Zoology Final

Descrição

(Fall 2013) FlashCards sobre Zoology Final, criado por j_sunga em 21-10-2013.
j_sunga
FlashCards por j_sunga, atualizado more than 1 year ago
j_sunga
Criado por j_sunga aproximadamente 11 anos atrás
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Resumo de Recurso

Questão Responda
Groups of Lissamphibia (3) (Modern Amphibians) Urodeles, Anurans, Caecilians
Pedicellate Teeth suture dividing base (pedicel) from tip (crown)
Anuran characteristics (4) Absence of tail, jumpers, tympanum usually present (hearing), external fertilization
Anuran Skull traits open, large jaws, flattened, reduced palate
Anuran Appendicular skeleton robust pectoral girdle, radius/ulna fused, tibia/fibula and ankle bones fused, lengthened hind limb
Urodele characteristics (6) Paired limbs, long tail, no tympanum, suction feeding in water, projectile tongue on land, external or internal fertilization
Urodele skeleton flattened skull with large orbits, 10-60 vertebrae, poor ossification, reduction/loss of bone
Caecilian characteristics (6) No limbs or girdles, skull solid and compact, restricted to tropical habitats, internal fertilization, 60-285 trunk vertebrae, tail is short or absent
competing theories on lissamphibia origins (3) Monophyletic origin within lepospondyls, Monophyletic origin within temnospondyls, Polyphyletic origin with caecilians from lepospondyls and anurans/urodeles from temnospondyls
Early amniote characteristics small, ossified skeleton, jaws/teeth/neck improved for predation
amniote jaw musculature modification strong force when open wide and now when nearly closed
amniote key features (2) Temporal fenestrae and cleidoic egg
Types of fenestrae arrangements (4) anapsid (0), synapsid (1 lower), diapsid (2), euryapsid (1 upper)
extraembryonic membranes (3) chorion - embryo and yolk sac, amnion - water, allantois - waste
atlas and axis vertebrae functions maintain strength while increasing mobility, skull-atlas = nodding and tilting, atlantoaxial = twisting
strategy in vertebral column to overcome gravity in amniotes abdominal muscles for archer's bow shape and neck ligaments form violin bow
Amniote changes to limb posture limbs moved under the body, rotated inward
Classes of Synapsid Amniotes (4) Pelycosaurs, Therapsids, Cynodonts, Mammals
Pelycosaur traits sprawling posture, relatively posterior orbit, single temporal opening in cheek, moderate size, some with broad sail of neural spines
Therapsid traits enlarged temporal fenestrae, reduction of palatal teeth
Groups of therapsids (3) dinocephalian, dicynodont, gargonopsians
significant cynodont modifications jaw muscles allowing chewing, two occipital condyles, semi erect position of hind limbs, nasal turbinates, secondary palate
Characteristics of mammals extended care of young, hair, milk from mammary glands, increased brain/body size ratio
skeletal characteristics of mammals jaw joint between dentary and squamosal, previous hinge bones contribute to ear, specialized teeth
Groups of Living Mammals (3) Monotremes, Marsupials, Placentals
Monotreme characteristics no nipples, no external ears, embryoes in leathery eggs, no teeth in adults
Major groups of Placentals (3) Afrotheria (Africa), Xenarthia (South America), Barcoeutheria (North America and Eurasia)
possible drivers of adaptive radiation of mammals (4) extended parental care, greater intelligence, versatile feeding mechanisms, locomotory adaptation
Anapsids early and recent mesosaurs, pareiasuars, testudines, captorhinids
testudine characteristics hard shell, solid toothless skull, dorsal carapace and ventral plastron made of fused bony elements covered by keratin scutes
diapsid gliders wings of horizontal ribs
squamate skull adaptations (2) loss of temporal bars, cranial kinesis
types of crawling locomotion (4) lateral undulation, concertina movement, sidewinding, rectilinear movement
Ichtyosaur characterstics (5) fish/dolphin-like, fast predator, good vision, large (15m), living young
major trend of archosauromorphs bipedal locomotion
Saurischians girrdle bones radiate outwards from centre (sauropodomorph and theropods)
Ornithischian ischium and part of pubis are parallel, projecting backward
skeletal adaptations of giant dinosaurs (3) shortened pillar like limbs, reduction/shorting of wrist/fingers and ankles/toes, elongated necks
modifications allowing human bipedalism straight knee joint, longer leg bones, short wide pelvis, sideways hip joint, feet/toes, short lower back, head held vertically
ape characteristics (3) no tail, large braincase, mobile shoulder joint
new world vs old world monkeys new world - prehensile tail and flat nose
promisian groups (4) lemurs, lorises, tarsiers, galagos
Primate characteristics (4) agile in trees, large brain, binocular vision, enhanced parental care
hypotheses for bird flight evolution (3) gliding ability, bipedal ancestors, aerial ambush attacks
distinguishing characteristic of birds feathers
main groups of ornithischians (4) thyreophorans, ornithopods, pachycephalosaurs, ceratopsians
general trends from primate to humans increased brain size, loss of tooth gaps, bipedalism, tools, gracile skeleton, prominent chin, culture
characteristics of Neanderthalis compact and robus, advanced culture
reason for small gills in mountain salamanders cold water has more dissolved oxygen, less surface area needed
muscles controlling internal gill ventilation in tadpoles interhyoideus (up), orbithyoideus, ceratohyal cartilage
requirements for cutaneous respiration low keratinzation (moisture needed), anastomosing or folds/papillae for surface area
buccal pump in frogs in through nares, air from lungs expelled, air from mouth into lungs, held as air in mouth expelled
alveoli blind ended respiratory sac
air flow in bird lung dorsobronchus→parabronchus (in lungs) → ventrobronchus (base of lungs)
aspiration pump in mammals diaphragm anterior to liver and rib cage
bird vs. mammal ventilation birds have unidirectional air flow and cross-current exchange system
anuran heart identifying characterstic ventricle undivided (unique among air breathers)
characteristic of lungless salamander hearts interarterial septum reduced/absent (all respiration through skin)
turtle/squamate heart divided atrium and ventricle, ventricle has 3 interconnected compartments for bypass while diving
adaptation in mammalian heart absence of cardiac shunt, allows different arterial pressure
post cava new vessel in amphibians, drains most of blood from kidneys
jugular anterior cardinal vein
amniote venous system renal portal absent, anterior through precava, posterior through postcava, hepatic portal present
embryo respiration in sauropsids and basal mammals through chorioallantoic membrane and permeable shell membrane/shell pores
embryo respiration in eutherian mammals placenta rich in blood vessels
types of tooth attachment acrodont (outer rim), pleurodont (innerside), thecodont (bone sockets)
Polyphyodont teeth replace continuously throughout life
human tooth formula 2-1-2-3
regions of stomach (4) esophageal, cardiac, fundus, pyloric
strategies for increased intestinal surface area (3) caeca, spiral valve, foldings
head kidney degenerated pronephros limited to hemopoietic/lymphoid and endocrine functions
functional unit of kidney nephron
hindgut location of urine reflux in amphibians, birds and reptiles to aid in recovery of electrolytes
sources of gonad development sex cords from mesomere genital ridges, gametes from primordial germ cells
stroma matrix of connective tissue containing gonads
Mullarian duct paramesonephric duct/oviduct
reason for fish urinary bladder intraspecific communication and storage of sex pheromones
cells of the nervous system neurons, glia (oligodendrocytes, schwann cells, astrocytes, microglia)
Spinal Cord Collection of neurons and axons tracts involved in transmission of information over long distances and establishment of simple/local reflexes
Spinal Nerves dorsal root receive afferent fibres from sensory neurons with somata located in dorsal root ganglion, ventral root contains motor neuron efferent fibres on their way to their target
autonomic nervous system division of PNS controlling visceral activity
Enteric Nervous System involved in controlling activity of muscles of alimentary canal (move food through digestive tract)
evagination of pallium expansion of tissue around ventricle
eversion of pallium dorsal portion bulges towards outside, ventricle opens to outside (disappears) (teleosts)
cortex laminated nervous tissue of cerebral hemisphere (forebrain)
Triune Brain Hypothesis of cortex evolution No additions of whole cortical regions, just modifications of what already existed
sensory receptor transforms stimulus to electrical impulse, composed of dendrites associated with amplifying structures
Types of Chemoreception (3) olfaction, vomeronasal, gustation
ganglion cell output neuron of the eyes
focusing in water and air water - change lens position, flat cornea. air - change lens shape round cornea
adaptations to dim light large eyes, few cones/tightly packed rods, tapetum lucidum
types of mechanoreceptors meissmer and pacinian corpuscles, hair movement, free sensory, proprioception, lateral line, ear
macula sensory cell patches similar to neuromasts that register head position (gravity and linear acceleration)
crista base of semicircular canals, register angular acceleration
auditory macula basilar papilla in most, organ of corti in mammals
traits unique to mammal ear (5) small oval window, lever system of ear bones, organ of corti, long cochlea, external ear

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