Department of Ecology and Evolutionary Biology, University of Arizona, Tucson, Arizona 85721.
Genetics. 1980 Sep;96(1):275-96. doi: 10.1093/genetics/96.1.275.
sib with random mating and selfing with random mating. Two approaches are taken. First, specific models of altruism are studied for the various mating systems. In the case of the additive model, inbreeding facilitates the evolution of altruistic genes. Likewise, for the multiplicative model this is usually the case, as long as the costs of altruism are not too great. Second, the case of total altruism, in which the gene has zero individual fitness but increases the fitness of associates, is studied for a general fitness formulation. In this case, inbreeding often retards the ability of such genes to increase when rare, and the equilibrium frequency of those recessive genes that can increase is totally independent of the mating system and, consequently, of the amount of inbreeding. It appears from the results presented that inbreeding facilitates most forms of altruism, but retards extreme altruism. These results stem from the fact that inbreeding increases the within-family relatedness by increasing the between-family variance in allele frequency. In most cases this facilitates altruism. However, in the case of total altruism, only heterozygotes can pass on the altruistic allele, and inbreeding tends to decrease this heterozygote class. In either case, the important effect of inbreeding lies in altering the genotypic distribution of the interactions.
近亲繁殖对社会性的影响在理论上是通过研究某些混合交配系统中兄弟姐妹之间相互作用的进化来研究的,这些系统会导致近亲繁殖:随机交配的兄弟姐妹和随机自交的兄弟姐妹。采用了两种方法。首先,研究了各种交配系统的利他主义特定模型。在加性模型的情况下,近亲繁殖有利于利他基因的进化。同样,对于乘法模型,只要利他主义的成本不是太大,通常也是如此。其次,对于总利他主义的情况,其中基因个体适应度为零,但会增加同伴的适应度,为一般适应度公式进行了研究。在这种情况下,近亲繁殖通常会延迟这些基因在稀有时增加的能力,并且那些可以增加的隐性基因的平衡频率完全独立于交配系统,因此也独立于近亲繁殖的程度。从提出的结果来看,近亲繁殖促进了大多数形式的利他主义,但会阻碍极端的利他主义。这些结果源于近亲繁殖通过增加等位基因频率的家族间方差来增加家族内的亲缘关系的事实。在大多数情况下,这有助于利他主义。然而,在总利他主义的情况下,只有杂合子才能传递利他基因,而近亲繁殖往往会减少这种杂合子类。在这两种情况下,近亲繁殖的重要影响在于改变相互作用的基因型分布。