of 73 Wind Speed & Pressure Gradient

17 of 73 Fluids Flow From HIGH Pressure to LOW Pressure

18 of 73 The Pressure Gradient Force 1015 mb High minus 1005 mb Low = 10 Millibar Difference 1015 mb High minus 1000 mb Low = 15 Millibar Difference High High Low Low 500 Miles 500 Miles High Low High Low Wind Speed 50% Stronger

19 of 73 Isobars - Pressure Gradient On A Weather Map Contours of equal barometric pressure. Typically plotted at 4 mb intervals. H L H H H

20 of 73 1 3 Pressure Gradient Force October 26, 2010 2

21 of 73 Low Pressure Systems Wind Direction By Quadrant

22 of 73 Above Of The Warm Front L

23 of 73 L Below The Warm Front

24 of 73 L Ahead Of The Cold Front

25 of 73 Behind The Cold Front L

26 of 73 Basic Meteorology Thunderstorms

27 of 73 The Warm Sector Beware Of Thunderstorms The Warm Sector

28 of 73 Definitions Are Important! Severe Thunderstorms- According To The NWS NWS Severe thunderstorm thresholds: Hail >= 1 Surface wind gust >= 50 kts The storm produces at least one tornado The potential of reaching severe status increases as the duration of the storm increases.

29 of 73 The Thunderstorm Life Cycle Stages of Development -- Summary A single cell may pass from the cumulus to the dissipating stage in sixty minutes. Not all cumulus columns reach the mature stage due to a lack of instability or moisture. Warning -- lightning may occur several miles ahead of the approaching storm.

30 of 73 Thunderstorm Types

31 of 73 Single cell storms are characterized by a single, nonrecurring updraft and downdraft. The garden variety summer thunderstorms that tend to build and dissipate quickly (typically 1 hour or less). Also called pulse, pop-up, or air-mass storms. Generally form in response to localized instability in the absence of synoptic frontal boundaries and weak wind shear. Capable of producing severe weather. Single Cell Storms

32 of 73 Multi-Cellular Storm Systems Multi-cellular thunderstorms are those storms where cells in various stages of development coexist in a cluster. The outflow boundaries from mature cells contribute to the cumulus stage of development by acting as mini cold fronts. This is the most common form of thunderstorm development and is responsible for most severe weather reports around the Great Lakes. A multi-cellular thunderstorm cluster may persist for several hours and contain severe thunderstorms squall lines are an excellent example. Squall Line Cluster or Complex

33 of 73 Thunderstorm Downdrafts A Significant Hazard To Boaters

34 of 73 Thunderstorm Downdrafts Wind from a thunderstorm downdraft (outflow) can be quite strong 100 kts (microburst & macrobursts). May come from a direction that is very different from the large-scale wind.

35 of 73 The Direction Of A Downdraft Is Unpredictable

36 of 73 The Direction Of A Downdraft Is Unpredictable

37 of 73 Thunderstorm Motion

38 of 73 Determining Storm Motion Don t trust the speed and direction of the surface wind to judge motion of storm systems. Storms are typically steered by the winds in a deep layer (to 6 km) of the atmosphere. Doppler radar is an effective method of monitoring storm motion. NW @ 50 kts SSW @ 20 kts

39 of 73 Thunderstorm Development Is Difficult To Predict

40 of 73 Weather and Boating Three Steps To Safer Boating 1. Basic understanding of meteorology. 2. Understand the forecast before your outing begins. 3. Monitor the weather while underway and remain alert for rapidly changing conditions.

41 of 73 The Best Weather Forecasting Resources On The Web The National Weather Service

42 of 73 WPC Issues Surface Forecasts To Seven Days

43 of 73 WPC Issues Surface Forecasts To Seven Days 12-Hour 24-Hour 36-Hour 48-Hour

44 of 73 Forecasting Thunderstorms

45 of 73 Thunderstorm Outlooks @ 4-Hour Intervals 7 am to 11 am 11 am to 3 pm 3 pm to 7 pm 7 pm to 11 pm

46 of 73 Assessing The Risk of Thunderstorms NWS Hazardous Weather Outlook HAZARDOUS WEATHER OUTLOOK NATIONAL WEATHER SERVICE CHICAGO/ROMEOVILLE IL 449 AM CDT SAT AUG 4 2012 THIS HAZARDOUS WEATHER OUTLOOK IS FOR NORTH CENTRAL ILLINOIS... NORTHEAST ILLINOIS AND NORTHWEST INDIANA..DAY ONE...TODAY AND TONIGHT. WEATHER HAZARDS EXPECTED: SCATTERED THUNDERSTORMS...THE STRONGEST MAY PRODUCE: HAIL TO ONE INCH. STRONG DAMAGING WIND GUSTS IN EXCESS OF 60 MPH. LOCALLY HEAVY RAINFALL. AREAS AFFECTED AND TIMING: THUNDERSTORMS ARE EXPECTED TO DEVELOP ACROSS WESTERN ILLINOIS THIS AFTERNOON AND CONTINUE EAST THROUGH ALL OF NORTHEAST ILLINOIS AND NORTHWEST INDIANA LATE THIS AFTERNOON INTO THE EVENING AND OVERNIGHT HOURS. THIS HAZARDOUS WEATHER OUTLOOK IS FOR THE ILLINOIS NEARSHORE WATERS OF LAKE MICHIGAN AND THE INDIANA NEARSHORE WATERS OF LAKE MICHIGAN..DAY ONE...TODAY AND TONIGHT. THUNDERSTORMS ARE LIKELY THIS EVENING AND TONIGHT WITH SOME POTENTIALLY PRODUCING WINDS IN EXCESS OF 50 KNOTS.

47 of 73 Marine Forecast

48 of 73 National Weather Service - Chicago Offshore and Nearshore Marine Forecast

49 of 73 A Page For Each Lake Forecast Graphics In 3-Hour Increments To 84 Hours National Weather Service Wind Speed and Direction Wind Gust Wave Height Wave Period

50 of 73 Wind Speed / Direction In 3-Hour Increments

51 of 73 Wind Speed / Direction In 3-Hour Increments Stepping Through Time

52 of 73 Wind Gusts In 3-Hour Increments

53 of 73 Wind Gusts In 3-Hour Increments Stepping Through Time

54 of 73 Wave Heights In 3-Hour Increments

55 of 73 Wave Heights In 3-Hour Increments Stepping Through Time

56 of 73 Weather and Boating Three Steps To Safer Boating 1. Basic understanding of meteorology. 2. Understand the forecast before your outing begins. 3. Monitor the weather while underway and remain alert for rapidly changing conditions.

57 of 73 A Digital Barometer A Valuable Resource

58 of 73 Watch The Pressure Trend It is the trend, not the absolute value, of barometric pressure that is important. Falling barometric pressure may signal the potential arrival of inclement weather. The steepness of the decline in pressure can provide clues to the strength of the approaching system an accurate barometer will monitor changing conditions.

59 of 73 VHF Radio Marine Forecasts Marine Observations/NDBC Buoy Reports Severe Weather Watches/Warnings

60 of 73 Always Use The NWS Weather Channel Closest To Your Location Best Reception Watches/Warnings For Your Location.

61 of 73 Keeping An Eye To The Sky - Cloud Characteristics Clouds in stable environments tend to be wider than they are tall due to weak upward motion. Clouds in unstable (thunderstorm) environments are typically taller than they are wide due to stronger upward motion.

62 of 73 Oh No, Your Forecast Has Gone Awry!

63 of 73 National Weather Service NWS Weather Forecast Offices Severe Weather Watches and Warnings Marine Weather Warnings

64 of 73 NWS Marine Forecast Zones

65 of 73 Understanding Doppler Weather Radar

66 of 73 How Radar Works Radar stations transmit pulses of energy within the microwave portion of the electromagnetic spectrum. A very small portion of this transmitted energy is backscattered by objects toward the station s antenna. The station spends 59 minutes 53 seconds of each hour measuring backscattered energy (listening). Rain, snow, hail, etc., all backscatter radar pulses, but so do planes, birds and insect swarms.

67 of 73 Beam Curvature & Earth Curvature = Absence of Radar Data

68 of 73 Doppler Weather Radar-Reflectivity Base Reflectivity Composite Reflectivity Base Reflectivity Composite Reflectivity

69 of 73 The Earth Throws A Curve Ball The curvature of the Earth results in an ever-increasing beam elevation as distance from the site increases. Low levels storms at a distance from the radar site may not be properly sampled.

70 of 73 Use The NWS Radar Station Closest To The Weather Feature You Are Concerned About.

71 of 73 Warning: Radar Images Are Not Live! Images Are Refreshed At 4 to 5 Minute Intervals

72 of 73 On Your ipad or iphone RadarScope Base Reflectivity With NWS Warnings and Lightning

73 of 73 Mark@LakeErieWX.com

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback