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AMPHIBIANS – A Tetrapod. Delivered By SHITTU Olalere Dept of Zoology University of Ilorin, Nigeria. I. Movement Onto Land. Amphibians are vertebrate transition to land; other organisms like plants, gastropods, and arthropods made transition earlier
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AMPHIBIANS – A Tetrapod Delivered By SHITTU Olalere Dept of Zoology University of Ilorin, Nigeria
I. Movement Onto Land • Amphibians are vertebrate transition to land; other organisms like plants, gastropods, and arthropods made transition earlier • Since organisms made mostly of water, dangerous transition • Also had to adapt to different oxygen content, density, temperature regulation, and habitat diversity
II. Evolution of Terrestrial Vertebrates • A. Devonian Origin • Mild temperatures, and periods of flooding or droughts creating unstable sources of freshwater • Fish with lungs were better able to survive • Early fish fossils that could crawl along mud with “walking fins:” Eusthenopteron, Acanthostega, and Ichthyostega. • Land ad aptations include: skull, teeth, stronger pectoral and pelvic girdles, jointed limbs, stronger backbone, muscles to support body in air and elevate head, more protective rib cage, ear structure, and longer snout • Many fossils have more than 5 digits
Limbs with digits strengthened limb girdles ? “Fish” Tetrapod
1st Terrestrial tetrapods – Ichthyostegans, Labyrinthodonts †Acanthostega Early tetrapod trackway
Labyrintodonts Ichthyostega
B. Carboniferous Radiation • Uniformly warm and wet • Tetrapods radiated in swampy, fern areas eating insects, larvae, and invertebrates • Temnospondyls form lineage from which modern amphibians are derived; they have 4 digits on forelimbs • Became better adapted to aquatic life; bodies flattened, some like salamanders developed weaker limbs and stronger tails, and frogs developed webbing on hind limbs for better swimming
III. Modern Amphibians (Class Amphibia) • A. Diversity • Over 4200 species • Ears redesigned • Remain tied to water since eggs are laid in water and larvae have gills • Thin skin loses moisture rapidly restricting them to moist habitats • Ectothermic which also restricts habitat and range
B. Caecilians: Order Gymnophiona • 160 species live in tropical rainforests of South America, Africa, and Southeast Asia • Elongate, limbless, and burrowing • Some larvae develop in folds of body and in others develop in oviduct, eating it for nourishment
C. Salamanders: Order Caudata Characteristics • 360 species living in northern temperate areas • Most are small, under 15 cm, but Japanese giant salamander is 1.5 m long • Limbs are at right angles of body, with fore and hind limbs of equal length • Burrowing and some aquatic species have lost limbs • Carnivorous, eating high fat and protein foods so do not store much fat or glycogen
C. Salamanders: Order Caudata • Aquatic: • “Taste” chemicals in water • Vibrations – Retain lateral line system • Terrestrial: • Smell – Olfactory epithelium (volatile) • Smell – Vomeronasal organ (Non-volatile)
C. Salamanders: Order Caudata • Sexually dimorphic (larger in males) • Courtship / Identification (species / sex / individual) • Highly advanced in Plethodontidae • Nasolabial Grooves = Non-ciliated grooves; upper lip to nares • Aids in collection / delivery of chemical cues (capillary action) • Sexually dimorphic (esp. during reproductive season)
Amphiumidae(Amphiums): Aquatic: SE United States Proteidae(Waterdogs): Aquatic: Eastern United States / SE Europe Amphibians • terrestrial egg-laying • aestivate Morphology: • Eel-like; maintain four reduced limbs • Paedomorphic; lack gills (lungs present) Habitat: • Sluggish streams / rivers; swamps Reproduction: • Internal fertilization; female nest guarding • dissection specimen • nocturnal Morphology: • Paedomorphic; feathery gills / caudal fins Habitat: • Lakes / streams • Limestone caves (drastic reduction in numbers) Reproduction: • Internal fertilization; ♂ / ♀ nest guarding
Pheromone: Chemical cue that affects the behavior and / or physiology of a conspecific Amphibians Plethodontidae(example = Ensatina escholtzii): Anatomy: • Constriction at tail base = tail autotomy • Very costly (tail = large fat reserve) • ~ 10 – 12% tail regeneration (~ 2 years) Terrestrial: North / Central / South America & Europe Habitat: • Prefers cool forests with litter / dead trees • Tolerates logging better than most plethodons Reproduction: • Mating begins (Nov.) and ends (March) with rains • ♂ use hedonic glands / pheromones to attract ♀ • Methods of pheromone administration: • Slap ♀ nares with hedonic gland (video) • Innoculate ♀ with sharp teeth • Elaborately patterned courtship “dance” • “Tail straddle-walking” (unique to plethodons) • ♂ repeats dance (~ 1 – 5 hours) • Pathway / movement unique to each species
Sperm Cap Gelatinous Base Amphibians Plethodontidae(example = Ensatina escholtzii): Reproduction: • ♂ lays down spermatophore; ♀ picks it up (video) • ♀ lay 8 – 12 eggs (~ 5 mm) • Terrestrial – in logs; under logs; in burrows Terrestrial: North / Central / South America & Europe • ♀ guards eggs ( predation / fungal infection) • Direct development of eggs (~60 – 120 days) Growth / Maturation: • Sexual Maturation ~ 4 years • Life Span ~ 10 years (best guess)
Habitat: Anti-predator Display Amphibians Rhyacotritonidae: (example = Rhyacotriton olympicus) Anatomy: • Full metamorphosis • No operculum / opercular muscle ( hearing) • Highly reduced lungs (cutaneous respiration) Terrestrial: NW United States • Cold, clear streams / seepages / waterfalls • Very desiccation intolerant • Low heat tolerance (susceptible to logging) Reproduction: • Internal fertilization • Spermatophore deposition • Tail-wagging display • Aquatic egg-laying • No nest guarding Growth / Maturation: • Sexual Maturation ~ 4 years • Life Span ~ 10 years (best guess)
Dicamptodontidae Rhyacotritonidae Plethodontidae Ambystomatidae Salamandridae Amphibians Larval Anatomical Specializations: Stream Larvae Pond Larvae • High body profile • broad tail fin extending up to head • long, plume-like gills • Only front legs at hatching • Depressed body profile • Narrow tail fin (not onto trunk) • Short, thread-like / curly gills • All four legs at hatching
Habitat: Red-spotted Garter Snake “The Arms Race” Amphibians Salamandridae(example = Tarichagranulosa): • Prefer older growth forests during “newt” phase Warning Coloration: • Flashes tail & brightly colored stomach Terrestrial: North America / Europe / NW Africa / Asia Chemical Defense: • Tarichatoxin (non-protein – VERY poisonous) • Neurotoxin – blocks NA+ channels (paralysis) • Small dose lethal to birds / mammals • Large dose lethal to humans
C. Salamanders: Order Caudata • Hearing – limited high frequency (no ear drum); primarily ground vibration • Vision – acute; especially in Plethodontidae
Sirenidae (sirens): Aquatic: SE United States / NE Mexico Cryptobranchidae(Hellbenders): Aquatic: Central China / Eastern United States Amphibians • Nocturnal • Vocalization Morphology: • Eel-like; lack hind limbs (lack pelvic girdle) • Paedomorphic; gills present Habitat: • Swamps / lakes / marshes (slow-moving water) Reproduction: • External fertilization; female nest guarding • largest individuals • live 50+ years Morphology: • Dorsal-ventral compressed body (paedomorphic) • Multiple folds in skin (cutaneous respiration) Habitat: • Clear, cold mountain streams / lakes • Severely reduced ranges (loss of habitat) Reproduction: • External fertilization; Males = “den masters”
Breeding Behavior • Fertilize eggs internally • Terrestrial species deposit egg clusters under logs or in soft earth; eggs hatch out to mini adults • Most salamanders lay strings of eggs in water; larvae hatch with gills, and then may turn into terrestrial or aquatic adults • Newts have “red eft” stage with a terrestrial juvenile, that then turns into aquatic, breeding adult • Some newts stay entirely aquatic
Respiration • Thin skin easily exchanges gases; also use mouth cavity • At various stages may also have gills, lungs, both gills and lungs, or neither • If lungs are used, they are present from birth, but only become functional following metamorphosis; hold nostrils above water to breathe • Larvae hatch with gills, and lose them following metamorphosis, along with fin-like tail; if a lineage does not undergo metamorphosis, it retains these characteristics • Those in terrestrial family Plethodontidae have no lungs and use only skin
Paedomorphosis • Preservation of larval features into adulthood • Trend found in salamanders • Some never metamorphose, like the mudpuppy • Others typically may not, but can change if conditions change (typically in dry conditions) • Another example is Ambystoma tigrinum, which stays in an axolotyl stage; can metamorphose if treated with thyroid hormone • Some have partial paedomorphosis, retaining larval characteristics but switching to lungs
D. Frogs and Toads: Order Anura Characteristics • 3450 species • Evolved during Jurassic Period, 150 mya • All have tailed larval stage but are tailless as adults; none retain larval characteristics as adults • 21 families • Family Ranidae, larger frogs of North America • Family Hylidae, tree frogs • Family Bufonidae, toads
Habitat and Distribution • 260 species of genus Rana found in temperate and tropical areas • Frogs and toads are found in damp forested floors, although in tropical rainforests may live entire life in 1 tree • Swamps, ponds, streams • Frogs and toads are declining worldwide and becoming patchy in distribution; cause is unknown
Life Cycle • Solitary except during breeding season • Spend breeding season swimming around in water • During winter, burrow into mud to hibernate, using energy from stored fat and glycogen • Also accumulate glucose and glycerol in tissues to create an “antifreeze” to prevent tissues from forming ice crystals • Easy prey; protects themselves by concealment, poison glands, and aggression
Integument and Coloration • Thin, moist, and attached to body in several points • Epidermis contains keratin; this is thicker in more terrestrial ones • Inner dermal layer has mucous glands, which secrete waterproofing agents, and serous glands, which secrete poisons • Dendrobatid frogs from South America secrete highly toxic poisons
Integument and Coloration • Chromatophores are pigment cells that produce skin color • Xanthophores are upper pigments with yellow, orange, and red • Iridophores are middle layer with silvery light-reflecting pigment that gives iridescent quality • Melanophores are deepest layer with brown or black melanin • Green color is produced by interactions among all of these pigments • Frogs can adjust color to camouflage themselves
Skeletal and Muscular Systems • Well developed endoskeleton of bone and cartilage with changes to allow for jumping and swimming • Front of skull is light weight and flattened • Limbs have 3 joints: hip, knee, ankle • Foot has 5 rays on hind limb, and 4 on front limb; digits jointed
Respiration • Use skin, mouth, and lungs with skin being critical during hibernation • CO2 is mainly lost across skin whereas O2 is mainly absorbed through lungs • The movement of air into lungs is somewhat passive, depending on movement of throat
Vocalization • As air enters and leaves lungs, passes over vocal cords, on way to vocal sacs • Both males and females have vocal cords but males have a more developed larynx • Songs are unique and characteristic of the species
Circulation • 6th aortic arch present in gills was converted into pulmonary artery to lungs • Frog heart has 2 atria and 1 single ventricle • Blood from body enters right atrium and blood from lungs enters left atrium; both deoxygenated and oxygenated blood mix in ventricle • Valves do control blood though so mainly deoxygenated blood goes to lungs and oxygenated goes to body
Feeding and Digestion • Carnivorous • Catch prey with tongue that is hinged at front of mouth • Free end is glandular with sticky secretions that cause prey to adhere • Teeth are used to hold prey, not to chew or bite • Digestive tract produces enzymes to break down carbohydrates, proteins, and fats • Tadpoles are herbivorous and have longer tracts to digest plant material
Nervous System and Senses • a. Brain • Consists of 3 parts: forebrain (sense of smell), midbrain (vision), and hindbrain (hearing and balance) • Forebrain has cerebrum, but not really used. Olfactory lobe most important part • Midbrain has optic lobe • Hindbrain has anterior cerebellum (not used) and posterior medulla which controls auditory reflexes, respiration, swallowing, and circulatory system
b. Vision • Dominant sense in many amphibians (except caecilians) • Eyelids keep eyes moist, protected, and free of dust; upper is fixed and lower has clear nictitating membrane • Cornea and lens bend light to focus image on retina, with both rods and cones for color vision • Iris changes to adjust to different light levels • At rest, frog focuses on distant objects
c. Other Senses • Pressure sensitive lateral line is only found in larvae and aquatic adults • Ear is sensitive to airborne sounds; tympanic membrane passes vibrations to structure similar to cochlea • Chemical receptors in skin, on tongue, and in nasal cavity
Reproduction and Development • a. Egg • In spring, males migrate to same pond or stream and call females • This is dependent on temperature, humidity, and hormonal changes • Male clasps female in water and as she releases eggs, male discharges sperm over them • Eggs usually laid in masses • Eggs absorb water and swell; development begins immediately • Tadpoles hatch in 6-9 days
b. Tadpoles • Tadpole has horny jaws for grazing and a ventral adhesive disc for clinging to objects • 3 pairs of external gills develop into internal gills covered by flap on right side fused to body wall and a spiracle on left side • Water flows through mouth, over gills, and out spiracle
c. Metamorphosis • Hind legs appear first; forelimbs are temporarily hidden by operculum • Tail is reabsorbed • Intestine becomes shorter • Mouth transforms into adult version • Lungs develop and gills reabsorbed
Problems with Terrestrial Living Solutions
Solutions Senses Olfaction and hearing
Solutions Senses Hearing