Ls2 afet unit 6 support systems in animals
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Transcript of Ls2 afet unit 6 support systems in animals
UNIT 6: SUPPORT SYSTEMS IN ANIMALS CAMPBELL & REECE
CHAPTER 50 & NOTES ON EDULINK & LEARNING GUIDE
1. DIFFERENT TYPES OF SKELETONS
The three main types of skeletons are:
Hydrostatic skeletons (lack hard parts)Exoskeletons (external hard parts)Endoskeletons (internal hard parts)
Hydrostatic Skeletons
A hydrostatic skeleton consists of fluid held under pressure in a closed body
This is the main type of skeleton in most cnidarians, flatworms, nematodes, and annelids
Annelids use their hydrostatic skeleton for peristalsis, a type of movement on land produced by rhythmic waves of muscle contractions.
HYDROSTATIC SKELETONSCNIDARIANEMATODE
FLATWORMSANNELIDA
Exoskeletons
An exoskeleton is a hard encasement deposited on the surface of an animal
Exoskeletons are found in most molluscs and arthropods
Arthropod exoskeletons are made of cuticle and can be both strong and flexible
The polysaccharide chitin is often found in arthropod cuticle
EXOSKELETONSARTHROPODSMOLLUSC
ENDOSKELETONS
An endoskeleton consists of hard supporting elements, such as bones, buried in soft tissue
Endoskeletons are found in sponges, echinoderms, and chordates
A mammalian skeleton has more than 200 bones
Some bones are fused; others are connected at joints by ligaments that allow freedom of movement.
ENDOSKELETONSECHINODERMATASPONGES
CHORDATA
2. THE HUMAN SKELETON
2. THE HUMAN SKELETON
a. AXIAL SKELETON: i)Human Skull Consist of 28 bones It consists of flat bones that are connected
on the sides by immovable joints called sutures.
In babies not all the bones of the skull make contact with each other and fontanels are formed.
The lower jaw bone (Mandible) is the only movable bone of the skull – Upper jaw (Maxilla) is not moveable.
The large opening at the base of the skull is called the foramen magnum – it is where the spinal cord enters the skull.
Human Skull
a. AXIAL SKELETON: ii)VERTEBRAL COLUMN Consists of 33 bones called vertebrae. 24 vertebrae are individual single bones. 9 vertebrae are fused to form the sacrum and
coccyx. Cartilage disks are found between vertebrae. The s-shaped structure of the vertebral column
and the disks absorb shock and help to protect the spinal cord.
The first vertebrae – Atlas – carry the weight of the skull, allows the head to nod.
2nd vertebrae – Axis – allows head to move to the side
a. AXIAL SKELETON:ii) VERTEBRAL COLUMN
Vertebrae is divided into 7 Cervical vertebrae
12 Thoracic vertebrae
5 Lumbar vertebrae
5 fused vertebrae = sacrum
4 fused vertebrae = coccyx
a. AXIAL SKELETON: iii) THORAX Consists of the sternum, 12 pairs of ribs and
thoracic vertebrae. It protects the heart and lungs. First 7 pairs of ribs are directly attached to the
sternum by cartilage – called true ribs. Next 5 pairs – false ribs – last 2 pairs of false
ribs are not attached to the sternum – called floating ribs
Intercostal muscles found between ribs – aid in breathing process.
a. AXIAL SKELETON: iii) THORAX
True ribs
False ribs Floating ribs
sternum
b. APPENDICULAR SKELETON
Made up of the shoulder (pectoral girdle), arms, hips (pelvic girdle) and legs.
126 bones.Function: Movement
b. APPENDICULAR SKELETON i) Pectoral girdle and arm
b. APPENDICULAR SKELETON i) Pelvic girdle and leg
3. FUNCTIONS OF A SKELETON
Support Movement Protection Blood cell production Storage Endocrine regulation
a. Support
The skeleton provides the framework which supports the body and maintains its shape.
The pelvis, associated ligaments and muscles provide a floor for the pelvic structures.
Without the ribs, costal cartilages, and intercostal muscles, the heart would collapse.
b. MOVEMENT
The joints between bones permit movement.
Movement is powered by skeletal muscles, which are attached to the skeleton at various sites on bones.
Muscles, bones, and joints provide the principal mechanics for movement, all coordinated by the nervous system.
c. Protection
The skeleton protects many vital organs e.g.:
The skull protects the brain, the eyes, and the middle and inner ears.
The vertebrae protects the spinal cord.
The rib cage, spine, and sternum protect the lungs, heart and major blood vessels.
d. Blood cell production
• The skeleton is the site of haematopoiesis, which takes place in red bone marrow.
• Haematopoiesisis the formation of blood cellular components.
e. Storage
• Bone matrix can store calcium and is involved in calcium metabolism.
• The bone marrow can store iron and is involved in iron metabolism.
• Bones are not entirely made of calcium, but a mixture of chondroitin sulfate and hydroxyapatite, the latter making up 70% of a bone.
f. Endocrine regulation
• Bone cells release a hormone called osteocalcin, which contributes to the regulation of blood sugar (glucose) and fat deposition.
• Osteocalcin increases both the insulin secretion and sensitivity.
4. STRUCTURE OF A LONG BONE
A long bone is an elongated bone consisting of a body (diaphysis) and
two terminal parts (epiphyses), such as found in the leg and arm bones (femur, radius, phalanges
and others).
4. STRUCTURE OF A LONG BONE
5. DIFFERENT JOINTS In the human body, there are joints
where two or more bones meet in the skeleton.
Immovable joints do not allow movement and
Synovial joints are movevable joints and allow movement of the bones.
Ligaments hold bones together. Tendons attach muscle to bone,.
STRUCTURE OF A SYNOVIAL JOINT
Different types of synavial joints are:• Ball and socket joint• Hinge joint• Pivot joint• Gliding joint
BALL AND SOCKET JOINT:• Joints of the hips and shoulders• Allows rotating movement of arms
and legs
HINGE JOINT:• Joints of the elbows, knees, fingers
and toes• Only allows movement in one
direction.
PIVOT JOINT:• Joints between atlas and axis• One bone turns on another
GLIDING JOINT:• Joints of the wrist and ankles• The flat surface of one bone glides
over the surface of a bone next to it.
JOINT DISORDERSDo research (self study) on the following disorders, you have to be able to briefly explain what each of them are (will not be marked but there will be question in the exam and semester test about it)
Dislocation Sprains Arthritis Osteoarthritis Rheumatoid arthritis
6. MACRO STRUCTURE OF SKELETAL MUSCLES
Epimysium: Surrounds entire muscle Perimysium: Surrounds bundles of
muscle fibres (Fascicles) Endomysium: Surrounds individual
muscle fibres
6. STRUCTURE OF SKELETAL MUSCLES
MICRO STRUCTURE OF SKELETAL MUSCLES
Sarcolemma: Muscle cell membrane Myofibrils: Threadlike strands within
muscle fibres Actin (thin filament) Myosin (thick filament)
SKELETAL MUSCLES Muscles are attached to bones by
means of tendons. Skeletal muscles produce movement
by contracting. This exerts a force on tendons, which
in return, pulls on bones. Muscles occur in pairs which work
antagonistic against each other. When one contracts the other relaxes.
MOVEMENT OF THE ARM