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1859
1860
1861
1866
1869
1872

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1859
1861
1866
1869
1872

satisfactorily 1859 1860 1861 1866
to a certain extent, 1872
OMIT 1869

In the vertebrata, we see 1859 1860 1861 1866 1869
We need not here consider how the bodies of some animals first became divided into 1872

internal vertebræ bearing certain processes and appendages; in the articulata, we see the body 1859 1860 1861 1866
internal vertebræ bearing certain processes; in the articulata, the body 1869
segments, or how they became 1872

a series of segments, bearing external appendages; and in flowering plants, we see a series of successive spiral whorls of leaves. 1859 1860 1861 1866
a series of segments, bearing external appendages; and in flowering plants, spiral whorls of leaves. 1869
right and left sides, with corresponding organs, for such questions are almost beyond investigation. 1872

2 blocks not present in 1859 1860 1861 1866 1869; present in 1872
It is, however, probable that some serial structures are the result of cells multiplying by division, entailing the multi- plication of the parts developed from such cells. It must suffice for our purpose to bear in mind that an indefinite repetition of the same part or organ is the common characteristic, as Owen has remarked, of all low or little specialised forms; therefore the unknown progenitor of the Vertebrata probably possessed many vertebræ; the unknown progenitor of the Articulata, many segments; and the unknown progenitor of flowering plants, many leaves arranged in one or more spires.

we may readily believe that 1859 1860 1861 1866
OMIT 1869

possessed 1859 1860 1861 1866
no doubt possessed 1869

spiral whorls of leaves. 1859 1860 1861 1866
leaves arranged in one or more spires. 1869

in number and structure; consequently it is quite probable that natural selection, during a long-continued course of modification, should have seized on a certain number of the primordially similar elements, many times repeated, and have adapted them to the most diverse purposes. 1859 1860 1861 1866
in number and structure. 1869
not only in number, but in form. 1872

And as the whole amount of modification will have been effected by slight successive steps, we need not wonder at discovering in 1859 1860 1861
And as the whole amount of modification will have been effected by successive slight steps, we need not wonder at discovering in 1866
Consequently 1869 1872

or organs, a certain degree of fundamental resemblance, retained by the strong principle 1859 1860
or organs a certain degree of fundamental resemblance, retained by the strong principle 1861 1866
being already present, and being highly variable, would afford the materials for adaptation to the most different purposes; and they would generally retain through the force 1869
being already present in considerable numbers, and being highly variable, would naturally afford the materials for adaptation to the most different purposes; yet they would generally retain, through the force 1872

inheritance. 1859 1860 1861 1866
inheritance plain traces of their original or fundamental resemblance. 1869
inheritance, plain traces of their original or fundamental resemblance. 1872

2 blocks not present in 1859 1860 1861 1866 1869; present in 1872
They would retain this resemblance all the more, as the variations, which afforded the basis for their subsequent modification through natural selection, would tend from the first to be similar; the parts being at an early stage of growth alike, and being subjected to nearly the same conditions. Such parts, whether more or less modified, unless their common origin became wholly obscure, would be serially homologous.

we can homologise 1859 1860 1866
we can homo- logise 1861
it can easily be shown that 1869
OMIT 1872

of one species with those of other and 1860 1861 1866
of one species with those of another and 1859
in 1869 1872

we can indicate but 1859 1860 1861 1866
are homologous, but 1869
can be shown to be homologous, only a 1872

that 1859 1860 1861 1866
can be indicated; that 1869
such as the valves of Chitons, can be indicated; that 1872

mouth formed of many parts, consequently always have fewer legs; or conversely, those with many legs have simpler mouths? Why should the sepals, petals, stamens, and
pistils,
pistils
in
each
any individual
flower, though fitted for such
distinct
widely different
purposes, be all constructed on the same pattern?
On the theory of natural selection, we
can,
can
satisfactorily answer these questions. In the vertebrata, we see a series of internal vertebræ bearing certain processes and appendages; in the articulata, we see the body divided into a series of segments, bearing external appendages; and in flowering plants, we see a series of successive spiral whorls of leaves. An indefinite repetition of the same part or organ is the common
characteristic,
characteristic
as
(as
Owen has
observed,
observed)
of all low or
little modified
little-modified
forms; therefore we may readily believe that the unknown progenitor of the vertebrata possessed many vertebræ; the unknown progenitor of the articulata, many segments; and the unknown progenitor of flowering plants, many spiral whorls of leaves. We have
also formerly
formerly
seen that parts many times repeated are eminently liable to
vary,
vary
in number and structure; consequently it is quite probable that natural selection, during a long-continued course of modification, should have seized on a certain number of the primordially similar elements, many times repeated, and have adapted them to the most diverse purposes. And as the whole amount of modification will have been effected by slight successive steps, we need not wonder at discovering in such
parts,
parts
or organs, a certain degree of fundamental resemblance, retained by the strong principle of inheritance.
In the great class of molluscs, though we can homologise the parts of one species with those of other and distinct
species
species,
we can indicate but few serial
homologies
homologies,
homologies;
that is, we are seldom enabled to say that one