Friday, November 2, 2012

OPC maps for Google Earth

The Ocean Prediction Center now offers links that will put some of their maps (including Gulf Stream and Unified Analysis) directly onto Google Earth. Once you have done this, they will update automatically next time you open Google Earth.  Hard to think of a more convenient way to get a quick picture of what is going on weather wise on a large scale.

Get the products and instructions at this OPC webpage. Then just save the files anywhere and drag them onto Google Earth. Then save your My Places when you close GE (it should ask you to save), and they will be there and update automatically for you. Very slick.

Here are a couple samples:








We have also made ourselves similar links for getting the ASCAT winds onto GE. This is a project I would like to expand, but will need some help. I call it the ASCAT Genome Project. We want to get all ASCAT and OSCAT winds worldwide linked to GE. It will be a great service, and once I figure a way to coordinate the help of others we will post a note here to join us if you like.

Track of HMS Bounty and the NHC Forecasts

In Modern Marine Weather we point out that if you want to sail in a hurricane you can. We know where they take place and when they take place—and when they do occur, their location and projected tracks are remarkably well forecasted. To sail in one, just look up this information and go there.

On the other hand, if you do not want to sail in a hurricane, look up the same information and then do not go there.

Seems simple enough, but this nutshell summary of avoiding hurricanes is obviously oversimplified. Huge areas of the ocean and long seasons would be blocked out by such a simple guideline. Fortunately, the National Hurricane Center (NHC), in collaboration with experienced mariners over the years, has come up with more realistic guidelines for safe navigation in the presence of tropical systems. It comes in the form of two simple rules: The 34-kt Rule and The Mariner’s 1-2-3 Rule.

The 1-2-3 Rule is simple and easy to apply based on text or voice reports of the storm locations, which are given several times a day in the high-seas broadcasts. Namely, the danger area to be avoided expands the forecasted danger zone by 100 nmi per day, as shown in Figure 1.

The danger zone for this application is characterized by the NHC as the radius about the storm center that includes winds greater than 34 kt.  Thus we start with what the NHC calls The 34-kt Rule: “For vessels at sea, avoiding the 34-kt wind field of a hurricane is paramount. Thirty-four knots is chosen as the critical value because as wind speed increases to this speed, sea state development approaches critical levels resulting in rapidly decreasing limits to ship maneuverability.” They add the natural precaution that sea state outside of the 34-kt radius can also be significant enough to limit course and speed options, so we should monitor this carefully.


Figure 1. The 34-kt Rule and The Mariner’s 1-2-3 Rule




We can use the forecast of Sandy on Thursday, Oct 25 (below) as an example of a long-term forecast for a storm headed north:

NWS NATIONAL HURRICANE CENTER MIAMI FL      
0300 UTC THU OCT 25 2012

[Day 0 - Thursday = 00h]
HURRICANE CENTER LOCATED NEAR 19.4N  76.3W AT 25/0300Z.  POSITION ACCURATE WITHIN  20 NM
PRESENT MOVEMENT TOWARD THE NORTH OR  10 DEGREES AT  11 KT. ESTIMATED MINIMUM CENTRAL PRESSURE  954 MB. EYE DIAMETER  20 NM. MAX SUSTAINED WINDS  80 KT WITH GUSTS TO 100 KT.

64 KT....... 25NE  20SE  20SW  20NW.
50 KT....... 50NE  60SE  40SW  40NW.
34 KT.......110NE 120SE  70SW  60NW.
12 FT SEAS..120NE 300SE 120SW 120NW.

WINDS AND SEAS VARY GREATLY IN EACH QUADRANT.  RADII IN NAUTICAL MILES ARE THE LARGEST RADII EXPECTED ANYWHERE IN THAT QUADRANT.

[Day 1 Friday = 24h]
FORECAST VALID 26/0000Z 24.4N  76.2W
MAX WIND  70 KT...GUSTS  85 KT.
64 KT... 20NE  20SE   0SW   0NW.
50 KT... 70NE  70SE  40SW  50NW.
34 KT...150NE 120SE  70SW  90NW.

[Day 2 Saturday = 48h]
FORECAST VALID 27/0000Z 27.6N  77.2W
MAX WIND  65 KT...GUSTS  80 KT.
50 KT...120NE 100SE  90SW 120NW.
34 KT...250NE 160SE 100SW 230NW.

[Day 3 Sunday = 72h]
FORECAST VALID 28/0000Z 30.5N  74.5W
MAX WIND  60 KT...GUSTS  75 KT.
50 KT...120NE 120SE 120SW 100NW.
34 KT...300NE 270SE 180SW 300NW.

EXTENDED OUTLOOK. NOTE...ERRORS FOR TRACK HAVE AVERAGED NEAR 175 NM ON DAY 4 AND 225 NM ON DAY 5...AND FOR INTENSITY NEAR 20 KT EACH DAY.

[Day 4 Monday = 4-day]
OUTLOOK VALID 29/0000Z 33.5N  71.5W
MAX WIND  60 KT...GUSTS  75 KT.

[Day 5 Tuesday = 5-day]
OUTLOOK VALID 30/0000Z 37.0N  70.0W...POST-TROPICAL
MAX WIND  60 KT...GUSTS  75 KT.


Plot the location of the storm at forecast time, and then plot on your chart the forecasted locations on Day 1, 2, and 3. Then check the forecast for the maximum radius of 34-kt winds. They are given for each quadrant on each day’s forecast.  On Day 1 this was 150 nmi, which occurred in the NE quadrant. With a drawing compass draw a circle around each of the 3 locations with 34-kt radii (in this example) of 150, 250, and 300 nmi. You then have a plot of forecasted storm sizes on these 3 days, which is shown in Figure 2.

These are not the safety zones of the 1-2-3 Rule, these are the actual forecasted locations and sizes of the areas that should be avoided. Next we apply the Mariner’s 1-2-3 Rule to account for uncertainties in forecast accuracy.

To each of these 3 radii, we then add 100, 200, and 300 nmi to account for historic uncertainty in the forecasted track. This guideline is based on the NHC’s records over the past 10 years of past errors in forecast track location. The track locations are actually more precise than this in recent years, and indeed getting better continually, but the uncertainty in intensity and size of the forecasted systems remains more of a challenge and hence the larger safety zones.

Furthermore, this guideline as presented is for tropical systems that are fueled from the warm water below them. Once a storm moves out of the tropics and becomes extratropical, it begins to gain energy from a much broader source—the temperature difference between cool northern air and warmer southern air masses. When this happens the system can quickly become much larger and more intense. This is precisely what happened with the transition between Hurricane Sandy and “Superstorm Sandy.” It got much larger, with a much broader band of strong winds and high seas.

This one became known in the media as a “superstorm” (not a defined meteorological term) because that transition took place at a time that was uniquely favorable to enhanced extratropical development. Extratropical storms on the surface are strongly influenced by the wind patterns in the upper atmosphere, and this one just happened to move north at the worst possible time—not only for enhancement, but for a forced turn to the west, rather than the more normal route to the east. This, however, was not a surprise. This storm was indeed a testimony to the skill of modern numerical weather prediction, which had accounted for these effects.  They were included in the forecasts as shown by the examples here.

In short, we should not look at The 34-kt Rule and The Mariner’s 1-2-3 Rule as an over-conservative guideline. It was spot on in the case of Sandy, with tragic consequences for the Bounty.



Figure 2. Plot of the 3-day and extended forecasts for Hurricane Sandy issued on Thursday, Oct 25, 2012, valid at 00z. Also shown is the track of the HMS Bounty which departed for Florida on that date. The shaded areas encompass the 34-kt wind regions for the next three days, with the radial lines marked that showed the largest radius in each case. The associated colored dashed circles mark the limits of the Mariners 1-2-3 Rule. The two top storm locations mark the extended forecasts, with the dark circles marking the quoted uncertainties in track location. These two dark circles do not imply any wind or storm size predictions. The 5-day forecast of the ECMRF model called correctly for an earlier turn to the west than the GFS model did, but the NHC always balances the input from multiple models when making their forecasts.

In this storm, it was well forecasted that the hurricane would turn extratropical, expand, and intensity, so the 34-kt Rule alone blocked off essentially all of the coastal waters before even applying the 1-2-3 Rule. The 1-2-3 Rule showed how far out to sea the risk extended and remained valuable in the waters off Florida for several days. Figure 3 shows this extra caution was justified.


Figure 2 shows the forecast at the time of departure. The inevitability of the encounter with the 34-kt wind field did not diminish with time.



Figure 3. Satellite wind measurements at 1710z  on Sunday, Oct 28, 2012. For comparison, the 72-hr forecasted location of the storm for that time made four days earlier on Thursday is shown, along with the 34-kt wind and 50-kt wind radii (not part of either of these rules).

The 50-kt wind field was very well forecasted, and for the most part the 34-kt winds as well. But there were large regions of the ocean beyond that 34-kt radius that had winds well above 34-kt, which shows the value of the 1-2-3 Rule. That rule at 72 hr off calls for a large clearance in such a large storm. For storms within the tropics the 34-kt wind range might  not be as large, so maneuvering options could be larger, but tropical storm sizes vary significantly within the tropics.

The NHC website publishes the 1-2-3 Rule boundaries for all storms they track, so watching these online is a good way to get a feeling for how they evolve.

The satellite data here are from the Indian scatterometer OceanSat2 (OSCAT). The European instrument ASCAT is a primary source for this type of data, but it did not have a pass at this time. The sections it did show, confirm that the winds were at least as strong as shown here. We have made a link to all of the scatterometer data along with a convenient way to get ASCAT winds by email at www.starpath.com/ascat.


--------
To see how the 34-kt wind field predictions varied over this period, along with the related probabilities that give some insight into the 1-2-3 Rule, look at this video of the 39-mph winds.

For further information see:

www.nhc.noaa.gov/marine
www.nhc.noaa.gov/prepare/marine.php
www.ecmwf.int