Vertebre from and function
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Vertebre from and function - Marcador
Vertebre from and function - Detalles
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| Neurocranium/ Chondrocranium | The braincase + the sensory capsules, arises form neural crest cells, cartilaginous in origin. |
| Is primitive found in insectivores and juvenile platypuses | Cusps Tropospheric |
| High crowned herbivores | Hypsodont |
| Many individual teeth fused together at their base, separate cusps may still be visible. | Tooth plates |
| Concave in the front and convex in the back, present in reptiles | Procelous vertebra |
| Convex in front and concave in back, present in most salamanders | Opisthocelous Vertebra |
| Flattened at both ends, present in mammals | Acelous Vertebra |
| Saddle shaped at both ends, present in birds | Hetroscelous Vertebra |
| Cervical vertebrae- neck, Thoracic- breast and ribs, Lumbar- belly, Sacrum- pelvis, Caudal- tail. | Regionalisation |
| Supports the pectoral limbs or fins, evolved first and is more complex and larger than the posterior girdle. | Anterior,shoulder or pectoral girdle |
| Supports the pelvic fin or limb, evolved after the pectoral and is smaller and less complex. | Posterior, hip or pelvic Girdle |
| Stability in forward movement, steering, muscles at base provide power to them, in aquatic species posterior fins provide propulsion and pectoral fins provide steering. | Functions of paired limbs |
| Found in marsupials that articulate with the pubic bones possibly to support the pouch or gripping young. | Paired epipubic bones |
| Short, splayed to the side of the body, their trunk is lifted from the ground with difficulty when walking | Amphibian limbs |
| Many still have limbs far from the sides of the body, hind limbs are larger and stronger. | Reptile limbs |
| Speed | Legs must be relatively long in relation to other parts of the body, distal segments of the legs usually lengthen more then the proximal, cursorial undulations tend to have radius as ling or longer then humerus, and tibia as long or longer then femur. Foot is longer then middle limb segments. |
| Endothermic animals in cold environment’s are lager in size then the same species in warm environments. | Bergmans rule |
| Pushing down | Compressive forces |
| Streching | Tensile force |
| Slideing | Shear force |
| Hyaline cartridge | Relatively few collagen fibres, found in articular surfaces, like tips of ribs and trachea. |
| Many elastin fibres, appears spongy, makes it flexible and is found in external ear and the epiglottis. | Elastic cartilage |
| Endochondral – from cartilage, ossification of cartilage for form bone Intramembranous- Dermal bone, has no precursor for example bones of lower jaw and skull. | Types of bone formation |
| Diaphysis- ossified shaft with medullary cavity, Epiphysis- secondary centres of ossification, metaphysis- transition between 2 phases, the actively growing region. | Endochondral long bones |
| Epaxials- above the horizontal septum Hypaxial- below the horizontal septum. Ira alba- separates 2 sides of the body | Separation of myomeres |
| Trends of evolution | Reduction, elaboration, loss of elements, development of temporal fenestra, secondary palate. |
| In sheet teeth, mammals | Thecodont |
| Teeth on conveyor-belt , fish | Acrodont |
| Side placed teeth, amphibians | Placodont |
| Only 2 sets of teeth, most mammals | Diphyodont |
| Single set of teeth, odontocete whales | Monophyodont |
| Depends on habitat and speed, may have more than one, classified by relative phase between feet. | Gait |
| Fraction of time foot spends on ground | Duty factor |
| Equally spaced foot fall. e.g. walking having a duty factor on >0.5 | Symmetrical gaits |
| Foot fall not equally spaced, both pairs of limbs off the ground at some point and pairs tend to fall at same time, duty factor on <0.5 | Asymmetrical gait |
| Is very common, has occurred more then 30x in skinks, natural string of evolution of limb- lessness like in snakes. | Limb reduction in reptiles |
| Found in teleost fish, circular and fan shaped, derived form ganoid scales, thinner and arranged in overlapping rows, grown in annual rings continuously for whole life. | Cycloid and Ctenoid scales |
| Mostly in ectoderms, may be constant colour on colour or changing, complex control by hormones or neurological. | Chromatophores |
| Tough, dry, scaly skin, with hinged scales, thin epidermis with highly keratinised scales, thick dermis with melanophores. | Reptile integument |
| Blood transports warmth to deep tissues or carries away excess heat to body surface. Mediated changes in microcirculation to control heating and cooling. | Circulation and thermoregulation |
| Turbinate bones, cool or heat incoming air and trap moisture. Heat- loss is highly variable due to wind and speed as little as 25% or as much as 400%. | Heat loss in birds |
| Huddling in emperor penguins alone they burn 0.2kg of fat to keep warm in a huddle they only need 0.1kg. | Behavioural thermoregulation |