memex/0_inbox/in/books/TWOW/html/55 The origin and detailed structure of the mammalian brain.html

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	<title>The origin and detailed structure of the mammalian brain</title>
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<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt"><font face="Verdana, sans-serif">T<img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAALUAAAASCAMAAAAqlG/NAAAAYFBMVEXjx5vVu5HHroi4on6qlXSciWqOfGF/cFdxY01jV0MybUFVSjpGPjA4MSYqJR18AAB0AABmAABaAAAcGBNPAABJAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACoEG7LAAABW0lEQVR4nO2V0W7DIAxFDTEGBHbXdtv/f+pszLo0T1WVVYrUK0TItUHHiBA4nT4un18HEyj1+Xw5mOD7iHpTv05GDcfSH3XIJQ4L/RHxLjH0+sh6FWhrrLSJPa0bdRBKspgVw4iEeJdY0kPrMSxbY6VN7GndqEn3ITa49lowMAtiQelsFYTOFa5iG8VNWtfihHvQsFRuUDqrTdCYF4VkyMwEw/IZWTt205LbjtTFDgSD2EgrKEZd3c1KtIwRaBUCWCBmRgsnA0lmMwRqZVBDKuzWWBLGi5s+Yz/qudds1Eo4qItTj9dJbQ1LlNTQw+ydFUzZqVtBdutGDb+mJ+9GPc/1oMaGvKLGjhLuqJc+EjbUWJ26J1pRJ+o2mubO1PMOoXGHpNyWiHqL+H2imztHZE39lFP0MHmnTQ8R6oNAKyS3bAblYKNpevJ+1GvJHp/MP+rQf5nj6U39Ov0AlGSJkUZFyxsAAAAASUVORK5CYII=" name="TtsOtkCRS06_08" align="right" hspace="5" width="250" height="25" border="0">he
origin and detailed structure of the mammalian brain. </font>Assuming
that much of the detailed connections among neurons can be acquired
from the structure of the world by experience, or learning, all that
is needed for telesensory vertebrates to try out the higher level of
neurological organization required for a subjective animal system of
representation is a random variation that sets up the basic circuits
depicted in the functional description of the behavior guidance
system. By considering the structures of the non-mammalian and
mammalian vertebrate brains, we will see how it can be accomplished
by a relatively simple, albeit radical, the random variation. That
description of the basic structure of the mammalian brain also
reveals the detailed neural mechanisms that serve the various
functions in the subjective animal behavior guidance system. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">In
the non-mammalian vertebrate brain, as we have seen, the three
subsystems serving the three subfunctions of the animal behavior
guidance system are distributed to three anatomically distinct
regions of the brain, the segment of nervous system rostral to the
spinal chord, which connects the brain to the body. Those regions are
the forebrain, midbrain and hindbrain. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Any
behavior guidance system, as we have seen, must register sensory
input from the world, select from among incompatible kinds of
behavior, and generate the kind of behavior chosen. In the vertebrate
brain, sensory input is registered in the midbrain, selection among
incompatible kind of behavior is mainly the responsibility of the
forebrain, and behavior is generated by the hindbrain. Connections
between the midbrain and hindbrain enable them to serve as the
telesensory animal system of representation.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
transformation of the non-mammalian into the mammalian brain is often
described as the centralization of functions in the nervous system.
That is, the three subfunctions of the animal behavior guidance
system, which are parceled out to the three anatomically distinct
sections of the non-mammalian brain, are all served by one of those
sections in mammalian brains, namely, by the forebrain. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">It is
obvious that the mammalian forebrain serves the output subfunction,
since motor output is generated directly from the neocortex, a
distinctively mammalian structure in the forebrain. (Motor output
from the hindbrain, which generates motor output in non-mammalians,
is fully under its control.) Muscles throughout the body are
controlled by a somatotopically organized 2 .D array of neurons in
the motor neocortex.</font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">Although
visual input is already received by the forebrain in non-mammalians
(along with the optic tectum in the midbrain), it is joined in
mammals by well defined relays to the neocortex for auditory and
somatosensory input (all three <i>via</i> nuclei in the thalamus). </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">Since the
subfunction of selecting goals for behavior is already contained in
the forebrain, it is apparent that the mammalian forebrain is using
its sensory input to generate motor output, thereby serving all three
subfunctions. Hence, it is the mammal's entire animal behavior
guidance system. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">The shift
of all three subfunctions from the three distinct parts of the
non-mammalian brain to the forebrain resembles the evolution of the
vertebrate brain from brainless chordates: just as the rostral end of
the chordate neural tube became a brain that took over the control of
behavior from reflexes located throughout the neural tube, so the
mammalian forebrain takes over the control of behavior from the
midbrain and hindbrain. The midbrain and hindbrain structures are
still there, but they are slaves to the forebrain (and are omitted
from the mammalian diagrams unless they play an essential role). </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Furthermore,
the neural connections among the subsystems in the mammalian brain
are just what would be expected of an animal system of representation
with spatial imagination. We have seen functionally how the
subjective animal system of representation requires four subsystems
(the <i>local image</i>, <i>body image</i>, behavior generator, and
memory), and the simplest and most convincing way to show how their
functions are served by structures in the mammalian forebrain will be
to describe how those mammalian structures evolve from simpler
mechanisms in the non-mammalian forebrain. The relevant structures of
the vertebrate brain have already been described (see <font face="Arial, sans-serif">Stage
5. Telesensory animals: Structure of the non-mammalian vertebrate
brain</font>). </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">There
are, as already mentioned, two kinds of changes in the non-mammalian
forebrain that result in mechanisms for the subjective animal system
of representation — the evolution of the neocortex, and a
restructuring of the thalamus that redirects the non-mammalian
forebrain output back to the (telencephalon of the) forebrain (by way
of the thalamus) to form the complete circuits of its higher level of
neurological organization. The first change occurs in the
telencephalon of the forebrain and the second in the diencephalon. </font></font></font>
</p>
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" name="NMBrainDVR" align="bottom" width="422" height="224" border="0"></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><img src="data:image/png;base64,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" name="MBrainParts" align="bottom" width="422" height="360" border="0"></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
neocortex evolves from the integration of the DVR and dorsal cortex,
the two main telencephalic targets of thalamic nuclei in reptiles.
During embryological development in mammals, cells in the
telencephalon that would become the DVR in reptiles migrate to the
dorsal cortex (the extended flap of neural tube at the diencephalon)
and lay themselves out in the dorsal cortex against the outer surface
of the mammalian telencephalon. The result is the six layers of cells
distinctive of mammalian neocortex. (Compare the diagram of the
reptilian brain with that of the mammalian brain.<sup><a class="sdendnoteanc" name="sdendnote1anc" href="#sdendnote1sym"><sup>i</sup></a></sup>)
The evolution of the neocortex adds to the telencephalon a
somatotopic representation of the body (the <i>body image</i>) and
all the telesensory images that make up the <i>local image.</i></font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
thalamus is restructured so that it redirects the non-mammalian
forebrain's three kinds of output back to the telencephalon, and this
results in the creation of three circuits in the mammalian forebrain.
Each circuit is a pathway of neural projections that includes both
the thalamus and the neocortex along with special structures that
make them different from one another. And each circuit serves one of
the basic subfunctions of the animal behavior guidance system. The
sensory input circuit serves as <i>local image </i>with the <i>memory
</i>in the functional diagram. The behavioral output circuit combines
the systems labeled <i>body image </i>and <i>behavior generator </i>in
the functional diagram. The third circuit is the <i>affective system</i>,
for selecting goals of mammalian behavior, which attaches desires to
objects in the <i>local image </i>by activating dispositions in the
behavior generator. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Since
the neocortex and thalamus are what are linked by the three circuits,
these two main changes are connected. Each of the areas of neocortex
and nucleus of the thalamus is on roughly the same level of
neurological organization as each of the basic systems making up the
telesensory animal behavior guidance system, and thus, when they are
linked in a three different circuits, each serving one of those
subfunctions, there is obviously a higher level of neurological
organization. But the best way to see how this basic structure is
tried out is to start with the change in the thalamus that gave the
neocortex a somatotopic representation of the body to serve as the
behavioral output system of the subjective behavioral output system. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt"><i><b>The
body image. </b></i>Motor output is generated from the <i>body image,
</i>a region of the neocortex that is somatotopically organized. It
receives somatosensory input from all parts of the body and it
generates the motor output controlling all parts of the body. Like
the <i>local image </i>in the posterior cerebrum, the <i>body image
</i>is a region of neocortex located in the anterior cerebrum. But
somatosensory and motor neocortex represent the body like a picture
(or, rather, several pictures), and a somatotopic organization is
such a highly improbable mechanical order that the behavioral output
system is a good example of a complex structure that seems unlikely
to be tried out as a random variation by the mechanism of
embryological development. But it most come from somewhere.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><img src="data:image/png;base64,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" name="MBrainBodyImage" align="bottom" width="414" height="260" border="0"></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
image of the body in the neocortex cannot come from either of the
geometrical structures from which the neocortex evolved, because
neither the DVR nor the dorsal cortex have a somatotopic
organization. But telesensory animals needed such a somatotopic
representation of the body in order to even out motor commands to
muscle groups in each region of the body so that whole body behavior
would be coordinated. That requires the command neurons to be related
spatially to one another corresponding to spatial relations among the
parts of the body they control, and that was the function of the
cerebellum. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">Even before
reptiles, there was a rough somatotopic organization in the
cerebellum (the archicerebellum), but the evolution of legs required
a more distinct somatotopic organization. As mentioned above, it is
found in a new region of the cerebellum (the paleocerebellum) and in
the red nucleus to which it projects in the midbrain in order to
affect motor commands to the limbs. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">There is a
further development of a similar kind in the mammalian cerebellum.
Yet another region is added to the cerebellum (the neocerebellum).
The mammalian cerebellum projects to the red nucleus <i>and </i>(joined
by a projection from the red nucleus) to the motor neocortex (relayed
in both cases by a new nucleus of the thalamus, the ventral lateral
nucleus). In other words, the red nucleus now sends motor commands to
the limbs by way of a somatotopic representation in the neocortex.
(See diagram of the behavioral output system.) This relay of its
output to the motor neocortex required a new nucleus in the thalamus,
and that may have been the original random variation that is
responsible for both the reorganization of the thalamus and the
neocortex. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">Not only
does it locate a somatotopic behavioral output system in the
neocortex, but it is also the source of the somatotopic organization
of somatosensory input to the neocortex (which is also relayed to the
neocortex by a new thalamic nucleus, the ventral posterolateral
nucleus).<sup><a class="sdendnoteanc" name="sdendnote2anc" href="#sdendnote2sym"><sup>ii</sup></a></sup>
In primitive mammals, such as the hedgehog, somatosensory input and
motor output share the same <i>body image </i>in the neocortex, and
only later do their images come to occupy adjacent areas of neocortex
across the central sulcus. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt"><i><b>The
local image. </b></i>The telesensory images making up the <i>local
image </i>are on the same level of part-whole complexity as the <i>body
image</i>. Both are regions of neocortex receiving highly organized
2-D projections from specific nuclei of the thalamus. As in earlier
vertebrates, telesensory input is relayed to the telencephalon by
nuclei in the thalamus. Visual input is relayed by the lateral
geniculate body to the occipital neocortex, and auditory input is
relayed by the medial geniculate body to a region of the temporal
neocortex. But the evolution of the neocortex provides a more
powerful mechanism for its analysis than in telesensory animals. (See
the diagram of the <i>local image.</i>) </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><img src="data:image/png;base64,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" name="MBrainLocalImage" align="bottom" width="426" height="301" border="0"></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Regions
of neocortex all have a similar structure. Thalamic neurons send
axons in ordered, 2 .D arrays to certain 2-D areas of neocortex where
they synapse with certain kinds of neurons (that is, with neurons in
one or another of its six layers). And neurons in target areas of the
neocortex send 2 .D arrays of axons to three kinds of targets in the
forebrain: directly back to thalamic nuclei, to other neocortical
areas, and to the corpus striatum and its special projection to
certain thalamic nuclei (<i>behavior generator</i>). These
connections are determined genetically, by instructions from the
multicellular biological behavior guidance system. It is a good
example of the more complex structures that can develop from the
neural tube in deuterostomes: neurons in the thalamic nuclei and
their neocortical targets are born with molecular labels by which
they can somehow recognize their own locations in their own 2 .D
array and seek out corresponding locations in other 2 .D arrays.<sup><a class="sdendnoteanc" name="sdendnote3anc" href="#sdendnote3sym"><sup>iii</sup></a></sup>
</font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">In
the case of telesensory images, all the 2 .D arrays in the thalamus
and neocortex are usually processing sensory input from the same
objects in the local scene at any given moment, but following genetic
instructions to analyze it in different ways. With evolution by
reinforcement selection, therefore, they can use the results of one
another's analysis to confirm their own conclusions, thereby
improving the efficiency of them all.<sup><a class="sdendnoteanc" name="sdendnote4anc" href="#sdendnote4sym"><sup>iv</sup></a></sup>
Jointly, they are a subsystem with a 2 .D representation of the
object at a distance.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
<i>local image </i>is, however, a more encompassing 2-D
representation of the current <i>scene,</i> which includes all the
currently perceivable objects relative to the body. The <i>local
image </i>is constructed by an interaction between the <i>body image
</i>and specific telesensory representations. The <i>local image </i>is
constructed in a region of neocortex (the inferior parietal lobe)
adjacent to the visual and auditory analysis areas, on one side, and
the <i>body image, </i>on the other, and it receives association
fibers from both sides. (See diagram of the <i>local image.</i>) The
image of the body in the motor and somatosensory neocortex projects
association fibers providing information about the current bodily
condition (its stance and motion), and the parietal area uses it to
locate objects of telesensory images in the scene relative to the
body by taking account of the direction in which the head and ears
are pointed when they are received. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
eyes are, however, a special case. Their fixations are controlled by
the frontal eye fields (an area of frontal neocortex, anterior to the
motor cortex, which we are counting as part of the behavioral output
system). The frontal eye fields also report their oculomotor commands
to the inferior parietal lobe (<i>via </i>association fibers), where
an interaction with the visual neocortex (in the occipital area)
constructs a larger representation of the scene (the local image)
from the visual images that show up in each fixation.<sup><a class="sdendnoteanc" name="sdendnote5anc" href="#sdendnote5sym"><sup>v</sup></a></sup>
(See diagram of the <i>local image.</i>) The already constructed
<i>local image </i>guides the fixations of the eyes to objects in the
scene; that is apparently the function of a highly unusual, ordered
2-D projection of fibers <i>to </i>the frontal eye fields <i>from </i>the
thalamic nucleus (pulvinar) that serves the inferior parietal area.<sup><a class="sdendnoteanc" name="sdendnote6anc" href="#sdendnote6sym"><sup>vi</sup></a></sup>
The <i>local image </i>is not, therefore, just a collection of
telesensory images, but an ordering of them that indicates the
direction and distance of each from the body, or what serves as
representation of the current local scene.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Touch
is a new sensory modality, which depends on a certain kind of
somatosensory input to the <i>body image</i>. As we have noticed,
somatosensory input is relayed (by the posterolateral nucleus of the
thalamus) to the somatosensory neocortex (across the central sulcus
from the motor neocortex), where reports from joint and muscle
receptors supplies feedback about the effects of motor commands from
the <i>body image</i>. But it is also, in effect, a new sensory
modality, because input from skin receptors (of various kinds) is
combined with the representations of the scene and the body (in the
superior parietal area served by the lateral posterior thalamic
nucleus) to yield information about other objects in the current
scene (though this does not yield much information about them except
location until the evolution of manipulative animals). (See diagram
of <i>local image.</i>) Since the objects are distinct from the body,
but located not at a distance for it, touch might be called an
&quot;extrosensory modality.&quot;<sup><a class="sdendnoteanc" name="sdendnote7anc" href="#sdendnote7sym"><sup>vii</sup></a></sup></font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
evolution of the neocortex, in sum, accounts for one part of each of
the two basic subsystems of the subjective animal system of
representation, the sensory input and behavioral output systems.
Almost every area of neocortex receives a projection from one or more
thalamic nuclei (and sends fibers back), but the <i>body image</i> is
located in the anterior neocortex, and the 2 .D telesensory images of
the objects in the scene and their combination as a <i>local image </i>is
located in the posterior neocortex. But these regions of neocortex
act on the thalamus in two different ways, each of which makes the
neocortex a link in a complete circuit. The rest of each circuit is
the other part of the sensory input and behavior output systems
represented in the functional diagram of the subjective animal system
of representation, and that is the part of each circuit that is
provided by the other major change in the mammalian forebrain, the
redirection of the output of the non-mammalian forebrain back to the
telencephalon by relays in the thalamus. (The same also holds for the
goal selection system, the third part of an animal behavior guidance
system, as we shall see.) </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">We
have seen that there are three pathways of output from the
non-mammalian forebrain: the ancient olfactory pathway, the striatal
pathway, and the hippocampal pathway. And each is responsible for a
new, complete circuit in the mammalian forebrain. Indeed, the
functions are parceled out to these circuits according to the three
subfunctions of any behavior guidance system. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">The
striatal pathway becomes part of the <i>behavior generator </i>which
works together with the <i>body image </i>to serve as the behavioral
output system. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">The
hippocampal pathway becomes the <i>memory</i> which works together
with the <i>local image </i>to serve the sensory input subfunction of
mapping the territory. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">And the
olfactory pathway becomes the <i>goal selection system</i> which
works together with both frontal and posterior areas of neocortex to
serve the subfunction of selecting goals,. We will put the olfactory
pathway aside for now and take it up only after detailing the
subjective animal system of representation, because the subjective
animal behavior guidance system is what results when olfactory
pathway is added to the subjective animal system of representation.
Let us begin with the hippocampal pathway and how memories are
recorded. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt"><i><b>The
memory. </b></i>The mammalian <i>memory</i> is a forebrain circuit
that results from redirecting the hippocampal output of the
non-mammalian forebrain back to the telencephalon by way of another
new thalamic relay (the anterior nucleus) in the diencephalon. Its
target is, however, a new region of neocortex, the cingulate area,
which runs parallel to all the other areas of the neocortex at the
medial extreme of the neocortex (including the <i>local image, body
image, </i>and other regions of frontal neocortex where <i>behavioral
schemata </i>are located. See diagram of the memory.) This provides a
new, complete circuit, because association fibers connect the
cingulate area with all the areas of neocortex running parallel to
it, and those areas all have association fibers to (a staging area in
the temporal lobe that projects to) the hippocampus. Since the
hippocampus receives information about the &quot;images&quot; in 2-D
arrays throughout the neocortex, it is what enables the mammalian
brain to learn from experience with the three dimensional structure
of the world how to use the input about the body condition
(association fibers from the behavioral output system to the parietal
cortex) to construct the representation of the local scene and how to
label such representations by their locations relative to one another
in three dimensional space as it forms new memory. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><img src="data:image/png;base64,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" name="MBrainMemory" align="bottom" width="323" height="278" border="0"></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
basic mechanism involved in the formation of memories is the
strengthening of synapses of association fibers connecting sets of
neurons in various regions of the neocortex that are firing at the
time, so that later, when enough of them fire together again, it
makes the others in the group fire as well. Although synapses are
strengthened anyway among 2-D arrays in nearby areas of neocortex
that are closely interconnected,<sup><a class="sdendnoteanc" name="sdendnote8anc" href="#sdendnote8sym"><sup>viii</sup></a></sup>
the hippocampus-cingulate circuit connects, as memory groups, neurons
from all areas of neocortex that are active at the moment.<sup><a class="sdendnoteanc" name="sdendnote9anc" href="#sdendnote9sym"><sup>ix</sup></a></sup>
This connects images of the same object from different sensory
modalities as the same object and images of various objects in the
current scene as a <i>local image </i>so that they can be called up
together as units. But it is necessary to have input about the
current bodily condition to label telesensory images by the behavior
involved in perceiving them in the scene. That is provided by
association fibers from the behavioral output system to the inferior
parietal neocortex, and if input from the bodily condition is not
what is combined in the memory groups for the local image, it must be
the relevant groups of neurons of the behavioral output system
itself.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Given
how the memory system (the hippocampus-cingulate circuit) works, it
is required to form such cortex-wide memories. But it is not involved
in recalling memories. Recalling memories is simply a matter of
making the whole group fire together by enough of its members firing
for some reason.<sup><a class="sdendnoteanc" name="sdendnote10anc" href="#sdendnote10sym"><sup>x</sup></a></sup>
</font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">Indeed, at
an earlier stage of embryological development, as mentioned above,
the <i>memory</i> circuit is responsible for acquiring the behavioral
schemata by which overt inquisitive behavior can construct <i>local
images </i>and similar covert behavior can extract information about
the locations of objects in the local science from <i>local images
</i>called up from memory. The memory circuit provides the “natural
selection” for a contained form of reproductive causation in which
the “reproducing organisms” are connections among neurons serving
as behavioral schemata, neurons representing the bodily condition,
and neurons serving as telesensory images, and these connections
evolve as parts of schemata that the <i>behavior generator </i>can
use, as inquisitive behavior, to construct local image, or as covert
behavior, extract information about them. The correlations between
telesensory input and bodily condition that hold for objects of every
kind in any local scene depend on the structure of space (and the
structure of the body driven by the brain), and the <i>memory</i>
circuit enables the brain to acquire the general connections between
cells in the <i>local image </i>and <i>body image </i>so that
behavior schemata for constructing and using <i>local images </i>can
evolve by the natural selection of a reinforcement that strengthens
the connections when they are successful, for example, when the
animal can find objects it desires in the scene. Thus, the structural
cause of the capacity to record and use <i>local images </i>is
internalized from the structure of the spatiomaterial world by a form
of reproductive causation that occurs as a later phase of the process
of the embryological development of the brain. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">There is
evidence, by the way, that the schemata for this kind of behavior is
derived from experience. When human subjects are fitted with glasses
that reverse right and left or up and down in the visual field, there
is, after a long period of awkward attempts to compensate, a dramatic
change in which subjects report that everything &quot;suddenly&quot;
seems oriented in the &quot;right&quot; direction again. As the
<i>memory</i> circuit lays in new connections for behavioral schemata
to construct and use <i>local images </i>with the reversing glasses
and they take over, one's sense of direction changes. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
<i>memory</i> circuit also has a built-in structure that makes it
possible to connect <i>local images </i>in sequences corresponding to
the direction of locomotion and turning relative to them, though
linking them in such sequences depends on the cingulate neocortex
functioning in an additional way. When the cingulate neurons in a
memory group fire, so do the associated images in the adjoining
<i>regions of </i>neocortex, and <i>vice versa</i>. The means that
the cingulate neocortex is in a position to determine the <i>local
images </i>called up in sensory input system. Thus, in order to serve
as the memory for spatial imagination, all the cingulate gyrus needs
is the capacity to link <i>local images </i>together in long
sequences and to be able to switch from one such sequence to another
when their <i>local images </i>overlap. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
posterior cingulate gyrus is in a position to serve as the memory for
spatial imagination, because the posterior cingulate receives input
about the bodily condition, overt and covert, from the anterior
cingulate gyrus. The anterior cingulate gyrus is connected to the
<i>body image </i>and the behavioral schemata in the <i>behavior
generator </i>in a way that is similar to the connection between the
posterior cingulate gyrus and the local image, except that the
influence runs the opposite direction. The <i>body image </i>and
<i>behavioral schemata </i>project to the anterior cingulate gyrus,
and the anterior cingulate gyrus is an (agranular) motor neocortex
like the <i>body image </i>and <i>behavioral schemata,</i> except
that it has not effect on overt motor output and projects to the
posterior cingulate gyrus. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Since
the <i>body image </i>contains information about how the body moves
and turns overtly in the scene, the connections it makes with the
posterior cingulate gyrus would become labels that are recorded with
the sequences of local images. And since the <i>behavioral schemata
</i>contain the same kind of information about covert behavior, and
it is projected to the posterior cingulate gyrus in the same way,
those connections can be used as labels to call up the <i>local
images </i>according to how it move and turns covertly in relation to
the images called up in memory. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">As
sequences of <i>local images </i>become richly interconnected, the
mammal acquires a map of its territory by which it can travel almost
any route. It is the structure of space that ensures that such
interconnections of sequences can accumulate without contradictions.
This internalization of the structure of space is an example of the a
contained form of reproductive causation that takes place in
neurological development as a result of reinforcement selection. The
memory labels required for constructing and exploring memory maps are
part of the behavior schemata that evolve gradually toward greater
efficiency in satisfying desires, in the first instance, getting the
animal where it wants to go.<sup><a class="sdendnoteanc" name="sdendnote11anc" href="#sdendnote11sym"><sup>xi</sup></a></sup>
</font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt"><i><b>The
behavior generator. </b></i>In reptiles, the DVR is the main source
of input to the striatum (which is one pathway of non-mammalian
forebrain output to the midbrain), and thus, since those DVR cells
migrate in mammals to the dorsal cortex and combine as the neocortex,
the neocortex becomes the main source of input to the striatum
(called the <i>corpus striatum</i> or <i>basal ganglia</i>). In fact,
all areas of the neocortex project to the corpus striatum, including
the <i>local image, </i>the <i>body image, </i>behavioral schemata in
the frontal neocortex, and the cingulate neocortex. But the output of
the corpus striatum, which in reptiles was projected to the midbrain
as motor commands, is mostly redirected in mammals back to the
neocortex by way of a relay in the thalamus (the ventral lateral and
ventral anterior nuclei). The targets of the corpus striatum are all
in the frontal neocortex (in the anterior forebrain), including both
the <i>body image </i>and the behavioral schemata. This new circuit
is the <i>behavior generator</i>. But there are two channels through
this circuit, which were not distinguished in the functional diagram
except for the ability to generate behavior either overtly or
covertly. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Part
of the corpus striatum's output is relayed by the (ventral anterior)
thalamus to regions throughout the frontal neocortex where the
behavioral schemata are located. This part also projects to a region
called the “premotor cortex” (an anterior part of Brodmann area
6), which is the behavioral output system for covert behavior. It
also projects to the frontal eye fields, which controls the fixation
of the eyes on objects in the <i>local image.</i></font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
other part of the striatum’s output is relayed by the (ventral
lateral) thalamus more specifically to the motor neocortex itself,
the part of the <i>body image </i>that is responsible for overt
behavior. This includes both the motor neocortex (Brodmann area 4)
the supplementary motor neocortex (an area of neocortex adjacent to
the motor neocortex which modifies motor commands directly, which is
part of Brodmann area 6.) </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">The motor
neocortex (the <i>body image </i>from which overt behavior in
generated) also receives a projection from the ventral lateral
thalamus that relays the output of the cerebellum (where motor
commands are evened out spatially and temporally in a detailed way).
The motor commands actually sent to the body depend, therefore, on
the cerebellum as much as the circuit through the corpus striatum and
ventral lateral thalamus. But the cerebellum is controlled by these
circuits through the striatum and thalamus, because the cerebellum
follows motor commands from the <i>body image, </i>including both
parts, Brodmann areas 4 and 6. (The premotor commands, a part of the
<i>body image </i>that generates covert behavior, enables the
cerebellum to anticipate the next overt motor commands.) </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
corpus striatum has just the connections required of a subsystem
whose function is to generate behavior in relation to the object at a
distance. It receives 2 .D arrays of fibers from all areas of the
neocortex, including the <i>local image </i>in the posterior
neocortex, on the one hand, and the behavioral schemata and <i>body
image </i>(both premotor and motor areas) in the anterior neocortex.
But it projects only to the behavioral schemata and the <i>body image
</i>in the anterior neocortex. (See diagram of the behavior
generator: overt behavior.) </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; text-indent: -0.32cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
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" name="MBrainBehGen" align="bottom" width="490" height="639" border="0"></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
<i>local image </i>sends fibers almost exclusively to a distinct part
of the corpus striatum called the caudate nucleus. The caudate
nucleus apparently compiles an image of the object situated in the
current scene from all parts of the posterior neocortex, because 2 .D
arrays of posterior neocortex that are connected by association
fibers tend to converge on the same areas of the caudate nucleus.<sup><a class="sdendnoteanc" name="sdendnote12anc" href="#sdendnote12sym"><sup>xii</sup></a></sup>
</font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">Similarly,
the <i>body image </i>send fibers almost exclusively to a distinct
part of the corpus striatum, called the putamen. The putamen compiles
an image of the body from all areas of the anterior neocortex,
including the frontal areas containing behavioral schemata and the
<i>body image, </i>for it merges 2-D arrays from parts of neocortex
that are closely connected by association fibers. With behavioral
schemata contained in the frontal neocortex, the putamen has
instructions by which to generate a specific kind of behavior
(depending on which desire predominates at the moment). </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">A
third distinct part of the corpus striatum, called the globus
pallidus, combines the compiled image of the body with the compiled
image of the object according to the selected <i>schema</i> to
produce detailed motor commands for each part of the body as needed
to adjust its behavior to the object in space.<sup><a class="sdendnoteanc" name="sdendnote13anc" href="#sdendnote13sym"><sup>xiii</sup></a></sup>
The globus pallidus can generate behavior, because it projects by way
of nuclei in the thalamus to areas of premotor and motor neocortex
that are responsible for motor commands to all parts of the body.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">For
the animal system of representation to have a spatial imagination,
however, the <i>behavior generator </i>must be able to generate motor
commands in relation to objects in the scene without the body
actually acting on them. And the corpus striatum does, indeed, have
connections that make it possible to generate behavior covertly
rather than overtly. There are two distinct channels by which the
corpus striatum projects to the thalamus (and from there back to the
neocortex, which completes a circuit because of the cortex’s
projection to the corpus striatum). (Both originate in the internal
segment of the globus pallidus, the third part of the corpus
striatum, where both the <i>local image </i>and <i>body image </i>are
represented). </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">One
channel (by way of the ansa lenticularis) projects to the ventral
anterior nucleus of the thalamus which relays it to the premotor and
other frontal areas of neocortex where behavioral schemata are
contained. These areas of neocortex project in turn to the anterior
cingulate gyrus, whose connections with the posterior cingulate gyrus
enable covert behavior to affect the sequences of images in memory.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
other channel (by way of the lenticular fasciculus) is relayed by the
ventral lateral thalamic nucleus to the supplementary motor
neocortex, which lies alongside the motor neocortex and generates
overt behavior. (The ventral lateral nucleus also relays the detailed
motor instructions from the cerebellum and red nucleus, but that is a
later effect of this circuit for overt behavior through the striatum
and thalamus, because its motor commands are what the cerebellum uses
to work out the detailed motor commands.) These areas of the <i>body
image </i>also project to the anterior cingulate gyrus, where they
can establish labels for the sequences of <i>local images </i>in
spatial imagination. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">Both
channels of the are active when behavior is overt. The covert route
is never suppressed, because it is the circuit that contains the
behavioral schemata and uses them to set up complex, multi-step motor
commands in advance of acting. But when the channel to the motor
neocortex is suppressed, behavior is generated covertly, as
<i>imagination, </i>because the anterior cingulate gyrus still
receives the projection from the behavioral schemata and premotor
cortex. That is enough information about locomotion and turning to
call up memories of <i>local images </i>by the labels that were
established when both overt and covert parts of the <i>body image
</i>were being projected to it. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
subjective animal’s behavioral output system has, therefore, two
<i>body images.</i> Both are used for generating overt behavior, but
one can be used for generating covert behavior. Covert behavior is
the motor output in the cingulate gyrus, which acts, not on the
actual world by way of the body, but on the world as represented in
memory by way of covert behavior. Since the anterior cingulate gyrus
projects to the posterior cingulate gyrus in much the same way that
the motor neocortex (and associated areas) project to the parietal
and sensory neocortex containing the local image, it is not
surprising that the memory circuit can register images according to
the behavior that causes them, that is, by labels. Nor is it
surprising that covert behavior can use those labels to call up the
images from memory as imagination. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
difference is that telesensory images are registered according to
input from the overt bodily condition so that they become a local
image, which can be recorded as a unit in memory, whereas <i>local
images </i>are registered according to input from the overt
locomotion so that they become linked in a sequence as a map of the
territory. One occurs in the non-cingulate region of the neocortex,
the other occurs requires the cingulate area. Likewise, when a <i>local
image </i>is remembered, its individual telesensory images can be
called up by input from covert behavior in the non-cingulate
neocortex, whereas other <i>local images </i>connected to it can be
called up by input from covert locomotion in the cingulate gyrus. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">This
parallel suggests that labels can be established in both cases by the
memory circuit working as a form of reinforcement selection for the
evolution of behavior schemata. The labels are simply connections of
the behavioral schemata with the rest of the brain that are
reinforced as parts of those schemata when behavior is overt, and
thus, since the behavioral schemata can be used to generate the same
behavior covertly, they automatically have labels by which to call up
the relevant images from memory. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">What
is crucial to internalizing the structure of space as spatial
imagination about the consequences of locomotion and turning is the
capacity of the cingulate gyrus to link complex memory groups in
sequences. That is what the non-cingulate neocortex lacks. Sequences
of images are not needed to construct local images, because they can
be accessed in any order by the appropriate bodily condition, turning
the head, eyes, etc. But it is the use of sequences, and their being
projected to the <i>behavior generator </i>(via the caudate nucleus
of the corpus striatum) as time passes, that makes it possible to
imagine locomotion and motion. And that is the key to their being an
understanding of the structure of space. This is a capacity to see
the actual locations of objects against the background of what is
possible by motion, which is to understand the structure of space.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">The
subjective animal’s map of the world becomes an understanding of
space simply because the same kinds of locomotion and turning have
the same kinds of effects relative to any set of local images. That
is because the world from which those sequences were recorded is a
world of objects that are actually related by being contained by
space. Thus, experience with the world gives the subjective animal is
understanding of the general effects of the motion and direction of
motion of an object on its spatial relations to other objects. It is,
of course, an intuitive understanding, not a linguistic
understanding. But it is nonetheless an understanding by which it can
foresee what will happen and understand what has happened.</font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">More
generally, however, the power of the memory circuit as a form of
natural selection on behavioral schemata working by the reinforcement
of synapses to form memory groups is broader. Assuming that during
the process of development, the whole range of behavioral schemata
that are possible because of the genetically provided basic schema
are tried out, gradual evolution will occur, and the schemata will
becomes increasingly powerful. Each behavioral schema will come to be
as effective as possible in controlling some relevant condition, that
is, generating behavior is some kind of situation to satisfy desire.
That is actually the result of the gradual evolution of that schema,
since it is made up of different motor commands as parts, and it is
by alterations in them that variations are tried out. But different
behavioral schemata will also be fit together as harmoniously as
possible as parts of behavioral routines that satisfy desire. And new
schemata will be added as long as they control additional conditions
that affect their reproduction. Thus, <i>learning </i>from experience
that provides subjective animals with behavioral schemata for many
kind of behavior. The schemata that serve as structural causes for
spatial imagination is just the most important kind of behavior,
given the nature of the world in which animal find themselves and
their need to act on objects in space. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">This
theory of imagination as covert behavior offers a plausible
explanation of <i>schizophrenia</i>. Hallucinations that are not
recognized as hallucinations (usually auditory hallucinations) are
the main symptom of schizophrenia. They make it difficult for
schizophrenics to tell the difference between fantasy and reality. It
is known that schizophrenics often show a lack of activity in the
frontal neocortex when hallucinating (apparently due to an unusual
level of the neurotransmitter, GABA, in the region). Those areas of
neocortex contain the behavioral schemata that control the anterior
cingulate gyrus, whose effect on the posterior cingulate is to call
up images from memory, and thus, it is possible that schizophrenia is
a condition in which covert behavior is generated without control by
behavioral schemata in the frontal neocortex. Since the images are
not called up by activating some behavioral schema, as in normal
behavior and imagination, they are not part the process of carrying
out an intention, and thus, they seem to originate from the world,
that is, to be real. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt"><i><b>The
goal selection system. </b></i>Not only does reproductive causation
in neurological development require reinforcement, but once animals
have acquired a map of the territory and an understanding of the
structure of space, they still need a mechanism to choose which goal
to pursue in relation to which objects. These functions are served by
the redirection of the third output of the non-mammalian forebrain
back to the telencephalon. The redirection of the olfactory pathway
back to the telencephalon makes it the goal selection system of the
mammalian behavior guidance system.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><img src="data:image/png;base64,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" name="MBrainGoal" align="bottom" width="387" height="244" border="0"></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">The
olfactory pathways involve, as described in the non-mammalian
vertebrate brain,<sup><a class="sdendnoteanc" name="sdendnote14anc" href="#sdendnote14sym"><sup>xiv</sup></a></sup>
the amygdala and its many connections with the hypothalamus (and
septum). This is still the seat of desire in mammals. The amygdala is
mainly responsible for arousal, fear and anger, whereas the
hypothalamus is responsible for hunger and sexual desire. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">In
mammals, the output of the amygdala (and indirectly the hypothalamus)
is redirected by a thalamic nucleus (the dorsomedian nucleus) back to
the <i>behavioral schemata </i>in the frontal neocortex (especially,
the orbitofrontal area). This system selects which of the schemata
for kinds of behavior that are built into the frontal neocortex
(genetically or by learning) will guide the corpus striatum in
generating behavior relative to the object in the <i>local image.</i>
</font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">The <i>goal
selection system </i>is a complete circuit, for there are projections
from the orbitofrontal area back to the amygdala (<i>via</i> the
ancient piriform cortex surrounding the amygdala) which make sure
that there is no confusion about which object is the object of
desire. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">Furthermore,
the goal selection circuit is in a position to record and read desire
labels with memory images. The amygdala has a projection to the
hippocampus by which it can attach desire-labels to objects (for
example, when the hypothalamus reports to the amygdala that an object
satisfies hunger or sexual needs), and it can read the desire-labels
already attached to objects, because it receives a projection from
the staging area by which all areas of neocortex reach the
hippocampus. (See diagram of the goal selection system.<sup><a class="sdendnoteanc" name="sdendnote15anc" href="#sdendnote15sym"><sup>xv</sup></a></sup>)</font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">A
desire about an object sets a problem for the subjective animal
system of representation to solve. Covert locomotion can, for
example, explore its map and figure out a new route to an unperceived
goal when its path is blocked or use its representation of the
current scene to figure out how to approach or avoid some object. But
a spatial imagination is only part of what is possible for a system
that uses a somatotopic representation of the body to generate
behavior by its parts, like the <i>body image</i>. Instead of having
to evolve new instincts, it can learn new kinds of behavior involving
different combinations of motor commands to parts of the body. And
mammals can, in principle, figure out how to use such complex
routines in the current scene by imagining variations on them and
using memory images that are called up to anticipate whether the
consequences will satisfy its desire. At least, this is the direction
of subsequent evolution, as we shall see.</font></font></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt"><i><b>Acting.
</b></i>Once the problem is solved and a plan of behavior has been
selected, the imagined behavior must be generated overtly. Covert
behavior depends on one of the pathways through the <i>behavior
generator </i>(the one from the corpus striatum <i>via</i> the ansa
lenticularis to the ventral anterior nucleus of the thalamus and back
to the frontal neocortex and premotor area). The behavioral schema
that has been set up in imagination can be generated overtly by
sending the same motor commands in relation to the perceived object
along the other pathway as well (<i>via</i> the lenticular fasciculus
to the ventral lateral nucleus back to the motor cortex). </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">What
controls whether covert behavior is generated overtly or not is the
centromedian nucleus of the thalamus. It projects to the putamen, the
part of the corpus striatum that receives the schema from the frontal
neocortex for the kind of behavior to be generated. The centromedian
nucleus is located within the medullary lamina of the thalamus
(separating its medial and lateral subdivisions), and since the
thalamus is what synchronizes activity throughout the neocortex, that
is a position from which it can to tell when an equilibrium is
reached in systems throughout the brain. The intralaminar nuclei of
the thalamus receive fibers from all parts of the neocortex, the
brainstem, cerebellum and spinal chord.<sup><a class="sdendnoteanc" name="sdendnote16anc" href="#sdendnote16sym"><sup>xvi</sup></a></sup>
(See diagram of the mechanism of acting.) </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; text-indent: -0.32cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><img 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" name="MBrainActing" align="bottom" width="492" height="292" border="0"></font></p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">In
the transformation of the non-mammalian into the mammalian brain,
therefore, we find all three subsystems required for the subjective
animal behavior guidance system (sensory input, behavioral output,
and goal selection systems). Each involves a distinct circuit through
the thalamus and neocortex, which allows neurons in multiple 2-D
arrays throughout the circuit to be coordinated and aligned with one
another. That puts each subsystem on a higher level of neurological
organization than the non-mammalian vertebrate brain. Moreover, in
the sensory input and behavioral output circuits we find both
subsystems required according to our functional diagram for the
subjective animal system of representation with spatial imagination
(that is, <i>local images </i>and memory in the sensory input system
and behavior generator and <i>body image </i>in the behavioral output
system). </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">As
we have seen, such a complex system is possible, at least in
chordates (with the nervous system set up in a separate neural tube),
because the higher level of neurological organization can be
generated by a couple of relatively simple, albeit radical,
modifications in the non-mammalian vertebrate brain, and neurological
development involves a contained form of reproductive causation that
internalizes the spatial structure of the world as the detailed
structural causes of spatial imagination. Since the subjective animal
behavior guidance system is also functional, we infer by the nature
of reproductive causation that this stage of animal evolution in
inevitable. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 1.27cm; margin-right: 2.54cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">In
the next section, we will consider the empirical evidence of the
subjective animal stage of evolution. Though empirical confirmation
of necessary truths is not necessary, it is relevant, because
empirical evidence can falsify the foundation of ontological
philosophy. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 2.54cm; margin-right: 1.27cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif"><font size="3" style="font-size: 12pt">That
will leave one final conclusion to be drawn, about the unity of
consciousness in mammals. </font></font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">It is
appropriate to think of the mammal as a <i>subject,</i> since its
spatial imagination gives it an understanding the structure of space
and the regularities about motion and interaction for which it is
responsible as an ontological cause. By seeing the actual locations
of objects against the background of what is possible by motion, the
subject sees the world <i>as a world of objects in space. </i>Even
its own body is seen as located in space alongside other objects. But
the mammal is not just a subject. It is a conscious subject. </font></font>
</p>
<p lang="en-US" class="western" align="left" style="margin-left: 3.81cm; margin-right: 2.03cm; margin-top: 0.49cm; margin-bottom: 0.49cm; line-height: 100%; widows: 0; orphans: 0">
<font color="#000000"><font face="Times New Roman, serif">When
combined with the explanation of the basic nature of consciousness
(that is, phenomenal properties as intrinsic essential natures of
bits of matter), the structure of the mammalian brain also explains
the unity of subjective consciousness, that is, why all the sensory
qualia appear to a single subject at one time. There is a phenomenal
appearance to the world of object in space and the body by which the
subject acts in that world. Nor do the objects that subjective
animals experience as located in space appear merely as object in
space, because they also feel desires of various kinds about them. We
will return to the unity of consciousness after considering the
empirical evidence about the gradual evolution of mammals.</font></font></p>
<div id="sdendnote1">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote1sym" href="#sdendnote1anc">i</a>
	The subsequent evolution of the neocortex shifts the position of the
	hippocampus (at the extreme medial edge of what was the
	non-mammalian dorsal cortex) and the amygdala (originally in the
	ventral telencephalon) to a region of the temporal lobe. 
	</p>
</div>
<div id="sdendnote2">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote2sym" href="#sdendnote2anc">ii</a>
	There are usually several somatosensory images, registering mostly
	different kinds of input, such skin receptors or receptors in
	muscles and joints. 
	</p>
</div>
<div id="sdendnote3">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote3sym" href="#sdendnote3anc">iii</a>
	It is essential that these projections preserve their 2-D order, for
	the information they pass is essentially a 2-D &quot;image&quot;:
	the information contained in the firing of each neuron depends on
	its relationship to the others in the 2-D array that are also
	firing. This is true not only in the somatotopic representation of
	the body, but also in the visual system, where the images are
	pictures taken from the 2-D array of the retina. The &quot;images&quot;
	in the 2-D arrays may, however, be abstract. The importance of the
	2-D array is evident in the fine structure of the neocortex, where
	local synapses are mainly between cells in different layers in a
	&quot;column&quot; or with cells in nearby columns. 
	</p>
</div>
<div id="sdendnote4">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote4sym" href="#sdendnote4anc">iv</a>
	This illustrates a general principle (called &quot;reentry&quot;)
	about the result of processing the input projected by thalamic
	neurons onto the neocortex. The structure of the basic mechanisms in
	the mammalian forebrain is the passage of information from one 2 .D
	area of the neocortex to another, either directly or indirectly by a
	thalamic relay. Since the results of processing in one area are
	available to other areas, the neocortex can learn to respond in the
	same way to any of a variety of related sensory inputs. If synapses
	of projections from one area to another are strengthened when the
	neurons they connect tend to fire at the same time, then, later, the
	global response will be the same, even when only some areas are
	active. For example, visual input from the same object is relayed to
	the neocortex by two nuclei, one a direct relay from the retina and
	the other an indirect relay from the optic tectum in the midbrain
	(superior colliculus in mammals), and as images are projected
	directly from one neocortical area to another or relayed by thalamic
	nuclei to other areas of neocortex, as many as fifteen or twenty
	different 2 .D arrays are involved in the processing. Assuming that
	each area is genetically disposed to respond to visual input in
	different ways (such as detecting line orientation, edges, corners,
	colors, etc.), &quot;reentrant&quot; connections would give the
	areas a joint response that is specific to certain features of the
	objects themselves, even though they can appear in different ways.
	And it can recognize particular objects with surprisingly little
	sensory data. (See Edelman, 1987, 1988, 1989.)</p>
</div>
<div id="sdendnote5">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote5sym" href="#sdendnote5anc">v</a>
	The representation of the scene may not be exactly a picture,
	because the locations of objects in the scene can be given by polar
	coordinates relative to the body that are coded somehow in the
	inferior parietal cortex.</p>
</div>
<div id="sdendnote6">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote6sym" href="#sdendnote6anc">vi</a>
	The pulvinar could indicate possible targets of fixations, because
	as the thalamic nucleus whose normal targets are visual and auditory
	association areas in the inferior parietal lobe, it must contain a
	representation of the scene. The frontal eye fields are a motor area
	with a separate pathway for its output through the corpus striatum
	(via the covert pathway, so that the eyes can still fixate while
	imagining behavior without behaving overtly), and they report their
	activities to the inferior parietal lobe, where visual images are
	assembled as a representation of the current scene as a whole. 
	</p>
</div>
<div id="sdendnote7">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote7sym" href="#sdendnote7anc">vii</a>
	Exteroception is usually defined in a way that includes both
	telesensory and extrasensory input about objects in space.</p>
</div>
<div id="sdendnote8">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote8sym" href="#sdendnote8anc">viii</a>
	Local connections among simultaneously active neurons are probably
	responsible for the learning of motor skills, habits, and sensory
	analysis, or what is called &quot;implicit memory&quot;. &quot;Explicit
	memory&quot; refers to the memory of events, locations of objects,
	and other facts, and it depends on the hippocampal memory circuit
	described here, because neurons in all parts of the neocortex must
	be connected.</p>
</div>
<div id="sdendnote9">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote9sym" href="#sdendnote9anc">ix</a>
	The hippocampus is a long, rolled-up edge of the ancient medial
	cortex. Different areas of neocortex project (by way of the temporal
	lobe staging area) to different points along the length of the
	hippocampus, and the circuit is completed by way of the relay of
	hippocampal output to the cingulate gyrus and its connections to
	each of those areas of neocortex. Relevant neurons of neocortical
	areas serving as the local image, the behavioral output system and
	behavioral schemata In the frontal cortex) may be included in the
	memory group by how this circuit synchronizes the formation of
	synapses. This is apparently the function of the so-called &quot;theta
	rhythm&quot; set up in the hippocampal circuit by the septum, for it
	makes all the neurons that are active <i>at the moment </i>part of
	the same memory group. 
	</p>
</div>
<div id="sdendnote10">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote10sym" href="#sdendnote10anc">x</a>
	There is abundant evidence that already established memories can be
	accessed after damage to the hippocampus, while it is no longer
	possible to lay down new memories. See Winson (1985) and Gallistel
	(1990, Ch. 16).</p>
</div>
<div id="sdendnote11">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote11sym" href="#sdendnote11anc">xi</a>
	This is not to say that the same mechanism for linking images in
	sequences is not used for other purposes, for example, to represent
	temporal sequences of images representing the behavior of other
	animals. No doubt many functions are found for the capacity to link
	images in sequences. Edelman's (1989) notion of &quot;recategorization&quot;
	recognizes the temporal aspect of the sequencing, but he does not
	recognize how it is used as a 3 .D map.</p>
</div>
<div id="sdendnote12">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote12sym" href="#sdendnote12anc">xii</a>
	Telesensory areas also project directly to the premotor area,
	presumably to fine tune motor responses to the object. 
	</p>
</div>
<div id="sdendnote13">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote13sym" href="#sdendnote13anc">xiii</a>
	This function is evident in the wiring of the corpus striatum: the
	putamen (assembling an image of the body) and the caudate nucleus
	(assembling an image of the object) have no direct connections to
	one another, but both send fibers to (both the external and internal
	segments of) the globus pallidus, whose internal segment supplies of
	the corpus striatum's two projections to thalamic nuclei for relay
	to frontal neocortex. However, the caudate nucleus and putamen both
	receive projections from the behavioral output system, so they can
	coordinated.</p>
</div>
<div id="sdendnote14">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote14sym" href="#sdendnote14anc">xiv</a>
	One pathway is through the hypothalamus, a (ventral) part of the
	diencephalon, which has multiple connections to the midbrain. A
	second pathway is through the amygdala, another nucleus in the
	telencephalon, which, as the seat of fear, can override other
	routines and generate fighting or fleeing instead. And there is a
	third pathway involving the septum, a ventral part of the
	telencephalon. In primitive vertebrates, the main route for
	affecting the midbrain is <i>via</i> the habenulae, a prominent,
	asymmetric pair of nuclei located just above the diencephalon (or
	atop the dorsal thalamus) which has a heavily myelinated bundle of
	fibers (the fasciculus retroflexus) that passes through the thalamus
	to a spiral shaped nucleus at the ventral midline of the midbrain
	(the interpeduncular nucleus). The olfactory bulb projects to the
	hypothalamus and the septum (which are interconnected), and they
	have connections to the habenulae <i>via </i>the stria medularis.
	The amygdala (which is also connected to the hypothalamus) has a
	connection of its own to the habenulae <i>via </i>the stria
	terminalis. See the diagram of the olfactory selection system in the
	discussion of the structure of the non-mammalian brain.</p>
</div>
<div id="sdendnote15">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote15sym" href="#sdendnote15anc">xv</a>
	The amygdala is displaced from its location adjacent to the striatum
	in non-mammalian vertebrates to the temporal lobe by the evolution
	of the relatively enormous neocortex. 
	</p>
</div>
<div id="sdendnote16">
	<p lang="en-US" class="sdendnote-western" style="margin-top: 0cm; margin-bottom: 0.25cm">
	<a class="sdendnotesym" name="sdendnote16sym" href="#sdendnote16anc">xvi</a>
	The centromedian nucleus can even control both hemispheres of the
	forebrain, because it is connected to its counterpart in the other
	hemisphere of the brain by way of special bridge (the nucleus
	reuniens) across the third ventricle, which separates the thalamus
	of each hemisphere of the forebrain. 
	</p>
	<p lang="en-US" class="sdendnote-western">&nbsp;</p>
</div>
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