Insectivorous Plants eBook

This eBook from the Gutenberg Project consists of approximately 527 pages of information about Insectivorous Plants.

Insectivorous Plants eBook

This eBook from the Gutenberg Project consists of approximately 527 pages of information about Insectivorous Plants.

The result is in all respects exactly the same, whether a gland has been excited directly, or has received an influence from other and distant glands.  But there is one important difference:  when the central glands are irritated, they transmit centrifugally an influence up the pedicels of the exterior tentacles to their glands; but the actual process of aggregation travels centripetally, from the glands of the exterior tentacles down their pedicels.  The exciting influence, therefore, which is transmitted from [page 266] one part of the leaf to another must be different from that which actually induces aggregation.  The process does not depend on the glands secreting more copiously than they did before; and is independent of the inflection of the tentacles.  It continues as long as the tentacles remain inflected, and as soon as these are fully re-expanded, the little masses of protoplasm are all redissolved; the cells becoming filled with homogeneous purple fluid, as they were before the leaf was excited.

As the process of aggregation can be excited by a few touches, or by the pressure of insoluble particles, it is evidently independent of the absorption of any matter, and must be of a molecular nature.  Even when caused by the absorption of the carbonate or other salt of ammonia, or an infusion of meat, the process seems to be of exactly the same nature.  The protoplasmic fluid must, therefore, be in a singularly unstable condition, to be acted on by such slight and varied causes.  Physiologists believe that when a nerve is touched, and it transmits an influence to other parts of the nervous system, a molecular change is induced in it, though not visible to us.  Therefore it is a very interesting spectacle to watch the effects on the cells of a gland, of the pressure of a bit of hair, weighing only 1/78700 of a grain and largely supported by the dense secretion, for this excessively slight pressure soon causes a visible change in the protoplasm, which change is transmitted down the whole length of the tentacle, giving it at last a mottled appearance, distinguishable even by the naked eye.

In the fourth chapter it was shown that leaves placed for a short time in water at a temperature of 110o Fahr. (43o.3 Cent.) become somewhat inflected; they are thus also rendered more sensitive to the action [page 267] of meat than they were before.  If exposed to a temperature of between 115o and 125o(46o.1-51o.6 Cent.), they are quickly inflected, and their protoplasm undergoes aggregation; when afterwards placed in cold water, they re-expand.  Exposed to 130o (54o.4 Cent.), no inflection immediately occurs, but the leaves are only temporarily paralysed, for on being left in cold water, they often become inflected and afterwards re-expand.  In one leaf thus treated, I distinctly saw the protoplasm in movement.  In other leaves, treated in the same manner, and then immersed in a solution of carbonate of ammonia, strong aggregation ensued.  Leaves placed in cold water,

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Insectivorous Plants from Project Gutenberg. Public domain.