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Chapter 9 Molluscs, Arthropods, Lophophorates, Echinoderms, and Invertebrate Chordates © 2006 Thomson-Brooks Cole Molluscs • Phylum Mollusca • Have soft bodies, usually covered by a calcium carbonate shell © 2006 Thomson-Brooks Cole Molluscan Body • 2 major parts: – head-foot—region containing the head with its mouth and sensory organs and the foot, which is the animal’s organ of locomotion – visceral mass—body region containing the other organ systems, including the circulatory, digestive, respiratory, excretory and reproductive systems © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Molluscan Body • Mantle—protective tissue around body • it forms the shell – mantle cavity—space between the mantle and the body • Radula—a ribbon of tissue containing teeth • Muscles © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Molluscan Shell • Secreted by the mantle • Normally comprises 3 layers: – periostracum—outermost layer, – prismatic layer—middle layer, Structure – nacreous layer—innermost layer, composed of calcium- a smooth crystal structure( mother of pearl) © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Chitons • Class Polyplacophora • Have flattened bodies most often covered by 8 shell plates • Attach tightly to rock • Scrape algae off the rocks © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Scaphopods • Tusk like shells (class Scaphopoda) • Open at both ends, • foot structure protruding from larger end • Water enters and exits at smaller end • Food captured with the foot or tentacles emerging from the head © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Gastropods • Class Gastropoda • May have no shell, or a univalve (onepiece) shell – as the animal grows, whorls of the shell increase in size around a central axis – operculum—covering over the shell’s aperture which allows it to be closed © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Gastropods • Feeding and nutrition – herbivores – most feed on fine algae; some on large algae like kelps – carnivores – usually locate prey using its chemical trail; have evolved various behaviors for capturing/subduing prey – scavengers and deposit feeders – filter feeders © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Gastropods • Naked gastropods – nudibranchs—marine gastropods that lack a shell – have cerata—projections from the body – May use cnidarian neumatosysts – bright colors indicate toxicity to predators © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Gastropods • Reproduction and development – most have separate sexes – most have internal fertilization – Motile larva – some are hermaphroditic © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Bivalves • Class Bivalvia • Have shells divided into 2 jointed halves (valves) • Includes: – clams – oysters – mussels – scallops – shipworms © 2006 Thomson-Brooks Cole Bivalves • Bivalve anatomy – no head or radula – laterally compressed bodies – shell halves attached dorsally at a hinge by ligaments • umbo—oldest part of the shell, around hinge • adductor muscles—large muscles which close the 2 valves – mantle often forms inhalant and exhalant openings to facilitate filter feeding • palps form the food into a mass for digestion © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Bivalves • Bivalve adaptations to different habitats – soft-bottom burrowers (infauna) • siphons • siphons facilitate filter feeding while remaining buried in sand © 2006 Thomson-Brooks Cole Bivalves – attached surface dwellers – Ex. Muscles – unattached surface dwellers • movement by jet propulsion, used primarily to escape from predators – boring bivalves • microscopic teeth on the valves • Producs digestive enzymes © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Bivalves • Reproduction in bivalves – majority have separate sexes © 2006 Thomson-Brooks Cole Cephalopods • Class Cephalopoda • The foot is modified into a head-like structure • Ring of tentacles projects from the anterior edge of the head, for use in prey capture, defense, reproduction and sometimes locomotion • Except for nautiloids, they lack shells or have small internal shells © 2006 Thomson-Brooks Cole Cephalopods • Types of cephalopods – nautiloids • produce large, coiled shells composed of chambers separated by septa (partitions) • 60-90 tentacles coated with a sticky substance © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Cephalopods – coleoids (e.g. cuttlefish, squids, octopods) • cuttlefish – bulky body, – fins – 8 arms + 2 tentacles, – small internal shells • squids have: – large cylindrical bodies – a pair of fins derived fro – (8 arms + 2 tentacles) having – cup-shaped suckers surrounded by toothed structures – a pen © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Cephalopods – coleoids (continued) • Octopods have 8 arms • Lack fins • produce a dark fluid called sepia, a brownblack pigment, when disturbed • swim by jet propulsion by forcing water through a ventrally-located siphon or by fin undulation (in squids) • The most complex nervous system for invertebrates © 2006 Thomson-Brooks Cole Cephalopods • Color and shape in cephalopods – arm/body movements and color changes are used in communication – special skin cells (chromatophores)change color © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Cephalopods • Feeding – carnivores – – beak-like jaws – octopods drill holes in shells – diet • squids are pelagic: fish, crustaceans, squid • cuttlefish find invertebrates on the bottom • octopods forage or lie in wait near the entrances to their dens © 2006 Thomson-Brooks Cole Cephalopods • Reproduction in cephalopods – sexes are separate – mating frequently involves some kind of courtship display – male squid have a modified arm – Females have an oviduct (tube that carries eggs to the outside of the body) © 2006 Thomson-Brooks Cole Ecological Roles of Molluscs • Food for humans and other animals sperm whales consume masses of squid • hosts to parasites • Shipworms damage wooden pilings and boat hulls, • Some attach to other animals – Ex zebra muscles © 2006 Thomson-Brooks Cole Arthropods: Animals with Jointed Appendages • Phylum Arthropoda = 75% of species • Have exoskeleton—a hard, protective exterior skeleton – molting—shedding of exo…. • Body is divided into segments • having a pair of jointed appendages (arms) © 2006 Thomson-Brooks Cole Arthropods: Animals with Jointed Appendages • Developed nervous systems – sophisticated sense organs – capacity for learning • 2 major groups of marine arthropods: – chelicerates –lack mouthparts – mandibulates – have mandibles (mouth parts) © 2006 Thomson-Brooks Cole Chelicerates • 6 pairs of appendages; 1 pair are used for feeding • Horseshoe crabs – 3 body regions • cephalothorax – largest region with the most obvious appendages • abdomen – contains the gills • telson – a long spike used for steering and defense – body is covered by a carapace—a hard outer covering © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Chelicerates • Horseshoe crabs (continued) – locomotion by walking or swimming by flexing the abdomen – mostly nocturnal scavengers – smaller males attach to females to mate, and eggs are laid in a depression on the beach; larvae return to the sea to grow © 2006 Thomson-Brooks Cole Chelicerates • Sea spiders – have small, thin bodies with 4 or more pairs of walking legs – only marine invertebrate known where the male carries the eggs – feed on juices from cnidarians and other soft-bodied invertebrates, using a long sucking proboscis © 2006 Thomson-Brooks Cole Mandibulates • Crustaceans—marine mandibulates • Crustacean anatomy – 3 main body regions: • head • thorax • abdomen – appendages: • 2 pairs of sensory antennae • mandibles and maxillae used for feeding • walking legs, swimmerets (swimming legs), legs modified for reproduction, chelipeds (legs modified for defense) © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Mandibulates – gas exchange • small crustaceans exchange gases through their body surface • larger crustaceans have gills • Molting © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Decapods • Order decapoda; includes animals with 5 pairs of walking legs: – crabs – lobsters – true shrimp • 1st pair =chelipeds—pincers • Wide range in size © 2006 Thomson-Brooks Cole Decapods • Specialized behaviors – hermit crabs inhabit empty shells – decorator crabs camouflage carapaces with bits of sponge, anemones, etc. – common blue crabs are agile swimmers © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Decapods • Nutrition and digestion – chelipeds are used for prey capture – appendages are used for scavenging – Savaging and predation – filter feeders © 2006 Thomson-Brooks Cole Decapods • Reproduction (continued) – larval stages: • zoea larval stage—initial stage in crabs,) • nauplius larva—initial stage in shrimp © 2006 Thomson-Brooks Cole Mantis Shrimp • Order Stomatopoda • Highly specialized predators of fishes, crabs, shrimp and molluscs • 2nd pair of thoracic appendages – enlarged – has a movable finger that can be extended rapidly for prey capture/defense – used to spear or smash prey © 2006 Thomson-Brooks Cole Mantis Shrimp • Reproduction 1000s of eggs. – some pair for life and share a burrow – zoea retain planktonic form for 3 months © 2006 Thomson-Brooks Cole Krill • Order Euphausiacea • Pelagic, shrimp-like, 3-6 cm long • Filter feeders that eat zooplankton • Most are bioluminescent • Food source for some whales, seals, penguins, and many fishes © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Amphipods • Order Amphipoda • Shrimp-like, with posterior 3 pairs of appendages directed backward • burrowers; form tubes. • scavengers, or herbivores © 2006 Thomson-Brooks Cole Copepods • Class Copepoda – the largest group of small crustaceans • Usually the most abundant member of the zooplankton • Mostly suspension feeders; some rely on detritus, some are predators • Males fertilize females with spermatophores; eggs are shed into the water column where they hatch © 2006 Thomson-Brooks Cole Barnacles • Class Cirripedia – the only sessile crustaceans • Most have calcium carbonate shell • Attach directly to a hard surface • Filter feed using cirripeds—feathery appendages which extend into the water when the shell is open © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Ecological Roles of Arthropods • Role of arthropods in recycling and fouling – Clean estuaries – Attach to ship bottoms can reduce ship speed by 30% © 2006 Thomson-Brooks Cole Lophophorates • Lophophorates are sessile animals that lack a distinct head •: – Phoronida (phoronids) – Ectoprocta (bryozoans) – Brachiopoda (brachiopods) © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Ecological Roles of Lophophorates • As a group, they are filter feeders • Food for many invertebrates, especially molluscs and crustaceans • Largely responsible for fouling ship bottoms © 2006 Thomson-Brooks Cole Echinoderms: Animals with Spiny Skins • Phylum Echinodermata • Larval forms exhibit bilateral symmetry but most adults exhibit a modified form of radial symmetry • Mostly benthic, and found at nearly all depths • Sea cucumbers and brittle stars are commonly found in deep-sea samples © 2006 Thomson-Brooks Cole Echinoderm Structure • Endoskeleton—internal skeleton that lies just beneath the epidermis – ossicles—plates of calcium carbonate – endoskeleton is composed of ossicles held together by connective tissue • Spines and tubercles project outward from the ossicles – pedicellariae—tiny, pincer-like structures around the bases of spines that keep the body surface clean in some echinoderms © 2006 Thomson-Brooks Cole Echinoderm Structure • Water vascular system—unique hydraulic system that functions in locomotion, feeding, gas exchange and excretion – water enters by the madreporite – passes through a system of canals – attached to some canals are tube feet— hollow structures with a sac-like ampulla within the body and a a sucker protruding from the ambulacral groove © 2006 Thomson-Brooks Cole Sea Stars • Class Asteroidea • Typically composed of a central disk + 5 arms or rays • On underside, ambulacral grooves with tube feet radiate from the mouth along each ray • Aboral surface—the side opposite the mouth, which is frequently rough or spiny © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Sea Stars • Feeding in sea stars – most are carnivores or scavengers of invertebrates and sometimes fish – prey are located by sensing of substances they release into the water – sea stars envelope and open bivalves, evert a portion of the stomach, and insert it into the bivalves to digest them • digestive glands located in each ray provide digestive enzymes © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Sea Stars • Reproduction and regeneration – sea stars can regenerate rays; some can regenerate themselves from a single ray plus part of the central disc – asexual reproduction involves division of the central disk and regeneration of each half into a new individual – most have separate sexes, which shed eggs and sperm into the water for fertilization and hatching into usually planktonic larvae © 2006 Thomson-Brooks Cole Ophiuroids • Class Ophiuroidea – e.g. brittle, basket and serpent stars • Benthic with 5 slender, distinct arms, frequently covered with many spines • Lack pedicellariae and have closed abulacral grooves • Tube feet lack suckers and are used in locomotion and feeding • Brittle stars shed arms if disturbed © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Ophiuroids • Feeding in ophiuroids – carnivores, scavengers, deposit feeders, suspension feeders, or filter feeders – brittle stars usually filter feed by lifting their arms and waving them in the water – deposit feeders use their podia to gather organic particles from the bottom into food balls and pass them to the mouth – basket stars suspension feed by climbing onto corals/rocks and fanning their arms toward the prevailing current © 2006 Thomson-Brooks Cole Ophiuroids • Reproduction and regeneration in ophiuroids – autotomize—to cast off, as of an arm, when disturbed or seized by a predator – asexual reproduction by division into 2 halves and regeneration of individuals – mostly separate sexes – may shed eggs into water or brood them in ovaries or a body cavity – planktonic larvae metamorphose into adults within the water column © 2006 Thomson-Brooks Cole Sea Urchins and their Relatives • Class Echinoidea – echinoids • Body enclosed by test—a hard exoskeleton • Benthic on solid surfaces (sea urchins) or in sand (heart urchins, sand dollars) • Regular (radial) echinoids—sea urchins; spheroid body with long, moveable spines • Irregular (bilateral) echinoids—heart urchins and sand dollars; have short spines on their tests © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Sea Urchins and their Relatives • Echinoid structure – tube feet project from 5 pairs of ambulacral areas – spines project from the test • aid in locomotion and protection, and may contain venom – sexes are always separate – regular echinoids have 5 gonads; irregular echinoids, 4 – sperm and eggs shed into the water; fertilized eggs hatch into planktonic larvae © 2006 Thomson-Brooks Cole Sea Urchins and their Relatives • Feeding in echinoids – feeding in regular echinoids • mostly grazers which scrape algae and other food materials from surfaces • Aristotle’s lantern—a chewing structure of 5 teeth – feeding in irregular urchins • irregular urchins are selective deposit feeders • some sand dollars are suspension feeders © 2006 Thomson-Brooks Cole Sea Cucumbers • Class Holothuroidea • Have elongated bodies, and usually lie on 1 side • Respiratory trees—a system of tubules located in the body cavity which accomplish gas exchange • Sexes are generally separate • Eggs may be brooded or incubated; larvae are planktonic © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Sea Cucumbers • Feeding in sea cucumbers – mainly deposit or suspension feeders – oral tentacles—modified tube feet coated with mucus which are used to trap small food particles • Defensive behavior – Cuvierian tubules—sticky tubules released from the anus of some species – eviscerate—to release some internal organs through the anus or mouth © 2006 Thomson-Brooks Cole Crinoids • Class Crinoidea – sea lilies and feather stars • Primitive, flower-like echinoderms • Most are feather stars, which seldom move and cling to the bottom with grasping cirri • Suspension feeders • Can regenerate lost arms • Separate sexes shed eggs/sperm into the water; larvae have fee-swimming stage, then attach to the bottom and metamorphose into minute adults © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Ecological Roles of Echinoderms • Spiny skins deter most predators • Predators of molluscs, other echinoderms, cnidarians, crustaceans – crown-of-thorns sea star eats coral – sea urchins destroy kelp forests • Black sea urchins control algae growth on coral reefs • Sea cucumber poison, holothurin, has potential as a medicine © 2006 Thomson-Brooks Cole Tunicates • Subphylum Urochordata • Mostly sessile, widely distributed • Named for their body covering – tunic—body covering, largely composed of a substance similar to cellulose • Types: – sea squirts – salps – larvaceans © 2006 Thomson-Brooks Cole Sea Squirts • Class Ascidiacea • Name derived from tendency to expel a stream of water when disturbed • Round or cylindrical bodies with 2 tubes projecting from them: – incurrent siphon that brings in water and food – excurrent siphon that eliminates water and wastes © 2006 Thomson-Brooks Cole © 2006 Thomson-Brooks Cole Sea Squirts • Lifestyles: solitary, colonial, compound – compound—organisms composed of several individuals (zooids) that share a common tunic • Filter feed on plankton in the water passing through their pharynx – some have symbiotic algae or bacteria • Can regenerate lost body parts © 2006 Thomson-Brooks Cole Sea Squirts • Asexual reproduction (by budding) occurs in colonial ascidians • Most are hermaphrodites that release gametes into the water column for fertilization • Tadpole-like larvae are free-swimming for 36 hrs., then settle and metamorphose into the sessile stage © 2006 Thomson-Brooks Cole Salps and Larvaceans • Salps – class Thaliacea – free-swimming tunicates with incurrent and excurrent siphons on opposite ends of their barrel-shaped bodies • pump water through to swim • Larvaceans – class Larvacea – free-swimming; produce delicate enclosures of mucus used in feeding © 2006 Thomson-Brooks Cole Cephalochordates • Subphylum Cephalochordata- lancelets • Fish-like chordates; slender, laterally compressed and eel-like in form and behavior • Benthic; burrow in coarse sands • Suspension feed by projecting their heads above the sand • Separate sexes practice internal fertilization © 2006 Thomson-Brooks Cole Cephalochordates • Have complex life cycles with benthic adults and planktonic swimming larvae • Important as food in parts of Asia • Used as chicken feed in parts of Brazil © 2006 Thomson-Brooks Cole Arrowworms • Phylum Chaetognatha • Common planktonic animals with a torpedo-shaped body • Grasping spines (large curved hooks) hang from the head and flank the vestibule (chamber leading to mouth) • Carnivorous; seize other planktonic prey animals with grasping spines and inject tetrodotoxin © 2006 Thomson-Brooks Cole
