OF DENISON UNIVERSITY. 
77 
pero or cap of the tuber is covered by the cerebrum. The lobe is 
much larger, for example, than the precrucial lobe of the hemisphere. 
As seen from above, the outline is ovoid with the larger end caudad 
and the longer axis passing obliquely caudo-ventrad. The ventral as- 
pect is acutely ovate or subtriangular with the apex mesi-caudad. In 
its natural position, the infero-cephalic surface is curved and the 
greater portion is covered by the fibres of origin of the olfactory nerve. 
The pero (as this term is used by Wilder) consists of a cap or bus- 
kin-like body which entirely clothes the lobe. Its substance extends 
nearly to the ventricle, which latter is, however, clothed with a larger 
or smaller mass of white matter with a gray envelope differing totally 
from that which pertains to the pero proper. Passing entad, we en- 
counter successively the following layers, i. The fibre layer, which 
consists of apparently irregularly disposed fibre clusters intercrossing 
confusedly. Among the fibres are numerous blood-vessels and the 
usual inoblasts and leucocytes accompany the fibres. 2. The glom- 
erulary layer is of the usual structure ; fibres from the cells next to be 
described pass into the dense ball of neuroglia and emerged clothed 
with their myelin as distinctive olfactory fibres. It is suggested that 
the glomerule is simply a locus devoted to the manufacture of the 
myelin sheaths of the nerves. In this case the only active agents in 
the process must be the large number of wandering cells or Deiter’s 
corpuscles which congregate about the glomerules in large numbers. 
If the Deiter’s cells have this function here it would be easy to pred- 
icate a similar function of the same cells elsewhere. There are many 
reasons for such an assumption in other parts of the brain. The pres- 
ence of exactly similar cells in the tracts of medullated fascicles else- 
where is suggestive. (See also Flechsig’s’ works on the development 
of the sheaths.) The same explanation may be given for the exactly 
similar cells in the laminated granular layer. 3. The external neu- 
roglia layer is in this case not distinct from the layer next entad, as 
the ganglionic layer is dispersed throughout them both. In this re- 
spect the opossum differs from any other mammal examined. The 
ganglion cells are perhaps most abundant near the external boundary 
of the laminated granular layer, but are irregularly distributed to the 
very base of the glomerulary layer. The ganglion cells are of pyra- 
midal form and large size with a (generally single) strong apex process 
which can be traced as a large non-medullated fibre to the glomerulary 
layer. From the base several processes extend latero-entad or laterad 
