Comparison with 1860 |
|
general appearance, and having strongly marked
differ- ences differ- ences 1860 | differences 1859 1861 1866 1869 1872 |
in every part of the flower, even in the pollen, in the fruit, and in the cotyledons, can be crossed. Annual and perennial plants, deciduous and evergreen trees, plants inhabiting different stations and fitted for extremely different climates, can often be crossed with ease. |
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By a reciprocal cross between two species, I mean the case, for instance, of a stallion-horse
being first crossed with
a female-ass,
and then a male-ass with a mare:
these two species may then be said to have been reciprocally crossed. There is often the widest possible difference in the facility of making reciprocal crosses. Such cases are highly important, for they prove that the capacity in any two species to cross is often completely independent of their systematic affinity, or
of any
recognisable recognisable 1859 1860 1861 | recognisable 1866 1869 1872 |
difference in their
whole organisation. whole organisation. 1859 1860 1861 |
whole organisation, except in their reproductive systems. 1866 1869 |
structure or constitution, excepting in their reproductive systems. 1872 |
↑1 blocks not present in 1859 1860 1861; present in 1866 1869 1872 | The diversity of result
in reciprocal crosses between the same two species was long ago observed by Kölreuter.
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On the other hand, these cases clearly show that the capacity for crossing is connected with constitutional differences imperceptible by us, and confined to the reproductive system. This difference in the result of reciprocal crosses between the same two species was long ago observed by Kölreuter. To give an instance: Mirabilis jalappa
can easily be fertilised by the pollen of M. longiflora, and the hybrids thus produced are sufficiently fertile; but Kölreuter tried more than two hundred times, during eight following years, to fertilise reciprocally M. longiflora with the pollen of M. jalappa,
and utterly failed. Several other equally striking cases could be given. Thuret has observed the same fact with certain sea-weeds or Fuci. Gärtner, moreover, found that this difference of facility in making reciprocal crosses is extremely common in a lesser degree. He has observed it even between
forms so forms so 1859 1860 1861 1866 | forms so 1869 1872 |
closely related
(as (as 1859 1860 1861 1866 | forms (as 1869 1872 |
Matthiola annua and glabra)
that that 1859 1860 1861 1866 | which 1869 1872 |
many botanists rank
them them 1859 1860 1861 1866 | them 1869 1872 |
only as varieties. It is also a remarkable fact, that hybrids raised from reciprocal crosses, though of course compounded of the very same two species, the
|
general appearance, and having strongly marked
differences differences 1859 1861 1866 1869 1872 | differ- ences 1860 |
in every part of the flower, even in the pollen, in the fruit, and in the cotyledons, can be crossed. Annual and perennial plants, deciduous and evergreen trees, plants inhabiting different stations and fitted for extremely different climates, can often be crossed with ease. |
|
By a reciprocal cross between two species, I mean the case, for instance, of a
stallion-horse stallion-horse 1859 1860 1861 1866 1869 | female-ass 1872 |
being first crossed
with with 1859 1860 1861 1866 1869 | by 1872 |
a
female-ass, female-ass, 1859 1860 1861 1866 1869 | stallion, 1872 |
and then a
male-ass with a mare: male-ass with a mare: 1859 1860 1861 1866 1869 |
mare by a male-ass; 1872 |
these two species may then be said to have been reciprocally crossed. There is often the widest possible difference in the facility of making reciprocal crosses. Such cases are highly important, for they prove that the capacity in any two species to cross is often completely independent of their systematic affinity,
or or 1859 1860 1861 1866 1869 | that is 1872 |
of any
....... 1866 1869 1872 | recognisable 1859 1860 1861 |
difference in their
whole organisation, except in their reproductive systems. whole organisation, except in their reproductive systems. 1866 1869 |
whole organisation. 1859 1860 1861 |
structure or constitution, excepting in their reproductive systems. 1872 |
The diversity of
result result 1866 1869 | the result 1872 |
in reciprocal crosses between the same two species was long ago observed by Kölreuter. ↑2 blocks not present in 1866 1869 1872; present in 1859 1860 1861 | On the other hand, these cases clearly show that the capacity for crossing is connected with constitutional differences imperceptible by us, and confined to the reproductive system.
This difference in the result of reciprocal crosses between the same two species was long ago observed by Kölreuter.
|
To give an instance: Mirabilis
jalapa jalapa 1860 1861 1866 1869 1872 | jalappa 1859 |
can easily be fertilised by the pollen of M. longiflora, and the hybrids thus produced are sufficiently fertile; but Kölreuter tried more than two hundred times, during eight following years, to fertilise reciprocally M. longiflora with the pollen of M.
jalapa, jalapa, 1860 1861 1869 1872 | jalappa, 1859 | Jalapa, 1866 |
and utterly failed. Several other equally striking cases could be given. Thuret has observed the same fact with certain sea-weeds or Fuci. Gärtner, moreover, found that this difference of facility in making reciprocal crosses is extremely common in a lesser degree. He has observed it even between
....... 1869 1872 | forms so 1859 1860 1861 1866 |
closely related
forms (as forms (as 1869 1872 | (as 1859 1860 1861 1866 |
Matthiola annua and glabra)
which which 1869 1872 | that 1859 1860 1861 1866 |
many botanists rank
....... 1869 1872 | them 1859 1860 1861 1866 |
only as varieties. It is also a remarkable fact, that hybrids raised from reciprocal crosses, though of course compounded of the very same two species, the
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