Chap. X. 
EXTINCTION. 
321 
Hence the improved and modified descendants of a 
species will generally cause the extermination of the 
parent-species; and if many new forms have been de¬ 
veloped from any one species, the nearest allies of that 
species, e, the species of the same genus, will be the 
most liable to extermination. Thus, as I believe, a 
number of new species descended from one species, that 
is a new genus, comes to supplant an old genus, belong¬ 
ing to the same family. But it must often have happened 
that a new species belonging to some one group will have 
seized on the place occupied by a species belonging to 
a distinct group, and thus caused its extermination; 
and if many allied forms be developed from the success¬ 
ful intruder, many will have to yield their places; and 
it will generally be allied forms, which will suffer 
from some inherited inferiority in common. But whe¬ 
ther it be species belonging to the same or to a 
distinct class, which yield their places to other species 
which have been modified and improved, a few of the 
sufferers may often long be preserved, from being 
fitted to some peculiar line of life, or from inhabiting 
some distant and isolated station, where they have 
escaped severe competition. For instance, a single 
species of Trigonia, a great genus of shells in the 
secondary formations, survives in the Australian seas; 
and a few members of the great and almost extinct 
group of Ganoid fishes still inhabit our fresh waters. 
Therefore the utter extinction of a group is gene¬ 
rally, as we have seen, a slower process than its pro¬ 
duction. 
With respect to the apparently sudden extermination 
of whole families or orders, as of Trilobites at the close 
of the palaeozoic period and of Ammonites at the close 
of the secondary period, we must remember what has 
been already said on the probable wide intervals of tim.e 
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