Blending inheritance is anobsolete theory inbiology from the 19th century. The theory is that the progenyinherits any characteristic as the average of the parents' values of that characteristic. As an example of this, a crossing of a red flower variety with a white variety of the samespecies would yield pink-flowered offspring.
Charles Darwin's theory of inheritance bypangenesis, with contributions to egg or sperm from every part of the body, implied blending inheritance. His reliance on this mechanism ledFleeming Jenkin to attack Darwin's theory ofnatural selection on the grounds that blending inheritance would average out any novel beneficial characteristic before selection had time to act.
Blending inheritance was discarded with the general acceptance ofparticulate inheritance during the development of moderngenetics, afterc. 1900.
Charles Darwin developed his theory ofevolution bynatural selection on the basis of an understanding ofuniform processes ingeology, acting over very long periods of time on inheritable variation within populations. One of those processes was competition for resources, asThomas Malthus had indicated, leading to a struggle to survive and to reproduce. Since some individuals would by chance have traits that allowed them to leave more offspring, those traits would tend to increase in the population. Darwin assembled many lines of evidence to show that variation occurred and thatartificial selection by animal and plant breeding had caused change. All of this demanded a reliable mechanism ofinheritance.[1]
Pangenesis was Aristotle's attempt to provide such a mechanism of inheritance. The idea was that each part of the parent's body emitted tiny particles calledgemmules, which migrated through the body to contribute to that parent'sgametes, their eggs or sperms. The theory had an intuitive appeal, as characteristics of all parts of the body, such as shape of nose, width of shoulders and length of legs are inherited from both the father and the mother. However, it had some serious weaknesses. Firstly, many characteristics can change during an individual's lifetime, and are affected by the environment:blacksmiths can develop strong arm muscles during their work, so the gemmules from these muscles ought to carry this acquired characteristic. That implies theLamarckianinheritance of acquired characteristics. Secondly, the fact that the gemmules were supposed to mix together onfertilisation implies blending inheritance, namely that the offspring would all be intermediate between the father and the mother in every characteristic. That directly contradicts the observed facts of inheritance, not least that children are usually either male or female rather than allintersex, and that traits such as flower colour often re-emerge after a generation, even when they seem to disappear when two varieties are crossed.[1][2][3] Darwin was aware of both these objections, and accordingly had strong doubts about blending inheritance, as evidenced in his private correspondence. In a letter toT.H. Huxley, dated November 12, 1857, Darwin wrote:
I have lately been inclined to speculate very crudely & indistinctly, that propagation by true fertilisation, will turn out to be a sort of mixture & not true fusion, of two distinct individuals, or rather of innumerable individuals, as each parent has its parents & ancestors:— I can understand on no other view the way in which crossed forms go back to so large an extent to ancestral forms."[4]
In a letter toAlfred Wallace, dated February 6, 1866, Darwin mentioned conducting hybridization experiments with pea plants, not unlike those done byGregor Mendel, and like him obtainingsegregating (unblended) varieties, effectively disproving his theory of pangenesis with blending:
I do not think you understand what I mean by the non-blending of certain varieties. It does not refer to fertility; an instance I will explain. I crossed the Painted Lady and Purplesweetpeas, which are very differently coloured varieties, and got, even out of the same pod, both varieties perfect but not intermediate. Something of this kind I should think must occur at least with your butterflies & the three forms ofLythrum; tho' those cases are in appearance so wonderful. I do not know that they are really more so than every female in the world producing distinct male and female offspring...[7]
Blending inheritance was also clearly incompatible with Darwin's theory of evolution by natural selection. The engineerFleeming Jenkin used this to attack natural selection in his 1867 review of Darwin'sOn the Origin of Species. Jenkin noted that if inheritance were by blending, any beneficial trait that might arise in a lineage would have "blended away" long before natural selection had time to act.[1][5][6] The evolutionary biologistRichard Dawkins commented that blending inheritance was observably wrong, as it implied that every generation would be more uniform than the one before, and that Darwin should have said as much to Jenkin. The problem was not with natural selection, but with blending, and in Dawkins's view, Darwin should have settled for saying that the mechanism of inheritance was unknown, but certainly non-blending.[1]
Blending inheritance was dismissed by the eventual widespread acceptance, after his death, ofGregor Mendel's theory ofparticulate inheritance, which he had presented inExperiments on Plant Hybridization (1865).[8][9] In 1892,August Weismann set out the idea of a hereditary material, which he called thegerm plasm, confined to the gonads and independent of the rest of the body (thesoma). In Weismann's view, the germ plasm formed the body, but the body did not influence the germ plasm, except indirectly by natural selection. This contradicted both Darwin's pangenesis and Lamarckian inheritance.[10][11] Mendel's work was rediscovered in 1900 by the geneticistHugo de Vries and others, soon confirmed that same year by experiments byWilliam Bateson.[12] Mendelian inheritance with segregating, particulatealleles came to be understood as the explanation for both discrete and continuously varying characteristics.[13][14][a]
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