it swims about for a longer or shorter time, but at length comes to a state of rest and gradually grows into a Coleochæte.
Moreover, as in the Peronospora, conjugation may take place and result in an oospore; the contents of which divide and are set free as monadiform germs.
If the whole history of the zoospores of Peronospora and Coleochæte were unknown, they would undoubtedly be classed among "monads" with the same right as Heteromita; why then may not Heteromita be a plant, even though the cycle of forms through which it passes shows no terms quite so complex as those which occur in Peronospora and Coleochæte? And, in fact, there are some green organisms, in every respect characteristically plants, such as Chlamydomonas, and the common Volvox, or so-called "globe animalcule," which run through a cycle of forms of just the same simple character as those of Heteromita.
The name of Chlamydomonas is applied to certain microscopic green bodies, each of which consists of a protoplasmic central substance invested by a structureless sac. The latter contains cellulose, as in ordinary plants; and the chlorophyll which gives the green colour enables the Chlamydomonas to decompose carbonic acid and fix carbon, as they do. Two long cilia protrude through the cell-wall, and effect the rapid locomotion of this "monad," which, in all respects except its mobility, is characteristically a plant.
Under ordinary circumstances the Chlamydomonas multiplies by simple fission, each splitting into two or into four parts, which separate and become independent organisms. Sometimes, however, the Chlamydomonas divides into eight parts, each of which is provided with four, instead of two cilia. These zoospores conjugate in pairs, and give rise to quiescent bodies, which multiply by division, and eventually pass into the active state.
Thus, so far as outward form and the general character of the cycle of modifications through which the organism passes in the course of its life are concerned, the resemblance between Chlamydomonas and Heteromita is of the closest description. And on the face of the matter there is no ground for refusing to admit that Heteromita may be related to Chlamydomonas, as the colourless fungus is to the green alga. Volvox may be com pared to a hollow sphere, the wall of which is made up of coherent chlamydomonads; and which progresses with a rotating motion effected by the paddling of the multitudinous pairs of cilia which project from its surface. Each Volvox-monad has a contractile vacuole like that of Heteromita lens; and moreover possesses a red pigment spot like the simplest form of eye known among animals.
The methods of fissive multiplication and of conjugation observed in the monads of this locomotive globe are essentially similar to those observed in Chlamydomonas; and though a hard battle has been fought over it, Volvox is now finally surrendered to the botanists.
Thus there is really no reason why Heteromita may not be a plant; and this conclusion would be very satisfactory, if it were not equally easy to show that there is really no reason why it should not be an animal.
For there are numerous organisms presenting the closest resemblance to Heteromita, and, like it, grouped under the general name of "monads," which, nevertheless, can be observed to take in solid nutriment, and which therefore have a virtual, if not an actual, mouth and digestive cavity, and thus come under Cuvier's definition of an animal. Numerous forms of such animals have been described by Ehrenberg, Dujardin, H. James Clark and other writers on the infusoria.
Indeed, in another infusion of hay in which my Heteromita lens occurred, there were innumerable infusorial animalcules belonging to the well-known species Colpoda cucullus.[1]
Full-sized specimens of this animalcule attain a length of between one three-hundredth or .0025 of an inch, so that it may have ten times the length and a thousand times the mass of a Heteromita. In shape it is not altogether unlike Heteromita. The small end, however, is not produced into one long cilium but the general surface of the body is covered with small actively vibrating ciliary organs, which are only longest at the small end. At the point which answers to that from which the two cilia arise in Heteromita, there is a conical depression, the mouth; and in young specimens a tapering filament, which reminds one of the posterior cilium of Heteromita, projects from this region.
The body consists of a soft granular protoplasmic substance, the middle of which is occupied by a large oval mass
- ↑ Excellently described by Stein, almost all of whose statements I have verified.
