Evolution Of The Nervous System
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Transcript of Evolution Of The Nervous System
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Evolution of the Nervous Evolution of the Nervous SystemSystem
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Unifying PrinciplesUnifying Principles
Uniformity in how nerve cells function through out the animal kingdom
Great diversity in how nervous systems are organized
All nervous systems must allow for stimulus and response
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The Simplest Nervous SystemsThe Simplest Nervous Systems The simplest nervous systems are found in
some cnidarians – (example: Hydra)
Have a nerve net – A loosely organized system of nerves with no
central control– Most synapses are electrical– Impulses are bi-directional – Stimulation at any point spreads to cause
movement of entire body Many radially symmetric animals such as
ctenophora (jelly fish) and echinoderms (star fish) are similar
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First Nervous System First Nervous System CentralizationCentralization
Some cnidarians show the first signs of centralization
Clusters of nerve cells control the ability to perform more complex motor tasks requiring coordination, such as swimming
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Centralization in the JellyfishCentralization in the Jellyfish The jellyfish (Medusa) is a cnidarian that
exhibits basic centralization The nervous system forms an
undifferentiated network and serves primarily to coordinate the animal's swimming motions.– Jellyfish's skirt must open and contract
in a coordinated manner for the animal to move through the water.
– Nervous system serves as a simple communications network so all parts of the skirt open and then contract at the same time.
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Increasing CephalizationIncreasing Cephalization Bilateral animals tend to be more active
– require sense organs and feeding structures Cepahlization:
– concentration of sensory organs & feeding structures at the head or forward-moving portion of an animal
Enlargement of the anterior ganglia that receive this sensory input and control feeding gave rise to the first brains
An anterior brain connected to a nerve cord is the basic design for all organisms with central nervous systems
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Invertebrate Nervous Invertebrate Nervous SystemsSystems
Invertebrates show increasing cepahalization up the evolutionary ladder
Flatworms have diffuse, ladder-like nervous systems
Annelids (segmented worms) & arthropods (insects, crustaceans) have a well defined ventral nerve cord with a brain at the anterior end– May contain ganglia in each segment to control
movement of that segment
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WormsWorms The simplest organisms to have a central
nervous system. More complicated nervous system allows
worms to exhibit more complex forms of behavior.
Although there is a separate brain in worms, the brain is not the sole control of action.– even with its brain removed, worms are able to
perform many types of behaviors, including locomotion, mating, burrowing, feeding, and even maze learning
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MollusksMollusks
Nervous system complexity correlates with habitat as well as phylogeny
Slow moving mollusks (e.g. clams) have little or no cephalization and simple sense organs– Nervous system is a chain of ganglia circling the
body Cepahalopods
– most sophisticated invertebrate nervous systems– Octopus – large brain & large image forming eyes– Rapid conduction along giant axons
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InsectsInsectsIncreased complexity of the brain and
nervous system. Giant fiber systems (also found in worms
and jellyfish) allow rapid conduction of nerve impulses – connect parts of the brain to muscles in legs
or wings. Brain divided into three specialized
segments:– Protocerebrum, deutocerebrum,
tritocerebrum.
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Variation & Adaptation in InsectsVariation & Adaptation in InsectsInsects possess a greater variety of
sensory receptors than any other group of organisms, including vertebrates. – sensitive to the odors, sounds, light
patterns, texture, pressure, humidity, temperature, and chemical composition
– concentration of sensory organs on the head provides for rapid communication with the brain located within.
Remarkable variety of behaviors
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Study of Invertebrate Study of Invertebrate SystemsSystems Provide unique opportunities for study of nerve cells
Small nervous systems– approximately 1000 neurons (107 fewer than humans)
Large neurons – easy to study electrophysiologically
Identifiable neurons– can be cataloged and recognized from animal to animal
Identifiable circuits– neurons make the same connections with one another
from animal to animal Simple genetics
– small genomes, short life cycles allow genetic manipulation
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Squid Giant Axon Squid Giant Axon An Important ExampleAn Important Example
Giant axons in the mantle of the north Atlantic squid, Loligo pealei, first noted by L.W. Williams in 1909
The giant axon is actually a fusion of several hundred smaller axons
The electrical properties of this structure are, however, the same as other neurons.
The accessibility of several centimeters of giant axon up to 1 mm in diameter & its viability for several hours in physiological solution made many neurophysiology experiments possible
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Research on Squid Giant Research on Squid Giant AxonsAxons 1936 –
The first measurement of the resting potential in any living cell.
1943 – Goldman equation derived using squid giant
axons. 1945 – First recording of resting potential in a living cell.
– A section of squid giant axon several cms long was dissected free and placed in a physiological solution.
– A minute capillary tube filled with KCl was inserted down the central axis of one end of the axon and the voltage was recorded relative to the bath.
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And More ResearchAnd More Research1952 –Hodgkin & Huxley propose
equations to describe currents measured with voltage clamps in squid giant axons.– These equations could account for the
action potential. – This turned out to have very wide
applicability for neurophysiological phenomena in many species
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Vertebrate Nervous Vertebrate Nervous SystemsSystems
Simplest vertebrates: – fish, reptiles & amphibians
Brain:– becomes much larger and more complex– composed of a series of swellings of the
anterior end of the spinal cord The spinal cord
– protected by the vertebrae– Serves as a two-way path of
communication – fibers segregated into descending motor
pathways and ascending sensory pathways
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Evolution of the Vertebrate Evolution of the Vertebrate BrainBrain
The vertebrate brain began as 3 bulges at the anterior end of the spinal cord:– Prosencephalon (forebrain)– Mesencepahlon (midbrain)– Rhombencephalon (hindbrain)
These are present in all vertebrates In more complex brains, they are
further subdivided for integration of complex tasks
Complex behaviors due to increased brain complexity
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Comparing Vertebrate Comparing Vertebrate BrainsBrains
Fish
Amphibian
Reptile
Mammals
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Three Trends in Brain Three Trends in Brain EvolutionEvolution
Relative size of the brain increases– Brain size is a constant proportion of body
weight in fishes, amphibians, and reptiles– Increases relative to body size in birds &
mammals Increased compartmentalization of function Increasing complexity of the forebrain
– Transition from water to land of amphibians & reptiles made vision & hearing more important, favoring enlargement of the midbrain & hindbrain
More complex behaviors parallel growth of cerebrum
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ConvolutionsConvolutions
Convolutions increase surface areaSurface area is more important
than volume in determining complexity because cell bodies are in the cortex
Greatest in primates & cetaceans (whales & porpoises)
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Convolutions in MammalsConvolutions in Mammals
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Increase in Relative Brain SizeIncrease in Relative Brain Size
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MammalsMammalsBrain keeps its three major componentsTwo new structures:Neocerebellum ("new cerebellum")
added to the cerebellum, at the base of the brain
Neocortex ("new cortex") at the front of the forebrain. – In most mammals, these structures are not
particularly large relative to the brain stem. – In primates they are much larger
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The BrainstemThe BrainstemPresent in all mammalian brainsOldest part of brainEvolved ~ 500 million yrs agoCalled “reptilian brain” because it
resembles the entire brain of a reptile
Handles basic functions for survival : breathing, heart rate, etc.
Determines alertness & detects incoming info
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Limbic SystemLimbic System
Group of structures located between the brainstem and the cortex
Evolved between 200 & 300 million years ago
Called the “mammalian brain” because it is most highly developed in mammals
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The Human BrainThe Human Brain Continues four major evolutionary trends: Increasingly centralized in architecture Trend toward Encephalization (concentration
of neurons at one end of the organism) Size, number, and variety of elements of the
brain increased Increase in plasticity Humans have the largest ratio of brain
weight to body weight of any of earth's creatures.
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Centralized ArchitectureCentralized Architecture Evolved from a loose network of nerve
cells (as in the jellyfish) to a spinal column and complex brain with large swellings at the hindbrain and forebrain.
Increasingly hierarchical– Newer additions to the human brain are
involved in control– The initiation of voluntary behavior, the
ability to plan, engage in conscious thought, and use language depend on neocortical structures.
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PlasticityPlasticity
Increase in plasticityThe brain's ability to modify itself
as a result of experience Makes memory and the learning of
new perceptual and motor abilities possible.
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