In the parapodia an increase in size and a sharper delineation of the various parts take place; then flattened foliaceous outgrowths (Fig. 147, x, y) arise from certain lobes of the feet, in which, too, the blood supply becomes greatly increased. The old chaetae are pushed out by the development of new ones of quite a different shape; these are jointed like the old ones, but the appendix is, in many species at least, flattened and oar-shaped (Fig. 123, C, p. [246]); and the chaetae are arranged in a fan-like manner. Both these modifications are in evident relation to the free-swimming habit which the Heteronereid now adopts. The new foot serves as a swimming organ, the old one was a walking appendage.

Fig. 147.—Parapodium of male "Heteronereis" of N. pelagica L. × 10. (From Ehlers.) a, Notopodial cirrus; b, notopodium; c, neuropodium with new chaetae; c', foliaceous outgrowth; d, neuropodial cirrus; x, y, foliaceous outgrowths.

Whilst some species, such as the common British N. diversicolor, undergo no change, and others become modified as just described, others, again, are polymorphic. Claparède was the first to show that N. dumerilii may occur in at least five different mature forms; these differ from one another in size, colour, mode of life, character of the eggs, etc. The immature forms may become ripe and lay eggs while still retaining the "Nereid" characteristics, or these immature forms may become "Heteronereids"[^[333]] whilst the sexual elements are ripening. There are then three different kinds of males and of females in this one species, some being found at the bottom of the sea, as the large Heteronereid form, while the small Heteronereid swims on the surface. The relations of these various forms to one another, and the causes leading to the assumption of a Heteronereid condition in some cases and not in others, are unknown.

A somewhat similar phenomenon is exhibited by members of the family Syllidae.[^[334]] In this family sexual reproduction is frequently accompanied by the asexual modes of fission and gemmation. In some genera, such as Eusyllis, Odontosyllis, and Exogone, there occur changes quite similar to those characterising "Heteronereis"—that is, the posterior segments in which the genital organs exist become altered, so that the worm consists of two distinct regions, and is termed a "Heterosyllis." The most marked change is the appearance of a dorsal bundle of long capilliform chaetae in each of the genital segments (Fig. 148, I).

But in other genera the hinder genital region of the body becomes separated, on maturity, from the anterior non-sexual region. Various stages of this "schizogamy," or fission into a sexual and a non-sexual zooid, have been observed in different genera. In the genus Syllis the first segment of the sexual zooid, after its separation from the asexual zooid, proceeds to bud forth a head. The character of the head is alike in both sexes, though different species present heads of different shapes; and as the worms were originally described as distinct genera, the names then given are retained as descriptive terms. Thus the "Chaetosyllis" form has only two tentacles; the "Ioda" form has three tentacles and a pair of palps. One and the same species (e.g. S. hyalina) may successively pass through these stages.

With regard to the asexual portion, there is a regeneration of the tail segments after the sexual zooid has separated; and the number of segments so regenerated is usually equal to those that have become sexual. After a time these newly formed segments will produce generative organs, and take on the characteristic natatory chaetae, and this region will in its turn separate.

But in other genera, such as Autolytus, the regeneration of segments may commence before the separation of the sexual zooid; and the head of the sexual zooid becomes budded out before separation from the asexual portion. So that the animal now consists of two worms, each with its own head, separated by a region or zone of proliferation (Fig. 148, IV). Moreover, in some species not only is the hinder part of the body converted into a sexual zooid, but the zone of proliferation becomes very active, and produces by gemmation a large number of segments, which become marked out, by the appearance of heads at intervals, into a number of zooids, in which genital organs will later make their appearance. A chain of as many as sixteen zooids may be formed in Autolytus (Fig. 148, V)—the hindermost by conversion of the hinder part of the body of the original "stock," the intervening zooids by gemmation.

Fig. 148.—Diagrams illustrating the various stages in the asexual formation of a chain of zooids. (Modified from Malaquin.)