Invertebrates
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Transcript Invertebrates
Invertebrate Evolution
Chapter 18
Defining Animals
• Invertebrates
– majority
• Vertebrates
• Commonality
– Multicellular eukaryotes
– Chemoheterotrophs
• Obtain food through ingestion
– Diploid (2n) organisms reproduce sexually
– Nonliving substances produced
• Facilitate movement
• Provide support
Classifying Animals
• ‘Body plans’ used for
morphologically based
phylogenetic trees
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Tissue organization
Symmetry
Embryonic development
Body cavity
• Hypotheses only
– DNA discoveries maintain
constant restructuring
Kingdom Animalia
Tissue Organization
2 or 3 layers of cells
Diplo- or triploblastic
Phylum Porifera excluded
Gastrulation of blastula forms germ
layers
Endoderm = digestive tube, liver, and
lungs
Ectoderm = outer covering and some
nervous systems
Mesoderm = muscles and bone
Symmetry
Asymmetry
Most sponges
Radial symmetry
Top and bottom, but no front, back,
or sides
Sessile or drifts
Bilateral symmetry
Anterior and posterior, dorsal and
ventral
Most demonstrate cephalization
Motile with complex movements
Embryonic Development
• 3 germ layer animals
• Based on fate of gastrula
– Deuterostomes
• Chordates and echinoderms
– Protostomes
• All others
Body Cavities
Only bilateral, 3 germ layer
animals
Presence or absence of a fluid
filled space called a coelom
Coelomates
Pseudocoelomates
Acoelomates
Allows independent organ
movement and growth
Hydrostatic skeleton
Phylum Porifera (Sponges)
Asymmetrical, sessile, aquatic animals
Suspension feeders
Water
pores
osculum
Cellular organization
Choanocytes move water in
Traps food in mucus
Amoebocytes digest food and produce
skeletal support
Spicules: mineralized material
Spongin: flexible protein
No muscles or nerves
Hermaphrodites
Reproduce by budding of fragmentation
Produce toxins for protection
Used for antibiotics
Phylum Cnidaria (Cnidarians)
Radial symmetry
Polyp, medusa, or both
Diploblastic with inner mesoglea
Creates hydrostatic skeleton
Single opening to a
gastrovascular cavity = sac plan
Simplistic muscles and nerve net
Facilitates movement
Cnidocytes in tentacles to
capture and immobilize prey
Phylum Platyhelminthes (Flatworms)
Bilateral, triploblastic, acoelomate, sac plan
Planarians (free-living)
Simple brain, eyespots, auricles, and
branched gastrovascular cavity
Live on underside of rocks in freshwater
Flukes (animal parasites)
Suckers and interior almost all reproductive
organs
Larval intermediate stage
Pinch in half to reproduce
Tapeworms (animal parasites)
Scolex, no mouth (absorption),
hemaphrodites, eggs released from end
(proglottids) in feces
Larval intermediate in prey species develop
into adults in predators
Phylum Nematoda (Roundworms)
• Pseudocoelomate, tube within a tube plan, separate
hookworms
sexes, and lateral muscles
• Can shed cuticle, outer covering when grows
• Free-living decomposers in soil (C. elegans)
Trichinella
• Parasitic
– Dog heartworm
• Mosquito vector
– Trichinella spiralis
heartworms
• Uncooked pork
– Pinworms
– Hook worms
pinworms
Phylum Mollusca (Molluscs)
Coelomates with 3 part body plan
Foot: muscular organ for locomotion,
attachment, or feeding
Visceral mass: contains internal organs
Mantle: surrounds visceral mass and
may secrete shell; cavity for gills or lungs
Feed via a radula
Most separate sexes, except snails
Open circulatory system, blood not
confined to vessels (except cephalopds)
Neural ganglia connected by nerve cord
Advanced sensory systems in cephalopods
Mollusc Classes
Class Gastropoda (snails and slugs)
Head w/ eyes
Only terrestrial species; no gills
Class Cephalopoda (squids and
octopuses)
Mouth at end of foot, shell small or absent
Most advanced invertebrate brain and
sense organs (eyes)
Siphon for steering movements
Class Bivalva (scallops, oysters, and
clams)
Paired hinged shells
Suspension feeders
Mantle with gills
Phylum Annelida (Segmented Worms)
Segmentation
Longitudinal and circular muscles
Closed circulatory system
Class Oligochaeta (earthworms)
Hermaphroditic, exchange sperm
Solid ventral nerve cord, anterior brain, and a ganglia
in each segment
– Nephridia for excretion
– Unsegmented, compartmentalized digestive system
Nutrients diffuse across body wall
Annelida Classes (Cont.)
Class Polychaeta
Largest class
Marine organisms
Segmented appendages for mov’t or gills
Live in tubes of mucus and sand
Class Hirudinea (leeches)
Blood-sucking
Release an anesthetic and anticoagulant
Consume 10X’s weight
Medicinal uses
Phylum Arthropoda (Arthropods)
Most successful phylum (1,000,000+ species)
Exoskeleton (hydrostatic earlier)
Cuticle of protein and chitin for protection and joint attachment
Molted with growth, eaten for nutrients
Segmentation
Head, thorax (fused is cephalothorax), and abdomen
Sensory, protection and walking, and swimming respectively
Jointed appendages
Open circulatory system
Gas exchange
Aquatic gills
Terrestrial spiracles
Advanced sensory systems
Arthropd Linneages
• Chelicerates (arachnids)
– First terrestrial carnivores
– Hollow mouth appendages; may deliver venom or toxins
– E.g scorpions (night), spiders (day), and ticks/mites
• Millipedes and centipedes
– Herbivores with 2 leg sets per segment
– Carnivores (poisonous) with 1 leg set per segment
• Crustaceans
• Insects
– 70+ % all known animal species
– Unrivaled evolutionary success
• Flight
• Waterproof cuticle
• Life cycle complexity
Class Insecta
Life cycles
Complete and incomplete metamorphosis
Larvae and adult with different roles
Only adults can reproduce or have functional wings
Food sources differ enhances adaptability
Body plan
3 parts: head, thorax, and abdomen
Embryonic segments develop independently
3 pairs of legs, wings not at cost to legs
Mouthparts for food sources few limits
Coloration
Camouflage, mimicry, and coloration from independent
development
Gene regulation role
Phylum Echinodermata
• External radial symmetry as an adult,
bilateral as larvae
• Ca2+ plates form endoskeleton
• Locomotion, feeding, and gas exchange via
tube feet
– Water vascular system
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Mouth and stomach adaptations
Capable of regeneration
Deuterosomes
Include sea stars, urchins, and same dollars