Ch 38 Arthropoda
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Transcript Ch 38 Arthropoda
Ch 38 –
Phylum Arthropoda
Characteristics of Arthropods
Segmented (Arthropod means “jointed foot”
Body segments have jointed appendages
Exoskeleton
Provides protection and support
Made of 3 layers excreted by the epidermis
Outer layer – waxy, mix of proteins and lipids
– Repels water and prevents dessication
Middle layer – primary protection, protein and chitin
Inner layer – flexible at joints, protein and chitin
– Muscles attach to move body segments
Characteristics Cont’d
True Coelom
Bilateral symmetry
Cephalization
Variety of appendages around mouth
Most have segmented antennae at anterior
Compound eyes
Made of many individual light detectors
Sense light intensity
– Send impulses to brain, then move along ventral nerve cord
Open circulatory system
Molting
B/c of exoskeleton, arthropods can’t grow
without periodically shedding
In between molts:
Tissues swell to put pressure on exoskeleton
Hormone is released
Epidermis secretes enzymes to digest inner layer
Uses this material to build new exoskeleton
Outer layer loosens and breaks
Molting Cont’d
Takes days for new exoskeleton to become
hard
Very vulnerable during this time
Evolution and Classification
¾ of all animal species belong to this phylum
Extremely diverse
Lobsters, crabs, spiders, centipedes, insects, etc.
First appeared more than 600 mya
Various groups have undergone evolutionary
changes
Scientists still believe they had a common ancestor
Ancestor: body segments identical, Living species:
Specialized tagmata
Evolution and Classification Cont’d
Divided in 4 subphyla
Trilobita (extinct animals called trilobites)
Crustacea - Lobsters, crabs, crayfish, etc.
Have pair of chewing mouthparts - mandibles
Chelicerata – spiders, scorpions, ticks, etc.
No antennae, pincerlike mouthparts - chelicerae
Uniramia – centipedes, millipedes, insects
Have antennae and mandibles, appendages are
unbranched
38-2 Subphylum Crustacea
Characteristics
2 pairs of
appendages on
head – feelers
Each other body
segment generally
has a pair of
appendages
Some are branched
Characteristics Cont’d
Exoskeletons contain large amounts of CaCO3
Gas exchange
Some through exoskeleton, some gills
Development
Most have free-swimming larva called a nauplius
3 pair appendages, 1 eye
Takes adult form through series of molts
Characteristics - Size
Large range, but mostly small
Small
Copepods and Water fleas
Size of a comma
Copepods = ocean plankton
Large
Japanese Spider Crab
14 foot leg span
The Crayfish
Freshwater relative of lobster
Decapod = 5 pairs of legs
External Structure
Body divided into 2 main parts
Cephalothorax
Consists of 2 tagmata
Head – 5 segments
Thorax – 8 segments, posterior to head
Dorsal exoskeleton fused into the carapace
Abdomen
Lies posterior to cephalothorax, 7 segments
7th is called the telson, forms flat paddle
External Structure Cont’d
Pair of app. attached to each segment
(except telson) See chart pg. 749
Antennules and Antennae: feelers sensitive to
touch, taste
Mandible: Chews food
Maxilla: 2 pairs, manipulate food, assist with
respiration
Maxillipeds: 3 pairs, manipulate food, sensitive to
touch and taste
External Structure Cont’d
Chelipeds: Most anterior on thorax, end in large
pincers
Walking leg: 4 pairs, movement over solid surface
First two pairs end in small pincers for grasping
Swimmeret: attached to five abdominal segments
For capturing food and defense
Create water currents and used in reproduction
Uropod: On sixth abdominal segment, used for
propulsion
Crayfish Ventral View
Crayfish - Digestion
Food passes through esophagus to
stomach
Stomach grinds food into fine paste
Uses teeth made of chitin and CaCO3
Paste mixed with enzymes excreted by a
digestive gland
Moves through intestine (further digestion
and absorption)
Waste leaves body via anus
Crayfish –
Respiration
Use gills
Extend from base of each walking leg into
chamber under carapace
Legs circulate water across gills during
walking
Posterior pair of maxillae as well
Each gill covered by extension of
exoskeleton
Thin enough for gas exchange
Crayfish - Circulation
Excess water eliminated through organs called
green glands
Open circulatory system
Dorsal heart
Pumps hemolymph through vessels
Hemolymph enters hemocoel, bathing tissues
Passes through gills for gas exchange
Returns to heart
Crayfish – Nervous system
Brain (pair of ganglia) located above
esophagus
Receives impulses from eyes, antennae, antennules
Nerves extend down to control mouth appendages
Ventral nerve cord runs posteriorly
38-3 Subphylum - Chelicerata
Class Arachnida
Class: Arachnida
Includes spiders, scorpions, mites, & ticks
Body is divided into cephalothorax and
abdomen (similar to crayfish)
Cephalothorax usually includes:
6 pairs jointed appendages
1 pair chelicerae (picher-like mouthparts)
1 pair pedipalps
Aid in holding food and chewing
4 pairs of walking legs
Spider Anatomy
Body is pinched b/t cephalothorax and
abdomen
Chelicerae modified as fangs used to inject
venom
Venom produced by poison glands in the CT
Flows through ducts in chelicerae to tips
Most have 8 simple eyes
Spider Anatomy cont’d
Posterior tip of abdomen has 3 pairs of organs
called spinnerets
Each made of hundreds of microscopic tubes
Connect to silk glands in abdomen
Fluid made from protein hardens into threads as it is
pulled from the spinnerets
Used to spin webs, build nests, protect eggs
Some move to a new habitat by allowing wind to
pull their threads
Spider Anatomy Cont’d
Nervous, digestive, circulatory systems all
very similar to crustaceans
Respiratory system is different (terrestrial!)
Book lungs: paired sacs in the abdomen with
many folds for gas exhange
And/or
Tracheae: system of tubes that carry air directly to
tissues
Through openings in exoskeleton called spiracles
Spider Anatomy Cont’d
Excretory system – modified for land
Malpighian tubules: hollow projections of
digestive tract
Collect body fluids and waste, carry to intestine
Most water reabsorbed, wastes leave body in
solid form
Coxal glands
Organs that remove wastes and discharge them
through openings at the base of some legs
Life of a Spider
Feed mostly on insects, some can catch fish
frogs, or birds
Many predator adaptations
Chase, Trapdoor, Snare
Male usually smaller than female
As soon a sperm is transferred to female, the
male moves away quickly
May get eaten if he isn’t fast enough
Female then puts fertilized eggs in silken case
Carries it or attaches it to something
Life of a Spider Cont’d
Most venom harmless to humans
only 2 fatal species in U.S.
Black Widow
Red/orange hourglass shaped mark ventral abdomen
Venom attacks nervous system
Brown Recluse
Violin shaped mark on dorsal cephalothorax
Venom digests tissues surrounding the bite
Scorpions
Differ from spiders in 2 ways
Large pincerlike pedipalps
Large stinger on the last abdomen segment
Curled over body
Usually nocturnal hunters
Prefer tropical or desert climates
chelicerae
eyes
pedipalp
Mites and Ticks
Completely fused CT and abdomen
Mites
Most less than 1 mm in length
Both free living and parasitic
Ticks
Range from a few mm to over an inch
Many parasitic
Can transmit Rocky Mountain Spotted Fever and
Lyme disease
Mite and Tick Body Regions
pedipalps &
chelicerae
cephalothorax
abdomen
American dog tick male
Blacklegged (deer) tick female
American dog tick female laying egg mass (1000-2000 eggs!).
Subphylum –
Uniramia
Myriapods
Could have been first animals to appear on land
Highly segmented
Little variation to appendages
No waxy exoskeleton
Live in damp environment
Class –
Diplopoda
Millipedes
2 pairs of legs per segment
Adapted for burrowing through soil
Move slowly (legs are short)
Rounded bodies
Eat plant matter
Short antennae, 2 groups simple eyes
Bad vision, good sense of smell
Class –
Chilopoda
Centipedes
15-175 pairs of legs
1 pair per segment
Can be very large in tropical regions
Flattened bodies
1st segment app. modified as poison claws
Predatory
Move quickly in search of prey (earthworms,
insects, etc.)