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The Conversation
The Conversation
Environment
Gretta Pecl, Professor, ARC Future Fellow & Director of the Centre for Marine Socioecology, University of Tasmania

Thousands of photos captured by everyday Australians reveal the secrets of our marine life as oceans warm

Redmap/Jacob Bradbury

As the planet heats up, many marine plants and animals are moving locations to keep pace with their preferred temperatures. In the Southern Hemisphere, this means species are setting up home further south.

This shift alters what we see when we go snorkelling, and when and where we catch our seafood. Crucially, it also changes sensitive marine ecosystems.

But it’s not always easy for scientists to know exactly what’s happening below the ocean’s surface. To help tackle this, we examined tens of thousands of photographs taken by Australian fishers and divers submitted to citizen science programs over the last decade.

They revealed climate change is already disrupting the structure and function of our marine ecosystems – sometimes in ways previously unknown to marine scientists.

man holds large silver fish
The authors examined tens of thousands of photographs taken by Australian fishers and divers, such as this image of a bonefish found off Western Australia. Redmap

Species on the move

Warming over the Pacific Ocean has strengthened the East Australian Current over the past several decades, as the below-right animation shows. This has caused waters off Southeast Australia to warm at almost four times the global average.

Animated map of sea surface temperatures in southeast Australia from 2004 to 2022
Animated map of sea surface temperatures in southeast Australia from 2004 to 2022. Data sourced from NASA. Barrett Wolfe

There is already irrefutable evidence climate change is causing marine species to move. Understanding this phenomenon is crucial for conservation, fisheries management and human health.

For example, if fish susceptible to carrying toxins start turning up where you go fishing, you’d want to know. And if an endangered species moves somewhere new, we need to know so we can protect it.

But the sheer scale of the Australian coastline means scientists can’t monitor changes in all areas. That’s where the public can help.

Fishers, snorkelers and divers often routinely visit the same place over time. Many develop strong knowledge of species found in a given area.

When a new or unusual species appears in their patch, these members of the public can excel at detecting it. So our project set out to tap into this invaluable community knowledge.


Read more: Climate-driven species on the move are changing (almost) everything


large fish and smaller fish on blue marine background
This sighting of a sea sweep – recorded in May this year off Kangaroo Island by a member of the public – may indicate the species is extending its range. Redmap/Daniel Easton

The value of citizen science

The Redmap citizen science project began in Tasmania in 2009 and went national in 2012. It invites the public to share sightings of marine species uncommon in their area.

Redmap stands for Range Extension Database and Mapping project. Redmap members use their local knowledge to help monitor Australia’s vast coastline. When something unusual for a given location is spotted, fishers and divers can upload a photo with location and size information.

The photos are then verified by a network of almost 100 marine scientists around Australia. Single observations cannot tell us much. But over time, the data can be used to map which species may be extending their range further south.

The project is supported by the University of Tasmania’s Institute for Marine and Antarctic Studies, together with other Australian universities and a range of Commonwealth and state-government bodies.


Read more: Warming oceans are changing Australia's fishing industry


Screenshot of the Redmap website highlighting a recent coral sighting. Redmap

We also examined data from two other national marine citizen science programs: Reef Life Survey and iNaturalist Australasian Fishes Project. The resulting dataset encompassed ten years of photographed species observations made by almost 500 fishers, divers, snorkelers, spearfishers and beachcombers.

The citizen scientists recorded 77 species further south than where they lived a decade ago. Many were observed at their new location over multiple years and even in cooler months.

For example, spearfisher Derrick Cruz got a surprise in 2015 when he saw a coral trout swimming through a temperate kelp forest in his local waters off Sydney, much further south than he’d seen before. He submitted the below photo to Redmap, which was then verified by a scientist.

Man snorkeling in the ocean, holding up a large orange fish
Spearfisher Derrick Cruz, pictured with a coral trout off Sydney. Redmap

Citizen scientists using Redmap were also the first to spot the gloomy octopus off Tasmania in 2012. Subsequent genetic studies confirmed the species’ rapid extension into Tasmanian waters.

Similarly, solo eastern rock lobsters have been turning up in Tasmania for some time. But Redmap sightings recorded dozens of individuals living together in a “den”, which had not been observed previously.

Other species recorded by citizen scientists moving south include the spine-cheek clownfish, Moorish idol and tiger sharks.

Supporting healthy oceans

Using the citizen science data, we produced a report outlining the assessment methods underpinning our study. We’ve also produced detailed state-based report cards for Western Australia, Tasmania and New South Wales, where coastal waters are warming much faster than the global average.

We also generated a map of the species shifts this revealed, and a downloadable poster summarising the findings. This allows the public – including those who contributed data – to see at a glance how climate change is affecting our oceans.

A map of Australia with southerly lines around the coastline depicting how species distributions have shifted over the last decade
Left, a downloadable poster summarising the species shifts in distribution. Right, the state-based report cards.

Citizen science has benefits beyond helping us understand changes in natural systems. Projects such as Redmap open up a community conversation about the impacts of climate change in Australia’s marine environment - using the public’s own knowledge and photos.

Our research suggests this method engages the community and helps get people involved in documenting and understanding the problems facing our oceans and coasts.

A better understanding – by both scientists and the public – will help ensure healthy ecosystems, strong conservation and thriving fisheries in future.


Read more: How you can help scientists track how marine life reacts to climate change


The Conversation

Gretta Pecl receives funding from the Australian Research Council (ARC), the Fisheries Research & Development Corporation (FRDC), the Department of Agriculture Water and the Environment through the National Environmental Science Program (NESP), and the Department of Primary Industries NSW. She is also a Lead Author on the recent IPCC assessment report, and received funding from the Department of Environment and Energy to support travel to IPCC meetings.

Barrett Wolfe receives funding from the Fisheries Research and Development Corporation, the Department of Agriculture Water and the Environment through the National Environmental Science Program, Department of Primary Industries NSW and NRE Tasmania. He has received past research funding from Seaworld Research and Rescue Foundation and PADI Foundation.

Curtis Champion receives funding from the Fisheries Research and Development Corporation. He works for the NSW Department of Primary Industries.

Jan Strugnell receives funding from the Australian Research Council (ARC), the Fisheries Research and Development Corporation (FRDC), the Department of Agriculture Water and the Environment through the National Environmental Science Program (NESP) and the Queensland Government through the Queensland Citizen Science Grants.

Sue-Ann Watson receives funding from the Australian Research Council (ARC), the Department of Agriculture Water and the Environment through the National Environmental Science Program (NESP) and Queensland Government through the Queensland Citizen Science Grants.

This article was originally published on The Conversation. Read the original article.

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