Chapter 33 Invertebrates PDF

Summary

This document provides an introduction to invertebrates, discussing their diverse characteristics and roles in the animal kingdom. It explores different phyla of invertebrates, including Porifera, Cnidaria, and platyhelminthes, highlighting their features and ecological significance.

Full Transcript

Chapter 33

An Introduction to
Invertebrates
 A Dragon
Without a
Backbone
Invertebrates are animals that lack a
backbone
They account for more than 95% of
known animal species
Invertebrates are morphologically
diverse and occupy almost every
habitat on Earth
◦ For example, the blue dragon is a sea
slug with finger-like structures that
resemble the limbs of a dragon
Mollusca, gastropoda, nudibranchia
Eumetazoa = have tissues and two or three germ
layers
Ecdysozoa = shed outer layer to grow
Lophotrochozoa/Spiralia = ciliated feeding
structure
Deuterostomia = Blastopore becomes the anus

Porifera

Cnidaria
Eumetazoa
Lophotrochozoa

Bilateria
Ecdysozoa
Common
ancestor of
all animals Deuterostomia
Current consensus animal
phylogeny based on molecular
and morphological data *
All phyla have marine species.
Only a subset also have terrestrial
* or freshwater species.
Spiralia/ * Animals evolved in the sea.

*

* *

*

* Big Nine Phyla indicated with *

*
Updated Animal Phylogeny
Basal Metazoans

Porifera Acoela Ctenophora
(5,500 species) (400 species) (100 species)

1.5 mm
A sponge Acoel flatworms

Cnidaria Placozoa (1 species)
(10,000 species)
0.5 mm

comb jelly

A jelly

A placozoan
Big Nine!

Sponge Video

Porifera
(5,500 species)

Azure vase sponge
(Callyspongia plicifera)

Sponges are basal
animals that lack tissues.
They are sedentary
except for the larval
stage. They live in
marine and fresh water.
 Food particles
in mucus

Choanocytes Collar Choanocyte

Osculum

Phagocytosis
Flagellum of food
particles Amoebocyte
Pores
Spicules
Epidermis

Water
flow
Amoebocytes
Sponges lack tissues, groups of similar cells that
act as functional units
Sponges have several different cell types
◦ Choanocytes, flagellated collar cells, generate a
water current through the sponge and ingest
suspended food
◦ Sponges consist of a gelatinous noncellular
mesohyl layer between two cell layers
◦ Amoebocytes are totipotent cells found in the
mesohyl that play roles in digestion and
manufacture of skeletal fibers
Sponge larvae

Most sponges are hermaphrodites: Each
individual functions as both male and female
(produces both eggs and sperm)
Most exhibit sequential hermaphroditism:
They function first as one sex and then as the
other
 Placozoa (3 genera)

0.5 mm

Simple bilayer of a few thousand
cells about 1 mm across

No tissues

DNA analysis places them as the
most basal metazoan after
sponges
 Ctenophora
(100 species)

Diploblastic and radially symmetric

Split from the animal lineage about the
same time as cnidarians

They move through the water using
eight “combs” of cilia

Comb jelly
Big Nine!

Cnidarians are an ancient phylum of
eumetazoans

Cnidaria
(10,000 species)

Jellies, corals, and hydras

Diploblastic *mostly,* radial
body plan

Both sessile and motile forms

Nerve net
 Cnidarians are carnivores that
use tentacles to capture prey
The tentacles are armed with
cnidocytes, unique cells that
function in defense and capture of
prey
Nematocysts are specialized
organelles within cnidocytes that
eject a stinging thread

Anemone feeding
 Tentacle Cuticle
of prey

Thread

Nematocyst
“Trigger”

Thread
discharges

Thread
(coiled)
Cnidocyte
Two clades of
Cnidarians

Medusozoans

Jellies Sea wasp

Anthozoans

Sea anemones Star corals
 Scyphozoan

Medusozoans
Medusozoans include all cnidarians that produce a
medusa
◦ Scyphozoans (jellies)
◦ Cubozoans (box jellies)
◦ Hydrozoans: mostly alternate between a medusa and polyp
stage.

Hydrozoan
Portuguese Man o’ War

box jelly
There are two variations on the body plan: the sessile
polyp and motile medusa
A polyp adheres to the substrate by the aboral end of
its body
A medusa has a bell-shaped body with its mouth on
the underside
Medusae do not attach to the substrate but move
freely
The medusa is the predominant stage in the life cycle
of most scyphozoans and cubozoans
Medusozoans

Mouth/anus Tentacle
Gastrovascular
cavity
Gastrodermis
Mesoglea
Body
stalk Epidermis

Tentacle
Mouth/anus
Polyp (cross section) Medusa (cross section)
Medusozoan life cycle

Haploid (n)
Diploid (2n)
Reproductive
polyp Medusa
Feeding
polyp
Medusa MEIOSIS
bud
Gonad
Egg Sperm
SEXUAL
ASEXUAL REPRODUCTION
REPRODUCTION
(BUDDING)
Portion of FERTILIZATION
a colony
of polyps Zygote
Developing
polyp Planula
(larva)

Mature
polyp
1 mm
Anthozoans
The clade Anthozoa
includes the corals and sea
anemones
Anthozoans occur only as
polyps
Considered most like the
ancestral Cnidarians
Corals often form
symbioses with algae and
secrete a hard
exoskeleton (external
skeleton)
 Acoela
(400 species)

Also called Xenacoelomorpha,
they were once included with
flatworms.
Molecular evidence shows
they are basal bilaterians
No coelom, simple sac-like 1.5 mm
gut

Acoel flatworms
 Spiralia/Lophotrochozoans

A clade identified by molecular data (DNA)
Widest range of animal body forms
Bilaterian animals have bilateral symmetry and
triploblastic development
Most have a coelom and a digestive tract with two
openings
The clade Bilateria contains
Spiralia/Lophotrochozoa, Ecdysozoa, and
Deuterostomia
Porifera

Cnidaria

Spiralia/
Lophotrochozoa
Bilateria
Ecdysozoa

Deuterostomia
Big Nine!

Platyhelminthes: Flatworms

Free-living members of phylum
Platyhelminthes live in marine,
freshwater, and damp terrestrial
habitats
Many flatworms are parasites, such as
flukes and tapeworms
Unlike most triploblastic animals,
Platyhelminthes flatworms are acoelomates (animals
(20,000 species) that lack a body cavity)
Flatworms have a gastrovascular cavity
with one opening
The excretory apparatus
consists of protonephridia,
networks of ciliated tubules
that pull fluid through ducts
opening to the outside
Flatworms have a
dorsoventrally flattened to
maximize the surface area
across which gas exchange can
occur
Free-Living Species
The best-known platyhelminthes are planarians

Planarians live in fresh water and prey on smaller animals

Planarians have light-sensitive eyespots and centralized
nerve nets
All the cells in a flatworm body are close to the gut and close
to the water outside. No circulatory system, no gills.

Pharynx

Gastrovascular
cavity

Mouth

Ventral nerve cords Eyespots

Ganglia
Parasitic Species
Parasitic platyhelminthes live in or on other animals

Two important groups of parasitic species are the
trematodes and the tapeworms

Parasites often lose some body features of their phylum
during natural selection
 Tapeworms are parasites of 100 µm
vertebrates

They do not have a mouth or
gastrovascular cavity; instead,
they absorb nutrients directly from
the host’s intestine Hooks
Sucker
Fertilized eggs, produced by
sexual reproduction, leave the
Proglottids with
host’s body in feces reproductive
structures

Scolex

© 2017 Pearson Education, Inc.
Lophophorates:
Ectoprocts and Brachiopods
Lophophorates have a lophophore, a crown of ciliated
tentacles around their mouth used for feeding
Lophophorates have a true coelom
Lophophorates include two phyla: Ectoprocta and
Brachiopoda

Ectoprocta Brachiopoda
(4,500 species) (335 species)
Rotifers and
Acanthocephalans
Phylogenetic analyses have shown that rotifers (former
phylum Rotifera) and acanthocephalans (former phylum
Acanthocephala) should be combined into a single
phylum, Syndermata

Syndermata
(2,900 species)
Rotifers
Rotifers are tiny animals that inhabit freshwater, marine, and
damp soil habitats
Rotifers are smaller than many protists but are truly
multicellular and have specialized organ systems
They are pseudocoelomates, and a gut with a mouth and
anus
Rotifers reproduce by parthenogenesis, in which females
produce offspring from unfertilized eggs
Some species are unusual in that they lack males entirely
 Gastrotricha
(800 species)
“Hairy-belly” worms
live on the bottom of the
ocean or lakes feeding on
Decayed organic matter

200 µm
A gastrotrichan (differential-
interference-contrast LM)
 Cycliophora (1 species)
This phylum was
discovered in 1995.
It lives on the mouthparts
of lobsters

100 µm

A cycliophoran
(colorized SEM)
 Nemertea (900 species)

Lack a coelom,
but have a gut.
Have blood in vessels,
but no heart.

A ribbon worm
 Annelids: segmented
Big Nine!

worms
Annelids are coelomates with bodies
composed of a series of fused rings
Recent molecular analyses indicate that
the annelids can be divided into two
major clades
◦ Errantia
Annelida
◦ Sedentaria (16,500 species)

The phylum Annelida was traditionally
divided into three clades
◦ Polychaeta (polychaetes)
◦ Oligochaeta (oligochaetes)
◦ Hirudinea (leeches)
Errantians
Most members of clade Errantia are mobile marine
predators or grazers
Many errantians have a pair of paddle-like or ridge-like
structures called parapodia (“beside feet”) on each body
segment
Each parapodium has numerous chaetae, bristles made of
chitin
Parapodia are not unique to this clade
 Sedentarians
Sedentarians tend to be less mobile
than errantians
Some species burrow into the
substrate, while others live in
protective tubes
Tube-dwelling sedentarians often
have elaborate gills or tentacles
used for filter feeding
This clade also contains the leeches
and the earthworms
Leeches
Most species of leeches live in fresh
water; some are marine or terrestrial
Leeches include predators of
invertebrates and parasites that suck
blood
Some parasitic leeches slit the skin of
their host and secrete an anesthetic to
prevent detection
They secrete another chemical called
hirudin to prevent blood from
coagulating
Earthworms

Earthworms eat through
soil, extracting nutrients as
the soil moves through the
alimentary canal
Earthworms are
hermaphrodites but cross-
fertilize
Some reproduce asexually
by fragmentation
Video: Earthworm
Locomotion
Big Nine!

Molluscs
Mollusca
Phylum Mollusca includes (100,000 species)
snails and slugs, oysters and
clams, and octopuses and
squids
Most molluscs are marine,
though some inhabit fresh
water and some snails and
slugs are terrestrial
Molluscs are soft-bodied
animals, but most are
protected by a calcium An octopus
carbonate shell
 Most molluscs have separate
sexes with gonads located in
the visceral mass, but many
snails are hermaphrodites
The life cycle of many
molluscs includes a ciliated
larval stage called a
trochophore

Sea snail trochophore larva
Four of the major classes of molluscs are
◦ Polyplacophora (chitons)
◦ Gastropoda (snails and slugs)
◦ Bivalvia (clams, oysters, and other bivalves)
◦ Cephalopoda (squids, octopuses, cuttlefish,
and chambered nautiluses)
Chitons
Chitons are oval-shaped marine animals encased in an
armor of eight dorsal plates
They use their foot like a suction cup to grip rock, and
their radula to scrape algae off the rock surface
 About three-quarters of
all living species of

Gastropods
molluscs are gastropods
Most are marine, but
there are many
freshwater and
terrestrial species
Gastropods move slowly
by a rippling motion of
the foot or by cilia

A land snail

A sea slug
Bivalves
Bivalves are aquatic and include many species of clams, oysters,
mussels, and scallops
They have a shell divided into two halves drawn together by
adductor muscles
Some bivalves have eyes and sensory tentacles along the edge of
their mantle
Cephalopods
Cephalopods are active marine predators with beak-like
jaws surrounded by tentacles
They are able to immobilize prey with a poison present in
their saliva
The foot is modified into a muscular excurrent siphon and
part of the tentacles
The shell is reduced and internal or missing in most
species, except the chambered nautiluses
 Squid
Cephalopods

Octopus

Chambered
nautilus
 Octopus video

Cephalopods have a closed circulatory system,
well-developed sense organs, and a complex brain
Some Cephalopods are intelligent and can learn
Shelled cephalopods called ammonites were
common but went extinct at the end of the
Cretaceous period, 65.5 million years ago
Ecdysozoans are the
most species-rich animal
group

Ecdysozoans are covered by a
tough coat called a cuticle
The cuticle is shed or molted
through a process called ecdysis
The two largest phyla are
nematodes and arthropods
Porifera

Cnidaria

Spiralia/
Lophotrochozoa

Ecdysozoa

Deuterostomia
 Loricifera (10 species)
Tiny animals that live
buried in sediment
and eat bacteria 50 µm

Lorica = “corset”

A loriciferan (LM)
 Priapula (16 species)
Burrow in the sea floor
sediments.
Priapulans have been
around since the
Cambrian
Named after the Greek
God of fertility

A priapulan
 Onychophora
(110 species)

Velvet worms

Originated in the sea,
but now only live in
humid forests

No aquatic species known

An onychophoran
 Tardigrada (800 species)

Water bears 100 µm

Very small, most are
less than 0.5 mm
Can survive freezing
and complete desiccation

Tardigrades (colorized SEM)
Big Nine!

Nematodes: round
worms
Nematodes, or roundworms, are
found in most aquatic habitats, in
the soil, in moist tissues of plants,
and in body fluids and tissues of
animals
They have an alimentary canal, but
lack a circulatory system
Body wall muscles are all Nematoda
longitudinal, and their contraction (25,000 species)
produces a thrashing motion
Some species of nematodes are important
parasites of plants and animals, but many
are free-living in moist soil and aquatic
habitats
Trichinella spiralis is a parasite that can be
acquired by humans from undercooked pork
Caenorhabditis elegans is a soil nematode
that has become a model research organism
Video: C. elegans Embryo Development
(Time Lapse)
Video: C. elegans Crawling

© 2017 PEARSON EDUCATION, INC.
Big Nine!

Arthropods
Zoologists estimate that there are
about a billion billion (1018)
arthropods living on Earth
More than 1 million species have
been described, and two out of
every three known species of
animals are arthropods
Members of the phylum Arthropoda Arthropoda
are found in nearly all habitats of (1,000,000 species)
the biosphere
 Arthropod Origins
The arthropod body plan consists
of a segmented body, hard
exoskeleton, and jointed
appendages
This body plan dates to the
Cambrian explosion (535–525
million years ago)
Early arthropods show little
variation from segment to segment
Arthropod evolution shows fusion
and specialization of segments
© 2017 PEARSON EDUCATION, INC.
General Characteristics
of Arthropods
The appendages of some living arthropods are modified
for functions such as walking, feeding, sensory reception,
reproduction, and defense
These modified appendages are jointed and come in pairs

Crab feeding video
The body of an arthropod is
completely covered by the
cuticle, an exoskeleton made
of layers of protein and the
polysaccharide chitin
When an arthropod grows, it
molts its exoskeleton
Evolution of the exoskeleton
in early arthropods enabled
them to be among the first
animals to colonize land
◦ Its relative impermeability to
water helped prevent
desiccation
Morphological and molecular evidence
suggests that living arthropods consist of
three major lineages that diverged early
in the phylum’s evolution
◦ Chelicerates (sea spiders, horseshoe
crabs, scorpions, ticks, mites, and spiders)
◦ Myriapods (centipedes and millipedes)
◦ Pancrustaceans (lobsters and other
crustaceans, as well as insects and their
relatives)
Chelicerates
Chelicerates, clade Chelicerata, are named for clawlike
feeding appendages called chelicerae
The earliest chelicerates were eurypterids (water
scorpions)
Most marine chelicerates (including eurypterids) are
extinct, but some species survive today, including
horseshoe crabs
Most modern 50 µm
chelicerates are Scorpion
arachnids, which
include spiders,
scorpions, ticks, and
mites
They have 8 legs,
book lungs, and many Dust mite
spiders produce silk

Web-building
spider
Myriapods
The clade Myriapoda includes millipedes and centipedes
All living myriapods are terrestrial, but they first evolved in the
sea
They have a pair of antennae and three pairs of appendages
modified as mouthparts
Millipedes eat decaying leaves and plant matter
Millipedes have many legs, with two pairs per trunk segment
Myriapods

Centipedes are carnivores
Centipedes have one pair of
legs per trunk segment
Poison claws on the foremost
trunk segment paralyze prey
and aid in defense
Pancrustaceans
Recent evidence indicates that terrestrial insects are more
closely related to crustaceans than myriapods
Some lineages of crustaceans are more closely related to
insects than other crustaceans
Together, insects and crustaceans form the clade
Pancrustacea
Arthropods
Insects

Common ancestor Remipedians
of arthropods (a crustacean group)
Other
crustaceans

Myriapods

Chelicerates
Crustaceans

Crustaceans (crabs, lobsters, shrimps, barnacles, and
others) live in marine, freshwater, and terrestrial
environments
Many crustaceans have highly specialized appendages
Small crustaceans exchange gases through the cuticle;
larger crustaceans have gills
Barnacles are a group of
mostly sessile
crustaceans
They have a cuticle that
is hardened into a
calcium carbonate shell
Insects
Hexapoda is an enormous clade including insects
and their relatives
Insects live in almost every terrestrial habitat and
in fresh water; flying insects fill the air
They are rare in marine habitats
The internal anatomy of an insect includes several
complex organ systems
Insects diversified rapidly following the evolution of
flight 359–252 million years ago
An animal that can fly can escape predators, find
food, and disperse to new habitats much faster than
organisms that can only crawl
Insects evolved flight without sacrificing a pair of
walking legs because wings are an extension of the
cuticle
Many insects undergo metamorphosis during their
development
Insects with complete metamorphosis have larval
stages known by such names as maggot, grub, or
caterpillar
The larval stage looks entirely different from the adult
stage
Metamorphosis from larva to adult occurs during a
pupal stage
(a) Larva (b) Pupa
(caterpillar) (c) Later-stage
pupa
(d) Emerging
adult

(e) Adult
Video: Butterfly
Emerging
Archaeognatha (bristletails; 350 species)

Zygentoma (silverfish; 450 species)

Winged insects (many orders; six are shown below)

Complete metamorphosis Incomplete metamorphosis
Coleoptera: Beetles Hemiptera: Cicadas,
350,000 species) bugs
(85,000 species)

Diptera: Flies
(151,000 species)
Orthoptera: crickets+
(13,000 species)

Hymenoptera: Bees, Ants
(125,000 species)

Proboscis Lepidoptera: Butterflies,
Moths
(120,000 species)
Echinoderms and Chordates
are Deuterostomes
Echinoderms (phylum Echinodermata) include sea stars and
sea urchins
Vertebrates (animals that have a backbone) are members of
phylum Chordata
Echinoderms and chordates constitute the clade Deuterostomia
Deuterostomes share developmental
characteristics
◦ Radial cleavage
◦ Formation of the anus from the blastopore

However, some other animals also share these
developmental characteristics
Deuterostomes are defined primarily by DNA
similarities, rather than developmental
similarities
Porifera

Cnidaria

Spiralia/
Lophotrochozoa

Ecdysozoa

Deuterostomia
 Hemichordata (85 species)

Hemichordates are
Deuterostomes with gill
slits and a dorsal nerve
cord

Considered a sister group
to echinoderms

An acorn worm
Big Nine!

Chordates
Phylum Chordata consists of two basal groups of invertebrates as
well as vertebrates
Chordates are bilaterally symmetrical coelomates with
segmented bodies and a notochord
Chordates did not evolve from echinoderms, but have evolved
separately from them for at least 500 million years

Chordata
(57,000 species)

Pikaia: oldest chordate A tunicate
Big Nine!

Echinoderms
Sea stars and most other echinoderms are slow-moving or
sessile marine animals
A thin epidermis covers an endoskeleton of hard calcareous
plates
Echinoderms have a unique water vascular system, a network
of hydraulic canals branching into tube feet that function in
locomotion and feeding
Males and females are usually separate, and sexual reproduction
is external

Echinodermata
(7,000 species)
Video: Echinoderm Tube
Feet
Most adult echinoderms appear to have radial
symmetry with multiples of five
Echinoderm larvae have bilateral symmetry
Living echinoderms are divided into five clades
◦ Asteroidea (sea stars and sea daisies)
◦ Ophiuroidea (brittle stars)
◦ Echinoidea (sea urchins and sand dollars)
◦ Crinoidea (sea lilies and feather stars) basal lineage
◦ Holothuroidea (sea cucumbers)
Asteroidea: Sea Stars and Sea
Daisies
Sea stars have multiple arms radiating from a central disk
The undersurface of each arm bears tube feet, which grip
a substrate with adhesive chemicals
Sea stars feed on bivalves by prying them open with their
tube feet, everting their stomach, and digesting their
prey externally with digestive enzymes
Sea stars can regrow lost arms
Ophiuroidea: Brittle
Stars
Brittle stars have a distinct central disk and long, flexible
arms that they use for movement
Some species are suspension feeders, while others are
predators or scavengers
Echinoidea: Sea Urchins and Sand
Dollars
Sea urchins and sand dollars have no arms but have five rows of
tube feet
Sea urchins also use their spines for locomotion and protection
Sea urchins feed on seaweed using a jaw-like structure on their
underside
Sea urchins are roughly symmetrical; sand dollars are flat disks

Sand dollar video
Crinoidea: Sea Lilies and
Feather Stars
Sea lilies live attached to the substrate by a stalk
Feather stars can crawl using long, flexible arms
Both use their arms in suspension feeding
Crinoidea are the most basal echinoderms, and have
changed little over the course of evolution
Holothuroidea: Sea
Cucumbers
Sea cucumbers lack spines, have a very reduced
endoskeleton, and do not look much like other
echinoderms
Sea cucumbers have five rows of tube feet; some of these
are developed as feeding tentacles
Sea cucumbers have lost the 5-part symmetry as adults
that most echinoderms have
Sister clade to Echinoidia
 Phylum Description
Porifera (sponges) Lack tissues; have choanocytes
(collar cells—flagellated cells that ingest bacteria and
tiny food particles)
Cnidaria (hydras, jellies, sea Unique stinging structures (nematocysts) housed in
anemones, corals) specialized cells (cnidocytes); diploblastic; radially
symmetrical; gastrovascular cavity (digestive
compartment with a single opening)
Platyhelminthes (flatworms) Dorsoventrally flattened acoelomates; gastrovascular
cavity or no digestive tract
Syndermata (rotifers and Pseudocoelomates. Rotifers have alimentary canal
acanthocephalans) (digestive tube with mouth and anus) and jaws (trophi);
Lophotrochozoa

acanthocephalans are parasites of vertebrates
Lophophorates: Ectoprocta, Coelomates with lophophores (feeding structures
Brachiopoda bearing ciliated tentacles)
Mollusca (clams, snails, squids) Coelomates with three main body parts (muscular foot,
visceral mass, mantle); coelom reduced; most have
Metazoa

hard shell made of calcium carbonate
Annelida (segmented worms) Coelomates with segmented body wall and internal
Eumetazoa

organs (except digestive tract, which is unsegmented)
Bilateria

Nematoda (roundworms) Cylindrical pseudocoelomates with tapered ends;
Deuterostomia Ecdysozoa

no circulatory system; undergo ecdysis
Arthropoda (spiders, centipedes, Coelomates with segmented body, jointed appendages,
crustaceans, and insects) and exoskeleton made of protein and chitin

Echinodermata (sea stars, Coelomates with bilaterally symmetrical larvae and
sea urchins) five-part body organization as adults; unique water
vascular system; endoskeleton
Chordata (lancelets, tunicates, Coelomates with notochord; dorsal, hollow nerve cord;
vertebrates) pharyngeal slits; post-anal tail (see Chapter 34)