This 2016 video from the USA says about itself:
The WhaleWatch project supported by NASA’s Applied Sciences Program uses NASA satellite environmental data to predict the occurrence of whales off the west coast of the United States. WhaleWatch makes that information available on a NOAA-hosted website to help protect whales from human activity.
From the British Antarctic Survey:
Watching whales from space
November 1, 2018
Scientists have used detailed high-resolution satellite images provided by Maxar Technologies’ DigitalGlobe, to detect, count and describe four different species of whales. Reported this week in the journal Marine Mammal Science, this study is a big step towards developing a cost-effective method to study whales in remote and inaccessible places, that will help scientists to monitor population changes and understand their behaviour.
Each species was observed in one of their known aggregation areas, where individuals come together to congregate: southern right whales off Argentina, humpback whales off Hawaii, fin whales in the Pelagos Sanctuary in the Mediterranean and grey whales off the coast of Mexico. Already it has helped whale conservation bodies to identify 10 key inaccessible whale populations that would benefit most from the application of satellite imagery in studies.
Lead author Hannah Cubaynes, a whale ecologist at British Antarctic Survey (BAS) and University of Cambridge explains:
“This is the most detailed imagery of whales captured by satellites to date. It’s exciting that the improved resolution (now at 30 cm) reveals characteristic features, such as flippers and flukes, which can be seen in the images for the first time.
“Whales live in all oceans. Many areas are difficult to access by boats or planes, the traditional means of monitoring whales. The ability to track whales without travelling to these remote and inaccessible areas, in a cost-effective way, will be of great benefit to conservation efforts for whales.”
The study also shows some species are easier to identify by satellite. Fin and grey whales are the easiest to identify due to their body colouration, which contrasts with surrounding water. Humpback whales and southern right whales are more difficult to detect as they are a similar colour to their environment. In particular, the acrobatic behaviour of humpback whales makes them harder to see as they splash about so much and so their body shape is often obscured.
The team studied seven huge images of the open ocean taken by DigitalGlobe’s WorldView-3 satellite, covering over 5000 km2 — an area the size of the UK county of Norfolk or the U.S. state of Delaware.
Whale ecologist Dr Jennifer Jackson at BAS, an author on the paper, is due to embark on an expedition to the sub-Antarctic island of South Georgia in December to study southern right whales. She says:
“This new technology could be a game-changer in helping us to find whales remotely. Critically endangered whale populations like the Chile-Peru right whale (thought to winter in Patagonia) could really benefit from this approach.
“My project, looking at southern right whales around South Georgia, will examine if the species has made a recovery following the end of whaling. In recent years, many deaths have been seen on their nursery grounds at Peninsula Valdes. Satellite-based technology could prove very useful for measuring trends in whale populations such as these southern right whales, in future.”
This work was funded by the MAVA Foundation and the UK Natural Environment Research Council. DigitalGlobe provided imagery for this study.
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