Blog icon

10 January 2020 4 min read

Satellite view showing Victoria, New South Wales and ACT, highlighting areas affected by fires.
NASA’s Worldview software gives you a satellite view of Earth right now, and can help track the spread of fires.

In recent days, many worrying bushfire maps have been circulating online, some appearing to suggest all of Australia is burning.

You might have seen this example, decried by some as misleading, prompting this Instagram post by its creator:

As he explained, the image isn’t a NASA photo. What a satellite actually “sees” is quite different.

I’ll explain how we use data collected by satellites to estimate how much of an area is burning, or has already been burnt, and what this information should look like once it’s mapped.

Reflective images

When astronauts look out their window in space, this is what they see:

Image of the wildfires surrounding Sydney, Australia from the International Space Station, orbiting 269 miles above the Tasman Sea.

It’s similar to what you might see from an aeroplane window, but higher and covering a wider area.

As you read this, many unmanned satellites are orbiting and photographing Earth. These images are used to monitor fires in real-time. They fall into two categories: reflective and thermal.

Reflective images capture information in the visible range of the electromagnetic spectrum (in other words, what we can see). But they also capture information in wavelengths we can’t see, such as infrared wavelengths.

If we use only the visible wavelengths, we can render the image similar to what we might see with the naked eye from a satellite. We call these “true colour” images.

Satellite image with true colour depiction of South East Australia. Shows clouds of murky brown colour over the coastline, brown and green landscape below.
This is a true colour image of south-east Australia, taken on January 4th 2020 from the MODIS instrument on the Aqua satellite. Fire smoke is grey, clouds are white, forests are dark green, brown areas are dryland agricultural areas, and the ocean is blue. NASA Worldview / https://go.nasa.gov/307pDDX

Note that the image doesn’t have political boundaries, as these aren’t physical features. To make satellite imagery useful for navigation, we overlay the map with location points.

Satellite image with true colour depiction of South East Australia, including features such as landmarks, cities and towns, and the coastline border and state border. Shows clouds of murky brown colour over the coastline, brown and green landscape below.
The same image shown as true colour, with the relevant geographical features overlaid. NASA Worldview / https://go.nasa.gov/2TafEMH

From this, we can predict where the fires are by looking at the smoke. However, the fires themselves are not directly visible.

‘False colour’ images

Shortwave infrared bands are less sensitive to smoke and more sensitive to fire, which means they can tell us where fire is present.

Converting these wavelengths into visible colours produces what we call “false colour” images. For instance:

Satellite image with a false colour depiction of South East Australia, meaning the smoke is transparent grey, and red is shown where bushfires have recently burnt.
The same image, this time shown as false colour. Now, the fire smoke is partially transparent grey while the clouds aren’t. Red shows the active fires and brown shows where bushfires have recently burnt.NASA Worldview / https://go.nasa.gov/2NhzRfN

In this shortwave infrared image, we start to “see” under the smoke, and can identify active fires. We can also learn more about the areas that are already burnt.

Thermal and hotspots

As their name suggests, thermal images measure how hot or cold everything in the frame is. Active fires are detected as “hotspots” and mapped as points on the surface.

While reflective imagery is only useful when obtained by a satellite during daytime, thermal hotspots can be measured at night – doubling our capacity to observe active fires.

Satellite image with false colour depiction of South East Australia, meaning the smoke is transparent grey, and red is shown where bushfires have recently burnt. Hotspots for bushfires have been overlaid in red.
The same image shown as false colour, with hotspots overlaid in red. NASA Worldview / https://go.nasa.gov/2rZNIj9

This information can be used to create maps showing the aggregation of hotspots over several days, weeks or months.

Geoscience Australia’s Digital Earth hotspots service shows hotspots across the continent in the last 72 hours. It’s worth reading the “about” section to learn the limitations or potential for error in the map.

When hotspots, which show “hot” pixels, are shown as extremely big icons, or are collected over long periods, the results can be deceiving. They can indicate a much larger area to be under fire than what is really burning.

For example, it would be wrong to believe all the areas in red in the map below are burning or have already burnt. It’s also unclear over what period of time the hotspots were aggregated.

World map with fire hotspots marked around the world, marked in red over the map.
The ‘world map of fire hotspots’ from the Environmental Investigation Agency.Environmental Investigation Agency / https://eia-international.org/news/watching-the-world-burn-fires-threaten-the-worlds-tropical-forests-and-millions-of-people/

Get smart

Considering all of the above, there are some key questions you can ask to gauge the authenticity of a bushfire map. These are:

  • Where does this map come from, and who produced it?
  • Is this a single satellite image, or one using hotspots overlaid on a map?
  • What are the colours representing?
  • Do I know when this was taken?
  • If this map depicts hotspots, over what period of time were they collected? A day, a whole year?
  • Is the size of the hotspots representative of the area that is actually burning?

So, the next time you see a bushfire map, think twice before pressing the share button.

This article is republished from The Conversation under a Creative Commons license. Read the original article

Contact us

Find out how we can help you and your business. Get in touch using the form below and our experts will get in contact soon!

CSIRO will handle your personal information in accordance with the Privacy Act 1988 (Cth) and our Privacy Policy.


This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

First name must be filled in

Surname must be filled in

I am representing *

Please choose an option

Please provide a subject for the enquriy

0 / 100

We'll need to know what you want to contact us about so we can give you an answer

0 / 1900

You shouldn't be able to see this field. Please try again and leave the field blank.