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Show 64 DHOSERA ROTUNDIFOLIA. OuAr. III. ful not to injure the roots ; those were washed and placed in a little solution of one part of carbonate of ammonia to 146 of water. In less than one minute I saw a cloud travelling from cell to cell up the roots, with wonderful rapidity. After from 8 m. to 9 m. the fine granules, which caused this cloudy appearance, became aggregated towards the extremities of the roots into quadrangular masses of brown matter; and some of these soon changed their forms and became spherieal. Some of the cells, however, remained unaffected. I repe;;tted the experjment with another plant of the same species, but before I could g0~ the specimen into focus under the microscope, clouds of granules and quadrangular masses of reddish and brown matter were formed, and had run far up all the roots. A fresh root was now left for 18 hrs. in a drachm of a solution of one part of the carbonate to 437 of water, so that it received ~ of a grain, or 2·024 mg. When examined, the cells of all the roots throughout their whole length contained aggregated masses of reddish and brown matter. Before making these experiments, several roots were closely examined, and not a trace of the cloudy appearance or of the granular masses could be seen in any of them. Roots were also immersed for 35 m. in a solution of one part of carbonate of potash to 218 of water; but this salt produced no effect. I may here add that thin slices of the stmn of the Euphorbia were placed in the same solution, and the cells which were green instantly became cloudy, whilst others which were before colourless were clouded with brown, owing to the formation of numerous granules of this tint. I have also seen with various kinds of leaves, left for some time in a solution of carbonate of ammonia, that the grains of chlorophyll ran together and partially coalesced; and this seems to be a form of aggregation. Plants of duck-weed (Lemna) were left for between 30m. and 45 m. in a solution of one part of this same salt to 146 of water, and three of their roots were then examined. J n two of them, all the cells which had previously contained only limpid :fluid now included little green spheres. After from 1~ hr. to 2 hrs. similar spheres appeared in the cells on the borders of the leaves; but whether the ammonia had travelled up the roots or had been directly absorbed by the leaves, I cannot say. As one species, Lemna arrh,iza, produces no roots, the latter alternative is perhaps the most probable. After about 2~ hrs. some of the little green spheres in the roots were broken up into small granules which exhibited Brownian movements. Some duckweed was also left for 1 hr. 30m. in a solution of one part of CHAP. III. THE PROCESS OF AGGREGATION. 65 carbonate of P?tash to 218 of water, and no decided change could be perceived in the cells of the roots; but when these same r~ots were placed for 25m . . in a solution of carbonate of ammonia of th~ same strength, little green spheres were formed. . A green manne al~a was left for some time in this same solution, but. was very ~oubtfully affected. On the other hand, a red manne alga, w1th finely pinnated fronds, was strongly affected .. The co.ntents of the cells aggregated themselves into b~oken nngs, still of a red colour, Which very slowly and slightly. changed their shapes, and the central spaces within these nngs. became cloudy with red granular matter. The facts _here gi:ven (whether they are new, I know not) indicate that In~eresting r~sults w?uld perhaps be gained by observing the actwn of variOus sahne solutions and other fluids on the roots of plants. |