Ochre sea stars, Pisaster ochraceus Chapter 33 Introduction to Invertebrates Ochre sea stars, Pisaster ochraceus

One view of animal diversity based on body-plan grades

Chapter 33 Outline (five concepts) 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes Discovery Channel Video

Sponges – Porifera (Calcarea and Silicea)

Reproduction = hermaphroditic 33.4 Anatomy of a sponge Reproduction = hermaphroditic Sponge spicules

33.7 Cnidarians: Hydrozoans (top left), jelly (top right), sea anemone (bottom left), coral polyps (bottom right)

33.5 Polyp and medusa forms of cnidarians

33.6 A cnidocyte of a hydra http://www.youtube.com/watch?v=TWJat3byA8Y

33.8 The life cycle of the hydrozoan Obelia

33.8 The life cycle of the hydrozoan Obelia

33.8 The life cycle of the hydrozoan Obelia

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

33.8 A ctenophore, or comb jelly One-way digestive tract No nematocysts

Platyhelminthes: A marine flatworm (class Turbellaria)

33.10 Anatomy of a planarian

33.12 Anatomy of a tapeworm

33.11 The life history of a blood fluke, Schistosoma mansoni (Trematoda)

Total persons infected (global): 200 million Total persons infected (Africa): 170 million (second most prevalent parasitic disease in Africa) Persons with associated morbidity: 120 million Mortality Unknown, but 20 million severely infected

A feature of many members of the phylum of the Platyhelminthes (flatworms) is their complex life cycle. Understanding the life cycles of flatworm parasites is of great importance to human health because: it emphasizes the beneficial relationship between humans and their environment. although these parasites are of little importance in modern society, they must be studied before they are completely eliminated. flatworms may secrete important chemicals for human use. it helps us to understand the evolutionary relationships between the different parasites. it may be possible to find a portion of that life cycle where the parasite is vulnerable and can be controlled.

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

33.13 Rotifers (pseudo-coelomates) Reproduction by pathenogenesis

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

33.14 Lophophorates: Bryozoan (left aka Ectoprocts), Phonorids (middle), and Brachiopod (right) – all coelomates

Bryozoans: Colonial animals that superficially resemble mosses

Nemertea – proboscis worms (pseudoceolomates)

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

Gastropods: Nudibranchs (‘sea slug’, top left and top right), terrestrial snail (bottom left), deer cowrie (bottom right)

33.15 Basic body plan of mollusks

33.16 A chiton

33.18. The result of torsion in a gastropod (twisting of the visceral mass during embryonic development resulting in the anus being near the anterior mouth).

33.20 Anatomy of a clam

Dreissena polymorpha Zebra mussel

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

See also 33.21. Cephalopods: Squid (top left and bottom left), nautilus (top right), octopus (bottom right)

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

Annelida: External anatomy of an earthworm (note segmentation) http://www.youtube.com/watch?v=0Texxu3p7I8&feature=related Tubifex sp. Lumbricus sp.

33.24. Anatomy of an earthworm

Annelids, the segmented worms: Polychaete (left), feather-duster worm (middle); Hirudinea (leech, right)

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

33.26 Free-living nematode Vinegar eel

Two American ‘Worm People’ Win Nobel for RNA Work This year’s Nobel Prize in Physiology or Medicine has been awarded to two American researchers, Andrew Z. Fire and Craig C. Mello, for a far-reaching discovery about how genes are controlled within living cells. The finding by Drs. Fire and Mello made sense of a series of puzzling results obtained mostly by plant biologists, including some who were trying to change the color of petunias. By clarifying what was happening, they discovered an unexpected system of gene regulation in living cells and began an explosive phase of research in a field known variously as RNA interference or gene silencing. This natural method of switching genes off has turned out to be a superb research tool, allowing scientists to understand the role of new genes by suppressing them. The method may also lead to a new class of drugs that switch off unwanted processes in disease. Two gene-silencing drugs designed to treat macular degeneration are already in clinical trials. Dr. Fire, now at Stanford University, worked at the Carnegie Institution of Washington when he made the discovery. Dr. Mello, a frequent collaborator, is at the University of Massachusetts Medical School in Worcester. Both are “worm people,” as scientists who do their biology in the roundworm Caenorhabditis elegans call themselves. Prior to their discovery, plant biologists over many decades had found odd exceptions to Mendel’s laws of heredity, including some unexplained effects produced by injecting RNA, the less-well-known cousin of DNA, into plants. Both are chemicals called nucleic acids, but DNA is longer and more stable and is used by the cell for the archival function of storing genetic information. RNA is shorter and more active, and performs many of the cell’s more difficult tasks, like making copies of the genes in DNA and directing the synthesis of the proteins specified by the genes………………

33.27 Parasite nematode, Trichinella spiralis in human muscle tissue Trichinosis: may be contracted from undercooked meat – fever diarrhea, swelling, rarely fatal

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

33.30 External anatomy of an arthropod (jointed appendages) Exoskeleton made of chitin

Trachae in terrestrial arthropod species: tiny chitin-lined airtubes that bring oxygen into the cells. Bumblebee.org

33.28 A trilobite fossil

33.31. Horseshoe crabs (living fossils) Limulus polyphemus (Arachnida) Subphylum: Cheliceriformes

Subphylum: Cheliceriformes Chelicerata: Claw-like feeding appendages

Subphylum: Cheliceriformes Arachnids: Scorpion (left), honeybee air tube filled with parasitic mites (right)

Subphylum: Cheliceriformes

33.33. Spider anatomy

Subphylum Myriapoda (millipedes and centipedes)

33.35 Subphylum Hexapoda: Anatomy of a grasshopper, an insect

Subphylum Hexapoda: beetle

33.37. Subphylum Hexapoda Metamorphosis of a butterfly

33.39 Subphylum Crustacea: Lobster (top left), banded coral shrimp (bottom left), barnacles (right)

Chapter 33 Outline 33.1 Sponges are basal animals that lack true tissues 33.2 Cnidarians are an ancient phylum of eumetazoans 33.3 Lophotrochozoans have the widest range of animal body forms (flatworms, rotifers, lophophorates, molluscs, annelids) 33.4. Ecdysozoans is the most species-rich group (nematodes, arthropods) 33.5 Echinoderms and chordates are deuterostomes

Echinoderm Diversity

Blood star, Hencricia levisuscula

33.40. Anatomy of a sea star

Ch. 33 Review (p. 695)

You discover an animal that has a true coelom and an exoskeleton that includes the modified poly-saccharide chitin. Select the phylum to which this animal most likely belongs. Nematoda (roundworms) Porifera (sponges) Arthropoda (crustaceans, insects, and others) Mollusca (mollusks) Platyhelminthes (flatworms)