Genes contribute to patriotism and group loyalty
Research showing how genes affect group loyalty and patriotism was published in the October 2005 issue of Nations and Nationalism, an academic journal of the London School of Economics.
Entitled “Ethnic nationalism, evolutionary psychology, and genetic similarity theory,” it shows how genetic similarity provides “social glue” in groups as small as two spouses and best friends or in those as large as nations and alliances.
The evidence comes from studies of identical and non-identical twins, adopted and non-adopted children, blood tests, social assortment, heritabilities, family bereavements, and large-scale population genetics.
For example, identical twins grieve more for their co-twin than do non-identical twins. And, family members grieve more for children who resemble their side of the family than they do their spouses side.
Also, spouses who are more genetically similar have longer and more satisfying marriages.
Based on their DNA, two randomly chosen individuals from the same ethnic group are found to be as related as first cousins.
Thus, two random people of English ancestry are the equivalent of a 3/8 cousin compared to people from the Near East; a 1/2 cousin by comparison with people from India; and like full cousins by comparison with people from China.
The studys author, J. Philippe Rushton, professor of psychology at the University of Western Ontario said, “This explains why people describe themselves as having “ties of blood” with members of their own ethnic group, who they view as “special” and different from outsiders; it explains why ethnic remarks are so easily taken as fighting words.”
Human social preferences, like mate choice and ethnic nepotism, are anchored in the evolutionary psychology of altruism. Adopting a “genes eye” point of view allows us to see that peoples favoritism to kin and similar others evolved to help replicate shared genes.
Since in aggregate people share more genes with their co-ethnics than they do with their relatives, ethnic nepotism is a proxy for family nepotism.
The paper describes the history of the Jewish people as providing perhaps the best-documented example of how genetic similarity intersects culture, history, and even politics.
Jewish groups are genetically similar to each other even though they have been separated for two millennia. Jews from Iraq and Libya share more genes with Jews from Germany and Russia than either group shares with the non-Jewish populations among whom they have lived over the intervening centuries.
Recent DNA studies of the ancient Hindu caste system has confirmed that upper castes are more genetically related to Europeans than are lower castes who are genetically more related to other south Asians. Although outlawed in 1960, the caste system continues to be the main feature of Indian society, with powerful political repercussions.
The paper described the group-identification processes as innate–part of the evolved machinery of the human mind. Even very young children make in-group/out-group distinctions about race and ethnicity in the absence of social learning.
All latest news from the category: Life Sciences and Chemistry
Articles and reports from the Life Sciences and chemistry area deal with applied and basic research into modern biology, chemistry and human medicine.
Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.
China claims new world record for strongest steady magnetic field
The hybrid magnet at the Steady High Magnetic Field Facility (SHMFF) in Hefei, China set a world record for the highest steady magnetic field by a working magnet when it…
Metaholographic platform that detects light exposure
During the COVID-19 pandemic last year, an incident occurred where vaccines exposed to room temperature had to be discarded. Biomedical substances, including vaccines, risk deterioration if not stored properly, so…
Similarity of hepatocytes from liver and from stem cells improved
Research with stem cells is becoming increasingly important, because stem cells can develop into any body cell – skin cells, nerve cells or organ cells such as liver cells, the…