In psychology, genetic memory is a memory present at birth that exists in the absence of sensory experience, and is incorporated into the genome over long spans of time. It is based on the idea that common experiences of a species become incorporated into its genetic code, not by a Lamarckian process that encodes specific memories but by a much vaguer tendency to encode a readiness to respond in certain ways to certain stimuli.
Language
Language, in the modern view, is considered to be only a partial product of genetic memory. The fact that humans can have languages is a property of the nervous system that is present at birth, and thus phylogenetic in character. However, perception of the particular set of phonemes specific to a native language only develops during ontogeny. There is no genetic predisposition towards the phonemic makeup of any single language. Children in a particular country are not genetically predisposed to speak the languages of that country, adding further weight to the assertion that genetic memory is not Lamarckian. However, there is scientific evidence of a gene for perfect pitch which is more common in Asian countries where pitch is critical to the meaning of a spoken word.
Trauma, phobias, and neuropsychiatric disorders
Neuroscientific research on mice suggests that some experiences can influence subsequent generations. In a 2013 study, mice trained to fear a specific smell passed on their trained aversion to their descendants, which were then extremely sensitive and fearful of the same smell, even though they had never encountered it, nor been trained to fear it. Changes in brain structure were also found. The researchers concluded that "he experiences of a parent, even before conceiving, markedly influence both structure and function in the nervous system of subsequent generations". Scientists speculate that similar genetic mechanisms could be linked with phobias, anxiety, and post-traumatic stress disorders, as well as other neuropsychiatric disorders, in humans.
Historical views
In contrast to the modern view, in the 19th century, biologists considered genetic memory to be a fusion of memory and heredity, and held it to be a Lamarckian mechanism. Ribot in 1881, for example, held that psychological and genetic memory were based upon a common mechanism, and that the former only differed from the latter in that it interacted with consciousness. Hering and Semon developed general theories of memory, the latter inventing the idea of the engram and concomitant processes of engraphy and ecphory. Semon divided memory into genetic memory and central nervous memory. This 19th-century view is not wholly dead, albeit that it stands in stark contrast to the ideas of neo-Darwinism. In modern psychology, genetic memory is generally considered a false idea. However, biologists such as Stuart A. Newman and Gerd B. Müller have contributed to the idea in the 21st century.
In fiction
In the 1975Doctor Who episode The Ark in Space, an insectoid species known as the Wirrn possess a form of race memory as part of a hive mind. Also in the 1984 episode Frontios, Turlough demonstrates the race memory after a nervous breakdown.
In the Assassin's Creed universe, genetic memory is decoded by a virtual machine called the Animus. The Animus decodes and renders memories in a three-dimensional field, allowing the reliving of previous events and the discovery of hidden information.
In Jean M. Auel's The Clan of the Cave Bear, the Neanderthals are able to tap into their shared genetic memory via hallucinogenic herbal concoctions created by their medicine men and women, and sometimes even without using the drug. It is explained in the novel that while this allows them access to a vast array of survival skills learned over thousands of years of slow evolution, they lack the ingenuity and innovation to advance beyond what they already know, and are thus doomed to die out as a species. The Cro-Magnon, who in the novel do not have access to their genetic memories, instead possess a more developed frontal lobe and are thus able to reason and deduct at a level far beyond the Neanderthal.
In 7aum Arivu movie, Bodhidharma is brought back to life in the modern day through a descendant of his by a genetic researcher by genetic memory concept to save his country.
In the 2001 Gene Roddenberry's Andromeda episode The Devil Take the Hindmost, there are colonists called the Hajira who genetically possess all their parents' memories up to the time they are born.
In the TV show Stargate SG-1, an alien race known as the Goa'uld possess and transfer their knowledge via genetic memory, so any newborn goa'uld will possess all the memories and knowledge of their ancestors.
In Alien Resurrection movie, the cloned Ellen Ripley has memories of the past suggested to be a result of genetic crossing with the aliens. When she is shown a picture of a child it is implied that she is remembering the girl Newt from the film Aliens.
In CW's Supergirl, Brainiac 5 warns interrogators that his species possesses "ancestral" memory, and that his ancestors were "collectors, conquerors". After repeatedly being struck in the head, his programming defaults to that of ancestors, sealing off his emotional awareness, causing him to behave much in the way of ancestor and Superman for "Braniac".
Frank Herbert's Dune 1965 series of novels is replete with the notion of genetic memory.
The French Canadian movie “On My Mother’s Side” addresses the subject. A mother invents a new identity and raises him away from his ancestors to prevent her child from becoming like the other men in her family. But when the son discover the truth about his origins, his own genes arise and transform him. But in the end, his knowledge will be stronger than his DNA and the light will triumph.
