Quiz 2

Question 1

Hepatic Portal Vein

Answer 1

Large vein that lies in the gastrohepatoduodenal ligament

Formed from the union of the gastric, pancreaticomesenteric and lienomesenteric veins near the top of the dorsal lobe of the pancreas

Question 2

Gastric Vein

Answer 2

Accompanies gastric artery onto the dorsal and ventral surfaces of the stomach

Question 3

Lienomesenteric Vein

Answer 3

Extends along the dorsal lobe of the pancreas

Formed by confluence of the posterior lienogastric vein and posterior intestinal vein

Question 4

Posterior lienogastric vein

Answer 4

Vein that comes from the spleen and posterior part of the stomach

Question 5

Posterior Intestinal Vein

Answer 5

Arises from the posterior part of the intestine

Question 6

Pancreaticomesenteric Vein

Answer 6

Accompanies the pancreaticomesenteric artery to the beginning of the intestine, where it is formed by others such as the anterior intestinal vein and the anterior lienogastric vein

Question 7

Anterior Intestinal Vein

Answer 7

Extends parallel to the anterior intestinal artery

Question 8

Anterior Lienogastric Vein

Answer 8

Comes from the spleen and pyloric regions of the stomach

Question 9

Caudal Vein

Answer 9

Passes anteriorly through the hemal arches of the caudal vertebrae

Question 10

Afferent Renal Veins

Answer 10

Branch from the renal portal veins to carry blood to the kidneys

Question 11

Anterior Cardinal Sinus

Answer 11

Large vein that lies dorsal to the pharyngobranchial cartilages

Receives vessels that drain the eye, brain, head

Question 12

Orbital Sinus

Answer 12

Surrounds the eye and transports blood to the anterior cardinal sinus

Question 13

Inferior Jugular Vein

Answer 13

Thin vessel that drains the floor of the branchial region

Question 14

Hyoidean Sinus

Answer 14

Connects the anterior cardinal sinus and inferior jugular vein on either side of the head

Lies along the posterior surface of the hyoid arch

Question 15

Hepatic Vein/Sinus

Answer 15

Collects blood from the liver and opens into the posterior wall of the sinus venosus

Question 16

Common Cardinal Vein

Answer 16

Receives blood from the main vessels (except the liver), passing it back into the posterolateral corners of the sinus venosus

Question 17

Subclavian Vein

Answer 17

Enters the common cardinal vein just lateral to the entrance of the inferior jugular

Question 18

Posterior Cardinal Sinus

Answer 18

Large space lying dorsolateral to the esophagus, bounded by a thin-walled membrane

Question 19

Posterior Cardinal Vein

Answer 19

Vein that lies lateral to the dorsal aorta

Question 20

Efferent Renal Veins

Answer 20

Collect blood from kidneys and intersegmental veins that drain blood from body wall

Question 21

Lateral Abdominal Vein

Answer 21

Extends along the inside of the ventrolateral body wall on each side

Formed from confluence of cloacal vein and femoral vein

Question 22

Cloacal Vein

Answer 22

Vein that drains blood from the cloaca

Question 23

Femoral Vein

Answer 23

Drains blood from the pelvic fin

Question 24

Subscapular Vein

Answer 24

Extends parallel to the subclavian artery

Question 25

Brachial Vein

Answer 25

Lies on the medial surface of the pectoral fin along with the brachial artery

Question 26

Kidneys

Answer 26

Long, narrow structures on either side of the dorsal aorta on the roof of the body ccavity

Question 27

Testes

Answer 27

Paired, elongated gonads of the male that lie dorsal to the liver in the pleuroperitoneal cavity

Question 28

Ovaries

Answer 28

Paired, elongated gonads of the female that lie dorsal to the liver

Question 29

Caudal Ligament

Answer 29

Between the posterior ends of the kidneys, arising from the vertebrae and passing to the tail

Question 30

Epididymis

Answer 30

Most anterior part of the kidney in males, includes tubules that help transport sperm

Question 31

Leydig’s Gland

Answer 31

Middle third of the kidney in males that house tubules that make secretions to help transport sperm

Question 32

Mesorchium

Answer 32

Mesentery that supports the testes and suspends them from the body cavity

Question 33

Ductuli Efferentes

Answer 33

Small tubules in the anterior part of the mesorchium that extend from the testis to tubules in the epididymis

Question 34

Archinephric Duct

Answer 34

Tightly convoluted, embedded in the ventral surface of the kidney (mature male)

Nearly straight in immature male, resembles oviduct

Question 35

Sperm Sac

Answer 35

On ventral surface of seminal vesicle

Anteriorly blindly ending pouch

Question 36

Accessory Urinary Duct

Answer 36

Thin duct that carries urine to the urogenital sinus

Extends along the medial margin of the kidney

Question 37

Siphon

Answer 37

Lies just deep to the skin on the ventral surface of the pelvic fin

Question 38

Mesovarium

Answer 38

Mesentery that suspends the ovaries from the body wall

Question 39

Oviduct

Answer 39

Lies on the ventral surface of each kidney
Narrow, unsupported by mesentery in immature
Larger and supported in adult

Question 40

Mesotubarium

Answer 40

Mesentery that supports the oviduct in adult females

Question 41

Ostium Tubae

Answer 41

Opening of the left and right oviducts in the free edge of the falciform ligament

Question 42

Nidamental Gland

Answer 42

Swelling of the oviduct dorsal to the ovary

Secretes a thin membrane around groups of eggs as they pass to the oviduct; where eggs are fertilized

Question 43

Uterus

Answer 43

Enlargement of the oviduct that occurs posteriorly

Contains developing pups

Question 44

Ampullae of Lorenzini

Answer 44

Modified parts of the lateral line system

Series of tube-like structures just below and parallel to the skin

Question 45

Lateral Line Canal

Answer 45

Extends midlaterally along the length of the body and into the tail
Lies within the skin and leads to other canals in the head

Question 46

Olfactory Sacs

Answer 46

Function in olfaction (duh)
Has lateral incurrent and medial excurrent nares
Has lamellae within on which sensory receptors lie

Question 47

Superficial Opthalmic Nerve

Answer 47

Passes anteroposteriorly along the dorsomedial wall of the orbit

Question 48

Oblique Muscles (2)

Answer 48

Dorsal & Ventral

Pass from the anteromedial wall of the orbit and attach dorsally and ventralls

Question 49

Rectus Muscles (4)

Answer 49

Lateral, medial, dorsal, ventral
Radiate toward the eyeball from the posteromedial wall of the orbit
- Lateral attaches to posterior surface
- Medial attaches to medial/anterior surface
- Dorsal attaches to the top- Ventral

Question 50

Deep Opthalmic Nerve

Answer 50

Thin strand that passes anteroposteriorly through the orbit and adheres to the medial surface of the eye

Question 51

Optic Nerve

Answer 51

Extends from the medial wall of the orbit, laterally to the eyeball

Question 52

Infraorbital Nerve

Answer 52

Passes anteriorly and slightly ventrally in the orbit

Nearly as wide as any of the extrinsic muscles

Question 53

Preorbitalis

Answer 53

Muscle that passes anteromedially across the floor of the orbit

Question 54

Oculomotor Nerve

Answer 54

Passes ventrally and around the margin of the ventral rectus

Question 55

Abducens Nerve

Answer 55

Innervates the lateral rectus

Question 56

Trochlear Nerve

Answer 56

Passes into the dorsal oblique

Question 57

Mandibular Nerve

Answer 57

Lies on the posterior wall of the orbit, posterior to lateral rectus, extends laterally

Question 58

Cornea

Answer 58

Lateral portion of the eyeball, transparent

Question 59

Sclera

Answer 59

Remainder of the eyeball, cartilaginous

Question 60

Iris

Answer 60

Pigmented structure of the eyeball visible through the cornea, with circular pupil at centre

• Modified vascular tunic
• Contains intrinsic musculature that allows control over the size of the pupil

Question 61

Lens

Answer 61

Hard spherical structure within the eye

Question 62

Choroid

Answer 62

Dark pigmented layer internal to the sclera

Question 63

Suprachoroidea

Answer 63

Vascular tissue between the choroid and sclera on the medial wall of the eye where the pedicle attaches

Question 64

Ciliary Body

Answer 64

Holds the lens in place

Contains intrinsic musculature to help control shape of the lens

Question 65

Retina

Answer 65

Light tissue internal to the choroid

Light sensitive, contains photoreceptors responsible for absorbing light

Question 66

Vitreous Chamber

Answer 66

Large cavity of the eyeball medial to the lens

Question 67

Vitreous Humor

Answer 67

Gelatinous mass in the vitreous chamber, helps maintain eyeball’s shape and holds retina in place

Question 68

Anterior/Posterior Chamber

Answer 68

Divisions of the cavity lateral to the lens, subdivided by the iris

Question 69

Aqueous Humor

Answer 69

Watery fluid that fills the anterior and posterior chamber

Question 70

Membranous Labyrinth

Answer 70

Series of ducts and sacs in the inner ear

Question 71

Cartilaginous Labyrinth

Answer 71

Series of canals and chambers that contain the membranous labyrinth

Question 72

Anterior/posterior Semicircular Duct

Answer 72

Vertically oriented ducts within the membranous labyrinth

Question 73

Lateral Semicircular Duct

Answer 73

Horizontally oriented duct within the membranous labyrinth

Question 74

Sacculus

Answer 74

Large, triangular sac-like structure that extends between the vertical ducts and medial to the lateral duct

Question 75

Endolymphatic Duct

Answer 75

Extends dorsally from the sacculus and reaches the exterior surface of the head through the endolymphatic pores

Question 76

Anterior/Posterior Utriculi

Answer 76

Closely associated with the sacculus, communicates with it through small openings

• Anterior attaches to anterior and lateral semicircular ducts
• Posterior attaches to posterior semicircular duct

Question 77

Lagena

Answer 77

Posteroventral extension of the sacculus

Question 78

Ampullae

Answer 78

Little bulbs that occur at the ends of ducts in the inner ear

Question 79

Epiphysis

Answer 79

Extends dorsally from the posterior side of the epithalamus to the epiphyseal foramen

Question 80

Telencephalon

Answer 80

Most anterior portion of the brain

Contains:

• Olfactory bulbs
• Olfactory tracts
• Cerebrum

Question 81

Olfactory Bulbs

Answer 81

Telencephalon

Bulbs at the anterior end of the olfactory tracts, attach to the olfactory sacs anteriorly

Question 82

Olfactory Tracts

Answer 82

Telencephalon

Narrow tracts that attach the olfactory bulbs to the cerebrum

Question 83

Cerebral Hemispheres

Answer 83

Telencephalon

Extend from the posterior sides of the olfactory tracts, a little ways before going ventrally on the brain

Question 84

Cerebrum

Answer 84

Two cerebral hemispheres together

Question 85

Diencephalon

Answer 85

Second portion of the brain, posterior to the telencephalon and anterior to the mesencephalonIncludes:

• Epithalamus
• Thalamus
• Hypothalamus

Question 86

Epithalamus

Answer 86

Roof of the diencephalon

Question 87

Thalamus

Answer 87

Side of the diencephalon

Question 88

Hypothalamus

Answer 88

Floor of the diencephalon

Question 89

Telea Choroidea

Answer 89

Diencephalon

Thin, vascular tissue that forms the epithalamus
Attaches anteriorly to the cerebrum

Question 90

Third ventricle

Answer 90

Diencephalon

Cavity within the diencephalon that contains various vascular structures

Question 91

Foramen of Monro

Answer 91

Diencephalon

Foramen through which the third ventricle leads to the left and right lateral ventricles

Question 92

Lateral Ventricles

Answer 92

Diencephalon

Left & rightLie respectively in the left and right cerebral hemispheres

Question 93

Mesencephalon

Answer 93

Third portion of the brain, posterior to the diencephalon and anterior to the metencephalon

Question 94

Optic Lobes

Answer 94

Mesencephalon

Paired, rounded

Question 95

Cerebellum

Answer 95

Metencephalon

Large, main structure of metencephalon
Partially overhangs optic lobes anteriorly and myelencephalon posteriorly

Question 96

Auricles

Answer 96

Metencephalon, cerebellum

Project anterolaterally from the posterior end of the metencephalon

Question 97

Metencephalon

Answer 97

Fourth portion of the brain, posterior to mesencephalon and anterior to myelencephalon

Question 98

Myelencephalon

Answer 98

Most posterior part of the brain, largely tubular

Question 99

Medulla Oblongata

Answer 99

Myelencephalon

Posterior part of the brain that narrows into the spinal cord
- Roof covered by telea choroidea

Question 100

Fourth ventricle

Answer 100

Myelencephalon

Cavity of the medulla, revealed by removing the telea choroidea; has various ridges and grooves

Question 101

Somatic Motor Columns

Answer 101

Myelencephalon

Two large midventral ridges on either side of the midventral groove within the fourth ventricle

Question 102

Visceral Sensory Columns

Answer 102

Large longitudinal ridges lateral to the somatic motor columns (divided by a depression)

Question 103

Visceral motor columns

Answer 103

Small columns between the somatic motor columns and visceral sensory columns

Question 104

Somatic sensory column

Answer 104

Large longitudinal ridge dorsal to each visceral sensory column

Surface has form of small, bead-like swellings

Question 105

Acousticolateral Area

Answer 105

Anterior enlargement of the somatic sensory column

Question 106

Terminal Nerve

Answer 106

Most anterior cranial nerve

Passes along the medial side of the olfactory tract

Question 107

Olfactory Nerve

Answer 107

Second most anterior nerve

Pass from olfactory sac into olfactory bulb

Question 108

Oculomotor Nerve

Answer 108

Arises from ventral surface of the mesencephalon and branches to innervate ventral oblique and dorsal/ventral/medial rectus

Question 109

Trochlear Nerve

Answer 109

Extends anterolaterally from the dorsal surface of the mesencephalon

Innervates dorsal oblique

Question 110

Abducens Nerve

Answer 110

Arises from ventral surface of the medulla

Passes anterolaterally and innervates the lateral rectus (found on ventral side)

Question 111

Trigeminal Nerve

Answer 111

Arises from the anterior part of the medulla, just behind the auricles of the cerebellum

Large nerve that divides into four branches on emerging into the orbit - superficial opthalmic, deep opthalmic, mandibular, maxillary

Question 112

Superficial Opthalmic Branch

Answer 112

Branch of the trigeminal nerve

Most dorsal of the branches, passes just ventral to the dorsal margin of the orbit

Question 113

Deep Opthalmic Branch

Answer 113

Branch of the trigeminal nerve

Passes through orbit and adheres to dorsoventral surface of eyeball

Question 114

Mandibular Branch

Answer 114

Branch of trigeminal nerve

Extends laterally along posterior wall of orbit, almost directly posterior to lateral rectus

Question 115

Maxillary Branch

Answer 115

Branch of trigeminal nerve

Contributes to infraorbital nerve

Question 116

Infraorbital Nerve

Answer 116

Large nerve passing along the floor of the orbit and crossing the preorbitalis

Question 117

Facial Nerve

Answer 117

Arises from the anterior part of the medulla, just behind the auricles of the cerebellum

Two branches: hyomandibular and palatine

Question 118

Hyomandibular Branch

Answer 118

Branch of facial nerve
Forms hyomandibular nerve along with AVLLN

Passes over levator hyomandibulae
Has geniculate ganglion, swelling near origin

Question 119

Palatine Branch

Answer 119

Branch of facial nerve

Participates in the innervation of the lining of the oral cavity

Question 120

Statoacoustic Nerve

Answer 120

Arises from the anterior part of the medulla, just behind the auricles of the cerebellum

Short nerve that innervates the ear

Question 121

Preotic Lateral Line Nerves

Answer 121

Arise from the anterior part of the medulla, just behind the auricles of the cerebellum

• Anterodorsal Lateral Line Nerve (ADLLN)
• Anteroventral Lateral Line Nerve (AVLLN)
• Otic Lateral Line Nerve (OLLN)

Question 122

Glossopharyngeal Nerve

Answer 122

Arises posterior to the statoacoustic nerve

Extends through floor of otic capsule to first pharyngeal slit

Swelling, petrosal ganglion before emerges from the capsule

Divides into posttrematic and pretrematic branches

Question 123

Postotic Lateral Line Nerves

Answer 123

Arise from the brain between the glossopharyngeal and vagus nerves

• Middle Lateral Line Nerve (MLLN)
• Supratemporal Lateral Line Nerve (STLLN)
• Posterior Lateral Line Nerve (PLLN)

Question 124

Vagus nerve

Answer 124

Mainly innervates pharyngeal slits 2-5 and viscera
Arises from medulla just posterior to glossopharyngeal, clumped with postotic lateral line nerves
Has visceral and intestinal branches

Question 125

Branchial Branches

Answer 125

Branches of the vagus nerve, visceral branch
Branches that innervate pharyngeal slits 2-5-
Subdivides into pretrematic, posttrematic and pharyngeal branches

Question 126

Hypobranchial Nerve

Answer 126

Crosses the intestinal branch of the vagus nerve, innervates hypobranchial musculature

Question 127

Occipital Nerve

Answer 127

Union of slender roots posterior to the vagus nerve, partially merges with vagus

Question 128

Hypophysis

Answer 128

Ventral extension of the brain, just behind the optic nerves

Question 129

Optic Chiasm

Answer 129

Where the optic nerves cross over to the opposite side of the brain toward the anterior part of the hypothalamus

Question 130

Infundibulum

Answer 130

Forms the remainder of the hypothalamus not covered by optic nerve

Question 131

Vascular Sac

Answer 131

Continuation of the infundibulum posterior to each inferior lobe

Question 132

Central Canal

Answer 132

Narrow canal within the spinal cord, filled with cerebrospinal fluid in life (as are the ventricles)

Question 133

Optic ventricle

Answer 133

Extension of the third ventricle into the optic lobes and hypophysis

Question 134

Cerebellar ventricle

Answer 134

Continuation of the fourth ventricle into the cerebellum

Question 135

Cerebellar Aqueduct

Answer 135

Narrow canal that connects the third and fourth ventricles

Question 136

Synapsida

Answer 136

Clade within Amniota
Include Mammalia and fossil relatives
Characterized by synapsid skull type

Question 137

Therapsida

Answer 137

Clade within Synapsida

Contains mammals and relatives

Question 138

Non-mammalian synapsids

Answer 138

Usually referred to as “mammal-like reptiles”

- More reptile-like in general way of living

Question 139

Mammalian Features

Answer 139

• Mammary glands
• Hair
• Muscular diaphragm
• Single dentary forms mandible
• 3 middle ear ossicles
• Complex tooth form
• Body above legs

Question 140

Mammals vs. Reptiles

Answer 140

Mammal

• Single dentary forms each lower jaw half
• Three middle ear ossicles: malleus, incus, stapes
• Squamosal-dentary jaw joint

Reptile

• Several bones form each lower jaw half
• One middle ear ossicle: stapes
• Quadrate-articular jaw joint

In mammals, articular and quadrate have become the malleus and incus, respectively; angular has become ectotympanic
- At transitional stages, squamosal, quadrate, articular and dentary all involved in joint

Question 141

Pelycosaur

Answer 141

Early synapsid

Not a natural group

Question 142

Monotremata

Answer 142

Monotremes
Only three species: 1 platypus, 2 echidnas
- Retain cloaca
- Lack nipples
- Lay eggs w/ leathery shell

Question 143

Theria

Answer 143

Includes Marsupialia & Eutheria

Question 144

Marsupialia

Answer 144

• Occur in Australia & South America
• Females of many have pouch
• Young born at early stage, complete development in pouch
• Have placenta, but usually non-vascularized yolk sac placenta

Question 145

Eutheria

Answer 145

• Much more numerous and widespread than marsupials and monotremes
• All have chorioallantoic placenta
• Young remain in utero to become more advanced before birth

Question 146

Embrology

Answer 146

Processes involved in the early development of an individual

• Important for animal (obvi)
• Characters can be used to study phylogeny
• Helps understand basic organization of systems

Question 147

Early embryological processes

Answer 147

Vary greatly among vertebrates
All lead to similar end, but get there differently
Differences mainly due to egg type, amount of yolk
- Microlecithal
- Mesolecithal
- Macrolecithal

Question 148

Microlecithal

Answer 148

Egg with little yolk

Question 149

Mesolecithal

Answer 149

Egg with moderate amount of yolk

Question 150

Macrolecithal

Answer 150

Egg with a lot of yolk

Question 151

Vegetal pole

Answer 151

Lower hemisphere of an egg that contains yolk

Question 152

Animal pole

Answer 152

Hemisphere of egg that is less yolky and contains developing embryo

Question 153

Microlecithal development

Answer 153

1. Two vertical divisions followed by a horizontal
2. Divisions continue to happen
3. Egg becomes spherical (blastula), 1 cell thick in amphioxus

Question 154

Blastula

Answer 154

Spherical mass of cells with central cavity in developing egg

Question 155

Blastocoele

Answer 155

Central cavity within a blastula

Question 156

Mesolecithal development

Answer 156

• Initial cell divisions not equal
• Cells of animal pole smaller
• Blastula that is several cells thick
• Blastocoele displaced to animal pole

Question 157

Macrolecithal development

Answer 157

• Only small bit of protoplasm at top
• Cell division occurs within small cap
• Blastula is plate of cells at animal pole
• Blastula separated from yolk by blastocoele

Question 158

Mammalian development

Answer 158

• Embryo develops in uterus instead of egg
• Division forms spherical mass that appears superficially like microlecithal but is not
• Outer structure is trophoblast, within which there is a cell mass at animal pole

Question 159

Trophoblast

Answer 159

Spherical structure of early mammalian embryo

Question 160

Gastrulization

Answer 160

Division and migration of cells to produce a gastrula
Leads to 3 primary germ layers:
- Ectoderm
- Mesoderm
- Endoderm

Question 161

Microlecithal Gastrulization

Answer 161

• Vegetal pole of blastula folds into cup-like structure by rolling cells into blastocoele
• Cells of animal

Question 162

Gastrocoele

Answer 162

A.K.A. archenteron

Infolding of the gastrula after blastula has rolled into the blastocoele

Question 163

Blastopore

Answer 163

Entrance into the gastrocoele

Question 164

Ectoderm

Answer 164

Formed from the cells of the animal pole
Create outer layer of skin, nervous system, lining of oral cavity
- Covers neurectoderm/neural tube

Question 165

Endoderm

Answer 165

Formed from the cells of the vegetal pole
Create digestive tract and visceral derivatives; liver, pancreas, lining of lungs, digestive tract and urinary bladder
- Expands dorsomedially and surrounds archenteron

Question 166

Neurectoderm

Answer 166

Dorsal middle of ectoderm
Becomes brain, spinal cord, nerves and parts of eye
- Inpockets and is covered by ectoderm
- Neural crest cells begin to migrate

Question 167

Mesoderm

Answer 167

Formed between the ectoderm and endoderm
Create skeleton, muscle, circulatory system
Two kinds:
- Chordamesoderm
- Lateral mesoderm

Question 168

Chordamesoderm

Answer 168

Mesoderm along the dorsal midline, forms the notochord

Question 169

Lateral mesoderm

Answer 169

Mesoderm except along dorsal midline
Forms the organs and stuff
- Expands laterodorsally on either side
- Subdivides forming the coelom
- Subdivides dorsoventrally into epimere, mesomere, hypomere; coelom enlarges

Question 170

Neurogenic placodes

Answer 170

Clusters of cells in the neurectoderm that swell to become different structures
- Become various sensory head structures

Question 171

Neural crest cells

Answer 171

Cells in the neurectoderm that migrate to other parts of the body
- Become visceral skeleton inc. jaws, meninges, etc.

Question 172

Coelom

Answer 172

Cavity within the lateral mesoderm

Question 173

Epimere

Answer 173

Division of lateral mesoderm

- Subdivides lateromedially into dermatome, myotome, sclerotome

Question 174

Mesomere

Answer 174

Division of lateral mesoderm

Becomes kidney, excretory and reproductive tracts

Question 175

Hypomere

Answer 175

Division of lateral mesoderm

• Coelom expands further
• Extends dorsomedially to enclose endoderm
• Has somatic layer (becomes parietal serosa) & visceral layer (becomes visceral serosa, musculature, heart/blood vessels, lymph vessels, gonads)

Question 176

Dermatome

Answer 176

Division of epimere

• Expands deep to ectoderm
• Becomes dermis of integument, dermal muscles, dermal skeletal structrues

Question 177

Myotome

Answer 177

Division of epimere

• Expands dorsally between ectoderm and sclerotome and ventrally between ectoderm and hypomere
• Becomes epaxial and hypaxial musculature, appendicular skeleton

Question 178

Sclerotome

Answer 178

Division of epimere

• Surrounds notochord and neural tube
• Becomes vertebral column

Question 179

Integumet

Answer 179

(Skin)

• Covering for the body of an organism
• One of the largest organs
• Used for protection and various other tasks such as respiration, temperature regulation, odour secretion, claws, hair, feathers, nails, horns, etc.

Question 180

Primary body tissues

Answer 180

• Epithelial tissue
• Connective tissue
• Muscular tissue
• Nervous tissue

Question 181

Epithelial Tissue

Answer 181

Layer(s) of cells that form a barrier

• Covers exposed surfaces as part of skin
• Lines body cavities - serosa, mucosa
• Cells are tightly bound together
• Apical exposed surface
• Basal surface that attaches to underlying body structures via connective tissue
• Usually avascular
• Few, if any, nervous structures

Question 182

Dermis

Answer 182

One of two main layers of integument

• Deep
• Connective tissue
• Formed mainly from dermatome
• Usually relatively
• Vascularized
• Contains sensory receptors

Question 183

Epidermis

Answer 183

One of two main layers of integument

• Superficial
• Epithelial tissue
• Formed from ectoderm
• Usually relatively thin
• Up to five layers: two main are stratum corneum & stratum basale

Question 184

Trends in Integument

Answer 184

Tends to increase in thickness from basal tp derived taxa

- Derived taxa can still have (semi)permeable

Question 185

Waterproofing Skin

Answer 185

Change nature of epidermis

• Most superficial part becomes layer of dead, hardened cells
• Incorporation of insoluble proteins (keratins)
• Known as cornified or horny

Question 186

Hypodermis

Answer 186

A.K.A. superficial fascia

• Deep to dermis
• Mainly loose connective tissue, adipose connective tissue (fat)

Question 187

Stratum Corneum

Answer 187

Layer of epidermis

• Most superficial layer
• Thin
• Consists of dead cells

Question 188

Stratum Basale

Answer 188

Layer of epidermis

• Most deep layer
• Relatively thick
• Living; contains dividing cells
• Most cells are keratinocytes, which are constantly being formed near the deep portion of s. basale
• Keratinocytes pushed superficially as new ones formed: take on keratins, flatten, die

Question 189

Integument of Fishes

Answer 189

• Skin is relatively thin
• Epidermis made almost entirely of live cells
• Few, if any, keratinized cells
• Secretes mucus to help reduce drag, protect against bacteria (can contain various chemicals)
• May form specialized keratinized structures in some (i.e. denticles in lamprey)
• Scales found in more derived fishes formed partly from dermis and epidermis

Question 190

Scales

Answer 190

Can include up to three components of hard tissue:

• Enamel (epidermal)
• Dentine (dermal)
• Bone (dermal)

Question 191

Placoid Scales

Answer 191

Scales present in sharks

• No dermal bone
• Scale is formed by dentine that projects through epidermis and is capped by enamel

Question 192

Dermal Bone

Answer 192

Formed from dermis

• Present in bony fish
• Forms plates that covered head and trunk of many ostracoderms and placoderms
• Broken into dermal scales more posteriorly

Question 193

Bony Fish Scales

Answer 193

Formed by dermal bone

• May be capped by enamel/dentine
• Different kinds based on presence and relative proportions of enamel & dentine

Question 194

Cosmoid Scale

Answer 194

Scale formed from bone capped by enamel and dentine

- Seen in primitive sarcopterygians

Question 195

Ganoid Scale

Answer 195

Scale formed by bone that is sometimes capped by enamel

- Seen in primitive actinopterygians

Question 196

Teleost Scale

Answer 196

Scale that is formed solely by bone

- Seen in derived actinopterygians

Question 197

Integument of Amphibians

Answer 197

Thin skin, mostly all live cells

• Thin stratum corneum provides some protection against mechanical abrasion and water loss
• Scales absent except in some caeciians
• Cutaneous respiration common and very important to some species
• Capillaries extend into lower epidermis
• Generally have mucus and poison glands

Question 198

Integument of Reptiles

Answer 198

• Extensive keratinization
• Dermal bone may be present, but is not generally associated with scales: osteoderms, gastralia
• Few skin glands: mainly scent glands

Question 199

Reptilian Scales

Answer 199

Usually lack underlying dermal bone contribution
Epidermal scales
- Fold in the surface of epidermis
- May be modified into crests, spines or horns

Question 200

Osteoderms

Answer 200

Small pieces of dermal bone found under epidermal scales

- Seen in some turtle shell bones, crocodilians, some reptiles, extinct reptiles

Question 201

Gastralia

Answer 201

Collections of dermal bone within the abdominal region

Question 202

Epidermal Derivatives

Answer 202

• Scales
• Calluses
• Nails/claws/hooves
• Hair
• Feathers
• Baleen
• Horns/antlers
• Glands

Question 203

Nails, claws and hooves

Answer 203

Keratinized epidermal structures that tip the digits of amniotes

• Protect digits
• Used in climbing, defence, food gathering, etc.

Question 204

Horns & antlers

Answer 204

Cranial appendages that are widespread, esp. among mammals

- Used for defence, mate selection, dominance

Question 205

True Horn

Answer 205

Keratinized sheath supported by unbranched bony core/spike

• Seen in cattle, antelope, goats, sheep
• Not shed

Question 206

Antlers

Answer 206

Bone covered by velvety skin when immature

• Usually confined to males
• Shed annually
• Tend to be branched

Question 207

Rhinoceros Horn

Answer 207

Keratinized epithelium made from fused, hairlike epidermal papillae

Question 208

Giraffe Horn

Answer 208

Cartilage core that has been ossified and covered by skin

Question 209

Hair

Answer 209

Mammalian feature

• Epidermal sheath that sits in a follicle extending into the dermis
• Dermal papilla supplies blood vessel
• Hair grows basally
• Cells are pushed up, become keratinized and die

Question 210

Arrector pili

Answer 210

Small muscle associated with a single hair follicle, erects hair

Question 211

Sebaceous glands

Answer 211

Glands associated with hair follicles

- Secretes oily substance to lubricate and protect hair

Question 212

Apocrine glands

Answer 212

Sweat glands used for chemical signalling and viscous secretion:

• Mammary glands
• Scent glands

Question 213

Glands

Answer 213

Epidermal structures found in all vertabrate clades

- Can be single celled or multicellular

Question 214

Uropygial Gland

Answer 214

Found in birds

• Near base of tail
• Secretes oily substance used in preening to protect feathers and repel water

Question 215

Salt Gland

Answer 215

Found in birds

• On head of some
• Secretes excess salt

Question 216

Sudoriferous Glands

Answer 216

Sweat glands in mammals, two kinds:

• Eccrine
• Apocrine

Question 217

Eccrine Glands

Answer 217

Sweat glands that secrete salt, urea, water

Question 218

Mammary Glands

Answer 218

Modified apocrine glands that secrete milk

Question 219

Scent Glands

Answer 219

Modified apocrine glands that secrete scents

- Used to mark territory, in individual recognition, courtship

Question 220

Skeleton

Answer 220

Composed of various kinds of connective tissue

Question 221

Connective Tissue

Answer 221

• Formed by mesenchyme
• Reinforces epithelia and other soft body tissues
• Acts as a support for the body
• Consists of cells scattered through a matrix (that is normally secreted by the cells)
• Included cell types and materials determine structure, properties and function of the tissue
• Main types are bone and cartilage

Question 222

Mesenchyme

Answer 222

Embryonic material mainly derived from epimere and hypomere

• Network of cells that links outer tube and developing organs
• Differentiates into connective tissue, most of the circulatory system, most muscles

Question 223

Bone Tissue

Answer 223

• Heavily mineralized matrix
• Extremely metabolically active
• Osteocytes reside in lacunae within the matrix
• Highly vascularized
• Bone grows by expansion at surface
• Lacunae stellate connect with other chambers

Question 224

Cartilage Tissue

Answer 224

• Different cartilage types based on differing materials
• Rigid, but not hard like bone
• Chondrocytes reside in spherical, isolated lacunae
• Avascular
• Not very metabolically active
• Grows by internal and surface expansion

Question 225

Bone vs Cartilage

Answer 225

• Used to be thought that cartilage was primitive to bone, but not the case
• Each tissue has properties that make it suitable for different things
• Bone ideal for compression
• Fibrous cartilage ideal for tension

Question 226

Parts of the Skeleton

Answer 226

• Dermal Skeleton
• Endoskeleton
• Heterotopic Skeletal Elements

Question 227

Dermal Skeleton

Answer 227

Membranous bone that forms directly in connective tissue

• Generally relatively superficial
• Never performed by cartilage
• E.g. bony plates in early fish, osteoderms, turtles, armadillos, parts of the skull

Question 228

Endoskeleton

Answer 228

Endochondral bone

• Lies deeper than dermal
• Always preformed by cartilage: replacement of embryonic cartilage by adult bony structure
• Forms most bones of the body
• Subdivided into somatic and visceral skeleton

Question 229

Somatic Skeleton

Answer 229

Subdivision of endoskeleton

• Outer tube of body
• Formed by somites
• Two kinds: axial & appendicular

Question 230

Axial skeleton

Answer 230

Kind of somatic skeleton

- Forms most of skull, vertebral column, ribs

Question 231

Appendicular skeleton

Answer 231

Kind of somatic skeleton

- Forms paired appendages and limb girdles

Question 232

Visceral Skeleton

Answer 232

Subdivision of endoskeleton

• Associated with branchial skeletons or derived from them
• Formed by neurectoderm

Question 233

Heterotopic Skeletal Elements

Answer 233

Stray skeletal elements not associated with any other part of the skeleton

• Not preformed in cartilage
• E.g. sesamoid bones, small bone in diaphragm of camels, bone in septum of heart of ruminants, bone in upper eyelid of crocodile, baculum/os penis, os clitoris

Question 234

Diaphysis

Answer 234

Shaft of a long bone

Question 235

Epiphysis

Answer 235

Flared ends of a long bone

Question 236

Epiphyseal Line

Answer 236

Line separating the epiphysis from the disphysis

Question 237

Epiphyseal Plate

Answer 237

Layer of hyaline cartilage between the epiphysis and diaphysis of juveniles; ossified during development

Question 238

Periosteum

Answer 238

Fibrous connective tissue surrounding a bone

Question 239

Medullary Cavity

Answer 239

Hollow cavity within the diaphysis of a bone

Question 240

Endosteum

Answer 240

Connective tissue lining the cavities and spaces within bones

Question 241

Articular Cartilage

Answer 241

Cartilage found at the joints of bones

Question 242

Postcranial Skeleton

Answer 242

Skeletal structures of the body not including the head

• Formed largely by endoskeletal elements
• Mostly somatic
• Mainly formed from mesenchyme

Question 243

Vertebral Column

Answer 243

• Little muscular attachment in fishes; instead, most muscular force is exerted on myosepta
• Ribs develop at the intersections of connective tissue, increasing efficiency of muscular effort
• Precise rib formation depends on position
• Dorsal ribs at intersection of myoseptum and HSS
• Ventral ribs along coelomic cavity

Question 244

Vertebral Types

Answer 244

• Amphiocoelous
• Procoelous
• Opisthocoelous
• Acoelous
• Heterocoelous

Question 245

Amphicoelous Vertebrae

Answer 245

Vertebrae that are concave at both ends of the centrum

- Typical of fishes and early tetrapods

Question 246

Procoelous Vertebrae

Answer 246

Vertebrae whose centra are concave anteriorly and convex posteriorly
- Typical of amphibians and reptiles

Question 247

Opisthocoelous Vertebrae

Answer 247

Vertebrae whose centra are concave posteriorly and convex anteriorly
- Typical of amphibians an reptiles

Question 248

Acoelous Vertebrae

Answer 248

Vertebrae whose centra are nearly flat at both ends

- Typical of the trunk of mammals and birds

Question 249

Heterocoelous Vertebrae

Answer 249

Vertebrae whose centra are saddle-shaped

- Typical of the neck vertebrae of birds

Question 250

Trends in Vertebral Evolution

Answer 250

Tendency is for there to be increased differentiation along the column in increasingly advanced forms

• Fish: trunk & caudal
• Tetrapods: 1+ articulates with pelvic girdle (sacral)
• Advanced tetrapods: trunk vertebrae divided into cervical and dorsal
• Mammals: dorsal vertebrae divided into thoracic and lumbar

Question 251

Embryology of Vertebrae

Answer 251

Develop from sclerotome of epimere

• Initially segmentally arranged
• Develop so they are intersegmentally arranged with respect to musculature
• This ensures that musculature forms across adjacent vertebrae
• Note: more variable in fish since myomeres exert force on myosepta not vertebrae

Question 252

Evolution of Postcranial Skeleton

Answer 252

Fish

• Simple and small appendicular skeleton
• Dermal skeleton mostly behind operculum dominates
• Main element: cleithrum
• Can’t bend neck
• Pectoral > pelvic

Tetrapods

• Large and more complex appendicular skeleton
• Needed to keep body off ground and for propulsion
• Cleithrum and clavicle reduced
• New interclavicle lies between clavicles
• Can move neck
• Pectoral < pelvic

Question 253

Evolution of Pectoral Girdle

Answer 253

• Initially formed from dermal and endoskeletal parts, with fin supported by endoskeletal
• Endoskeletal portion expands, with scapular centre of ossification dominating
• Only clavicle remains of dermal elements in mammals
• Designed to absorb shock

Question 254

Evolution of Pelvic Girdle

Answer 254

• Initially small and not attached to body
• Begins to extend dorsally and fuses with sacral vertebra(e)
• Now, hind limbs provide nearly all force in tetrapod locomotion

Question 255

Evolution of Posture

Answer 255

• In early tetrapods, limbs were perpendicular to body axis and extended laterally (sprawled posture); move mainly by fish-like lateral movements
• Manus and pes rotated to point forward; lateral bending of body propelled each forward
• Limbs became tucked underneath body and more vertically aligned with parasagittal plane; efficient for-aft motion