Biosocial interactions in modernization 3. Individual variation and individualism 3. Individual variation and individualism Ø 3.1. Evolutionary determinants of individual variation Ø 3.2. Individual-societal interdependencies in modern society Basic questions Ø Why do people within a population differ from each other? Ø How is this variation linked to attitudes about individual variation, such as individualism? What is the importance of individual variation? Ø Proximately: ØMost people find the perspective of a uniform humanity, as deluded in some science-fiction stories, quite creepy; Øthe study of inter-individual differences is important because it can help to resolve societal problems, such as inter-individual relations and conflicts, control of criminality, treatment of diseases, valorization of talent, promotion of social welfare and wellbeing. Ø Ultimately: individual variation is a condition for further evolution and adaptation to changing environments. The genetic unique identity of the individual Ø In humans 99.6 to 99.8% of nucleotides are identical, but the other 0.2−0.4% nucleotides (± 10 million DNA variants) can potentially occur in different combinations; Ø This represents a very small fraction of the total genome, but is vastly more than enough variation to ensure individual uniqueness at the DNA level. Ø With the exception of monozygotic twins, where the segregation‑recombination‑mechanism is being by-passed, no two individuals have the same genome. The individual has a unique genetic identity. The level of selection: individual or group selection? ØDarwin: selection at the individual level of organization; ØPost Social-Darwinist era: group selection; ØWilliams (1966): the gene as unit of selection; Dawkins (1976): ‘The selfish gene’; ØEnd of the 20th century: group selection re-emerged as an important component of a multilevel theory of evolution; ØCurrently: discussion on the relative importance of individual, kin and group selection continues with great intensity. Within- and between-group selection Ø In the discussions about individual or group selection, not always sufficient distinction is made between within-group and between-group selection; Ø Within-group selection: refuted because incompatible with individual selection (Williams, Maynard Smith, Trivers); Ø Between-group selection: powerful mechanism of selection between groups or populations, producing changes in gene pool compositions. Within-group selection Ø A mutant that limits the reproductive capacity of its bearer, emerges in a population that over-exploits its environment. Ø Obviously, this benefits the total population and allows the other members of the group to increase their reproductive fitness. Ø Because the bearer(s) of this fertility limiting mutant will produce a smaller number of offspring, this ‘altruist’ mutation will be exterminated by means of individual selection. Ø Within-group selection is, in other words, incompatible with individual selection. Within- and between-group selection in the human Ø Competition between biological and cultural transmission systems: ØBiological transmission system: ‘Darwinian’ vertical transmission needing the individual funnel for passing genes from parents to offspring; ØCultural transmission system: ‘Lamarckian’ horizontal transmission of acquired characteristics; Ø Result: individual within-group selection may be weakened or eliminated, thereby increasing the likelihood of group-beneficial traits evolving. The adaptive significance of individual-transcending levels of organization • The individual level of organization: – Ultimately moving power of human action; – Vehicle for transmitting genes. • The population level of organization: – Primary function: instrumental role of significance with respect to individual survival and reproduction; – Secondary role: bearer of an intergenerationally emerged cultural heritage and transmitter of values and knowledge: • exosomatic survival instrument; • exceeds the absorbing capacity of the individual. Between-group selection Ø Two theories: Øthe human is intrinsically a peace-loving, non-agressive species; ØThe human has the need for resource acquisition (women, slaves, territories, nutritional and material resources) and is endowed with strong drives towards competition and agression. Ø The historical record supports strongly the second theory: ØThe extermination of the pre-sapiens hominids; ØThe omnipresence of intergroup warfare; ØThe submission and exploitation of ‘outgroups’, wherever opportunities exist. Biological sources of individual variation Ø General variation: differences between individuals resulting from mutations and selective processes, as well as from differential environmental influences; Ø Age variation: changes individuals undergo in the course of their ontogenetic development; Ø Sexual variation: in addition to between-sex differences, there is also within each sex a variation in masculinity-femininity; Ø Racial variation: biological differences that originate, through migration, from inter-population variability. Normality-abnormality Ø The concepts of normal and abnormal can have two meanings: Ø corresponding/deviating of what is prevalent in majority; Ø corresponding/deviating from the norm according to which one should behave. Ø Approaches or practices distinguishing normality from abnormality: Ø Statistics: norm of ± 1.96s of a normal distribution to distinguish the normal probability area of 95 percent from the two eccentric areas of each 2.5 percent, in total 5 percent; Ø Medical sciences: often define the ‘normal’ (= healthy) variation in the population on the basis of samples of people who are in good health; Ø Evolutionary biology: normality is defined on the basis of genetic fitness, i.e. on the basis of survival probabilities and differential reproduction. General variation within the normality range Ø How to explain the general biological variation within the ‘normality’ range of the Gauss distribution (e.g. within the 95% probability range, leaving both the two-sided excentric areas of 2 x 2.5% in the aside)? Ø = Mutations or developmental variation under influence of internal or external environmental factors which are not harmful either for the ontogenetic development of the individual or for his reproduction. 95% probability area and excentric areas of 2.5% Explaining maladaptive traits Ø Definition of maladaptive trait Ø Intra-generationally (ontogenetically): decreases the development of human-specific characteristics (e.g. sociality, intelligence); Ø Intergenerationally (phylogenetically): decreases the genetic fitness (intergenerational transmission of genes). Ø Causes of the presence of maladaptive traits: Ø Deleterious mutations; Ø Unfavourable environments; Ø Changed environments, transforming earlier advantageous traits into disadvantageous characteristics or behaviour; Ø increasing longevity which allows the appearance of post-reproductive degenerative diseases due to the decreasing force of selection; Ø in modern culture, the conservation or even promotion of less favourable mutants or behavioural patterns because they have sufficient survival value in the culturally or economically protected environment or are even fostered by such environments. Ø Causes for the reproduction of maladaptive traits: Ø Incomplete selection against maladaptive traits. Criminality: an example of individual variation and (?) maladaptivity • Individual variation – Intra-individual – Between individuals – Between groups • Is criminal behaviour – Adaptive or – Maladaptive ? Criminality: value and norm dependent Ø Criminal behavour: dependent upon value and norm system, e.g. Ø In-group/out-group bias: *Violent behaviour towards others in times of peace and war; *Ethnic and racial prejudice. Ø Social class bias: *Crude versus sophisticated forms of competition; *Ecological, fiscal, informatic crimes. Ø Sexual bias (in pre-modern value systems?) Ø Virginity; Ø Extra-marital intercourse; Ø Divorce and inheritance rights. Ø Current rules-abiding systems: not completely free from various forms of bias. Criminal behaviour? • Violent behaviour • Cheating behaviour Cheating behaviour Biosocial Criminology: important and delicate Ø Important, because criminality is in modern culture still a frequently prevailing phenomenon involving high social and human cost, all causes of which should be effectively considered; Ø Delicate, because here again the prejudice appears that (partial) biological or genetic influences on norm-violating behavour imply unchangeability or incurability, and consequently imply that Øsocial action is redundant, or Øpersonal responsibility needs no longer to be the basis for a just judicial procedure. Criminology and Biosocial criminology Ø Criminology: in recent decades, a slow shift from the earlier, ideologically strongly influenced, social-environmentalist theory of criminal behaviour towards a more interdisciplinary approach in which bio-social criminology takes a more prominent place; Ø This shift is probably due to the remarkable recent progress of several biological disciplines, but also to the disappointing results of policies which are only founded in social theory. Recent English language books on biosocial criminology Ø Mednick, S., K.O. Christiansen (1977), Biosocial Bases of Criminal Behavior. New York: Gardner Press. Ø Wilson, J.Q., R.J. Herrnstein (1985), Crime and Human Nature. New York: Simon & Schuster. Ø Raine, A. (1993), The psychopathology of crime: Criminal behavior as a clinical disorder. San Diego: Academic Press. Ø Moir, A., D. Jessel (1995), A Mind to Crime. The Controversial Link between the Mind and Criminal Behaviour. London: Penguin Books. Ø Rowe, D. (2002), Biology and Crime. Los Angeles: Roxbury. Ø Walsh, A. (2002), Biosocial Criminology. Introduction and Integration. Cincinnati: Anderson. Ø Walsh, A., L. Ellis (eds) (2003), Biosocial criminology: Challenging Environmentalism’s supremacy. New York: Nova Science. Backbones of biosocial criminology Recent developments of three large biological fields of study: Ø Genetics: ØMolecular genetics ØBehavioural genetics Ø Neurology: ØNeuro-physiology ØPsychophysiology Ø Evolutionary biology: ØSociobiology ØBehavioural ecology ØEvolutionary psychology ØPaleontology and archeology ØEthnography ØPrimatology Genetics and criminality ØKaroytypology: XYY ØMolecular genetics: e.g. MAO ØBehaviour genetics ØKinship ØAdoption ØIntelligence ØPersonality Karyotypology and criminality Ø XYY men are relatively more present in penitentiaries and psychiatric institutions than can be expected on the basis of their prevalence in the population; Ø XYY men are very tall (average body height = 1.90), have a higher testosteron level, but a somewhat lower average intelligence; Ø They have a higher propensity towards aggressive behaviour and come more often in conflict with the law; however, only a minority of XYY men manifest criminal behaviour. Ø Multivariate research showed that the XYY karyotype is not directly, but indirectly – via a lower intelligence level – related to norm-violating behaviour. Molecular genetics and criminality Ø A point mutation of the MAO-A gene on the X-chromosome is responsible for the failure to produce the enzyme monoamineoxydase A which plays a role in the metabolism of neurotransmitters; Ø This point mutation produces in men extremely violent behaviour (arson, rape, tantrum, aggression); Ø Since men have only one X chromosome, the mutated MAO-A gene manifests itself immediately phenotypically, though via the action of neurotransmitters. Behaviour genetics and criminality: results from twin and adoption research Ø Twin studies: Ø Virtually all twin research about criminal behaviour shows a significantly higher concordance among monozygotic than among dizygotic twins, even after control for a number of mediating factors (31%-13%). Those data do not proof that criminal behaviour is genetically determined, but that the presence of particular genotypes in criminogenous circumstances can more easily lead to criminal behaviour. Ø Adoption studies: Ø The influence of the biological father on the criminal behaviour of the adopted is twice to three times as large as the effect of the adoption father. Ø Chronic offenders – life course persistent delinquents – have a larger probability of having biological parents with several convictions. Ø The largest effect comes from the combination of ‘bad’ genes and ‘bad’ environment, not from a bad environment in se. Crime concordance among twins Crime figures in cross-fostering adoption (Mednick et al., 1984; Bohman et al., 1982) Interaction between biological and social factors The relation between biological (genetic) factors and criminal behaviour depends on the socio-economic status: Ø the relation between biological (genetic) factors and criminal behaviour manifests itself in socially higher and middle classes, but ØLess or not in lower social classes where unfavourable living conditions mask the effects of biological (genetic) differentiation. Behaviour genetics and criminality: intelligence Ø Intelligence is a major correlate of criminal behaviour (ΔIQ~17 between non-offenders and life-course persistent offenders); Ø Offenders also are overrepresented by about 2.2 on performance intellectual imbalance (P>V); Ø IQ difference not explained by difference in detection (undetected delinquents are not brighter than the detected); Ø Controlling for SES only weakens slightly the IQ difference between offenders and non-offenders; Ø The crime increase in recent decades in some countries is not related to changes in IQ, but to factors such as family break down, morality breakdown, increased intellectual demands for job recruitment. Behavioural genetics and crime: personality Ø Delinquents are more extravert, impatient, irritable, aggressive, asocial, unconventional, assertive, and emotionally unstabile. *They show less fear and are less sensitive to reprimand, and punishment; *Delinquents often show psychopathic personality characteristics. Psycho-physiology, neuro-physiology, neuro-chemistry and antisocial behaviour/criminality Ø Psycho-physiology: Ø low reactivity of the autonomic nervous system (skin conductance, heart rate): increased risk of antisocial behaviour or criminal behaviour; Ø EEG: high prevalence of abnormalities among violent criminals, especially in recidivistic offenders; Ø Neuro-physiology: Ø Defects in the prefrontal lobes: conduct disorder (CD), attention deficit hyperactivity disorder (ADHD), ASDP (antisocial personality disorder); higher prevalence among violent criminals; Ø Lower gray matter in prefrontal region: predictive for antisocial behaviour Ø Neuro-chemistry: Ø Neurotransmitters: low serotonine level and high level of norepinephrine: linked to impulsive and aggressive behaviour; Ø Hormones: Ø Testosteron: Delinquents show systematically higher androgen levels; the relation is most outspoken for violent criminals; Ø Premenstrual syndrome: increased risk of criminal behaviour during the paramenstruum (sudden decrease in progesteron). Sociobiology and crime Ø Sex-age life course crime curve Ø Sex ratio and crime Ø Kinship relations and crime Ø In-group/out-group relations Murder age-crime curve Sexual differences in criminality The sex-age life course crime curve • Differentials: – Sex produces the most significant difference in criminal behaviour (♂>>>♀). – Age forms the second most important differential factor in criminal behaviour. Violent criminality peaks at (male) adolescent and young-adult age. • Sociobiological explanation of male life course curve in criminality: – Mating efforts preceed parenting efforts; – Reproductive efforts shift from mating to parenting efforts – Reproductive benefits of competition correlate with degree of mating efforts; – Reproductive costs of competition increase with degree of parental efforts; – Propensity towards competition = benefits – costs. – NB. Idem for age-creativity life course curve. Sex ratio and crime (Walsh, 2003) Ø Low sex ratio (less males than females): Ø Females: scarce resource; Ø Males: mate effort > parenting effort; increased promiscuity; elevated testosterone levels, low serotonin levels; Ø Society: unstable, misogynistic, licentious; Ø High illegitimacy, high single mother households; Ø High male crime rates; Ø Sex ratio strongest demographic predictor of crime rates in American Black community; Ø Other more individual level explanations? *High sex ratio (more males than females): Ø Opposite trends Kinship relations and crime Other anthropological studies and criminality Ø Biometry Ø Body build: endomorph mesomorphs (Sheldon’s classification of constitution types) predominate among delinquents; Ø Paleontology and archaeology: Ø Multiple indications of homicide, cannibalism, group conflicts; *Ethnography and history: Ø In-group/out-group conflicts in prehistory, among hunter-gatherers, as well as agrarian and industrial populations; *Primatology: Ø Intergroup conflict among Chimpansees. Evolutionary biology and criminality Ø Biological (genetic) predisposition for competitive, aggressive, violent, and cheating behaviour = adaptation to EEA (environment of evolutionary adaptedness); Ø Predispositions interact with environmental factors (values and norms, accessibility to resources); Ø Alternative adaptive strategies: ØPrimary strategy for ASPDs (antisocial personality disorder); ØSecondary strategy for most other individuals, largely dependent on environmental deprivation; Ø In modern society: aggressive, violent, cheating behaviour has become inadaptive. Biosocial criminology: in conclusion Ø The identification and evaluation of behavioural variants depend more or less on the cultural values and norms in society; Ø Criminal behaviour is often the result of the interacting or covarying effects of biological and social factors; Ø Biological determinants of criminal behaviour can be of genetic or non-genetic origin; Ø Some biological (genetic) factors facilitate, others hamper the acquisition of socially desirable behaviour; Ø From an evolutionary point of view, criminal behaviour is to be considered as a secondary adaptive strategy, but in some cases it is a primary adaptive strategy. 3. Individual variation and individualism Ø 3.1. Evolutionary determinants of individual variation Ø 3.2. Individual-societal interdependencies in modern society 3.2. Individual-societal interdependencies in modern society Ø One of the most important areas of tension in human societies concerns the relation between individual and population; Ø Broad range of philosophical/ethical/political theories, with as extremes: Øabsolute priority to the individual Østrong preferential treatment of the population; Ø Biosocial approach: can nuance and deepen the insight in that relationship. Biosocial approach to the relationship between individual and population Three major domains of biosocial input: ØThe ontogenetic interdependency between individuals ØThe genetic interrelationship between individual and population ØIndividual competition versus social cooperation The ontogenetic interdependency between individuals Two human-specific fundamental causes: Øthe shift from an automatically programmed behaviour towards a conscious control of behaviour through the development of the large brain hemispheres; Øthe relatively short pregnancy duration resulting in the premature birth of the newborn. The human specificity of ontogenetic interdependency in modern culture Ø Socio-biological dependency of the human child and adolescent as well as the interdependency of the adults increased and prolonged as human culture and society became more complex; ØCaretaking for the growing infants, adolescents and young adults transcends by far the role of parents and other kin; Ø The increasing importance given to individual emancipation and equality of opportunities largely enhance the mutual interdependencies between individuals and groups in society; ØIncreasing longevity, caretaking functions increasingly are needed for elderly people. The genetic relation between individual and population: the past Ø Individual: two sets of chromosomes Ø Two generations ago: maximally divided over four grandparents, with an average gene contribution of ݙer grandparent; Ø Ten generations ago (~ 1700 AD): the genes of an individual were distributed over maximum 2^10 =1024 individuals; Ø Twenty generations ago ( ~1400 AD): the genes of an individual could have been distributed over 2^20 (= more than one million) individuals, i.e. the total or the largest part of the population. The genetic relation between individual and population: the future Next generations are characterized by an identical multiplicative dilution: with an average fertility of two children the genes of an individual will successively be distributed over 2, 4, 8, etc. descendants. The genetic relation between individual and population Ø An individual can genetically be represented as the constriction of an hourglass; Ø An individual is genetically a temporary condensation of genetic material that was, before a few generations, spread over nearly the total reproductive community from which it emerged, and will, within a few generations, again be diluted over the total population within which the genes are recombined. The genetic relationship between individual and population The genetic relationship between individual and population Ø At the individual level genes are present: Ø among individuals; Øamong their direct ancesters (parents (1/2, grandparents (1/4)); Øamong their colateral relatives (brothers and sisters (1/2), cousins (1/8), uncles and aunts (1/8), second cousings (1/16), etc.); Øamong the rest of the population. Ø At the population level genes are present with their frequencies (e.g. p[A] and q[a]). Evolution at individual and population level Ø Individuals: Øgenetically unalterable and limited in life span, i.e. mortal; Øgenetically, the individual cannot evolve. Ø Populations: Ø genetically changeable; theoretically they are immortal ; Øgenetic adaptations to changing living conditions – i.e. evolution – can only occur at an organization level that transcends in a double way the individual and intra-generational level, i.e. the population and the inter-generational levels. The genetic importance of individuals and populations • Individuals: • the temporary and largely accidental combination of genetic material of a reproductive community; • but they are the vehicles for intergenerational replacement at the population level which has to go through the constriction of the individuals’ hourglasses. • Populations: • Are interegenerationally the permanent entities that can evolve. • Conclusion: the genetic interrelationship between individual and population clearly refutes both the ideological extreme positions on their respective priority. Individual competition versus social cooperation Ø Individual competition: ontogenetic development and intergenerational reproduction force the individual to be equipped with genes that must result in strong drives for self-oriented behaviour, for selfishness. Ø Social cooperation: human species emerged and evolved as a social species and needs also to be equipped with strong drives towards social behaviour, towards altruism. Ø Hence, a famous paradox in the Darwinian evolution theory: how to reconcile competition and cooperation? The second Darwinian revolution Ø Sociobiology discovered in the second half of the former century evolutionary mechanisms which explain the transmission of altruistic behaviour, and hence the evolutionary basis of social co-operation: ØInclusive fitness theory (Hamilton, W.D., 1964, The Genetical Evolution of Social Behaviour, I & II. Journal of Theoretical Biology, 7: 1‑52); ØReciprocity theory (Trivers, R.L. ,1971, The Evolution of Reciprocal Altruism. Quarterly Review of Biology, 46, 1: 35‑57). Inclusive fitness theory • = the degree to which genes are transferred to the next generation thanks to the ordinary reproductive fitness of an individual and the fitness of his relatives which is the result of his altruistic behaviour • = the sum of the direct and indirect fitness effects of an individual's behaviours: Ø the direct fitness effect is the impact on the individual's fitness Ø the indirect fitness effect is the impact on the fitness of its social partners, weighted by the degree of relatedness between the individual and its social partners Reciprocity theory = responding to a positive action with another positive action, and responding to a negative action with another negative one …………………………………………..… Trivers (1971): ‘The Evolution of Reciprocal Altruism’ = an evolutionary model explaining the occurrence of altruistic behaviour between non-relatives, thus extending the evolutionary theory on altruism from kin to non-kin. A gene for altruistic behaviour? Ø There is no gene for altruistic behaviour! Ø Complex behavioural characteristics are usually influenced by several allele pairs producing behaviour control mechanisms which, in interaction with environmental influences, and not the least socializing learning processes, can in particular circumstances result in altruistic behaviour. How is group co-operation to be reconciled with the competitive self-interests of individuals? Ø In particular conditions of in-group or out-group threats, the development of social life appears to favour individual survival, and, hence, the transmission of genes; Ø Social co-operation, without excluding moderate forms of individual competition, fulfils the same functions as competition, - in present-day sociobiological terminology: the maximization of the inclusive fitness of the individual. Redefining altruism Ø Evolutionarily selected altruistic behaviour is, in its ultimate effects, to be equated with genetically selfish behaviour: "Such altruism ... may be described as phenotypically (or self‑) sacrificing but genotypically selfish“ (Alexander, 1979). Ø ‘Genuine altruism’: helping behaviour that decreases the inclusive fitness of the altruist and increases that of the beneficiary (Lopreato, 1981). Altruism in EEA • The altruistic drives of the human are a very early hominid adaptation in the ‘environment of evolutionary adaptedness (EEA). • It was an adaptation for living in small groups in which people were genetically closely related and where people also had the opportunity to get acquainted with all of the group members. Altruism in modern society Ø Size of modern societies: many millions of individuals; Ø = novelty to which not yet adapted genetically; Ø à face many bio-social constraints and conflicts regarding the competition-cooperation dynamics; Ø necessity to induce co-operate behaviour between huge numbers of people with whom they have no close genetic relatedness, and whom they mostly don’t know very well; Ø finding the right balance between co-operation and competition is or should be one of the main endeavours of modern societies. Nepotism in modern society Ø Nepotism = favoritism towards relatives; Ø In EEA: nepotism = well adapted evolved psychological mechanism; Ø In modern society: maladaptive trait! Ø Modern culture can only remain innovative by assigning responsible functions on the basis of individual qualifications and not on the basis of descent, favoritism towards relatives; Ø However, the nepotistic drive is so strong that it transcends even genetic groupism, and manifests itself also in culturally defined group formation (e.g. in ideological (religious) denominations and political parties); Ø Conclusion: nepotism requires a firm rejection in our values systems and strong ruling in all kinds of job assignment procedures to avoid or limit it. Individualism in modern society Ø Individualism is a term used to describe a moral, political, or social outlook that stresses human independence and the importance of individual self-reliance and liberty; Ø Individualism is therefore opposed to ideologies which stress that communal, group, societal, racial, national, or global goals should take priority over individual goals. Individualism: several moral meanings Ø France: originally largely an unfavourable connotation, i.e. it was largely equated to egoism and selfishness; Ø Germany: the term ‘individualismus’ became soon synonymous with individuality (‘individualität), the notion of individual uniqueness, originality, and self-realization; Ø United States: the concept of individualism itself became associated to very positive moral qualities such as self-determination, self-reliance and fully development Individualism: currently Ø Continues to evoke, also within many cultures, ethically different evaluations and appreciations: Øcontinues to be assimilated to negatively valued attitudes and behavioural patterns, such as selfishness and egoism; Øvalued in a very positive way and stands for highly esteemed moral values such as individual self-development and self-fulfilment. Ø Quite striking is the sizeable sociological, political and philosophical literature on individualism that continues to appear in the major languages in the West Individualism: secular trends Ø Modern culture is characterized by a gradual increase in individualistic attitudes and behaviour: ØDifferent domains of life show an increasing tendency for individuals to concentrate on themselves, to withdraw from social groups, institutions, anything outside themselves; ØParticularly striking on the changes in family values, family relations and structures. Individualism: push factors Ø Many factors in modern societies allow for or even push towards individualism: Øtechnological innovation; Ømobility; Øaffluence; Øsocial security; Øindependent jobs; Øexposure to media; Øone child family; Øopen frontiers; Øincreasing economic competition; Øthe collapse of the communist regimes; Øglobalization. Individualism: side effects Ø Current jubilant mood in some quarters about the benefits of the increasing economic competition in the post-communist, neo-liberal era may prove to be strongly premature; Ø Unlimited competition is unsustainable because of many unfavourable individual and social side effects, e.g. Øincreasing stress levels on health, Østronger social strive and conflicts; Øincrease of social excluded groups (less intelligent, energetic, educated); Øfurther environmental decay; Øsubreplacement fertility Ødysgenic developments. Individualism versus individuality Ø Modern culture enhanced considerably the opportunities for individual emancipation and self-actualisation, a.o. resulting in higher physical and mental performances; Ø Created the subjective feeling of an increased individual independence and boundlessness; Ø However, increased opportunities for individual emancipation are due to higher levels of socialisation and cooperation; Ø The goal for more individuality is apparently being confused with the drive for more individualism. Individualism: inadaptive Ø Modern culture allows for the development of individualistic derailments which, in the long run, will prove to be unsustainable and inadaptive; Ø Free-riding, in whatever domain of society – social welfare abuse, stock exchange speculation, delinquency, environmental pollution, machismo, military aggression, to name only a few – is incompatible with the knowledge modern science has acquired about the subtle interrelationships between individual and societal needs . By way of conclusion: • Individual variation is, within certain limits, positively to be evaluated: • Short term: less boring, need for variety of talents; • Long term: guarantee for future adaptation to changing environmental conditions; • Individuality, not individualism is to be promoted; • Leigh’s (1990) conclusion on individual-societal interdependency: “Human intelligence has yet to design a society where free competition among the members works for the good of the whole.”