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Download Radiate Animals Phylum Cnidaria Phylum Ctenophora Radiate
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Radiate Animals Phylum Cnidaria Phylum Ctenophora Radiate Animals: General Characteristics • These phyla are characterized by radial or biradial symmetry. Their bodies are arranged around a central axis. • Biradial symmetry means that the body can be divided into mirrored halves ONLY along 2 planes that pass through the central axis. General Characteristics • Both phyla have two well-developed germ layers (endoderm and ectoderm). • A third layer, mesoderm, is present in some. General Characteristics • They have an internal body cavity (gastrovascular cavity) with a single opening that acts as both mouth and anus. • Most radiates have tentacles that aid in food capture. General Characteristics • Radiates have the simplest form of true nerve cells (protoneurons), but nerves are arranged as a nerve net, with no central nervous system. • Radiates have the simplest form of sense organs. • • Statocysts maintain equilibrium and ocelli are photosynthetic. Radiates can move by muscular contractions or ciliary comb plates, but most forms are best adapted for floating or being carried by currents. Phylum Cnidaria Classes Hydrozoa, Scyphozoa, and Anthozoa Characteristics of Cnidaria • All are aquatic and have radial symmetry. • Primarily sessile or floating • More specialized than sponges • Contain nematocysts (stinging cells) that are found in cells called cnidocytes • Have two body forms: • Polyp – tubular body with tentacles; example – hydra • Medusa – bell shaped and free-swimming; example jellyfish Class Hydrozoa • Representatives: hydra, obelia, and Portuguese man-of-war • Members of this class exhibit the polyp or medusa form. The medusa form has a velum (ring of tissue that is found at the base of the tentacles). The Hydra • Hydra are the freshwater Hydrozoa representative. • They are typically sessile polyps. • The normal habitat for hydra is the underside of aquatic leaves and lily pads in the water of ponds and streams. • Hydra are found throughout the world with 16 species in North America alone. Structure of the Hydra Body Plan • Its body can extend to a length of 25-30 millimeters. • It is a cylindrical tube with a stalk-like end and an attachment end. • The basal disk is the attachment end that contains gland cells to allow adhesion. Structure (continued...) • The mouth (hypostome) opens to the gastrovascular cavity. • Six to ten tentacles surround the mouth: • These are hollow and extendable. • They contain nematocysts (coiled stinging cells used to get food and provide protection). Structure (continued...) Body Wall • Ectoderm – outer layer or epidermis; contains many types of cells • Epitheliomuscular cells – responsible for muscular contractions • Interstitial cells – undifferentiated stem cells that become most other types of cells • Gland cells – secretes an adhesive substance that aids in the attachment process • Cnidocytes – contain nematocysts • Nerve cells – multipolar neurons Structure (continued...) • Endoderm – gastrodermis; inner layer that contains muscular, gland, and interstitial cells • Mesoglea – jelly-like substance found between ectoderm and endoderm Processes of the Hydra • Locomotion – floats and moves by somersaulting motion • Response – when disturbed, it will contract and form a small ball • Digestion 1. Food enters the gastrovascular cavity that is lined with gastrodermal cells. 2. Some secrete digestive enzymes that partially digest food. 3. Partially digested food is taken in by the gastrodermal cells when digestion is complete. Processes (continued...) • • Excretion • Digestive wastes are expelled through the mouth. • Metabolic wastes and carbon dioxide are discharged into water. Respiration – oxygen diffuses from water into cells Processes (continued...) • Nervous • Contains a nerve net that consists of interconnected nerve cells located at the base of the epidermis and gastrodermis • This is a primitive type of nervous system. • It controls movement of tentacles. • NO BRAIN! Processes (continued...) • Reproduction • Asexual reproduction occurs through budding or regeneration. • • Miniature versions break off of mature organisms and grow to maturity. Sexual reproduction occurs when temporary gonads develop in the autumn. • The ovaries produce eggs and the testis produce sperm. • The developing embryos are encased in a cyst to protect them from harsh winters. Warm weather stimulates the “hatching” of new hydras. Class Scyphozoa • Scyphozoa means “cup animal.” • The most common representative is the jellyfish (Aurelia). The Jellyfish • Contains both body forms – polyp and medusa • Medusa form is for sexual reproduction • Zygote develops into a PLANULA LARVA which swims around and then settles to form the polyp form • The polyp form produces more of the medusa form The Jellyfish • Tentacles of the medusa have nematocysts that give humans painful stings Most Deadly Jellyfish • All jellyfish contain a toxin, but some are more toxic than others. • Many of the box jellies are considered to be more dangerous. • Specifically, the Irukandji is considered the most deadly of the jellyfish. (There are actually multiple species.) • It is only one centimeter cubed at its largest, while many are 5mm or less in diameter. • It’s small size makes it almost invisible in the marine waters off of Australia’s coast. Class Anthozoa • Means “flower animal” • Common representatives are the sea anemone and coral Class Anthozoa • Anthozoans lack a medusa stage. • All anthozoans are marine, found in both deep and shallow water, and vary in size. • Anthozoans are solitary or colonial. • They contain a large gastrovascular cavity that is separated by divisions called septa, which are inward projections of the body wall. Sea Anemone • The polyps of sea anemones are larger and heavier than hydrozoan polyps • They attach to shells, rocks, or timber by pedal discs. Some burrow in mud or sand. • A crown of tentacles surrounds the flat oral disc. • A slit-shaped mouth leads into a pharynx. • The gastrovascular cavity is divided into six pairs of primary septa. Sea Anemone • When in danger, water is rapidly expelled through pores as the anemone contracts to a small size. • Some anemone fishes shelter in sea anemones and have a skin mucus that protects them from triggering nematocysts. Corals • Corals display only the polyp body form. • Coral reefs have great productivity, rivaled only by tropical rain forests. • Living plants and animals are limited to the top layer above the calcium carbonate deposits. • Coral reefs are suffering from global warming and high concentrations of carbon dioxide. Corals • Coral also has a large economic value. • When coral dies, the hard skeleton remains • The skeletons produce coral reefs and can also be used to create jewelry. Phylum Ctenophora Class Tentacula Characteristics of Ctenophora • Composed of fewer than 100 species, all of which are marine and primarily found in warm waters • All are formed from 8 rows of comblike plates that function in locomotion • Has a combination of radial and biradial symmetry • Has endoderm and ectoderm, with mesoglea between • Does not contain nematocysts, but do contain adhesive cells called colloblasts that are used to capture prey Class Tentacula • Has tentacles that may or may not have sheaths into which they retract • Some have flattened tentacles for creeping • Representative - Pleurobrachia Pleurobrachia BODY FORM • Its body is 1.5-2 cm in diameter and has a sense organ called a statocyst near the mouth opening. • Its surface has 8 equally spaced bands called comb rows that have long fused cilia called comb plates. • Movement is accomplished by the wavelike beating of the cilia. • It has two tentacles that are very long and extensible that may also be retracted into tentacle sheaths. • The surface of the tentacles are covered with colloblasts (glue cells) that can catch or hold small animals. Pleurobrachia DIGESTION • It has a gastrovascular system that consists of a mouth, pharynx, stomach, and a system of gastrovascular canals. • Digestion is both extracellular and intracellular. • Undigested waste leaves the body through 2 anal canals. RESPIRATION and EXCRETION • Both occur through the body surface NERVOUS and SENSORY • The epidermis contains numerous sensory cells that allow the organism to be sensitive to chemicals and other stimuli.