Creek Chub
The structure of the light- and dark-adapted retina, the pigment
epithelium and the choroid of the creek chub, Semotilus atromaculatus
(Cyprinidae, Teleostei) is examined by light and electron microscopy. An
extensive network of vitreal blood vessels emanating from the hyaloid
artery enters the eye with the optic nerve and overlies the inner
limiting membrane. This membrane closely apposes the fine protrusions of
the Müller cell processes which traverse the entire retina, dividing
the inner retina into alternating fascicles of ganglion cells and optic
axons. The inner nuclear layer consists of bipolar, amacrine, Müller
cell soma and two layers of horizontal cells. The outer plexiform layer
possesses both rod spherules and cone pedicles. Each rod spherule
consists of a single synaptic ribbon in either a triad or quadrad
junctional arrangement within the invaginating terminal endings of the
bipolar and horizontal cell processes. In contrast, cone pedicles
possess multiple synaptic ribbons within their junctional complexes and,
in the light-adapted state, the horizontal cell processes show spinule
formation. Four photoreceptor types are identified on morphological
criteria; unequal double cones, large single cones, small single cones
and rods. All but the small single cones are capable of retinomotor
responses. The rod to cone ratio is approximately 5:1 and the rods form
two ill-defined rows in the light-adapted condition. The retinal pigment
epithelium possesses two types of osmiophilic granules. These are bound
within slender microvilli and migrate vitread to surround the
photoreceptors in response to light. Bruch's membrane is trilaminar and
the vascularised choroid consists of up to three layers of melanocytes.
The endothelial borders of the choroidal blood vessels abutting the
outer lamina of Bruch's membrane are fenestrated.
Creek Chub
Creek Chub
Creek Chub
Creek Chub
Creek Chub
Creek Chub
Creek Chub
Creek Chub
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