It is evident that many more observations are necessary before anything can be decided with respect to the relative period of germination of crossed and self-fertilised seeds.
CHAPTER X.
MEANS OF FERTILISATION.
Sterility and fertility of plants when insects are excluded. The means by which flowers are cross-fertilised. Structures favourable to self-fertilisation. Relation between the structure and conspicuousness of flowers, the visits of insects, and the advantages of cross-fertilisation. The means by which flowers are fertilised with pollen from a distinct plant. Greater fertilising power of such pollen. Anemophilous species. Conversion of anemophilous species into entomophilous. Origin of nectar. Anemophilous plants generally have their sexes separated. Conversion of diclinous into hermaphrodite flowers. Trees often have their sexes separated.
In the introductory chapter I briefly specified the various means by which cross-fertilisation is favoured or ensured, namely, the separation of the sexes,--the maturity of the male and female sexual elements at different periods,--the heterostyled or dimorphic and trimorphic condition of certain plants,--many mechanical contrivances,--the more or less complete inefficiency of a flower's own pollen on the stigma,--and the prepotency of pollen from any other individual over that from the same plant. Some of these points require further consideration; but for full details I must refer the reader to the several excellent works mentioned in the introduction. I will in the first place give two lists: the first, of plants which are either quite sterile or produce less than about half the full complement of seeds, when insects are excluded; and a second list of plants which, when thus treated, are fully fertile or produce at least half the full complement of seeds. These lists have been compiled from the several previous tables, with some additional cases from my own observations and those of others. The species are arranged nearly in the order followed by Lindley in his 'Vegetable Kingdom.' The reader should observe that the sterility or fertility of the plants in these two lists depends on two wholly distinct causes; namely, the absence or presence of the proper means by which pollen is applied to the stigma, and its less or greater efficiency when thus applied. As it is obvious that with plants in which the sexes are separate, pollen must be carried by some means from flower to flower, such species are excluded from the lists; as are likewise dimorphic and trimorphic plants, in which the same necessity occurs to a limited extent. Experience has proved to me that, independently of the exclusion of insects, the seed-bearing power of a plant is not lessened by covering it while in flower under a thin net supported on a frame; and this might indeed have been inferred from the consideration of the two following lists, as they include a considerable number of species belonging to the same genera, some of which are quite sterile and others quite fertile when protected by a net from the access of insects.
[LIST OF PLANTS WHICH, WHEN INSECTS ARE EXCLUDED, ARE EITHER QUITE STERILE, OR PRODUCE, AS FAR AS I COULD JUDGE, LESS THAN HALF THE NUMBER OF SEEDS PRODUCED BY UNPROTECTED PLANTS.
Passiflora alata, racemosa, coerulea, edulis, laurifolia, and some individuals of P. quadrangularis (Passifloraceae), are quite sterile under these conditions: see 'Variation of Animals and Plants under Domestication' chapter 17 2nd edition volume 2 page 118.
Viola canina (Violaceae).--Perfect flowers quite sterile unless fertilised by bees, or artificially fertilised.
Viola tricolor.--Sets very few and poor capsules.
Reseda odorata (Resedaceae).--Some individuals quite sterile.
Reseda lutea.--Some individuals produce very few and poor capsules.
Abutilon darwinii (Malvaceae).--Quite sterile in Brazil: see previous discussion on self-sterile plants.
Nymphaea (Nymphaeaceae).--Professor Caspary informs me that some of the species are quite sterile if insects are excluded.