Transcript Slide 1
Deutrostomia Available at http://planet.uwc.ac.za/nisl/Eco_people/Presentations/ PHYLUM: CHORDATA CLASS: SARCOPTERYGII (LOBE FINNED FISH AND TERESTRIAL VERTEBRATES) This class of fish are not well resolved and more information is needed. At the moment there are seven clades Onychodontiformest X Coelacanthimorpha Porolepimorpha X Dipnoi Rhizodontimorpha X Osteolepimorpha X Terrestrial vertebrates X = extinct PHYLUM: CHORDATA CLASS: SARCOPTERYGII SUBCLASS: COELACANTHIMORPHA Coelacanth characteristics Stub-nosed Small jawed Highly specialized deep sea fish Lack internal nostrils Heavy cosmoid scales Fleshy fins Lungs are large sac-like and filled with fat and connective tissue Bone has been reduced and replaced with cartilage Heart is a simple series of linear chambers Brain case is large, but the brain within is very small No pineal foramen PHYLUM: CHORDATA CLASS: SARCOPTERYGII SUBCLASS: COELACANTHIMORPHA Coelacanth characteristics Loss of salts is prevented by maintaining a high osmotic concentration achieved through retention of urea in the blood Eggs are large (100 mm) and develop within the maternal oviduct (ovoviviparous) PHYLUM: CHORDATA CLASS: SARCOPTERYGII SUBCLASS: DIPNOI (Lungfish) Three living genera. One in South-America South Africa Australia Dipnoi Characteristics Cosmoid scales Fleshy fins Reduction in ossification of bone Functional lungs Australian forms can survive in stagnant water by air-breathing. The other genera can survive complete drying up of the water by burrowing and aestivating (dormancy phase). The African Lungfish are so dependent on air that if kept underwater they will drown PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES 21,100 extant species Distributed worldwide Tetrapoda is now a crown group including the last common ancestor of the lissamphibia and amniotes PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA Early amphibians- subclass Lepospondyli Small and similar to modern salamanders Labyrinthodonts Large Probably ancestral to the amphibians of today. These animals possessed a long fish-like tail and were very similar to the Crossopterygian fish, except they were the first amphibian to walk on land PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA Adaptations to terrestrial life Legs Lungs Nostrils connecting to the mouth cavity Sense organs that function in water and air The transition from water to land involves the following: Change in skin to facilitate respiration Replace gills with lungs Changes in the circulation Sense organs that are land/water compatible PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA Respiration Most number of techniques for respiration of all vertebrates Used for respiration: Gills Skin Lungs Buccopharynx PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA The heart in frog larvae is fish like with one atrium and a ventricle: it receives only unoxygenated blood which is pumped directly to the gills Adults have two atria and one ventricle. The left atrium receives oxygenated blood from the skin and lungs, the right, unoxygenated blood from the general circulation Three pairs of external gills occur in most embryos and larvae but persist only in those adult forms that are strictly aquatic (e.g. Salamanders) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA In tadpoles water is drawn in through the mouth and nostrils and is then forced over the gills and out through the spiracles Salamanders aid respiration by moving their gills Lungs have few internal partitions that are vascularised- lungs are not very efficient In aquatic species lungs serve as hydrostatic organs Skin of all amphibians is highly vascularised Many species have buccopharyngeal respiration PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA Reproduction Mating usually occurs in the water Frogs -external fertilization The eggs are deposited and grow until they metamorphose into the adult stages The male enters the water, clasps the female, and as the female extrudes her eggs the male discharges sperm over them The amphibian eggs are covered in a gelatinous coating PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA Reproduction Salamanders have elaborate courtship where the male deposits a gelatinous spermatophore on the bottom of the stream. The spermatophore is taken into the female cloaca where the spermatozoa are stored in the seminal receptacle and are fertilized (internally) at a later stage PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA Larvae Salamanders resemble their parents in general form. Larvae of frogs initially has external gills, replaced by internal gills. Limbs develop at a later stage. The mouth is horny with labial teeth and is used to scrape food material. The intestine is long and slender Metamorphosis involves Growth of a wide mouth, loss of horny jaws and the development of conical teeth Loss of gills, closure of gill slits and development of lungs. Development of the protrusible tongue Emergence of the four limbs (paired appendages) Reduction in length of the intestine from long herbivore type to short carnivore type Re-absorption of tail and median fins Biochemical changes include a change in the excretory products from toxic ammonia to less toxic urea. A change in the capacity of the blood to release oxygen to the tissues, an adaptation reflecting a more active life style PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES LISSAMPHIBIA SALENTIA (Frogs) Highly vascularised skin with many mucous glands Skeleton/ muscles Vertebra: Up to 100 in the anurans Pelvic girdle: Well developed in the anurans Most amphibians have fine teeth (upper jaw and roof of mouth) and a long prehensile tongue which is situated as far forward as possible CAUDATA (Salamander and Newts) Head and neck region distinct trunk Long and either cylindrical or depressed dorsoventrally and possess a long tail GYMNOPHONA (Caecilians) Limbless and worm like, with a skin containing many small internal scales PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA There are three extant clades Synapsida (mammals) Testudines (turtles etc.) Diapsida (lizards and birds etc.) Along with ten extinct taxa Includes most of the land dwelling vertebrates alive at present There are over 20,000 species They are distributed across the globe PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA This group has two extant clades Testudines- turtles and tortoises Diapsida- lizards, crocodiles, birds and Sphenodon There are ten orders of reptiles that are extinct including the dinosaurs and the pterosaurs (the flying forms) First group of vertebrates adapted for life in dry places Their dry horny skin and scales resist loss of moisture PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA GENERAL CHARACTERISTICS Body is covered with dry cornified skin with scales or scutes Few surface glands Two pairs of limbs each typically with five toes ending in horny claws Suited for running, crawling or climbing Limbs may be paddle-shaped as in marine turtles and are reduced in some lizards, and are absent in the snakes The skeleton is completely ossified The heart is imperfectly four chambered, there are two atria and a partly divided ventricle Respiration is via lungs; pharyngeal and cloacal respiration occurs in some aquatic turtles PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA GENERAL CHARACTERISTICS Twelve pairs of cranial nerves The body temperature in living forms is variable (poikilothermic) Fertilization is internal via copulatory organs The eggs are large with much yolk and have either a leathery or limy shell Segmentation is meroblastic Eggs have an amnion, chorion, yolk sac and allantois The young when they hatch, resemble the adults with no metamorphosis PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA ADVANCES OVER AMPHIBIANS Dry skin Limbs which permit rapid running locomotion Greater separation of oxygenated and unoxygenated blood Complete ossification of the skeleton Eggs suited to development on land with membrane and shells to protect the embryo PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA REPTILES ARE NOT AS ADVANCED AS MAMMALS Lack insulated body coverings No internal regulation of body temperature True internal development of embryo does not occur (eggs are simply retained in the oviduct) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA TESTUDINES (TURTLES AND TORTOISES) These are not resolved in the Amniota group but are split into two extant groups Pleurodira (side neck turtles) Polycryptodira (most living turtles) With six extinct clades They have an oval shell composed of plate-like bones Dorsal surface - carapace Ventral surface –plastron Soft-shelled turtles have a leathery carapace The jaws lack teeth and bear cornified beak-like structures to cut/tear/crush vegetation PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA This is split into two extant groups Archosauromorpha (crocs and birds) Lepidosauromorpha (lizards and sphenodon etc) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA LEPIDOSAUROMORPHA This is the group that contains the lizards, snakes, Sphenodon and their extinct relatives ORDER SQUAMATA Lizards & snakes These are scaled reptiles. The phylogeny is not resolved but there are ten clades PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA LEPIDOSAUROMORPHA ORDER SQUAMATA Lizards & snakes LIZARDS Varied body shapes Limbs can be long, short, vestigial (reduced) or absent PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA LEPIDOSAUROMORPHA ORDER SQUAMATA Lizards & snakes SNAKES Characterized by a loss of appendages and extreme elongation Most snakes lack limb girdles, sternum, eyelids, external ear openings and a bladder Snakes have numerous vertebrae (200 to 400) Locomotion without limbs is achieved by backward pressure of the lateral loops of the body against surface irregularities Snakes can travel in straight lines by hitching scales against the ground surface PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA LEPIDOSAUROMORPHA ORDER SQUAMATA Lizards & snakes SNAKES Can ingest whole, large-sized prey items due to modifications to the jaw Two mandibles connected with flexible connective tissue Loose attachment of other jaw bones Movement of the bones of the palate and slender backward pointing teeth PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA LEPIDOSAUROMORPHA ORDER SPHENODONTIDA Tuatara (Sphenodon) Lizard-like animal but very much more primitive Found only in New Zealand Have a median pineal eye No copulatory organs PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) Two extant clades Dinosaura (dinosaurs and birds) Crocodylomorpha (crocodiles and extinct relatives) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) External Features of the Crocodiles Head, neck, trunk and tail are clearly discernable Long mouth and conical teeth set in sockets Tip of the snout has two small valvular nostrils Eyes are large with a nictitating membrane Opening to the ears behind the eye, under a moveable flap The vent is a longitudinal slit behind the base of the hind limbs PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) External Features of the CrocodilesBody Covering Horny scales arranged in transverse and lengthwise rows. Adult crocodiles have an almost “exoskeleton” of separate bony dermal plates There are two pairs of epidermal musk glands PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) Features of the Crocodiles- Skeleton Massive skull The long lower jaw articulates at each side of the posterior margin of the skull on the quadrat bone The ventral surface of the cranium is the long hard palate above which are the respiratory passages The vertebral column consists of 9 Cervical vertebrae (short and free ribs) 10 Thoracic vertebrae (connected to sternum) 5 Lumbar vertebrae 2 Sacral vertebrae +39 Caudal vertebrae PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) Features of the Crocodiles- Skeleton Between the sternum and the pubic bones there are seven pairs of V shaped abdominal ribs Features of the Crocodiles- Muscular System Muscles of the head, neck and limbs are well differentiated PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) Features of the Crocodiles- Digestive System Buccal cavity, large mouth,unspecialized teeth Flat tongue Oesophagus: slender tube Stomach: large spherical divided into fundus and pyloric portions Coiled small intestine Larger rectum Cloaca and vent Accessory organs to the stomach are the liver and a pancreas PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles and alligators) Features of the CrocodilesCirculatory System Heart comprises a small sinus venosus, two atria and two ventricles From blood travelling in the veins it enters the sinus venosus right ventricle pulmonary artery lungs pulmonary veins left atrium Left ventricle emerges as a pair of aortic arches. Arterial System Carotid arteries neck & head Subclavian forelimbs Aortic arch 8 dorsal aorta body cavity PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) Features of the Crocodiles- Circulatory System Venous System Anterior vena cava Collects from neck, head and forelimbs Single mid dorsal posterior vena cava reproductive organs and kidney Hepatic portal digestive tract PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) Features of the Crocodiles- Respiratory System Paired nostrils Internal nares Palatine valve, prevents water entering Glottis Larynx (cartilaginous with paired vocal cords) Tubular trachea reinforced with cartilage Divides into two short bronchi Lungs spongy with greater partitioning PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) Features of the Crocodiles- Excretory System Two flat lobular kidneys ureter cloaca Features of the Crocodiles- Nervous System/ Sense Organs Two olfactory Lobes connected to the large cerebral hemisphere Two oval optic Lobes Median pear-shaped cerebellum Medulla oblongata spread laterally Narrows into a spinal cord optic tracts/optic nerves, infundibulum and hypophysis, twelve pairs of cranial nerves and paired spinal nerves PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) Features of the Crocodiles- Senses Include Taste buds on the tongue Olfactory cells in nose Eyes (colour vision) with Lachrymal glands Ears short external auditory canal, tympanic membrane, middle ear houses one ear bone (stapes) and the inner ear consists of three semicircular canals PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA REPTILIA DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds) CROCODYLOMORPHA (Crocodiles & alligators) Features of the Crocodiles- Reproductive system Paired gonads Mature male has two round testes, a ductus deferens and a single median penis Mature female has two ovaries, an open funnel of the oviduct running to the cloaca PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds)DINOSAURA –THEROPODA AVES (BIRDS)- Characteristics Body covered with feathers Two pairs of limbs Skeleton, thin-walled bones but possessing great structural strength, fully ossified Mouth possessing a projecting beak or bill Teeth are absent Skull with one occipital condyle Neck very flexible Pelvis fused Sternum enlarged and usually possessing a median keel Tail vertebrae fused and compressed posteriorly PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA – ARCHOSAUROMORPH (Crocodiles and Birds)DINOSAURA –THEROPODA AVES (BIRDS)- Characteristics Heart four chambered Red blood cells are nucleated, oval and biconvex Respiration is by way of compact lungs attached to ribs and connected to thin-walled air sacs extending between internal organs, voice formed from the syrinx at the base of the trachea No ordinary bladder, excretion in semi solid form uric acid Females usually only have the left ovary and oviduct Twelve pairs of cranial nerves Body temperature internally regulated (homeothermy) Fertilization internal, eggs with large yolk, covered with a hard limy shell and deposited externally for incubation Cell division is meroblastic, embryonic membranes present during development. Young hatchlings are cared for by parents PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) - significant advances Insulated body coverings Complete separation of venous and arterial circulation in the heart Regulated body temperature High rate of metabolic activity Ability to fly Specialized care for young PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) - Birds are different from mammals in Body covering not of hair Mode of reproduction very different Their ability to fly (limited to bats in the case of mammals) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) -External Features Distinct head, long flexible neck, a stout spindle-shaped body or trunk The mouth is extended as a pointed bill/beak with a horny covering On the upper mandible are two slit-like nostrils The eyes are large and lateral with an upper and lower eyelid Possess a nictitating membrane Below and behind each eye is an ear opening, hidden under special feathers The two forelimbs are modified into wings The hind limbs are generally adapted to bipedal hopping, running, climbing or swimming The short tail bears a fan-like group of long tail feathers PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) -Body Covering The soft flexible skin is loosely attached to the muscles beneath One oil gland above the base of the tail The feathers grow from follicles in the skin Feathers- Distinctive epidermal structures Lightweight Flexible but resilient body coverings Create air pockets which insulate the body covering, protect the skin Create wings and tail for support in flight PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) -The Growth of a Feather Begins like the scale of a reptile The base of this feather bud sinks into a circular depression: the future follicle PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) -The Growth of a Feather The outermost epidermal cells on the bud become a smooth cornified sheath (periderm): other epidermal cells become arranged in parallel ribs, a large median one forming the future shaft, the others producing barbs The central soft, dermal pulp (original dermal papilla) contains the blood vessels and is wholly nutritive, drying on completion of growth, so that the feather is purely an epidermal structure. The pigments for coloration are deposited in cells when the growth is completed, the sheath breaks and crumbles away or is removed by preening PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) -Contour Feathers The external covering and includes the enlarged flight feathers of the wings and tail Consists of a vane, central shaft, a hollow quill attaching to the follicle. Each half of the vane is composed of many narrow parallel and closely spaced barbs joining the sides of the shaft On the proximal and distal side of each barb are numerous smaller, parallel barbules, these are provided with minute barbicels or hooklets, serving to hold opposing rows of barbules loosely together PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) -Down Feathers Young chicks and other hatchlings are covered with soft downy plumage - providing excellent insulation Down feathers have short quills, reduced shafts and a long flexible barb with short barbules Down is also present beneath the contour feathers on ducks and other water birds Filoplumes Minute, hairline feathers, sparsely distributed over the body. Grow in clusters near the follicles of some contour feathers Each has a long threadlike shaft with a few week barbs and barbules at the tip PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Bristles Hair-like growths that are modified feathers Short quill and a slender shaft Few vestigial barbs at the base Seen about the mouths Feather Colouration/Patterning/ Moult Feather's colour due to pigment deposition during growth Iridescence is due to microscopic, thin plates on the surface structure of feathers Feathers only grow in defined areas called feather tracts Feather replacement is called moult, and is usually an orderly gradual process PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA – ARCHOSAUROMORPHA (Crocodiles and Birds - DINOSAURA –THEROPODA AVES (BIRDS) –Skeleton Delicate compared to that of mammals Many of the bones possess cavities Skeleton is modified for flight, for bipedal locomotion, and the laying of relatively large eggs with hard shells Bones of the cranium are separate in young, but are fused in adults The braincase is rounded, large orbits occur for the eye Lower jaws hinge on the moveable quadrate connecting to the squamosal bone The skull articulates on a single occipital condyle with the first neck vertebrae PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Skeleton 16 cervical vertebrae are saddle shaped and permit free movement of the neck for feeding and preening The trunk vertebrae are closely fitting, they have rib articulations that are lateral in the thorax region, but are otherwise fused into a solid synsarcun to which the pelvis is attached No lumbar region is evident Four free caudal vertebrae Compressed terminal pygostyle (fused) permits movement of the tail A large thoracic cavity formed from ribs which protects the internal organs and provides a rigid support for flight and permits a slight expansion/contraction for respiration PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Skeleton The ribs are lateral and the sternum is ventral with a large median keel below which the pectoral muscles attach Each thoracic rib has a distinct vertebral and sternal part, the two joining nearly at a right angle. The first four or five thoracic ribs has a posterior flat process overlapping the ribs behind to strengthen the thorax The pectoral girdle consists of a sword-like scapula lying parallel to the vertebrae and over the ribs. The coracoid bone occurs between the scapula and the sternum Clavicle hanging ventrally from the scapula: the two clavicles are fused at their ventral ends to form the “V” shaped furcula wishbone) attaching to the sternum PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Skeleton The scapula, coracoid and clavicle meet dorsally to form a circular canal as a pulley for the tendon Each forelimb is attached high on the dorsal surface: the humerus pivoting in the glenoid fossa on the coracoid The fore-arm contains the radius and the ulna, other wing bones are modified to promote a stable support for the flight feathers There are two carpels and three digits Other carpels are fused to the metacarpals to form the carpometacarpus The second digit bears the alula The third digit is the longest (composed of two segments) The fourth digit is the innermost (composed of a single segments) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA – ARCHOSAUROMORPHA (Crocodiles and Birds)DINOSAURA –THEROPODA AVES (BIRDS) –Skeleton The principal flight feathers (primaries) are supported on digits three and four and on the carpometacarpus The secondary flight feathers are supported on the ulna The tertiary flight feathers are supported on the humerus The pelvic girdle is broad: united with a synsacrum that is widely opened ventrally, permitting the passage of large eggs The pelvic girdle consists of an anterior ileum, a posterior ischiun, a slender ventral pubis where these three bones meet, and a socket where the acetabulun receives the head of the femur The Leg consists of a -Femur Tibiotarsus Slender/incomplete Fibula Fused tarsometatarsus Patella Four toes: three in front and one behind PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) – Muscular System Birds have a greater proportion of nonsegmented muscles The contraction of the pectoral muscle moves the wing downwards and lifts the bird’s body in flight Forlimb is raised using a ventral muscle called the supracoracoideus The muscles of the femur and the tibiotarsus are used for running and perching The shank and feet contain little muscle: an adaptation to reduce heat loss Toes are moved by tendons that are connected to muscles in the upper segments of the legs. Tendons move through spaces lubricated by fluid PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA – ARCHOSAUROMORPHA (Crocodiles and Birds)DINOSAURA –THEROPODA AVES (BIRDS) –Digestive System Tongue, small and pointed with horny covering Mouth cavity: roofed with long palatal folds Short pharynx Tubular/muscular oesophagus Stomach: soft anterior proventriculus Disk shaped ventriculus or gizzard and walls of thick, dense musculature - Lined internally by epithelial secretion -, food ground up by action of muscular wall and with gravel/stones etc which function as teeth Intestine is slender and consists of several coils of the large rectum at the junction of the two caeca or blind pouches Cloaca: dorsally bears an outgrowth: the Bursa of Fabricus Large red liver is bi-lobed with a gall bladder and two bile ducts Pancreas: three ducts discharge into the anterior loop of the intestine PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Circulation Heart Four chambered, two thin-walled atria and two thick walled ventricles Completely separate venous/arterial bloodstreams Sinus venosus is incorporated in the right atrium Blood from two precaval and one post caval enters the right atriumright ventricle pulmonary artery capillaries of the Lung “oxygenated” returns via pulmonary veins to left atrium left ventricle single right aortic arch which gives off two innominate arteries each with three large branches: the carotid to the head/neck, the branchial to the wing and the pectoral to the breast. The arch continues as the dorsal aorta supplying the rest of the body A hepatic-portal system exists A renal portal system is reduced PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Respiratory System Nostrils: connected to internal nares and a slit - like glottis Trachea: reinforced with hoop-like cartilage that is partly calcified Syrinx: possess vocal muscles Bronchus: 4 lungs which are small interconnecting chambers that open into larger chambers,Parabronchi, which communicate with the bronchi and air sacs which extend between organs in the body cavity and space around the neck vertebrae and into the larger bones Air is brought in by movement of muscles between the ribs bowing laterally and by abdominal muscle Contraction of the thorax reverse the flow PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA – ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Excretory System Paired kidneys: three-lobed and attached dorsally under the pelvis From each is a slender ureter which extends posteriorly to the dorsal wall of the cloaca No bladder Semi-solid nitrogenous waste (uric acid) passes down the greeters and out of the cloaca via the vent PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) – Nervous System and Sense Organs Proportionately larger than reptiles Olfactory lobes are small (poor sense of smell) Cerebral hemispheres are large and smooth Optic lobes on the midbrain are well developed Cerebellum has an increased surface with many superficial folds Nerve cord and paired spinal nerves similar to other vertebrates The thoracic or branchial plexus serves the large pectoral muscles for flight The eyes are proportionately very large Hearing is not as acute as for mammals Chemoreception (smell and taste) is unlikely to be well developed except in a few cases PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Endocrine Gland Pituitary: below the base of the brain Thyroid: two lateral lobes beneath the jugular and at the origin where the subclavian and carotid meet Adrenals: ventral surface of the kidneys Pancreas: with islets of Langerhans Endocrine secretions of the gonad regulate secondary sexual characters (e.g. plumage) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds)DINOSAURA –THEROPODA AVES (BIRDS) –Reproductive System Male Two oval, whitish testes arising from a much convoluted ductus deferens which extends posteriorly parallel to the ureter. In many birds it is dilated as seminal vesicles before entering cloacal. Some birds have vestigial penis (nonfunctional) During breeding testis becomes enlarged, sperm accumulates in the ductus deferens and is transferred to the cloaca of the male during copulation PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Reproductive System Female System develops only on the left side, the ovary is near the left kidney: Close by is the open expanded funnel or infundibulun of the oviduct. The duct extends posteriorly to the cloaca In non-laying birds, the ovary is small containing minute eggs and the duct is small. In the season of egg-laying the ovary enlarges, a mature ovum receives a full quota of yolk before being released. The mature ovum escapes from the ovarian follicle into the abdominal cavity and enters the funnel at the top end of the oviduct (movement is by ciliated epithelium) Fertilization occurs in the upper oviduct, albumen is added by glands in the middle portion and the shell membranes are secreted by glands in the posterior part PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA ARCHOSAUROMORPHA (Crocodiles and Birds)DINOSAURA –THEROPODA AVES (BIRDS) –Reproduction (birds in general) Eggs are laid with much yolk and a hard limy shell. The shell is incubated during growth of the embryo The young hatchlings of chickens and ducks are precocial Chicks of song birds, canaries, pigeons are altricial Birds generally have different and characteristic seasons for breeding Breeding commences with a courtship display, defence of territories, followed by construction of nests, laying of eggs, incubation of eggs and the caring of the hatchlings PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Flight The spindle-shaped stream-lined body results in minimal resistance The shape of the wings and the manner in which they are moved results in forward propulsion with as little expenditure of energy as possible The wing is an air foil with a leading edge that is thick and a trailing edge that is thin The upper surface of the wing is curved convexly, whereas the lower surface is slightly concave Consequently air passing over the curved upper surface must move faster than the air underneath the wing This causes a slight negative (low) pressure on the upper surface in relation to the lower surface PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA- REPTILIA- DIAPSIDA - ARCHOSAUROMORPHA (Crocodiles and Birds)- DINOSAURA –THEROPODA AVES (BIRDS) –Flight These differences in pressure creates an upward force called lift. Increasing the angle of attack (raising the position of the leading edge in relation to the trailing edge) causes an increased amount of lift until a stall is induced A stall is where the smooth air flow is disrupted and turbulence is induced, the result is that no lift now occurs and flying is no longer possible The outer part of the major flight feathers (trailing edge) are semi flexible and can be separated, creating slots which reduce the turbulence and avoid a stall when there is a high angle of attack The shape of the wing is related to the type of flight PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA (mammals and their extinct relatives) These are the dominant large terrestrial animals and are also found in the sea in the form in Whales and in the air in the form of Bats All synapsids have a hole in the lateral surface of the skull although it is modified in modern day mammals PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA This refers to animals possessing mammary glands Possess body hair Homeothermic Endothermic Majority of mammals are viviparous There are approximately 4000 living species of mammals PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA- Evolution Evolved from mammal-like reptiles (synapsids) The synapsid line eventually leads to the therapsids, one line of which was the theriodonts. The theriodonts were half-way between a reptile and a mammal, and were small animals occupying similar life-styles to the modern day shrews The distinctive mammalian characteristics that evolved with these early mammals included An endothermic physiology Insulating hair Increased circulation efficiency More effective locomotion Viviparity Greater parental investment in their young PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA- Evolution Extinction of the dinosaurs opened up many "niches" on land, sea and in the air and an explosive species radiation of mammals followed during the Cenozoic period The mammals are divided into the Monotremata (egg-laying primitive mammals) Marsupialia (pouched animals) Eutheria (placental mammals) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MOMOTREMATA (egg laying mammals) These are the most primitive, surviving mammals of today Before hatching the embryo lives on the yolk contained within the pliable egg After hatching the young are nourished by milk from the mother's mammary glands There are no teats; the young lap up milk as it oozes from the tubular glands There are five living species of spiny anteater (Echidna) and one species of duck-billed platypus (Ornithorhynchus) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MOMOTREMATA They left the main mammalian stock far back in the Mesozoic era. The skull has many primitive and/or reptilian features The vertebra are very like that of reptiles, especially the cervical vertebrae which bear separate ribs as occurred in the synapsid reptiles The differentiation of the atlas, axis and seven cervical vertebrae is the least for any mammalian group There are 17 and 16 thoracic vertebrae for the platypus and the spiny anteater respectively Limbs are supported on pectoral and pelvic girdles, and more similar to those of a reptile, and have far less muscle than the average advanced mammal Both the platypus and spiny anteater are highly specialized animals and have no teeth in their adult phase, therefore we cannot deduce the primitiveness of these PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MOMOTREMATA -reproduction The pattern of reproduction is unique amongst mammals and involves laying of eggs They show the beginning of the process of substitution of post-natal nutrition from ovarian nutrition Eggs are incubated for 10 days. The female platypus makes long burrows where the nest is made. At birth the young monotremes possess an “egg tooth” a unique character for mammals After incubation and hatching the young enter the pouch and are fed by milk. Postnatal care obviously preceded the egg laying characteristic Both the echidna and the platypus produce milk from about 120 large specialized sweat glands on the ventral abdomen. There are no ducts uniting this secretion. ALL other mammals have nipples which do unite such secretions PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MOMOTREMATA Have hair suggesting that Mesozoic mammals and even synapsid mammals had made progress with temperature regulation Able to regulate their body temperatures at around 32 °C in an ambient temperature range of 5 to 30 °C A curious feature found in monotremes is a grooved erectile poison spine on the tarsus of the male The circulation system is relatively advanced In conclusion the monotremes are mammals with respect to their brain, hair (insulation), warm-bloodedness, heart, larynx and diaphragm. However, they have obvious reptilian affinities with respect to their ovoviviparous reproduction and their skeleton PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MARSUPIALIA (Kangaroos, Wombats, Metatheria etc) These are the pouched animals 250 living species Show a strong anatomical resemblance to placental animals Marsupials diverged from an early stage in the evolution of the mammals The marsupials parallel the adaptive radiation accomplished elsewhere by the placental mammals except for forms like bats, whales or seals Their features are specialized suggesting not a single stage on the way to the placental evolution, but a specialized side branch There are 172 marsupial species in Australia There are successful representatives in North and South America e.g. opossums which have survived in competition with the placentals PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MARSUPIALIA Temperature control less well developed than in the placental animals Learning skills, visual discrimination and problem solving is equal to that of similar placental mammals The skull is similar to that of the primitive placentals such as the insectivores, with a rather small cranium The teeth are not easy to interpret the primitiveness of the group. The incisor teeth are more numerous than in placental mammals There are three and four premolar and molar teeth respectively in each side of the upper or lower jaw whereas in placental there are four and three premolars and molars PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MARSUPIALIA The skeleton is generally similar to that of the placentals and has greatly changed from the monotremes and the reptiles The thoracic region consists of 13 pairs of rib-bearing vertebrae as in placentals and there are usually 7 lumbar vertebrae The pectoral girdle is similar to that of the placentals The pelvic girdle differs with the presence of the epipubic bones and is similar to that of the monotremes The hands usually carry five digits and armed with claws, but the number of toes is often reduced and may bear hoof-like structures PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MARSUPIALIA- Marsupial Reproduction The pattern is very different to that of placentals. Pregnancy is very short Hormones normally associated with development during pregnancy of placentals can be removed in marsupial animals without terminating the pregnancy There is no special immune suppressant system protecting the foetus from the mother’s antibodies as has to occur in placental mammals The life of the mother is not interrupted by any dramatic birth The marsupial mother risks less and retains more freedom After birth the young have long protection in the pouch These young can be easily abandoned if the mother is stressed PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MARSUPIALIA- Marsupial Reproduction The marsupial egg has a very unequal cleavage, there is virtually no placental development and instead uterine milk may be taken up by the yolk sac The embryo may be born as young as 8 days from conception (e.g. the opossums) At birth the young embryo will leave the vaginal opening and crawl to the pouch and become attached to the teat The embryo has well-developed forelimbs and nervous system. Its mouth and olfactory system are well developed and are highly specialized for suckling In the pouch the neonate attaches to the teat, and the sides of the lips grow around the teat, making it almost impossible to remove PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA MARSUPIALIA- Marsupial Reproduction Milk is then injected into the neonate The length of time in the pouch is variable between marsupial forms. A wallaby may remain some 8 to 9 months in its mother's pouch Marsupials also have delayed implantation Copulation can take place within a day of birth, but an 80 cell blastocyte can remain dormant for up to 11 months Suspension of development is controlled by suckling of the young in the pouch PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA (PLACENTAL MAMMALS) – Origins Earliest forms found in the cretaceous period and were all small insect-eating forms During the Palaeocene both carnivore and primates evolved, in the Late Cretaceous/Palaeocene the ungulates had evolved PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA - Characteristics of Placental Mammals Possess neither marsupial bones nor a pouch The foetus develops directly and entirely within the body of the female The embryo is connected indirectly to the mother via a placenta to the wall of a uterus A placenta permits the embryo (called a foetus) to remain in contact with its mothers uterus for a long time A placenta is a flat disk that becomes attached to the wall of the uterus and is connected to the foetus by an umbilical cord The junction of the placenta with the uterine wall is highly convoluted this is where the exchange takes place Blood does not pass from the mother to its foetus, but oxygen from her lungs and nutrients derived from her food diffuse across the junction to the foetus The waste products produced by the foetus are absorbed by the mother’s blood and then excreted through her kidneys PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA - Characteristics of Placental Mammals The placental foetus promotes the secretion of hormones which suppresses the mothers sexual cycle during pregnancy The foetuses tissues are not the same genetically as the mother's since it contains genetic material from the father. When it becomes connected to the mother's body, it risks immunological rejection Placental mammals can stay in the uterus until they are fully mobile and care carries on after birth The placental breeding technique spares the young the hazardous journey outside their mother’s body at a very early age Placentals are the most widespread and diverse modern mammals PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA INSECTIVORA - small, primitive insect-eating Order insectivora includes are variety of insect-eating forms. The moles which live in underground tunnels, hedgehogs which are spiny and roll into a ball as a defence against predation, the desmans which swim with webbed feet and have a long snout which act as a snorkel and shrews which are small active predators on insects. In Madagascar there is a group called the tenrecs, which are extremely diverse being aquatic and terrestrial and some even resemble hedgehogs PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA DERMOPTERA - flying lemurs Order dermoptera (= skin-winged) evolved from insectivores and are commonly called flying lemurs. These animals do not have true wings, but a furred skin extending from behind the ears outwards to the digits, along the sides of the body to the tail. These flaps of skin only allow them to glide rather than to fly PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA MACROSCELIDA - elephant shrews Order Macroscelidia are also closely allied to the insectivores and are commonly called the elephant shrews which are highly specialized for running with very large hind limbs. Their eyes are better developed than the poorly sighted insectivores PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA SCANDENTIA - tree shrews Order scandentia include animals called tree shrews (Tupaia) They are an intermediate group between the insectivores and the primates (apes and monkeys) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA CHIROPTERA – bats Order chiroptera includes the only true flying mammals the bats. Although they have obvious insectivore origins, their entire bone structure is modified for flight. The wings are formed by the elongated finger bones over which is stretched a naked skin membrane. Bats can be divided into small carnivore forms and large fruit eating forms. The small carnivorous bats hunt using echolocation. These bats emit high frequency clicking sounds, which strike objects and the echo is returned to the bats using its large ears to receive them PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA PHOLIDOTA – pangolins Order pholidota are commonly called pangolins or scaly anteaters. They possess large scales which are modified hairs and shield the animal form predators. They also have no teeth, but do have an exceptionally long sticky tongue (anchored to the pelvis) which is used to eat ants and termites PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA TUBULIDENTATA – aardvarks Order tubulidentata are commonly called aardvarks and specializes in eating ants and termites and only occur in southern Africa. Like the pangolins they have long sticky tongues, but they are not toothless and possess five upper and four lower cheek teeth on each side of their jaws (incisor and canines are absent) PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA EDENTATA – ant eaters and sloths Order edentata are a varied group that are confined to the new world (North and South America) and includes anteaters, sloths and armadilos. Anteaters are toothless and have similar adaptations to pangolins and aardvarks for eating ants and termites (convergent evolution). Sloths and armadillos lack incisors and canines, but do have simple cheek teeth that lack enamel and grow continuously from their roots. The armadillo has 100 such teeth. The armadillo has bony plates on its back for protection against predators. Sloths are slow moving furred animals that live up in the trees. The prehistoric ground sloths reach immense sizes up to 5 metres (Megatherim) as did some armadillos (Glyptodon) whose bony plates formed a carapace that was about 1,6 m in length PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA PRIMATES - lemurs, tarsiers, monkeys, apes, humans Order primates includes lemurs, monkeys, apes and man. They are essentially tropical in distribution and evolved from ancient, arboreal insectivores sometime in the late Cretaceous period. Their tree-dwelling existence demanded dextrous limbs, hands and fingers (including an opposable thumb), close set eyes with overlapping fields of vision for depth perception, excellent eye-hand co-ordination and extended parental care for their young. They are characterized by considerable development of the brain, a process that eventually resulted in the evolution of man. The earliest ape-man was Australopithecus Africans, a small-brained formed, followed in sequence by the larger brained Homo hails (who used tools) and Homo erectus (had use of tools and fire) . From this stock two forms of modern man Homo sapiens evolved, one called Neanderthal man survived in cold northern climates during the ice ages, the other form survives today as Homo sapiens sapiens PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA RODENTIA - gnawing animals except rabbits and hyraxes Order rodentia, is the most abundant of placental mammal forms and includes, rats, mice, mole-rats, squirrels (including forms that can glide like the flying lemurs), porcupines, prairie dogs. They are all characterized by a long pair of prominent upper and lower incisors. These teeth are kept sharp through differential wear of their enamel and are very effective for gnawing. Canine teeth are absent PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA LAGOMORPHA – rabbits Order Lagomorpha includes rabbits and hares and all are strictly ground dwelling forms. Despite their similarities to rodents they are not closely related. Like rodents they do have continuously growing incisors with a total of four in the upper jaw (two of which are reduced) as opposed to only two in the rodents PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA CETACEA - whales, dolphins and porpoises Order Cetacea includes the most aquatic forms of mammals; the whales, dolphins and porpoises. The blue-whale is the heaviest animal ever to have lived on the earth. Their modifications for an aquatic existence include loss of the hind-limbs, forelimbs have developed into flippers, the tail is flattened and most have a dorsal fin, the nasal opening (blow hole) is on the top of the head, no external ears, hair is almost absent and insulation is by way of blubber. They can be divided into toothed forms which are active predators, and toothless forms which have long plates of stiff hair - like material that forms a baleen which acts as a sieve to filter plankton. Cetaceans are intelligent , social animals, which can communicate with each other and use echolocation to navigate the waters they swim in. They probably evolved from insectivores in the early Cenozoic PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA CARNIVORA - modern meat-eating Order Carnivora are meat eating placentals that have prominent canine teeth. These are long, curved, pointed, very strong and particularly effective for stabbing. Most carnivores are predominantly meat-eaters and also have short, but sharp incisor teeth for nipping. The fourth upper premolar and first lower molar teeth have become specialized into shearing blades called carnassial teeth (these are absent in aquatic carnivores such as seals). Cats, dogs, lions leopards, cheetahs, hyenas mongooses, bears, pandas (secondarily adapted to an herbivorous diet), seals, walruses, sea lions and elephant seals are all members of Carnivora PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA PROBOSClDEA – elephants Order Proboscidea is represented by two species of elephant. Elephants are characterized by an immense size, and a long trunk that is really a highly modified nose. The tusks are elongated upper incisors. Elephants have no canines or premolars and their molars are used to grind up herbaceous food and are replaced successively from behind as they wear down. They are naked skinned since they live in tropical climates and their large ears act as radiators to dissipate excess heat. Their extinct relatives, the mammoths, had fur and had colonized cold, northern latitudes until they were hunted to extinction by prehistoric man PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA HYRACOlDEA – hyraxes Order Hyracoidea includes the hyrax or dassie, which although superficially resemble rodents and lagomorphs, are actually more closely related to elephants. They are herbivores with continuously growing chisel-shaped incisors. There feet are completely distinctive, there being four toes on the front feet, three on the hind, terminating in small, hoof like nails PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA SIRENlA - seacows, manatees and dugongs Order Sirenia are the aquatic dugongs and manatees (sometimes called sea cows). They are large, hairless herbivores (possessing only functional cheek teeth) that have their forelimbs modified into paddles and no hind limbs. Possibly share a similar ancestry with elephants PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA PERISSODACTYLA odd-toed ungulates Order Perissodactyla are odd-toed, hoofed animals (=ungulates) and include, horses, asses, zebras, tapirs (all having a single digit) and rhinoceroses (having three digits). They are all large herbivorous animals, and many have elongated limbs for faster running speeds (horses and zebras). Their cheek teeth are massive, strong and modified for grinding plant material PHYLUM: CHORDATA CLASS: SARCOPTERYGII TERRESTRIAL VERTEBRATES AMNIOTA SYNAPSIDA CLASS MAMMALIA EUTHERIA ARTIODACTYLA - even-toed ungulates Order Artiodactyla are the even-toed hoofed animals and include antelope, deer, hippos, giraffes, camels, llamas, cattle, sheep, pigs and goats. These are generally herbivorous, and with the exceptions of pigs and hippos are ruminant animals (having a large fore-stomach called a rumen in which plant fibres are initially digested). Many are grazing animals and occur in enormous herds and also have elongated legs for faster running and to avoid predation. Their cheek teeth are large, complex and designed for grinding plant material (upper canine and incisors are reduced or absent