Scientists perplexed to see wild fish recognise specific humans: ‘It was like they were studying us'

Scientists at a Mediterranean research station have found that some wild fish can tell apart humans, recognising and targeting specific divers who had fed them before.
The study, published in the journal Biology Letters on Tuesday, found that some wild fish can use visual cues to identify specific humans even when their faces are covered by diving gear.
Previous lab studies have shown that captive fish, like archerfish, can recognise human faces in controlled settings.
However, there is little evidence that wild fish could do the same, say researchers from Germany 's Max Planck Institute of Animal Behaviour (MPI-AB).
To test this, scientists conducted a series of experiments at a research site eight meters underwater in the Mediterranean Sea where wild fish have become habituated to divers.
In the first phase of the experiments, study co-author Katinka Soller attempted to attract the attention of local fish by wearing a bright red vest, and fed fish while swimming a length of 50m.
Gradually, she removed the vest and wore plain dive gear, kept the food hidden, and fed fish only after they had followed her the full 50m.
The fish, according to scientists, were 'willing volunteers' in the study who came and went as they pleased.
Two species of seabream fish were particularly willing to engage, they said.
After 12 days of training, 20 fish followed Ms Soller, who could recognise several of the fish from their physical traits.
'There was Bernie with two shiny silver scales on the back and Alfie who had a nip out of the tail fin,' she said.
In the next experimental phase, researchers tested if these same fish could tell Soller apart from another diver, study senior author Maëlan Tomasek.
Dr Tomasek's diving gear 'differed notably' in some colourful parts of the wetsuit and fins, researchers said.
This time the divers started at the same point and then swam in different directions, but Dr Tomasek never fed the fish that followed him.
Scientists were surprised to find that while the fish followed both divers equally on the first day, the number of fish following Ms Soller increased significantly from day two.
Researchers then focused on six fish out of the large group to study individually and found that they showed 'strong positive learning curves.'
The findings suggest the fish were conscious of both divers and tested each one to learn that Katinka produced the reward at the end of the swim.
However, when scientists repeated the experiment wearing identical diving gear, the fish were unable to discriminate them, they say.
Based on this observation, researchers suspect the fish associated differences in the dive gear – most likely the colour cues – with each diver.
'Almost all fish have colour vision, so it is not surprising that the sea bream learned to associate the correct diver based on patches of colour on the body,' Dr Tomasek said.
'We already observed them approaching our faces and scrutinising our bodies. It was like they were studying us, not the other way around,' Ms Soller said.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

The Independent

3 days ago

• The Independent

Rare whale tooth fossil reveals secrets of ancient Iberian people

A rare whale tooth unearthed at a Copper Age 'mega village' in Spain has shed light on the artistry of Iberian people who lived in the Mediterranean region over 4,000 years ago. The tooth, discovered at the Valencina archaeological site in southwest Spain in 2018, is the first such fossil dated to this period in Iberia. According to a study published in PLOS One, the tooth was likely collected from an ancient shoreline and carefully worked on by Copper Age craftspeople. The craftspeople, living in a coastal village 5,300 to 4,150 years ago, likely used the tooth to fashion personal ornaments or symbolically meaningful artefacts. After it was worked on, the fossil was deliberately buried as indicated by further wear and tear and the hard crust covering its surface, the study noted. The findings add to our understanding of the use of ivory to craft ornaments, musical instruments and sculptures since the Old Stone Age, which began almost 40,000 years ago. Ivory 's striking appearance, durability, and strength made it an integral part of trade and sociocultural activities of ancient societies. However, much of what we know about the use of ivory in prehistoric times is based only on examining ivory sourced from terrestrial animals like elephants, hippos, deer and bears. While previous research underlines elephant ivory use in Old Stone Age and Copper Age societies of southern Spain, little is known about the significance of the material from marine mammals. The whale tooth from Valencina, measuring 17cm tall and 7cm wide and weighing over 0.5kg, provides a unique glimpse into the past. Analysis of the fossil revealed it came from an adult sperm whale and showed evidence of erosion from worms and barnacles as well as suspected shark bites, indicating it spent time on the seafloor. Researchers also identified signs of human activity on the tooth, like drilled holes and distinct cut marks that could not have occurred naturally. These observations prompted researchers to conclude that the whale likely died of natural causes, following which its body sank to the seafloor and one of its teeth washed ashore before it was found and used by ancient Iberians. 'Although no ivory artefact has yet been diagnosed as coming from a sperm whale tooth, recent finds of ivory of marine origin in European archaeological contexts have brought a new focus to the study of the use of marine resources by prehistoric societies,' the study said.

The Independent

13-06-2025

• The Independent

The 16th-century shipwreck discovered in previously unmapped area

A 16th-century merchant vessel's remains have been discovered off the coast of southern France, the deepest shipwreck ever found in that part of the Mediterranean. The shipwreck, dubbed Camarat 4, was found at a depth of over 2.5km during a French navy seabed exploration mission off Ramatuelle in a previously unmapped area in March. Submersible drones captured detailed images and videos of the wreck, revealing about 200 earthenware pitchers trapped under sediment, some with the monogram 'IHS' and geometric decorations. Researchers suspect the ceramics were made in the Liguria region of northern Italy in the 16th century, and the wreck also contains around 100 plates, cannon anchors, and two cauldrons. Scientists plan further studies to create a 3D digital version of the ship and extract samples to enhance understanding of 16th-century Mediterranean navigation, with the wreckage well-preserved due to the depth.

Daily Mail​

09-06-2025

• Daily Mail​

Mega-colonies of 'SUPER ANTS' are storming through Europe, wiping out power supplies and even roads - and experts warn they're headed for the UK

Brits should be on the lookout for an invasive 'super ant' that's storming through Europe, experts warn The species, called Tapinoma magnum, is native to the Mediterranean region – but has swiftly moved further north into France, Germany and Switzerland. The pest tunnels under roads and bites through electric cables, causing power cuts, internet outages, and thousands of pounds in damage. Anyone who squashes a T. magnum ant is greeted by the stench of rancid butter, the Sun reports. So far, there have been no verified records of T. magnum in the UK – but experts say the species could potentially cross the English channel. 'There's always some risk with species like this,' Niall Gallagher, technical manager at British Pest Control Association (BPCA), told MailOnline. 'Like any invasive species, if T. magnum were to establish here, it could become a nuisance. 'They form vast supercolonies, displace native species and can even cause structural issues by excavating under paving.' T. magnum is native to north African and Mediterranean countries, including Algeria, Morocco, Tunisia, Spain and Italy. But in the last few years the species has reached further northwards into France, Belgium, Germany, Switzerland and the Netherlands. According to Mr Gallagher at the BPCA, the ants spread north mainly through horticultural imports – especially potted plants and trees from the Mediterranean. They have 'remarkable cold tolerance', surviving harsh German winters, and can thrive in disturbed, urban environments – such as patios, pavements and garden centres. Worryingly, T. magnum forms 'supercolonies' of 20 million ants across 60 acres due to a 'tireless determination to expand', the Sun reports. When two colonies encounter one another, they merge together 'in alliance' rather than attacking – gradually forming one massive colony with multiple queens. They build their nests in the ground and as a result displace the earth beneath tarmac – causing roads and pavements to sink. In the German city of Kehl, the supercolonies led to disruptions to power and internet connections as the insects bit through electric cables. How to spot Tapinoma magnum T. magnum look similar to the black garden ant (Lasius niger) but the invasive species is identified by its distinctive procession behaviour. These ants form conspicuous trails across pavements and up buildings, often in large, coordinated lines. To the untrained eye, this may look like a very active colony of common ants - but the sheer volume and organised movement can be a telltale sign of T. magnum. A Kehl playground had to close last summer because the Tapinoma ants had completely tunneled under the entire area, SRF reports. Meanwhile, in Switzerland, where the species was first discovered in 2018, T. magnum has caused a 'plague' of the beasts in Zurich. In the nearby Oetwil an der Limmat region, one supercolony infested a potato field the size of about seven football pitches. A local, Agnes Wirth, told SRF: 'There were so many ants, you couldn't see the floor anymore.' T. magnum are black in colour, measure an average of 3 mm (0.1-inch), and look very similar to the black garden ant (Lasius niger), according to the BPCA. Although even experts may struggle to tell the two species apart on appearance alone, T. magnum can be discerned by a distinctive 'procession' behaviour. A colony of the invasive ants forms conspicuous trails across pavements and up buildings, often in large, coordinated lines. To the untrained eye, this may look like a very active colony of black garden ant, but the sheer volume and organised movement can be a telltale sign of T. magnum. If the species were to establish in the UK, pest professionals would likely rely on a combination of bait gels (such as indoxacarb or imidacloprid) and surface treatments, as successfully done in Zurich. 'Individual efforts by homeowners and gardeners can't control an infestation,' said Mr Gallagher. 'Specifically tailored pest control solutions are needed to eradicate a colony.' Although spread mainly through imported plants, climate change may also be playing a role in helping the ants survive further north than previously possible. Warmer winters and longer summers in the UK could make colonisation here more likely, just like with several 'alien' species. 'Tapinoma magnum has profound impacts on local communities,' said Ricardo Pereira, biologist at the Natural History Museum Stuttgart. 'With progressive global warming and a warmer spring, more alien species will follow.'