Table of Contents – pages iii

Unit 1: What is Biology?Unit 2: EcologyUnit 3: The Life of a CellUnit 4: GeneticsUnit 5: Change Through TimeUnit 6: Viruses, Bacteria, Protists, and FungiUnit 7: PlantsUnit 8: InvertebratesUnit 9: VertebratesUnit 10: The Human Body

Unit 1: What is Biology?

Chapter 1: Biology: The Study of LifeUnit 2: Ecology Chapter 2: Principles of Ecology Chapter 3: Communities and Biomes Chapter 4: Population Biology Chapter 5: Biological Diversity and ConservationUnit 3: The Life of a Cell Chapter 6: The Chemistry of Life Chapter 7: A View of the Cell Chapter 8: Cellular Transport and the Cell Cycle Chapter 9: Energy in a Cell

Unit 4: Genetics

Chapter 10: Mendel and Meiosis

Chapter 11: DNA and Genes

Chapter 12: Patterns of Heredity and Human Genetics

Chapter 13: Genetic Technology

Unit 5: Change Through Time Chapter 14: The History of Life Chapter 15: The Theory of Evolution Chapter 16: Primate Evolution Chapter 17: Organizing Life’s Diversity

Unit 6: Viruses, Bacteria, Protists, and Fungi

Chapter 18: Viruses and Bacteria

Chapter 19: Protists

Chapter 20: Fungi

Unit 7: Plants

Chapter 21: What Is a Plant?

Chapter 22: The Diversity of Plants

Chapter 23: Plant Structure and Function

Chapter 24: Reproduction in Plants

Unit 8: Invertebrates

Chapter 25: What Is an Animal?

Chapter 26: Sponges, Cnidarians, Flatworms, and Roundworms

Chapter 27: Mollusks and Segmented Worms

Chapter 28: Arthropods

Chapter 29: Echinoderms and Invertebrate Chordates

Unit 9: Vertebrates Chapter 30: Fishes and Amphibians

Chapter 31: Reptiles and Birds

Chapter 32: Mammals

Chapter 33: Animal Behavior

Unit 10: The Human Body

Chapter 34: Protection, Support, and Locomotion

Chapter 35: The Digestive and Endocrine Systems

Chapter 36: The Nervous System

Chapter 37: Respiration, Circulation, and Excretion

Chapter 38: Reproduction and Development

Chapter 39: Immunity from Disease

Sponges, Cnidarians, Flatworms, and Roundworms

What Is an Animal?

Sponges, Cnidarians, Flatworms, and Roundworms

Mollusks and Segmented Worms

Arthropods

Echinoderms and Invertebrate Chordates

Chapter 26 Sponges, Cnidarians, Flatworms, and Roundworms

26.1: Sponges

26.1: Section Check

26.2: Cnidarians

26.2: Section Check

26.3: Flatworms

26.3: Section Check

26.4: Roundworms

26.4: Section Check

Chapter 26 Summary

Chapter 26 Assessment

What You’ll Learn

You will identify and compare and contrast the characteristics of sponges, cnidarians, flatworms, and roundworms.

You will describe and evaluate the significance of sponge, cnidarian, flatworm, and roundworm adaptations.

• Relate the sessile life of sponges to their food-gathering adaptations.

Section Objectives:

• Describe the reproductive adaptations of sponges.

• Sponges are asymmetrical aquatic animals that have a variety of colors, shapes, and sizes.

• Many are bright shades of red, orange, yellow, and green.

What is a sponge?What is a sponge?

• Although sponges do not resemble more familiar animals, they carry on the same life processes as all animals.

• Sponges are classified in the invertebrate phylum Porifera, which means “pore bearer.”

• Most live in marine biomes, but about 150 species can be found in freshwater environments.

Sponges are pore-bearersSponges are pore-bearers

• Sponges are mainly sessile organisms.

• Because most adult sponges can’t travel in search of food, they get their food by a process called filter feeding.

Sponges are pore-bearersSponges are pore-bearersWater out

Centralcavity

Waterin

Sponges are pore-bearersSponges are pore-bearers

• Filter feeding is a method in which an organism feeds by filtering small particles of food from water that pass by or through some part of the organism.

Water out

Centralcavity

Waterin

A SpongeA SpongeOsculum

Pore cellEpithelial-like cells

Collar cells

AmoebocyteDirection of water flow through pores

Spicules

Cell organization in spongesCell organization in sponges

• For some sponge species, if you took a living sponge and put it through a sieve, not only would the sponge’s cells be alive and separated out, but these cells would come together to form new sponges.

• It can take several weeks for the sponge’s cells to reorganize themselves.

Cell organization in spongesCell organization in sponges• Many biologists hypothesize that sponges

evolved directly from colonial, flagellated protists, such as Volvox.

Volvox

Cell organization in spongesCell organization in sponges

• More importantly, sponges exhibit a major step in the evolution of animals—the change from unicellular life to a division of labor among groups of organized cells.

Reproduction in spongesReproduction in sponges

• Sponges can reproduce asexually and sexually.

• Depending on the species, asexual reproduction can be by budding, fragmentation, or the formation of gemmules.

Reproduction in spongesReproduction in sponges• An external growth, called a bud, can

form on a sponge.

• If a bud drops off, it can float away, settle, and grow into a sponge.

• Sometimes, buds do not break off. When this occurs, a colony of sponges forms.

• Often, fragments of a sponge break off and grow into new sponges.

• Some freshwater sponges produce seedlike particles, called gemmules, in the fall when waters cool.

• The adult sponges die over the winter, but the gemmules survive and grow into new sponges in the spring when waters warm.

• Most sponges reproduce sexually.

• Some sponges have separate sexes, but most sponges are hermaphrodites. A hermaphrodite (hur MAF ruh dite) is an animal that can produce both eggs and sperm.

Reproduction in spongesReproduction in sponges• Eggs and sperm form from amoebocytes.

• During reproduction, sperm released from one sponge can be carried by water currents to another sponge, where fertilization can occur.

Reproduction in spongesReproduction in sponges• Fertilization in sponges may be either external

or internal.

• A few sponges have external fertilization—fertilization that occurs outside the animal’s body.

• Most sponges have internal fertilization, in which eggs inside the animal’s body are fertilized by sperm carried into the sponge with water.

Spermcells

Larvae

Eggcell

Flagella

New sponge

• In sponges, the collar cells collect and transfer sperm to amoebocytes.

• The amoebocytes then transport the sperm to ripe eggs.

Support and defense systems in spongesSupport and defense systems in sponges

• Sponges are soft-bodied invertebrates, that can be found at depths of about 8500 m.

• Their internal structure gives them support and can help protect them from predators.

Support and defense systems in spongesSupport and defense systems in sponges• Some sponges have sharp, hard spicules

located between the cell layers.

• Spicules may be made of glasslike material or of calcium carbonate.

Spicules

• Other sponges have an internal framework made of silica or of spongin, a fibrous protein-like material.

• Sponges can be classified according to the shape and makeup of their spicules and/or frameworks.

• Besides sharp spicules, some sponges may have other methods of defense.

• Some sponges contain chemicals that are toxic to fishes and to other predators.

Question 1

What is the major evolutionary step in animals that sponges exhibit?(TX Obj 2; 4B, 8C, 10A, 10B)

Sponges are the first animals to exhibit the change from a unicellular life to a division of labor among groups of organized cells.

Question 2In sponges, where do fertilized eggs develop into zygotes? (TX Obj 2; 4B, 8C, 10A, 10B)

D. in the jelly between the cell layersC. in the collar cells B. in the pore cells A. in the sponge’s osculum

The answer is D, in the jelly between the cell layers.

Question 3How many layers of cells make up a sponge?(TX Obj 2; 8C)

D. fiveC. four B. three A. two

The answer is A, two.

Section Objectives

• Sequence the stages in the life cycle of a cnidarian.

• Analyze the relationships among the classes of cnidarians.

• Evaluate the adaptations of cnidarians for obtaining food.

• Cnidarians (ni DARE ee uns) are a group of invertebrates made up of more than 9000 species of jellyfishes, corals, sea anemones, and hydras.

What is a cnidarian?What is a cnidarian?

• They can be found worldwide, and all but a few cnidarians live in marine biomes.

• A cnidarian’s body is radially symmetrical. It has one body opening and is made up of two layers of cells.

Body structureBody structure

Cavity

Disc Outer cell layer

Jellylike layer

Inner cell layer

Tentacle

Body structureBody structure Mouth

Cavity

Disc Outer cell layer

Jellylike layer

Inner cell layer

Tentacle• The two cell layers are organized into tissues with specific functions.

• The inner layer is adapted mainly to assist in digestion.

• Because a cnidarian’s body is only two layers of cells, no cell is ever far from water.

• Oxygen dissolved in water can diffuse directly into body cells.

• Carbon dioxide and other wastes can move out of a cnidarian’s body cells directly into the surrounding water.

Body structureBody structure

• Cnidarians display a remarkable variety of colors, shapes and sizes. Some can be as small as the tip of a pencil.

A CnidarianA Cnidarian

• Most cnidarians have two distinct body forms during their life cycles.

• A polyp is the sessile form of a cnidarian. Its mouth is surrounded by tentacles.

• Examples of polyps include sea anemones, corals, and hydras.

• A medusa is the free-swimming form of a cnidarian.

A CnidarianA Cnidarian

• It possesses an umbrella-shaped, floating body, called a bell, with the mouth on its underside.

Tentacles

A CnidarianA Cnidarian Tentacles

Nematocyst before discharge

Nematocyst after discharge

Tentacles

• Most cnidarians undergo a change in body form during their life cycles.

Body formBody form

Medusa

Body formBody form• There are two body forms, the polyp

and the medusa.

Medusa

• In cnidarians, one body form may be more observable than the other. In jellyfishes, the medusa is the body form usually observed.

• The polyp is the familiar body form of hydras.

Body formBody form

• All cnidarians have the ability to reproduce sexually and asexually.

Reproduction in cnidariansReproduction in cnidarians

• Sexual reproduction occurs in only one phase of the life cycle.

• It usually occurs in the medusa stage, unless there is no medusa stage then the polyp can reproduce sexually.

Male Female

Eggs Sexual Reproduction

Fertilization

Blastula

PolypBud

Asexual Reproduction

• The most common form of reproduction in cnidarians can be illustrated by the life cycle of a jellyfish.

• Even though these two stages alternate in a cnidarian’s life cycle, this form of reproduction is not alternation of generations as in plants.

• In plants, one generation is diploid and the other is haploid. However, both cnidarian medusae and polyps are diploid animals.

Asexualreproduction

Male FemaleMedusae

Sexualreproduction

• Cnidarians are predators that capture or poison their prey using nematocysts.

Digestion in cnidariansDigestion in cnidarians

• A nematocyst (nih MA tuh sihst) is a capsule that contains a coiled, threadlike tube.

• The tube may be sticky or barbed, and it may contain toxic substances.

• Nematocysts are located in stinging cells that are on tentacles.

• Once captured by nematocysts, prey is brought to the mouth by contraction of the tentacles.

Medusa

Gastrovascular cavity

• The inner cell layer of cnidarians surrounds a space called a gastrovascular (gas troh VAS kyuh lur) cavity.

• Cells adapted for digestion line the gastrovascular cavity and release enzymes over captured prey. Any undigested materials are ejected back out through the mouth.

Hydra eating daphnia

• A cnidarian has a simple nervous system without a control center, such as a brain like that of other animals.

Nervous system in cnidariansNervous system in cnidarians

• In cnidarians, the nervous system consists of a nerve net that conducts impulses to and

from all parts of the body.

• The impulses from the nerve net cause contractions of musclelike cells in the two cell layers.

There are four classes of cnidarians:

Diversity of CnidariansDiversity of Cnidarians

• Hydrozoa, Scyphozoa, Cubozoa, and Anthozoa. Cubozoans once were classified as scyphozoans.

• The class Hydrozoa includes two groups—the hydroids, such as hydra, and the siphonophores, including the Portuguese man-of-war.

Most hydrozoans form coloniesMost hydrozoans form colonies

• Most hydroids are marine animals that consist of branching polyp colonies formed by budding, and are found attached to pilings, shells, and other surfaces.

• The siphonophores include floating colonies that drift about on the ocean’s surface.

Most hydrozoans form coloniesMost hydrozoans form colonies

• The Portuguese man-of-war, Physalia, is an example of a siphonophore hydrozoan colony.

• Each individual in a Physalia colony has a function that helps the entire organism survive.

• The fragile and sometimes luminescent bodies of jellyfishes can be beautiful.

Scyphozoans are the jellyfishesScyphozoans are the jellyfishes

• Some jellyfishes are transparent, but others are pink, blue, or orange.

• The medusa form is the dominant stage in this class.

• The gastrovascular cavity of scyphozoans has four internal divisions.

Scyphozoans are the jellyfishesScyphozoans are the jellyfishes

• Like other cnidarians, scyphozoans have musclelike cells in their outer cell layer

that can contract. When these cells contract together, the bell contracts, which propels the animal through the water.

• Anthozoans are cnidarians that exhibit only the polyp form.

Most anthozoans build coral reefsMost anthozoans build coral reefs

• All anthozoans have many incomplete divisions in their gastrovascular cavities.

Sea Anemone

• Sea anemones are anthozoans that live as individual animals, and are thought to live for centuries.

Sea Anemone

• Corals are anthozoans that live in colonies of polyps in warm ocean waters around the world.

• They secrete protective, cuplike calcium carbonate shelters around their soft bodies.

• Colonies of many coral species build the beautiful coral reefs that provide food and shelter for many other marine species.

• Corals that form reefs are known as hard corals.

• Other corals are known as soft corals because they do not build such structures.

• The living portion of a coral reef is a thin, fragile layer that grows on top of the shelters left behind by previous generations.

• Although corals are often found in relatively shallow, nutrient-poor waters, they thrive because of their symbiotic relationship with microscopic, photosynthetic protists called zooxanthellae (zoh oh zan THEH lee).

• The zooxanthellae produce oxygen and food that the corals use, while using carbon dioxide and waste materials produced by the corals.

• These protists are primarily responsible for the bright colors found in coral reefs.

• Because the zooxanthellae are free-swimming, they sometimes leave the corals.

• Corals without these protists often die.

• The earliest fossil evidence for sponges dates this group to late in the Precambrian, about 650 million years ago.

Origins of Sponges and CnidariansOrigins of Sponges and Cnidarians

• The earliest known cnidarians also date to the Precambrian, about 630 million years ago.

• The earliest coral species were not reef builders, so reefs cannot be used to date early cnidarians.

• The larval form of cnidarians resembles protists, and because of this, scientists consider cnidarians to have evolved from protists.

Which of the following features is NOT common to both sponges and cnidarians?(TX Obj 2; 4B, 8C, 10A, 10B)

Question 1

D. reproduce both sexually and asexually C. sessile B. radial symmetry A. body made up of two layers of cells

The answer is B.

Explain the difference between the ways cnidarians and sponges take in food.(TX Obj 2; 4B, 8C, 10A, 10B)

Question 2

AnswerSponges passively filter food particles from the water when the particles flow through the sponge. Cnidarians actively seek food with tentacles that capture or paralyze the prey and take it to the cnidarian’s mouth for ingestion.

Explain how each of the two forms in the figure below benefits from contractions of muscle-like cells caused by impulses from its nerve net. (TX Obj 2; 4B, 8C, 10A,10B)

Question 3

Medusa

In the sessile polyp form, cell contractions cause tentacles to move prey toward the mouth. In the free-swimming form, cell contractions help the medusa to swim and find food.

Medusa

Which of the following is NOT true of cnidarian budding? (TX Obj 2; 4B, 8C, 10A, 10B)

Question 4

D. it is part of asexual reproduction

C. it produces haploid organisms

B. it produces clones of the parents

A. it can form colonies of individuals

The answer is C. Budding produces diploid organisms.

• Distinguish between the structural adaptations of parasitic flatworms and free-living planarians.

Section Objectives:

• Explain how parasitic flatworms are adapted to their way of life.

• The least complex worms belong to the phylum Platyhelminthes (pla tee HEL min theez).

What is a flatworm?

• These flatworms are acoelomates with thin, solid bodies.

Planarian

What is a flatworm? • There are approximately 14,500 species of

flatworms found in marine and freshwater environments and in moist habitats on land.

Planarian

• The most well-known members of this phylum are the parasitic tapeworms and flukes, which cause diseases in other animals, among them frogs and humans.

What is a flatworm?

• The most commonly studied flatworms in biology classes are the free-living planarians.

• Most of a planarian’s nervous system is located in its head—a characteristic common to other bilaterally symmetrical animals.

Nervous control in planarians

Nerve cell mass

• Some flatworms have a nerve net, and others have the beginnings of a central nervous system.

• A planarian’s nervous system includes two nerve cords that run the length of the body.

GangliaEyespots

Nerve cord

Muscle cells

Nervous control in planarians • It also includes eyespots that can detect

the presence or absence of light and sensory cells that can detect chemicals and movement in water.

GangliaEyespots

Nerve cord

Muscle cells

• At the anterior end of the nerve cord is a small swelling called a ganglion (plural, ganglia). The ganglion receives messages from the eyespots and sensory pits, then communicates with the rest of the body along the nerve cords.

Ganglia• Messages from the nerve

cords trigger responses in a planarian’s muscle cells.

• Like many of the organisms studied in this chapter, most flatworms including planarians, are hermaphrodites.

Reproduction in planarians

• During sexual reproduction, individual planarians exchange sperm, which travel along special tubes to reach the eggs.

• Fertilization occurs internally. The zygotes are released in capsules into the water, where they hatch into tiny planarians.

• Planarians have many characteristics common to all species of flatworms.

A Planarian

• The bodies of planarians are flat, with both a dorsal and a ventral surface. All flatworms have bilateral symmetry.

A Planarian

HeadEyespots

Sensory cells

Extended pharynx

Flame cellCilia

Digestive tract

Nucleus

CiliaExcretory system

• Planarians also can reproduce asexually.

• When a planarian is damaged, it has the ability to regenerate, or regrow, new body parts. Regeneration is the replacement or regrowth of missing body parts.

• If a planarian is cut horizontally, the section containing the head will grow a new tail, and the tail section will grow a new head.

Reproduction in planarians • Thus, a planarian that is damaged or cut into

two pieces may grow into two new organisms—a form of asexual reproduction.

• A planarian feeds on dead or slow-moving organisms.

Feeding and digestion in planarians

• It extends a tube-like, muscular organ, called the pharynx (FAHR inx), out of its mouth. Enzymes released by the pharynx begin digesting food outside the animal’s body.

Extended pharynx

• Food particles are sucked into the digestive tract, where they are broken up.

Feeding and digestion in planarians

• Cells lining the digestive tract obtain food by endocytosis.

• Food is thus digested in individual cells.

• A parasite is an organism that lives on or in another organism and depends upon that host organism for its food.

Feeding and digestion in parasitic flatworms

• Parasitic flatworms have mouthparts with hooks that keep the flatworm firmly attached inside its host.

ScolexSucker

Proglottid

Mature proglottidwith fertilized eggs

• They do not need to move to seek out or find food.

Feeding and digestion in parasitic flatworms

• Parasitic flatworms do not have complex nervous or muscular tissue.

• The body of a tapeworm is made up of a knob-shaped head called a scolex (SKOH leks), and detachable, individual sections called proglottids.

Tapeworm bodies have sections Hooks

ScolexSucker

Proglottid

Tapeworm bodies have sections • A proglottid (proh GLAH

tihd) contains muscles, nerves, flame cells, and male and female reproductive organs.

ScolexSucker

Proglottid

• Some adult tapeworms that live in animal intestines can be more than 10 m in length and consist of 2000 proglottids.

Tapeworm bodies have sections

• A fluke is a parasitic flatworm that spends part of its life in the internal organs of a vertebrate, such as a human or sheep.

The life cycle of a fluke

• It obtains its nutrition by feeding on cells, blood, and other fluids of the host organism.

Adult flukes

Embryos released

Snail host

Human host

• Blood flukes of the genus Schistosoma cause a disease in humans known as schistosomiasis.

• Schistosomiasis is common in countries where rice is grown.

• Blood flukes are common where the secondary host, snails, also are found.

In order to survive and reproduce, a parasite must have a _______. (TX Obj 2; 4B, 8C, 10A, 10B)

Question 1

D. host

C. scolex

B. proglottid

A. pharynx

The answer is D, host.

Explain the way planarians can reproduce asexually. (TX Obj 2; 4B, 8C, 10A, 10B)

Question 2

When a planarian is damaged, it can regenerate new body parts. It can also regenerate new organisms if cut into separate pieces.

• Compare and contrast the structural adaptations of roundworms and flatworms.

Section Objectives:

• Identify the characteristics of four roundworm parasites.

• Roundworms belong to the phylum Nematoda.

What is a roundworm?

• They are widely distributed, living in soil, animals, and both freshwater and marine environments.

• Most roundworm species are free-living, but many are parasitic.

Roundworm

• Roundworms are tapered at both ends.

• They have a thick outer covering, which they shed four times as they grow, that protects them in harsh environments.

MouthIntestine Anus

Round bodyshape

• They lack circular muscles but have lengthwise muscles.

• As one muscle contracts, another muscle relaxes. This alternating contraction and relaxation of muscles causes roundworms to move in a thrashing fashion.

• Roundworms have a pseudocoelom and are the simplest animals with a tubelike digestive system.

• Roundworms have two body openings—a mouth and an anus.

MouthIntestine Anus

Round bodyshape

• The free-living species have well-developed sense organs, such as eyespots, although these are reduced in parasitic forms.

MouthIntestine Anus

Round bodyshape

• Approximately half of the described roundworm species are parasites, and about 50 species infect humans.

Diversity of Roundworms

• Infection by Ascaris (ASS kuh ris) is the most common roundworm infection in humans.

Roundworm parasites of humans

• Children become infected more often than adults do.

• Eggs of Ascaris are found in soil and enter a human’s body through the mouth.

• The eggs hatch in the intestines, move into the bloodstream, and eventually to the lungs, where they are coughed up, swallowed, and begin the cycle again.

• Pinworms are the most common human roundworm parasites in the United States.

• Pinworms are highly contagious because eggs can survive for up to two weeks on surfaces.

• Its life cycle begins when live eggs are ingested. They mature in the host’s intestinal tract.

• Female pinworms exit the host’s anus—usually as the host cell sleeps—and lay eggs on nearby skin.

• These eggs fall onto bedding or other surfaces.

• Trichinella causes a disease called trichinosis (tri keh NOH sis).

• This roundworm can be ingested in raw or undercooked pork, pork products, or wild game.

Trichinella

• Hookworm infections are common in humans in warm climates where they walk on contaminated soil in bare feet.

• Hookworms cause people to feel weak and tired due to blood loss.

• Nematodes can infect and kill pine trees, cereal crops, and food plants such as potatoes.

Roundworm parasites of other organisms

• They are particularly attracted to plant roots and cause a slow decline of the plant.

• They also can infect fungi and can form symbiotic associations with bacteria.

Roundworm parasites of other organisms

• Nematodes also can be used to control pests.

Which of the following is NOT a feature of roundworms? (TX Obj 2; 4B, 8C, 10A, 10B)

Question 1

D. scolex

C. outer covering that can be shed

B. anus

A. pseudocoelom

The answer is D, scolex.

Which of the following parasites embeds itself inside the host’s muscle tissue?(TX Obj 2; 4B, 8C, 10A, 10B)

Question 2

D. Pinworms

C. Ascaris

B. Trichinella

A. Tapeworms

The answer is B. Trichinella is found in pork muscle tissue and can invade the muscle tissue of humans who eat undercooked infected pork.

• A sponge is an aquatic, sessile, asymmetrical, filter-feeding invertebrate.

Sponges

• Sponges are made of four types of cells. Each cell type contributes to the survival of the organism.

• Most sponges are hermaphroditic with free-swimming larvae.

• All cnidarians are radially symmetrical, aquatic invertebrates that display two basic forms: medusa and polyp.

Cnidarians

• Cnidarians sting their prey with cells called nematocysts located on their tentacles.

• The three primary classes of cnidarians include the hydrozoans, hydras; schyphozoans, jellyfishes; and anthozoans, corals and anemones.

• Flatworms are acoelomates with thin, solid bodies. They are grouped into three classes: free-living planarians, parasitic flukes, and tapeworms.

Flatworms

• Planarians have simple nervous and muscular systems. Flukes and tapeworms have structures adapted to their parasitic existence.

• Roundworms are pseudocoelomate, cylindrical worms with lengthwise muscles, relatively complex digestive systems, and two body openings.

Roundworms

• Roundworms can be parasites of plants, fungi, and animals, including humans.

Question 1Which of the following is NOT a method of asexual reproduction in sponges?(TX Obj 2; 4B, 8C, 10A, 10B)

D. flagellated larvae

C. gemmule formation

B. fragmentation

A. budding

The answer is D. Flagellated larvae result from sexual reproduction.

Question 2In hermaphroditic sponges, eggs and sperm form from _______. (TX Obj 2; 4B, 8C, 10A, 10B)

D. collar cells

C. amoebocytes

B. epithelial cells

A. larvae

The answer is C, amoebocytes.

Amoebocyte

Question 3

Describe the symbiotic relationship between corals and zooxanthellae. (TX Obj 2; 4B, 8C, 10A, 10B)

Zooxanthellae produce oxygen and food that the corals use. The corals produce carbon dioxide and waste materials that the zooxanthellae use.

Question 4The cnidarians with many incomplete divisions in their gastrovascular cavities are the _______.(TX Obj 2; 4B, 8C, 10A, 10B)

D. Siphonophores

C. Anthozoans

B. Hydrozoans

A. Scyphozoans

The answer is C, Anthozoans.

Question 5The medusa is the body form usually observed in _______.(TX Obj 2; 4B, 8C, 10A, 10B)

D. Anthozoans

C. Siphonophores

B. Hydrozoans

A. Scyphozoans

The answer is A, Scyphozoans.

Question 6How is a secondary host involved in the life cycle of a tapeworm?(TX Obj 2; 4B, 8C, 10A, 10B)

AnswerThe eggs of the tapeworm hatch when a secondary host eats them.

Question 7The secondary host for the blood fluke is a _______. TX Obj 2; 4B, 8C, 10A, 10B)

D. dogC. snail

B. sheep

A. human

The answer is C, snail.

Question 8The simplest animals with a tube-like digestive system are _______.(TX Obj 2; 4B, 8C, 10A, 10B)

D. Anthozoans

C. Hydrozoans

B. Platyhelminthes

A. Nematodes

The answer is A, Nematodes.

Roundworm

Question 9

Which of the following is not a roundworm infection in humans?(TX Obj 2; 4B, 8C, 10A, 10B)

D. ascaris

C. pinworm

B. ringworm

A. hookworm

The answer is B. Ringworm is a fungal infection.

Photo CreditsPhoto Credits

• Digital Stock

• Ward's Natural Science Est.

• Kip Evans/NOAA

• Florida Keys National Marine Sanctuary/NOAA

• Carolina Biological Supply Co.

• Dr. John Crites

• David M. Dennis

• Alton Biggs

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