Chapter 15

Question 1

Animals share these major characteristics:

Answer 1

• Heterotrophs
• Multicellular
• Cells without cell walls
• Able to move

Question 2

General features of animals:

Answer 2

• Diverse in form and habit
• Most reproduce sexually
• Have a characteristic pattern of embryonic development
• Cell of all animals (except sponges) are organized into tissues

Question 3

5 key transitions noted in animal evolution:

Answer 3

1. Tissues
2. Symmetry
3. Body cavity
4. Development
5. Segmentation

Question 4

Evolution of tissues

Answer 4

• Parazoa (Sponges) lack defined tissues and organs, disaggregate and aggregate their cells
• Eumetazoa (all other animals) have distinct and well-defined tissues, have irreversible differentiation for most cell types

Question 5

Evolution of symmetry

Answer 5

• Sponges lack definite symmetry
• Eumetazoa have a symmetry defined along an imaginary axis drawn through the animal’s body
• 2 main types of symmetry (radial and bilateral)

Question 6

Radial symmetry

Answer 6

• Body parts arranged around central axis

- Can be bisected into two equal halves in any 2-D plane

Question 7

Bilateral symmetry

Answer 7

• Body has right and left halves that are mirror images

- Only the sagittal plane bisects the animal into two equal halves

Question 8

Bilateral symmetry has 2 advantages over radial symmetry:

Answer 8

1. Cephalization- Evolution of a definite brain area

2. Greater mobility

Question 9

Evolution of a body cavity

Answer 9

• 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
• Three basic kinds of body plans
  
  • Acoelomates = No body cavity
  • Pseudocoelomates = Body cavity between mesoderm and endoderm
  • Called the pseudocoel
  • Coelomates = Body cavity entirely within the mesoderm
  • Called the coelom

Question 10

Evolution of a body cavity (continued)

Answer 10

• The body cavity made possible the development of advanced organs 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

Question 11

Evolution of different patterns of development

Answer 11

-The basic Bilaterian pattern of development:
-Mitotic cell divisions of the egg form a hollow ball of cells, called the blastula
-Blastula indents to form a two-layer- thick ball with:
-Blastopore = Opening to outside
-Archenteron = Primitive body cavity
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

Question 12

Evolution of different patterns of development (continued)

Answer 12

Deuterostomes differ from protostomes in three other fundamental embryological features:
-1. Cleaveage pattern of embryonic cells
-Protostomes = Spiral cleavage
-Deuterostomes = Radial cleavage
-2. Developmental fate of cells
-Protostomes = Determinate development -Deuterosomes = Indeterminate development
-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

Question 13

Evolution of Segmentation

Answer 13

• 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

Question 14

Evolution of Segmentation (continued)

Answer 14

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

Question 15

Molecular systematics

Answer 15

Uses unique sequences within certain genes to identify clusters of related groups

Question 16

Most new phylogenies agree on two revolutionary features:

Answer 16

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

Question 17

3 layers of porifera

Answer 17

1. Outer epithelium
2. Mesohyl
3. Choanocytes

Question 18

Arthropoda

Answer 18

• By most successful animals

- Affect all aspects of human life

Question 19

4 extant classes of arthropods

Answer 19

• Chelicerata
• Crustacea
• Hexapoda
• Myriapoda

Question 20

Arthropod morphology

Answer 20

1. Segmentation
2. Exoskeleton
3. Jointed appendages

Question 21

Phylum Mollusca

Answer 21

• Second in diversity only to arthropods
• Snails, slugs, clams, octopuses
• Some have shell, some do not
• Evolved in oceans

Question 22

Mollusk body plan

Answer 22

• Mantle
• Foot
• Internal organs

Question 23

Classes of Mollusks

Answer 23

1. Polyplacophora – Chitons
2. Gastropoda – limpets, snails, slugs
3. Bivalvia – clams, oysters, scallops
4. Cephalopoda – squids, octopuses, cuttlefishes, and chambered nautilus

Question 24

5 extant classes of Phylum Echinodermata

Answer 24

1. Asteroidea (sea stars and sea daisies)
2. Echinoidea (sea urchins and sand dollars)
3. Ophiuroidea (brittle stars)
4. Crinoidea (sea lilies and feather stars)
5. Holothuroidea (sea cucumbers)

Question 25

Phylum chordata

Answer 25

- Deuterostome coelomates - Nearest relatives of echinoderms - Fishes, amphibians, reptiles, birds, and mammals

Question 26

4 features of phylum chordata

Answer 26

1. Nerve cord 2. Notochord 3. Pharyngeal slits 4. Postanal tail

Question 27

Phylum chordata are divided into 3 subphyla

Answer 27

1. Urochordata (nonvertebrates) 2. Cephalochordata (nonvertebrates) 3. Vertebrata

Question 28

Fishes have these characteristics:

Answer 28

1. Vertebral column 2. Jaws and paired appendages 3. Internal gills 4. Single-loop blood circulation 5. Nutritional deficiencies

Question 29

History of fishes

Answer 29

- First fishes had mouths with no jaws - Development of jaws occurred in the late Silurian period - Armored fishes (placoderms) and spiny fishes both had jaws - At the end of the Devonian period, essentially all of these pioneer vertebrates disappeared, replaced by sharks and bony fishes in one of several mass extinctions - Sharks and bony fishes first evolved in the early Devonian, 400 MYA - Jaw was improved even further allowing the mouth to open much wider than was previously possible

Question 30

Class Chondrichthyses

Answer 30

- Sharks, skates, rays - Became the dominant sea predators in the Carboniferous period (360–280 MYA) - Cartilage skeleton “calcified” with granules of calcium carbonateSharks were among the first vertebrates to develop teeth - Sharks were among the first vertebrates to develop teeth - Sharks (and bony fishes) have a fully developed lateral line system - Reproduction in sharks differs from that of other fishes - Sharks have long gestation periods and relatively few offspring

Question 31

Bony fishes

Answer 31

- Evolved at the same time as sharks about 400 MYA - Bony fishes are the most species-rich group of all vertebrates (> 30,000 living species) - Significant adaptations include swim bladder and gill cover

Question 32

Two major groups of bony fishes

Answer 32

- Ray-finned fishes | - Lobe-finned fishs

Question 33

Class Amphibia

Answer 33

- First vertebrates to walk on land | - Direct descendent of fishes

Question 34

5 distinguishing amphibian features

Answer 34

1. Legs 2. Lungs 3. Cutaneous respiration 4. Pulmonary veins 5. Partially divided heart

Question 35

Ichthyostega

Answer 35

- Amphibians evolved from lobe-finned fish - One of the first amphibians - Sturdy forelegs, flipper-shaped hindlimbs - Long, broad, overlapping ribs form solid cage for lungs and heart

Question 36

Tiktaalik

Answer 36

- a transitional fossil found between fish and Ichthyostega - Had gills and scales like a fish, but a neck like an amphibian - Shoulder, forearm, and wrist bones were like those of amphibians, but at the end of the limb was a lobed fin, rather than the toes of an amphibian

Question 37

3 modern amphibian groups

Answer 37

- Order Anura ("without tail") - Order Caudata ("visible tail") - Order Apoda ("without legs")

Question 38

Order Anura (frogs and toads)

Answer 38

- Frogs have smooth, moist skin and long legs - Toads have bumpy, dry skin and short legs - Eggs laid in water – lack watertight membranes

Question 39

Order Caudata (Salamanders)

Answer 39

- Have long bodies, tails, and smooth, moist skin - Live in moist places - Eggs are fertilized internally – sperm packet - Larvae similar to adults

Question 40

Order Apoda (caecilians)

Answer 40

- Tropical, burrowing amphibians - Legless with small eyes and jaws with teeth - Fertilization is internal

Question 41

All reptiles have 3 key features:

Answer 41

1. Amniotic eggs, which are watertight 2. Dry skin, which covers body and prevents water loss 3. Thoracic breathing, which increases lung capacity

Question 42

The amniotic egg has four membranes:

Answer 42

- Chorion -- Outermost layer, allows gas exchange - Amnion -- Encases embryo in fluid-filled cavity - Yolk sac -- Provides food - Allantois -- Contains excreted wastes from embryo

Question 43

Four surviving orders of reptiles:

Answer 43

- Chelonia -- Turtles and tortoises - Rhynchocephalia -- Tuartaras - Squamata -- Lizards and snakes - Crocodylia -- Crocodiles and alligators

Question 44

Class Aves

Answer 44

- Birds are the most diverse of all terrestrial vertebrates - Success lies in unique structure – feather - Birds still retain many reptilian traits - Amniotic eggs and scales on legs - Lack teeth and tails of reptiles

Question 45

Two major distinguishing traits of birds:

Answer 45

- Feathers | - Flight skeleton

Question 46

Archaeopteryx

Answer 46

- First known bird | - Feather probably evolved for insulation

Question 47

Birds exhibit three evolutionary novelties:

Answer 47

1. Feathers 2. Hollow bones 3. Physiological mechanisms for flight

Question 48

Class Mammalia

Answer 48

-4500 species of mammals

Question 49

2 fundamentally mammalian traits

Answer 49

1. Hair | 2. Mammary glands

Question 50

History of mammals

Answer 50

- Mammals have been around since the time of the dinosaurs, about 220 MYA - Mammals reached their maximum diversity in the Tertiary period (65–2 MYA)

Question 51

2 subclasses of mammals

Answer 51

1. Prototheria (most primitive) - Lay shelled eggs - Only living group is the monotremes 2. Theria - Viviparous – young are born alive - Two living groups - Marsupials or pouched mammals - Placental mammals

Question 52

Monotremes

Answer 52

- Lay shelled eggs - Like reptiles have single opening (cloaca) for feces, urine, and reproduction - Lack well-developed nipples - Duck-bill platypuses, and 2 echidna species

Question 53

Marupials

Answer 53

- Major difference is pattern of embryonic development - Kangaroo – isolation of Australia - Opossum – only North American marsupial

Question 54

Placental mammals

Answer 54

- Produce a true placenta that nourishes embryo throughout its development - Includes most living mammals

Question 55

Evolution of Primates

Answer 55

-Primates are the mammals that gave rise to our own species

Question 56

Evolved two features that allowed them to succeed in an arboreal environment:

Answer 56

1. Grasping fingers and toes | 2. Binocular vision

Question 57

Earliest primates split into 2 groups:

Answer 57

1. Prosimians -- Lemurs, lorises, tarsiers | 2. Anthropoids -- Monkeys, apes, humans

Question 58

Hominoids include:

Answer 58

- Apes | - Hominids (humans

Question 59

Apes vs Hominids

Answer 59

- The common ancestor of apes and hominids is thought to have been an arboreal climber - Differences related to bipedal locomotion

Question 60

Where did humans come from?

Answer 60

-They evolved from Africa

Question 61

"Out of Africa" Theory

Answer 61

- Humans originated from Africa - A group migrated to other continents - Additional fossil evidence shows modern humans lived in Africa at time of Eve

Question 62

Australopithecines

Answer 62

- Weighed about 18 kg - About 1 m tall - Hominid dentition - Brains no larger than those of apes - Walked upright

Question 63

Genus Homo

Answer 63

- The first humans evolved from australopithecine ancestors about 2 MYA - Thought to be Australopithecus afarensis - In the 1960s, hominid bones were found near stone tools in Africa - Early humans were called homo habilis

Question 64

Homo floresiensis

Answer 64

-In 2004, discovered in the tiny Indonesian Island of Flores -Youngest fossils only 15,000 years old -diminutive stature -Coexisted with and preyed on a miniature species of elephant -Believed to be more closely related to H. erectus than to H. sapiens

Question 65

Modern humans

Answer 65

- First appeared in Africa about 600,000 years ago - Three species evolved from it: - Homo heidelbergensis (oldest) - Homo neanderthalensis - Homo sapiens

Question 66

Homo neanderthalensis

Answer 66

- Made diverse tools - Took care of sick and buried dead - First evidence of symbolic thinking - They abruptly disappeared about 34,000 years ago

Question 67

Homo sapiens

Answer 67

- Only surviving homind - Progressive increase in brain size - Extensive cultural experience

Question 68

Phylum Cnidaria

Answer 68

- Most marine, few fresh water species - Diploblastic - Bodies have distinct tissues but no organs - No concentrated nervous system - Body plan has single opening leading to gastrovascular cavity - 2 layers to body wall 1. Epidermis 2. Gastrodermis - Cnidarians use nematocysts to capture prey

Question 69

5 class of Cnidaria

Answer 69

1. Scyphoza (jellyfish) 2. Staurozoa (Star jellies) 3. Anthozoa (Sea anemone) 4. Cubozoa (box jellies) 5. Hydrozoa (Hydroids, hydra, Portuguese Man-of-War

Question 70

Phylum Ctenophora

Answer 70

- comb jellies, sea walnuts, or sea gooseberries - 8 rows of comblike plates of fused cilia that beat in a coordinated fashion - Many bioluminescent - 2 tentacles covered with colloblasts

Question 71

Phylum Acoelomorpha

Answer 71

- Acoel flatworms were once considered basal members of the phylum Platyhelminthes - Have a primitive nervous system and lack a digestive cavity - Based on molecular evidence, similarities are convergent

Question 72

Phylum Nematoda

Answer 72

- Vinegar eels, eelworms, and other roundworms - Members of this phylum are found everywhere – abundant and diverse - Marine, freshwater, parasites, free-living - Bilaterally symmetrical and unsegmented

Question 73

Phylum Annelida

Answer 73

- Segmented worms - Body built of repeated units - May not be monophyletic

Question 74

Subphylum Urochordata

Answer 74

- Tunicates and salps are marine animals - Larvae are tadpolelike and have notochord and nerve cord - Adults typically lose the tail and notochord

Question 75

Subphylum Cephalochordata

Answer 75

- Lancelets are scaleless chordates - Notochord persists throughout animal’s life - Spend most of their time partly buried - Have no distinguishable head - Feed on plankton using cilia-generated currents - Closest relatives to vertebrates

Question 76

Subphylum Vertebrata

Answer 76

- Vertebrates are chordates with a spinal column - The first vertebrates appeared in the oceans about 545 MYA - Jawed fishes soon became dominant - Amphibians invaded the land - Reptiles replaced them as the dominant land vertebrates - Birds and mammals became dominant after Cretaceous mass extinction