108 SAPROPHYTES IN WATER, ON THE BARK OF TREES, AND ON ROCKS. 
Schilleriana, a native of the Philippine Islands; its roots are rigid, compressed, 
and about 1 e.m. in breadth; the surface turned away from the trunk is slightly 
convex, and has a granular structure and metallic glitter like a lizard’s or chame- 
leon’s tail. The surface towards the trunk is flat and without metallic glitter, 
and upon it, close behind the growing point, there is a whitish fur consisting of 
short, thickly packed, absorptive cells. When the tip of one of these roots comes 
into contact with the bark it grows so firmly to the substratum by means of the 
absorption-cells, that it is easier to detach superficial bits of the bark itself than 
the root. The latter, once fixed, flattens out still more and becomes strap-shaped, 
whilst creeping outgrowths proceed from it, forming strips which may ultimately 
attain a length of 1} metres. The sight of a trunk covered with these long 
metallic bands is one that never fails to excite wonder even in the midst of the 
world of orchids, wherein, as is well known, there is much to marvel at. 
In other species of tropical orchids, e.g. in Sarcanthus rostratus (fig. 15), the 
roots are not flat from the beginning, but become so when they come into con- 
tact with the bark. A root is often to be seen which arises as a cylindrical cord 
from the axis, then lays itself upon the bark in the form of a band, and further on 
lifts itself once more, resuming at the same time the rope form, as is shown in the 
illustration. Here also complete coalescence takes place between the bands and the 
bark, and the union is extremely close. Similar conditions have been observed to 
hold in many Aroidec living on the bark of trees. The plants in question lie with 
their stems, leaves, and roots flat against the trunks, so that they suggest a covering 
of drapery. Taking, for instance, the Marcgravie (Maregravia paradoxa, M. 
wmbellata), one might at first sight suppose that they adhere to the bark not only 
by the roots, but also by the large discoid leaves, which are arranged in two rows. 
A very remarkable fact also, in connection with these plants, is that they only 
grow on very smooth and firm bark. When transferred to a soft substratum, such 
as mould or moss, they languish, because their roots are unable to enter into close 
union with a support of such loose texture. This is also true of most tropical 
orchids living on bark. When their seeds are transferred to loose earth devoid of 
humus, they do indeed germinate, but then perish, whereas when sown on the bark 
of a tree, they not only germinate, but grow up with ease into hardy plants. 
Where steep rocks occur near clumps of trees it is not uncommon for the same 
species of plants to grow on both. Allusion is not here made to kinds which, like 
ivy, have their roots in the earth at the foot of rocks and trees, and creep up the 
one or the other indifferently, using both merely for support and not as sources of 
nutriment, and clinging to them by means of special attachment-roots. The remark 
is applicable also to plants which live on the products of the decay of organie 
bodies, for example many tropical Orchidee, Dorstenie, Begonic, and Ferns; and in 
cooler parts a number of Mosses and Liverworts. It is not difficult to explain this 
phenomenon in the case of species which derive their food from vegetable mould. 
The erannied wall of rock is, in a certain way, analogous to the rugged bark of a 
tree. The holes in the rock are filled in course of time with black vegetable mould, 
