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Biology Chapter 25 - Early Tetrapods and Amphibians Slide 1 of 47 Copyright Pearson Prentice Hall End Show Amphibians - first land animals Animals that have gills and lungs during their life cycle… “transition animals” From Water to Land Movement from water to land is perhaps the most dramatic event in animal evolution Slide 2 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians What Is an Amphibian? What Is an Amphibian? An amphibian is a vertebrate that, with some exceptions: • lives in water as a larva and on land as an adult • breathes with lungs as an adult • has moist skin that contains mucous glands • lacks scales and claws Slide 3 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Evolution of Amphibians How are amphibians adapted for life on land? How have they evolved? Slide 4 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Evolution of Amphibians Lobe-finned fishes (lungfish) are the sister group to tetrapods Differences in the Tetrapods: Have stronger backbone Muscles to support the body in air Muscles to elevate the head Stronger shoulder and hip girdles More protective rib cage Modified ear structure to detect airborne sounds Foreshortening of skull Longer snout Slide 5 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Evolution of Amphibians Evolution of Amphibians The first amphibians appeared about 360 million years ago. The transition from water to land required that the terrestrial vertebrates had to: • breathe air • protect themselves and their eggs from drying out • support themselves against the pull of gravity Vascular plants, pulmonate snails, and tracheate arthropods made transition earlier Amphibians only living vertebrates that have a transition from water to land in their development Slide 6 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Evolution of Amphibians Early amphibians evolved several adaptations that helped them live at least part of their lives out of water. Bones in the limbs and limb girdles of amphibians became stronger, permitting more efficient movement. REASONS for Adapatations: Air is 1000 times less dense • Provides less buoyancy than water • Limbs and skeleton must support more weight Air fluctuates in temperature more rapidly than water • Animals must adjust to these extremes Slide 7 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Evolution of Amphibians Showing evolutionary link to fossil record. “Missing Link” organanism from water (fish) to land (tetrapods). Slide 8 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Evolution of Amphibians Lungs and breathing tubes enabled amphibians to breathe air. The sternum formed a bony shield to support and protect internal organs, especially the lungs. Slide 9 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Evolution of Amphibians Amphibian Adaptations Lungs Pelvic Girdle Leg Bones: The legs of a land vertebrate must be strong enough to hold its weight. Skin: The skin and the lining of the mouth cavity of many adult amphibians are thin and richly supplied with blood vessels. Watery mucus is secreted by glands in the skin. Copyright Pearson Prentice Hall Slide 10 of 47 End Show 30-3 Amphibians Ch. 25Amphibians Evolution of Amphibians In many adult amphibians, the internal surfaces of the lungs are richly supplied with blood vessels and folds that increase surface area. Lungs Copyright Pearson Prentice Hall Slide 11 of 47 End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Form and Function in Amphibians The class Amphibia is relatively small and diverse. Slide 12 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Feeding Tadpoles are typically filter feeders or herbivores that graze on algae. Their intestines help break down hard-to-digest plant material and are usually filled with food. The feeding apparatus and digestive tract of adults are meat-eating structures. Slide 13 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Frog Anatomy Slide 14 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Adult amphibians are almost entirely carnivorous. Many salamanders and frogs have long, sticky tongues specialized to capture insects. Slide 15 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Mouth In a frog’s digestive system, food slides down the esophagus into the stomach. Esophagus Stomach Slide 16 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians The breakdown of food begins in the stomach and continues in the small intestine. Small intestine Stomach Slide 17 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians The liver, pancreas, and gallbladder secrete substances that aid in Gallbladder digestion. Liver Pancreas Slide 18 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians At the end of the large intestine is a muscular cavity called the cloaca, through which digestive wastes, urine, and eggs or sperm leave the body. Large intestine (colon) Cloaca Slide 19 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Respiration In most larval amphibians, gas exchange occurs through the skin and the gills. Adult amphibians typically respire using lungs, but some gas exchange occurs through the skin and the lining of the mouth. SKIN: Thin skin loses water rapidly Restricts terrestrial forms to moist habitats Ectotherms Body temperature depends on environment and restricts range Slide 20 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Circulation In frogs and other adult amphibians, the circulatory system forms a double loop. The first loop carries oxygen-poor blood from the heart to the lungs and skin, and takes oxygen-rich blood from the lungs and skin back to the heart. Slide 21 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians The second loop transports oxygen-rich blood from the heart to the rest of the body, and carries oxygenpoor blood from the body back to the heart. Slide 22 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Amphibian Circulation and Excretion Form and Function in Amphibians Heart Lung Kidney Ureter Urinary bladder Cloaca Slide 23 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians The amphibian heart has three separate chambers: •left atrium •right atrium •ventricle Slide 24 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians To body, lungs and skin Amphibian Heart From Body To body, lungs and skin From Lungs Left atrium Right atrium Ventricle Slide 25 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Excretion Amphibians have kidneys that filter wastes from the blood. Urine travels through tubes called ureters into the cloaca. Urine is then passed directly to the outside, or temporarily stored in a small urinary bladder just above the cloaca. Slide 26 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Reproduction In most species of amphibians, the female lays eggs in water, then the male fertilizes them externally. In a few species, including most salamanders, eggs are fertilized internally. After fertilization, frog eggs are encased in a sticky, transparent jelly. Slide 27 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians The jelly attaches the egg mass to underwater plants and makes the eggs difficult for predators to grasp. The yolks of the eggs nourish the embryos. Most amphibians abandon their eggs after they lay them. A few amphibians take care of both eggs and young. Slide 28 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Frog Metamorphosis Adult Frog Fertilized eggs Young Frog Tadpoles Slide 29 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Adults are typically ready to breed in about one to two years. Frog eggs are laid in water and undergo external fertilization. Slide 30 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians The fertilized eggs hatch into tadpoles a few days to several weeks later. Fertilized eggs Slide 31 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Tadpoles gradually grow limbs, lose their tails and gills, and become meat-eaters as they develop into terrestrial adults. Form and Function in Amphibians Young frog Tadpole Slide 32 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Movement Amphibian larvae move by wiggling their bodies and using a flattened tail for propulsion. Adult salamanders walk or run. Frogs and toads, have well-developed hind limbs that enable them to jump long distances. Slide 33 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Response Amphibians have well-developed nervous and sensory systems. An amphibian's eyes are protected from damage and kept moist by a transparent nictitating membrane. This membrane is located inside the regular eyelid and can be closed over the eye. Slide 34 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Amphibians hear through tympanic membranes, or eardrums, located on each side of the head. Many amphibian larvae and adults have lateral line systems that detect water movement. Slide 35 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Form and Function in Amphibians Frog’s Sense Organs Slide 36 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians What are the main groups of living amphibians? Slide 37 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Groups of Amphibians The three groups of amphibians alive today are: • Salamanders (Order Urodela) • frogs and toads (Order Anura) • Caecilians (Order Gymnophiona) Slide 38 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Salamanders Order Caudata (Urodela) Salamanders and newts have long bodies and tails. Most have four legs, @ right angles to body. Respiration can occur through salamander skin, and lungs Both adults and larvae are carnivores. Adults usually live in moist woods, where they tunnel under rocks and rotting logs. Internal Fertilization: Female recovers in cloaca a spermatophore deposited on a leaf or stick Slide 39 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Slide 40 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. Larval Salamander Red-Spotted Newt: Aquatic larva metamorphoses into red-eft, which remains on land for 1-3 years, until becoming secondary aquatic adult. Copyright Pearson Prentice Hall Slide 41 of 47 End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Salamanders and Paedomorphosis Descendants retain into adulthood features that were present in larval stages of ancestors 2 species of salamanders that exhibit paedomorphosis. They both have their gills during their life cycle. Slide 42 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Frogs and Toads - Order Anura (Salientia) All have a tailed larval stage and tailless, jumping adults (except for 1 species - Ascaphus) Frogs and toads have the ability to jump. Toads have thicker skin, covered in “warty” projection glands that secrete poison. The poison is only harmuful if swallowed or gets in your eyes. Must live near water source Reproduction mode requires water Skin is water-permeable skin QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. Coastal Tailed Frog Copyright Pearson Prentice Hall Slide 43 of 47 End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Tree Frog 44 families of frogs and toads Family Ranidae common larger frogs in North America Family Hylidae Includes the tree frogs Family Bufonidae (toads) Contains toads with thicker skins and prominent warts Frogs Conraua goliathLargest frog Toad Copyright Pearson Prentice Hall Slide 44 of 47 End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians African Clawed Frog - has been introduced to California, and is now a huge pest. Aggressive and has caused a decline in native frogs. Similar to when huge toads were introduced to Australia. Slide 45 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Epidermis has two types of integumentary glands •Mucous glands secrete protective waterproofing •Large serous glands produce a whitish, watery poison Dendrobatid frogs of South America secrete highly toxic skin poisons Slide 46 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Skeleton of frog: notice human similarities and differences. Feet - 5 digits, hand - 4 digits Slide 47 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Respiration in frogs: No diaphragm to help, instead use pressure within cavities. A. Force mouth down, air moves into mouth thru nostrils A. Force mouth up, air forced into lungs B. Mouth ventilates C. Muscles in abdominal wall and recoiling of lungs forces air out. Most Carbon Dioxide is lost through the skin, not lungs. Vocal cord more developed in males. Slide 48 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Caecilians - Order Gymnophiona Caecilians are legless animals that live in water or burrow in moist soil or sediment. Caecilians feed on small invertebrates such as termites. Found in S.America, Africa, India Have vertebrae and long ribs. Many have fishlike scales embedded in their skin. Internal Fertilization. Most Oviparous, although some viviparous (young feed on walls of oviduct). Slide 49 of 47 Copyright Pearson Prentice Hall End Show 30-3 Amphibians Ch. 25Amphibians Groups of Amphibians Female coiled around eggs Pink headed caecilian- W.Africa Slide 50 of 47 Copyright Pearson Prentice Hall End Show Ch. 25- Amphibians 30-3 Click to Launch: Continue to: - or - Slide 51 of 47 End Show Copyright Pearson Prentice Hall Ch. 25- Amphibians 30-3 The word amphibian refers to the ability to a. live in hot climates. b. live in wet places. c. live both in water and on land. d. live in cold and hot climates. Slide 52 of 47 End Show Copyright Pearson Prentice Hall Ch. 25- Amphibians 30-3 Amphibians that maintain their ancestral larval forms throughout life (paedomorphosis) are a. Caecilians b. Mud Puppies c. Salamanders d. Toads Slide 53 of 47 End Show Copyright Pearson Prentice Hall Ch. 25- Amphibians 30-3 In a larval amphibians, gas exchange occurs through a. both the lungs and the skin. b. both the skin and the gills. c. the gills only. d. in a lung. Slide 54 of 47 End Show Copyright Pearson Prentice Hall Ch. 25- Amphibians 30-3 The tympanic membrane in a frog enables it to a. hear. b. see. c. smell. d. taste. Slide 55 of 47 End Show Copyright Pearson Prentice Hall Ch. 25- Amphibians 30-3 Which of the following is the order for salamanders? a. Anura b. Apoda c. Caudata d. Caecilians Slide 56 of 47 End Show Copyright Pearson Prentice Hall END OF SECTION