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Transcript
CHAPTER 32
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
General Features of Animals
2
3
4
Evolution of the Animal Body Plan
• Five key transitions can be noted in animal
evolution
1.
2.
3.
4.
5.
Tissues
Symmetry
Body cavity
Development
Segmentation
5
Evolution of the Animal Body Plan
1. Evolution of tissues
-Parazoa (Sponges – the simplest animals)
lack defined tissues and organs
-Have the ability to disaggregate and
aggregate their cells
-Eumetazoa (all other animals) have
distinct and well-defined tissues
-Have irreversible differentiation for
most cell types
6
Evolution of the Animal Body Plan
2. Evolution of symmetry
-Sponges also lack any definite symmetry
-Eumetazoa have a symmetry defined along
an imaginary axis drawn through the
animal’s body
-There are two main types of symmetry
7
Evolution of the Animal Body Plan
-Radial symmetry
-Body parts arranged around central axis
-Can be bisected into two equal halves in
any 2-D plane
-Bilateral symmetry
-Body has right and left halves that are
mirror images
-Only the sagittal plane bisects the
animal into two equal halves
8
Top
Back
Front
Bottom
9
Evolution of the Animal Body Plan
Bilaterally symmetrical animals have two main
advantages over radially symmetrical ones
1. Cephalization
-Evolution of a definite brain area
2. Greater mobility
10
Evolution of the Animal Body Plan
3. Evolution of a body cavity
-Eumetazoa produce three germ layers
-Outer ectoderm (body coverings and
nervous system)
-Middle mesoderm (skeleton and muscles)
-Inner endoderm (digestive organs and
intestines)
Body cavity = Space surrounded by mesoderm
tissue that is formed during development 11
Evolution of the Animal Body Plan
3. Evolution of a body cavity
-Three basic kinds of body plans
-Acoelomates = No body cavity
-Pseudocoelomates = Body cavity between
mesoderm and endoderm
-Called the pseudocoelom
-Coelomates = Body cavity entirely within
the mesoderm
12
-Called the coelom
13
Evolution of the Animal Body Plan
-The body cavity made possible the
development of advanced organ systems
-Coelomates developed a circulatory
system to flow nutrients and remove wastes
-Open circulatory system: blood
passes from vessels into sinuses, mixes
with body fluids, and reenters the vessels
-Closed circulatory system: blood
moves continuously through vessels that
are separated from body fluids
14
Evolution of the Animal Body Plan
4. Evolution of different patterns of
development
-The basic Bilaterian pattern of development:
-Mitotic cell divisions of the egg form a
hollow ball of cells, called the blastula
15
Evolution of the Animal Body Plan
Bilaterians can be divided into two groups:
-Protostomes develop the mouth first from
or near the blastopore
-Anus (if present) develops either from
blastopore or another region of embryo
-Deuterostomes develop the anus first from
the blastopore
-Mouth develops later from another region
of the embryo
16
Evolution of the Animal Body Plan
Deuterostomes differ from protostomes in three
other fundamental embryological features:
-1. Cleavage pattern of embryonic cells
-Protostomes = Spiral cleavage
-Deuterostomes = Radial cleavage
-2. Developmental fate of cells
-Protostomes = Determinate development
-Deuterostomes = Indeterminate
17
development
Evolution of the Animal Body Plan
-3. Origination of coelom
-Protostomes = Forms simply and directly
from the mesoderm
-Deuterostomes = Forms indirectly from
the archenteron
Deuterostomes evolved from protostomes
more than 500 MYA
18
19
Evolution of the Animal Body Plan
5. Evolution of segmentation
-Segmentation provides two advantages
-1. Allows redundant organ systems in
adults such as occurs in the annelids
-2. Allows for more efficient and flexible
movement because each segment can
move independently
Segmentation appeared several times in the
evolution of animals
20
Traditional Classification of Animals
Multicellular animals, or metazoans, are
traditionally divided into 36 or so distinct phyla
based on shared anatomy and embryology
Metazoans are divided into two main branches:
-Parazoa = Lack symmetry and tissues
-Eumetazoa = Have symmetry and tissues
-Diploblastic = Have two germ layers
-Triploblastic = Have three germ layers
21
A New Look At Metazoans
Recent analysis of the translation machinery
revealed that myzostomids have no close
link to the annelids at all
-Instead, they are
more closely allied
with the flatworms
(planaria and
tapeworms)
22
A New Look At Metazoans
Therefore, key morphological characters
used in traditional classification are not
necessarily conservative
Molecular systematics uses unique
sequences within certain genes to identify
clusters of related groups
23
A New Look At Metazoans
Most new phylogenies agree on two
revolutionary features:
1. Separation of annelids and arthropods
into different clades
2. Division of the protostome group into
Ecdysozoa and Spiralia
-The latter is then broken down into
Lophotrochozoa and Platyzoa
24
A New Look At Metazoans
25
Evolutionary Developmental Biology
Molecular analysis may also explain the
Cambrian explosion
-The enormous expansion of animal
diversity in the Cambrian period (543–525
MYA)
-The homeobox (Hox) developmental gene
complex evolved
-Provided a tool that can produce rapid
changes in body plan
26
Evolutionary Developmental Biology
27