BRYACE^E. 



359 



247. Two capsules 

 urn argertteum. The 

 left is still per- 



or- t t apez ishown 

 ain the lid or operculnm; the 



in some cases a development which foreshadows the differentiation of 

 the stem into the epidermal, fibro-vascular, and fundamental systems of 

 the higher plants. In Polytrichum, for example, there can be no doubt 

 that the axial and extra-axial bundlesof elongated cells with thickened 

 walls found in the stem represent the fibro-vascular bundles of the 

 Pteridophytes and Phanerogams ; the bundles 

 of elongated thin-walled cells which pass 

 downward through the stem from the base of 

 the leaf, in Splachnum, must also be regarded 

 as representing rudimentary foliar bundles. 



While these higher Mosses cannot properly 

 be classed with vascular plants, their tissues 

 in some cases reach so high a development as 

 to show that there is no abrupt change in pass- 

 ing from the so-called non-vascular plants to 

 the vascular ones. 



The inflorescence of Bryaceae is hermaphro- 

 dite, monoecious, or dioecious. The sexual or- 



gans are situated on the apex of the mai 



s . , ., , , , one on the right baa dropped 

 stem (Acrocarpae), or of short lateral branches j t8 opurculum, exposing the 



(Pleurocarpse). The sporogonium, in its de- gg B * Ma^ed"^ 6 " 

 velopment, carries up the old archegonium as 



a calyptra, which quickly falls away in some genera (e.g., Bryum, 

 Bartramia, etc.), while in others (e.g., Polytrichum, Pogonatum, etc.) it 

 persists as a closely fitting covering of the capsule ; between these 

 two extremes there are all gradations. 



The sporogonium is usually long stalked (Fig. 

 246, B). The capsule is generally more or less 

 ovoid or cylindrical. It is at first composed of pa- 

 renchymatous tissue, which entirely fills up its 

 interior; as it enlarges, however, an annular in- 

 tercellular air cavity forms, separating a cylin- 

 drical axial portion from the outer portion, which 

 forms the wall of the capsule. The axial cylin- 

 der remains in connection with the remainder 

 ^ ^ ie ca P au ^ e at its top and bottom (, Fig. 246, 



art of the capsule of 0), and it is, moreover, slightly connected with 

 ^sfowiSfTC the capsule walls by chlorophyll-bearing confer- 

 double peristome. The void filaments, which pass across the air cavity. 

 of^L^^the inner 'of ^he ra ther dense tissues below and surrounding 

 cilia. Magnified. the air cavity in the immature capsule are com- 



posed of chlorophyll-bearing cells, and the epidermis covering these 

 portions is supplied with stomata. The spores are developed from a 

 layer of cells (the third or fourth from the outside) in the axial cylinder 

 (s, Fig. 246, (7) ; and each cell of the spore-bearing layer produces four 

 spores. The portion of the axial cylinder within the spore-bearing 



248 A ical 



