. Annals of applied biology. Biology, Economic; Biochemistry. F. T. Brooks and A. Sharples 69 indicate an origin somewhat similar to that of a pycnidium, but we find that the mycelium aggregates beneath the outermost layer of cells of the branch, forming a kind of stroma which by growth ruptures the ,Ob. Fig. 7. Group of Necator spores, teased out, showing irregular size of spores, x 400. tissues of the host (Figs. 8, 9). The whole of this stromatic mass becomes converted into spores by the separation of the cells one from the other. The irregularity in the size and shape of the spores (Fig. 7
. Annals of applied biology. Biology, Economic; Biochemistry. F. T. Brooks and A. Sharples 69 indicate an origin somewhat similar to that of a pycnidium, but we find that the mycelium aggregates beneath the outermost layer of cells of the branch, forming a kind of stroma which by growth ruptures the ,Ob. Fig. 7. Group of Necator spores, teased out, showing irregular size of spores, x 400. tissues of the host (Figs. 8, 9). The whole of this stromatic mass becomes converted into spores by the separation of the cells one from the other. The irregularity in the size and shape of the spores (Fig. 7) is due to this peculiar method of spore formation. The dimensions of the. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Association of Applied Biologists; Association of Economic Biologists. [Wellesbourne, Warwick, etc. ] Association of Applied Biologists [etc. ]
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