HETEROSTYLY 49 
in it the reason for the illegitimacy of some crossings:—‘ Since by further natural 
selection the size of the pollen-grain has been adapted to the distance to be 
traversed by the pollen-tube in legitimate crossing, and the stigmatic papillae have 
been adapted to the size of pollen-grain they have to receive, it follows that sexual 
organs standing at dissimilar heights would be unsuited for one another, and so 
the illegitimate crossings of heterostylous flowers would be unfruitful.’ 
C. Correns remarks (Ber. D. bot. Ges., Berlin, vii, 1889) that according 
to this view there should really be three kinds of legitimate fertilization, i.e. 8 + 
with 9+, 9+ with 64, and 6+ with 6+; but only one kind of 
illegitimate fertilization, i.e. 9 + with 9 +.  Strasburger also (Jahrb. wiss. Bot., 
Leipzig, xvii, 1886, p. 84) points out that the illegitimate crossing of long-styled 
flowers among primroses (in which the small pollen-grain reaches the stigma of the 
long style) should not, on this view, be more fertile than that of short-styled flowers. 
Naegeli (‘Mechan. physiol. Theorie der Abstammungslehre,’ p. 151) does not 
consider that the different sizes of pollen-grains result from adaptation to the length 
of the style, for the grains are nourished by the tissue of the style while developing 
pollen-tubes. He sees in the differences in size and occasionally in colour of 
the pollen-grains, merely an external sign of internal differentiation conditioning 
illegitimacy ; they perhaps depend, like the length of stigmatic papillae, upon the 
height of insertion. 
Correns (op. cit.) proved by culture-experiments with the pollen of Primula 
acaulis Jacg., that the size of the pollen-grains has nothing to do either with the 
distance to be traversed by the pollen-tube or with the cause of illegitimacy. The 
following are the most important conclusions at which he arrived :— 
1. Both forms of pollen produce equally long tubes in the same time, 
2. The large pollen-grains develop thicker tubes than the small ones. 
3. The size of the pollen-grains is not an adaptation to the length of style to be 
traversed in cases of legitimate fertilization, nor is it the cause of diminished fertility 
in illegitimate crosses. 
4. There are no differences discoverable in the capacity for absorbing nourish- 
ment or in the chemotactic irritability, such as might explain the legitimacy or 
illegitimacy of particular combinations. 
s. The length and form of the stigmatic papillae have likewise nothing to do 
with the greater or less fertility of particular crosses. 
6. The lengths of the stigmatic papillae may be regarded as adapted to the 
size of the grains, but only in the sense of facilitating their reception. 
Lastly, I would mention the interesting phenomenon of homo-heterostyly in 
Menyanthes trifoliata. In Greenland, according to Warming, this otherwise always 
dimorphic heterostylous plant is homostylous, the stigmas being at the same level as 
the anthers. 
A list of the heterostylous plants hitherto recognized may be added :— 
Trimorphous species: some Lythraceae, such as Lythrum Salicaria (Darwin). 
L, Graefferi (Darwin), L. virgatum, flexuosum, and maculatum (Kéhne), Decodon 
verticillatus (KGhne), Nesaea Commers. and Lagerstroemia LZ. (Kuhn, Darwin), the 
linaceous Roucheria Planch. (? Kuhn), and twenty species of the genus Oxalis 
DAVIS E 
