s have demonstrated mirror self-recognition. Several studies using a wide range of species have investigated the occurrence of spontaneous, mark-directed behavior when given a mirror, as originally proposed by Gallup. Most marked animals given a mirror initially respond with
social behavior, such as aggressive displays, and continue to do so during repeated testing. Only a few species have touched or directed behavior toward the mark, thereby passing the classic MSR test. Findings in MSR studies are not always conclusive. Even in chimpanzees, the species most studied and with the most convincing findings, clear-cut evidence of self-recognition is not obtained in all individuals tested. Until the 2008 study on magpies, self-recognition was thought to reside in the
neocortex area of the brain. However, this brain region is absent in nonmammals. Self-recognition may be a case of
convergent evolution, where similar evolutionary pressures result in similar behaviors or traits, although species arrive at them by different routes, and the underlying mechanism may be different. •
Killer whale (
Orcinus orca): Killer whales and
false killer whales (
Pseudorca crassidens) may be able to recognise themselves in mirrors.
Equines •
Horse (Equus ferus caballus): an experiment found eleven out of 14 horses tried to rub coloured marks off their own cheeks after they discovered them in a mirror.
Primates •
Bonobo (
Pan paniscus) •
Bornean orangutan (
Pongo pygmaeus): However, mirror tests with an infant (2-year-old), male orangutan failed to reveal self-recognition. •
Chimpanzee (
Pan troglodytes): However, mirror tests with an infant (11 months old) male chimpanzee failed to reveal self-recognition. •
Western gorilla (
Gorilla gorilla): Findings for western gorillas have been mixed; more so than for the other great apes. At least four studies have reported that
gorillas failed to show self-recognition. However, other studies have shown self-recognition in captive gorillas with extensive
human contact. Such gorillas show less aversion to direct eye contact than wild gorillas. In wild gorillas, as in many other animals, prolonged direct eye contact is an aggressive gesture, and gorillas may fail the mirror test because they deliberately avoid closely examining or making eye contact with their reflections.
Koko was among the gorillas who passed the MSR test under these circumstances.
Proboscidea •
Asian elephant (
Elephas maximus): In a study performed in 2006, three female Asian elephants were exposed to a large mirror to investigate their responses. Visible marks and invisible sham-marks were applied to the elephants' heads to test whether they would pass the MSR test. it was claimed this was because the mirror was too small.
Rodents •
House mouse (
Mus musculus) Birds •
Eurasian magpie (
Pica pica): The Eurasian magpie is the first non-mammal to have been found to pass the mirror test. In 2008, researchers applied a small red, yellow, or black sticker to the throat of five Eurasian magpies, where they could be seen by the bird only by using a mirror. The birds were then given a mirror. The feel of the sticker on their throats did not seem to alarm the magpies. However, when the birds with colored stickers glimpsed themselves in the mirror, they scratched at their throats—a clear indication that they recognised the image in the mirror as their own. Those that received a black sticker, invisible against the black neck feathers, did not react. In 2020, researchers attempted to closely replicate the 2008 study with a larger number of magpies, and failed to confirm the results of the 2008 study. The researchers stated that while these results did not disprove the 2008 study, the failure to replicate indicated the results of the original study should be treated with caution. •
Indian house crow (
Corvus splendens): House crows were found to pass the mirror test in 2019. Six wild-caught crows had a red or yellow mark applied to their throat, then given a mirror. Their reactions were then compared to behaviour exhibited when the mark was applied in absence of a mirror, and when a black mark — not visible against the black throat — was applied both with and without a mirror. Four of the six birds displayed mark-directed behaviour spontaneously when first shown a mirror. The behaviours of these birds were then compared; the birds showed statistically increased levels of
plumage ruffling and head shaking in the mark-mirror trials. Another study done on five house crows failed to replicate the result, to which they list several experimental differences, such as length of mirror and mark exposure and sticker weight. They additionally note that only two of the four crows that exhibited mark-directed behaviour in the original experiment did so at a high frequency, and that of the other two, one was
preening at high levels during mirror exposure without a mark— suggesting that any perceived mark-directed behaviours observed could be a part of general preening behaviour. These authors conclude that under their
paradigm, house crows do not appear to pass the mark test, but also emphasize the high level of variability in results from the mark test and the necessity for testing to be done with larger sample sizes. • Some
pigeons can pass the mirror test after training in the prerequisite behaviors. In 1981, American psychologist
B. F. Skinner found that pigeons are capable of passing a highly modified mirror test after extensive training. In the experiment, a pigeon was
trained to look in a mirror to find a response key behind it, which the pigeon then turned to peck to obtain food. Thus, the pigeon learned to use a mirror to find critical elements of its environment. Next, the pigeon was trained to peck at dots placed on its feathers; food was, again, the consequence of touching the dot. The latter training was accomplished in the absence of the mirror. The final test was placing a small bib on the pigeon—enough to cover a dot placed on its lower belly. A control period without the mirror present yielded no pecking at the dot. When the mirror was revealed, the pigeon became active, looked in the mirror and then tried to peck on the dot under the bib. However,
untrained pigeons have never passed the mirror test.
Fish •
Bluestreak cleaner wrasse (
Labroides dimidiatus): According to a study done in 2019,
cleaner wrasses were the first fish observed to pass the mirror test. The bluestreak cleaner wrasse is a tiny tropical reef
cleaner fish. Cleaner fish have an adapted evolutionary behavior in which they remove parasites and dead tissue from larger fish. When put through the mirror test, using a benign brown gel injected into the skin of the fish, and resembling a parasite, the cleaner wrasse showed all the behaviors of passing through the phases of the test. When provided with a colored tag in a modified mark test, the fish attempted to scrape off this tag by scraping their bodies on the side of the mirror. However, Gordon Gallup believes the cleaner wrasses' behavior can be attributed to something other than recognizing itself in a mirror. Gallup has argued that a cleaner wrasse's job in life is to be aware of ectoparasites on the bodies of other fish, so it would be hyper aware of the fake parasite that it noticed in the mirror, perhaps seeing it as a parasite that it needed to clean off of a different fish. The authors of the study retort that because the fish checked itself in the mirror before and after the scraping, this means that the fish has self-awareness and recognizes that its reflection belongs to its own body. The cleaner wrasses, when tested, spent a large amount of time with the mirror when they were first getting acquainted with it, without any training. Importantly, the cleaner wrasses performed scraping behavior with the colored mark, and they did not perform the same scraping behavior without the colored mark in the presence of the mirror, nor when they were with the mirror and had a transparent mark. Following various objections, the researchers published a follow-up study in 2022, where they did the mirror test on a larger sample of wrasses and experimented with several marking techniques. The new results "increase[d] [the researchers'] confidence that cleaner fish indeed pass the mark test", although wrasses attempted to scrape off the mark only when it resembled a parasite. Another study in 2024 found that cleaner wrasse that initially showed aggression to photographs 10% larger and 10% smaller than themselves ceased confrontation with 10% larger photographs upon encountering their reflection. •
Giant oceanic manta ray (
Mobula birostris): In 2016 a modified mirror test done on two captive manta rays showed that they exhibited behavior associated with
self-awareness (i.e. contingency checking and unusual self-directed behavior).
Cephalopods •
Mimic octopus (
Thaumoctopus mimicus): A video in 2025 showed a Mimic Octopus recognising itself in a mirror.
Insects •
Myrmica rubra,
Myrmica ruginodis, and
Myrmica sabuleti: A 2015 study found that individual ants of these three ant species would attempt to clean themselves after being exposed to a mirror and seeing a blue dot on their bodies.
Animals that have failed Some animals that have reportedly failed the classic MSR test include:
Mammals Carnivorans •
Sea lions (
Zalophus californianus) •
Giant panda (
Ailuropoda melanoleuca): In one study, 34 captive giant pandas of a wide range of ages were tested. None of the pandas responded to the mark and many reacted aggressively towards the mirror, causing the researchers to consider the pandas viewed their reflection as a
conspecific. •
Dogs (
Canis lupus familiaris): Dogs either treat the image as another animal, or come to ignore it completely. •
Cats (
Felis catus).
Primates •
Stump-tailed macaque (
Macaca arctoides) •
Hamadryas baboon (
Papio hamadryas) •
Chacma Baboon (Papio Ursius) •
Gray mouse lemur (Microcebus murinus)
Birds •
Grey parrot •
New Caledonian crow •
Jackdaw •
Great tit (
Parus major)
Fish • The Tanganyikan cichlid, or daffodil cichlid (
Neolamprologus pulcher), is another fish that has failed the mirror test, according to a study done in 2017. Although not
cleaner fish like the
cleaner wrasses, these fish are typically regarded as socially intelligent and can recognize conspecifics in their social groups. Therefore, they would theoretically make good candidates for the mirror test, but they ended up failing. Similar to the cleaner wrasse, the Tanganyikan cichlid first exhibited signs of aggression towards the mirrored image. After a colored mark was injected, the researchers found no increased scraping or trying to remove the mark, and the cichlids did not observe the side with the mark any longer than it would have otherwise. This demonstrates a lack of contingency checking and means that the Tanganyikan cichlid did not pass the mirror test.
Cephalopods •
Octopodes oriented towards their image in a mirror, but no difference in their behaviour (as observed by humans) was seen in this condition when compared with a view of other octopodes.
Animals that may pass Mammals Primates Gibbon (g.
Hylobates,
Symphalangus and
Nomascus) have failed to show self-recognition in at least two tests. However, modified mirror tests with three species of
gibbons (
S. syndactylus,
N. gabriellae,
N. leucogenys) in 2000 showed convincing evidence of self-recognition even though the animals failed the standard version of the mirror test. Another study published in 2009 documents 12 cases of spontaneous self-recognition in front of the mirror by a pair of
siamangs (
Symphalangus syndactylus).
Capuchin monkey (
Cebus apella) did not pass in one test but recognized the reflection as special in another.
Rhesus macaque (
Macaca mulatta) Though macaques failed the original mark test, Rhesus macaques have been observed to use mirrors to study otherwise-hidden parts of their bodies, such as their genitals and implants in their heads. It has been suggested this demonstrates at least a partial self-awareness, although further study is needed.
Pigs Pigs can use visual information seen in a mirror to find food. In a 2009 experiment, seven of the eight pigs who spent 5 hours with a mirror were able to find a bowl of food hidden behind a wall and revealed using a mirror. Pigs that had no experience with mirrors, looked behind the mirror for the food.
BBC Earth also showed the food bowl test, and the "matching shapes to holes" test, in the
Extraordinary Animals series. There is evidence of self-recognition when presented with their reflections. So far, pigs have not been observed to pass the mirror mark test, however.
Birds Adelie penguins do not react as if they would react to a wild bird, and when presented with a mirror, gestured to notice the reflection in the mirror. However, they were not bothered enough by the mirror-test marks on their face to react to the marks.
Fish Two captive
giant manta rays showed frequent, unusual and repetitive movements in front of a mirror, suggesting contingency checking. They also showed unusual self-directed behaviors when exposed to the mirror. Manta rays have the largest brains of all fish. In 2016, Csilla Ari tested captive manta rays at the Atlantis Aquarium in the Bahamas by exposing them to a mirror. The manta rays appeared to be extremely interested in the mirror. They behaved strangely in front the mirror, including doing flips and moving their fins. They also blew bubbles. They did not interact with the reflection as if it were another manta ray; they did not try to socialize with it. However, only an actual mirror test can determine if they actually recognize their own reflections, or if they are just demonstrating exploratory behavior. A classic mirror test has yet to be done on manta rays. Another fish that may pass the mirror test is the common archerfish,
Toxotes chatareus. A study in 2016 showed that archerfish can discriminate between human faces. Researchers showed this by testing the archerfish, which spit a stream of water at an image of a face when they recognized it. The archerfish would be trained to expect food when it spat at a certain image. When the archerfish was shown images of other human faces, the fish did not spit. They only spit for the image that they recognized. Archerfish normally, in the wild, use their spitting streams to knock down prey from above into the water below. The study showed that archerfish could be trained to recognize a three-dimensional image of one face compared to an image of a different face and would spit at the face when they recognized it. The archerfish were even able to continue recognizing the image of the face even when it was rotated 30, 60 and 90°. ==Humans==