ridges, which are usually prolonged as teeth beyond the infolded
margin. Above the mouth is the lid (operculum), which
varies in size from a small narrow process to a large heart shaped
expansion. A study of the development of the pitcher,
especially in the young pitchers of seedling plants, shows that
the inflated portion is a development of the midrib of the leaf,
while the wings, which are especially well represented in the
terrestrial type of pitcher, represent the upper portion of
the leaf-blade which has become separated from the lower
portion by the tendril, the lid is regarded as representing
two leaflets which have become fused The short straight or
curved process from the back of the pitcher behind the lid
represents the organic apex of the leaf (A in fig. 1).
 |
| Fig. 2.—Leaves of Sarracenia purpurea. |
| A, Attractive surface of lid; B, conducting, C, glandular; and D, detentive surface, magnified. A and D are taken from S. flava. |
The size of the pitcher varies widely in the different species, from an inch to afoot or more in depth. The colour also varies considerably, even in different pitchers of the same individual, according to age, light exposure or soil conditions. It is uniformly green or more or less spotted, blotched or suffused with red or crimson, or sometimes, as in N. sangumea or N. Edwardstana, largely or wholly of a rich scarlet or crimson colour. Insects are attracted to the mouth of the pitcher by a series of glands, yielding a sweet excretion, which occurs on the stem and also on the leaf from the base of the leaf-stalk to the lid and peristome. Embedded in the incurved margin of the rim which affords a very insecure foothold to insects, are a number of large glands excreting a sweet juice. The cavity of the pitcher is in some species lined throughout with a smooth glistening surface over which glands are uniformly distributed; these glands secrete a liquid which is found in the pitcher even in the young state while it is still hermetically closed by the lid. In other species the glands are confined to the lower portion of the cavity surface, while the upper part bear a smooth waxy secretion on which it is impossible, or at any rate extremely difficult, for insects to secure a foothold. This area is termed the “conducting” area, as distinguished from the lower or “detective” gland-bearing area. It has been proved that the secretion contains a digestive ferment capable of rendering proteid matter soluble. Insects, especially running insects, which have followed the track of honey glands upwards from the stem along the leaf, reach the mouth of the pitcher, and in their efforts to sip the attractive marginal glands fall over into the liquid. The smooth walls above the liquid afford no foothold, and they are drowned, their bodies are digested and the products of digestion are ultimately absorbed by the glands in the pitcher-wall. Thus Nepenthes secures a supply of nitrogenous food from the animal world in a manner somewhat similar to that adopted by the British sundew, butter wort, and other insectivorous plants.
The side-saddle plant, Sarracenia, native of the eastern United States, is also known as a pitcher-plant. There are about seven species, herbs with clusters of radical leaves some or all of which are more or less trumpet- or pitcher-shaped. The leaf has a broadly sheathing base succeeded by a short stalk bearing the pitcher, which represents a much enlarged midrib with a winglike lamina. Above the rim of the pitcher is a broad Battened lid, which is also a laminar development. The surface of the leaf, especially the laminar wing, bears glands which in spring exude large glistening drops of nectar. The lid and mouth of the pitcher are brighter coloured than the rest of the leaf, which
 Fig. 3.—Cephalotus follicularis, showing ordinary leaves and pitchers, the right hand one cut open to show internal structure. |
varies from yellow-green to deep crimson in different species and in individuals according to exposure to sunlight and other conditions. This forms the attractive area, and the inner surface of the lid also bears numerous glands, as well as downward pointing hairs, each with a delicately striated surface (fig. 2, A). Below it is the conducting surface (B) of glassy epidermal cells, with short downward-directed points, which facilitate the descent, but impede the ascent of an insect. Then come the glandular surface (C), which is formed of smooth polished epidermis with numerous glands that secrete the fluid contents of the pitcher, and finally the detective surface (D), of which the cells are produced into long and strong bristles which point
 Fig. 4.—Morphology of Pitchers. A, Ordinary leaf of Cephalotus. |
downwards and meet in the centre of the diminishing cavity so as to render escape impossible. The secretion wets an insect very rapidly, but, so far as is known, seems to be completely destitute of digestive power—indeed, rather to accelerate decomposition. The pitchers accumulate vast quantities of insects in the course of a season, and must thus abundantly manure the surrounding soil when they die. Moreover, the
