Swimmer's Help

Getting Beach Temperatures from Satellites

(printable version)

Now we're going to give you all the information you need to know to become an expert at reading these images. There are 3 simple steps:

1. Image Navigation,
2. Is that a cloud?
3. Where should I go swimming?

1) Navigation - One of the most important things to remember in life is not to believe everything you read. Well, with satellite images, you shouldn't believe everything you see. The satellites are 500 miles up in space and moving at speeds of around 20,000 mph. Because of this excessive speed and some tilt and roll in the satellite, the image isn't exactly in the right spot most of the time. How will you know that? You must look at the image very carefully.

This SST image is not quite right. If you look at arrow A, you will see the coastline in the Cape May area. Now look carefully at the image itself. Notice that the deep red pattern is the same shape as the coast, but doesn't match up. This deep red area (hot temperature) is land. You can see that the coastline near point B should be matched up with the image near point C.

Now let's move the coastline to the correct spot.

Now you can see what it should look like. Notice that when we move the coast, the Latitude/longitude grid also moves. As a web site user, you can't move the coast, but you can now estimate how much error there is in the image navigation when planning your beach trip.

A good thing to note: Land appears much warmer than the coastal water in this image because the satellite pass was taken on a hot summer afternoon. Land heats up a great deal on a hot day while water does not. Just think about when you walk across a beach on a hot day. The sand can burn your feet, but when you run down to the water, it's about the same temperature all day long. The opposite is true with night time images. Land can get very cool at night, while the ocean water will not change more than 4 or 5 degrees over a day.

These two images are a good example of this diurnal (night/day) heat difference.

2) Is that a cloud? As I've already said, the satellites are 500 miles up in space. These satellites cannot see through clouds, so when there is a cloud above the earth, the satellite sees the temperature of the cloud and not the earth below it. Clouds are high up in the sky and are almost always cooler than the earth below. The farther you go up in altitude, the cooler it gets. Just ask a mountain climber.

So, knowing that clouds are cool, look at the image to the left. The areas marked a, b, and c are definitely clouds. They are so cold, they are off the temperature scale (white). Meanwhile, all of the ocean around them is green and yellow. Unless something very strange is going on, white areas in our imagery are RARELY water.

There is one other way of identifying a cloud. Clouds move rapidly over the earth at speeds between 15 to 50 mph. Water currents move at only 2-3 mph. So, the temperature patterns in the ocean should not change quickly. If you can compare two images that are less than 24 hours apart, you will know if a pattern is a cloud because it will not be in one of the two images. For example, look at these two images, specifically the areas marked D and E. In image 1, there is a cloud there (blue/purple), while in image 2 it has moved off to the east (marked cloud).

THE TEMPERATURE EXCEPTION - Upwelling - Sometimes during the summer, water from the ocean floor rises quickly from the bottom and can cool water temperatures 15 degrees in one day. These two images (area B) show one such upwelling event. They are only 20 hours apart, but the coastal water temperature dropped 10 degrees. In our area, these upwellings only occur along the coast. Find out more on Upwelling.

3) Where should I go swimming? Well now that you know how to identify a cloud, you should be able to recognize the temperature changes due to clouds. So, all you have to do is look for the warmest areas. Every Sea Surface Temperature image uses red to represent warm water, and purple to represent cold water. Simply put, you want to swim where the red color in the imagery is. But, as we have just shown you, you should be aware of potential upwelling because this can cause the beach water temperature to change over 10 degrees or more in just a few hours. You should check out our Upwelling index for this.

Let's test you just to make sure you know what to do. What of the 10 beaches listed below would you want to visit based on what you see in the surface temperature image?

Hmmmmm......... Got it yet? I'll give you another few moments.........

Well, I can't wait any longer. The warmest beach on this day was Point Pleasant (23°C or 73°F) and the coldest beach was Cape May which was about 18°C or 64°F. This is actually typical on any summer day in New Jersey. Cape May tends to have a lot of upwelling while Point Pleasant does not.

All of our Sea Surface Temperature (SST) images come from NOAA/AVHRR satellites, which you can learn more about.