Insect morphology for 2nd year biology students
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Transcript of Insect morphology for 2nd year biology students
MANSOURA UNIVERSITY
INSECT MORPHOLOGY
For 2nd year biology
By
Dr. Zeinab Abu-Elnaga
•Entomology 2014 [email protected] Zoology Department, Faculty of Science http://zaboelnaga.synthasite.com
Dr.Z
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COURSE OUTLINES
o General introductory lecture.o External body morphology of insects and its modifications
Body apertures
The head capsuleStructureCephalic appendages
1.The antennae
2.The mouth parts
The thorax1.The wings
2.The legs
The abdomen1.The cerci
2.The genitalia
3.The styli
4.Stinging apparatus
5.Springing apparatus
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Lecture 1
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GENERAL LECTURE
INSECTS Systematic Position: Insects are members of one of the biggest classes of the….. Phylum:
Arthropoda (Nonchordata with jointed legs)
Class: Insecta (Hexapoda) (i.e. =six-legged or possess 3 pairs of legs) .
General Characters:A- Characters common between insects and other arthropods: Triploblastic coelomate with bilateral symmetry Segmented body and jointed appendages. Exoskeleton. Locomotory system with skeletal muscles. 3 pairs of peristomal appendages. Sense organs, Antennae (tactile & olfactory) & compound eyes. Mostly Dioeceous (sexes separate) Heamolymph (corresponding to both blood &lymph of vertebrates). Blood circulation is open type. Undergo metamorphosis (post-emberonic development).
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B- distinguish characters for insects:
Three regions body (head [cephalization], thorax, & abdomen).
Only one pair of antenna, no antennules.
Sessile compound eyes, (stalked in Arthropods).
Peristomal appendages (mouth parts).
Thorax (pro-, meso-, & metathorax), each one with pair of legs.
Wings (meso- & metathorax).
Adults have no abdominal legs.
The space between the viscera is filled by fat tissue.
Tracheal system is well developed, and gills, but no lung books.
Excretion via malpighian tubules.
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AT
TR
IBU
TES
OF S
UR
VIV
AL A
ND
DO
MIN
AN
CE IN
INS
EC
TS
StructuralSize & shapeThe ExoskeletonAdvanced locomotory organsThe mouth partsCentral nervous systemThe reproductive capacityThe digestive systemThe fat tissue
BehavioralOviposition hapitsProtection of quiescent stagesPeriodicity of activityHibernation & diapauseFeeding habitsMimicry & protective coloration
BiologicalDiversity of dietModes of reproductionLife cycle durationMetamorphosisparasitism
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ECONOMIC IMPOTENCE OF INSECTS
Blood sucking insects
(mostly temporary ecto-
parasites on man or
permanent ecto-parasite).
Disease transmission
Myasis to man & animals
Spoils our food & drink.
damage of cloths &
furniture
Caused by insects which
infest crop plants &
beneficial animals.
Plant pests: locusts, larvae of
many moths, thrips, fruit
flies, ……..ect.
Animal pests: warble flies
attack sheep & cattle,
causing decreased efficacy,
milk, & flesh…….
Direct Indirect
A-Injurious insects
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ECONOMIC IMPOTENCE OF INSECTS
Source of useful materials as
food, (bees, Aphids “honey
dew”, fried locusts, eggs of
big insects,…….. ect.)
clothing (salivary secretions
of silk worms)
Industry useful (natural dyes
& inks).
Pharmaceutical materials.
Cross pollination.
Improvement of soil properties
(ground beetles).
Source of food for birds &
fishes, used, in turn food for
man.
Discovery of juvenile hormone.
Some of them used as
biological control agents.
Direct Indirect
B- Benefits of insects
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Lecture 2
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THE HEAD REGION & ITS APPENDAGES
o Insects have a distinct and well developed head
region = Cephalization.
o unsegmented, but it actually consists of a number
of fused segments.
brain
Mouth parts
antennae
Compound eyes
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THE HEAD CAPSULE
Corresponds to the cranium of vertebrates.
The typical structure evident in locusts & cockroaches.
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POSITIONS OF THE HEAD
Pro-gnathous: head extended
longitudinally with body axis (m.p
are pointed forward, Weevils)
Hypo-gnathous: head
perpendicular to longitudinal
body axis (m.p pointed
downwards, Locust)
Opitho-gnathous: head bent
underneath thorax during rest
(m.p pointed backwards, Aphids)
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The Antennae Difintion: pair of jointed segments on front region of insects, mostly
located within socket, & its surface carries numerous fine hairs.
Function: tactile & olfactory organs (touch & smell
respectively),moreover, in mosquito it was for hearing (auditory).
Typical structure: three main regions:
1. Scape: basal part articulates with head capsule, contains one
segment almost, cylindrical in shape & movable in all directions.
2. Pedicel: short piece, connected to scape via memberanous
narrow ring, for bending.
3. Flagellum: long estpart, many sub-segments, flexible,
articulating basically with pedicle.
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TY
PES
OF
AN
TEN
NA
E
Setaceous
Filiform
Moniliform
Serrate
Capitate
Lamellate
Aristate
Pectinnate
Bipectinnate
Plumose
Pilose
Clavate
Geniculate
Stylate
flate
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TY
PES
OF
AN
TEN
NA
E
Setaceous: the subsegments of flagellum, tapering terminally, with
seta shape (cockroach).
Filiform: the flagellum subsegments alomost equal in size, rod
shaped, with blunted end (locust)
Monliform: the subsegments like beads of necklace (white ant)
Capitate: the terminal sub-segments enlarge suddenly, cap shaped
(flour beetles).
Clavate: with large diametered subterminal segments, like knob
(butter flies)
Pectinnate: each sub-segment carry a thin process on one side,
comp shaped (♀ moths)
Bipectinate: comp on both sides (♂ moths).
Lamellate: leaf like subsegments, overlapping each other as a fan
(Scarab beetle).
Geniculate: angled short flagellum, elbow-shaped (honey bee).
Plumose: setaceous type flagellum, but carring tufts of long hairs on
both sides, feather shaped (♂ mosquito)
Pilose: hairs shorter & less than plumose (♀ mosquito)
Aristate: short, rod shaped & unsegmented flagellum, carries a
thread like process called arista covered with hairs (house flies)
Stylate: blade like subsegments with pointed apor (Tabanus fly)
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Lecture 3
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THE MOUTH PARTS
•Typically evident in cockroach.
•Modification is a functional adaptation
-By reduction of un-needed parts
-Enlargement of the impotent parts or change in its shape
-Development of accessory parts
Cockroaches.flv
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M. P. OF BUTTERFLY (SUCKING TYPE)
Modifications according to
functional adaptation.
• Reduction of –Labrum
• Absence of –mandible & hypoharynx.
• Labium represented only by palps
(tactile)
• Maxillae fused together & modified
into a sucking proboscis (the functional
organ).
Proboscis: retractile, tubular, &
developed from the two galeae by its
elongation and rolling into a semi-tube
within inter-locked hooks.
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M. P. O
F B
UT
TER
FLY
(S
UC
KIN
G T
YP
E)
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M. P. OF HONEY BEE WORKER(BITING LAPPING TYPE)
Reduction of hypopharynx & labrum.
Modifications
- Mandibles: 2 flattened rectangular
plates, no teeth, no molar (used in
cutting soft wax).
- Maxillae: cardines rod shaped, stipi
fused to form lorum. The galeae
enlarged sheath. Lacinia, a small lobe
at the base of the galea.
- Labium: tongue-like proboscis. Fused,
extended & rolled glossae.
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M. P. O
F H
ON
EY
BE
E W
OR
KE
R(B
ITIN
G L
AP
PIN
G
TY
PE
)Honey bee feeding
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Honey Bee.flv
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MOUTH PARTS OF ♀ MOSQUITO (PIERCING-
SUCKING TYPE)
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♀ ANOPHELES MOSQUITO
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MO
UTH
PA
RTS
OF ♀
MO
SQ
UIT
O (P
IER
CIN
G-S
UC
KIN
G T
YP
E)
Modifications: Labrum-Epipharynx: elongated flap roofing
the Proboscies & covering the underlying
mouth parts.
Mandibles: pair of thin, hollow long bristle,
with pointed sharp ends. Adapted for piercing
blood vessels & sucking their contents.
Hypopharynx: a sword-shaped structure
extending between the mandibles &
underneath the labrum-epipharynx. It has sharp
edges for tearing the skin.
Maxillae: a pair of styles with serrated ends
for scratching the skin (modified galea)
Labium: elongated, thick walled (protective
sheath for the rest parts)
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MOUTH PARTS OF ♂ MOSQUITO
Not blood sucker (no mandibles)
Maxillae (greatly reduced)
Hypopharynx: fused with labium
Maxillary palps (4 segments “club-shaped”)
Don not forget the sexual dimorphism in the antennae.
♂Anopheles
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♂ CULEX
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M. P. OF HOUSE FLY (SPONGING TYPE)
The head capsule is protruded into a funnel-shaped Rostrum. The
pharynx extends through the rostrum as a narrow pipe.
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M. P. O
F H
OU
SE F
LY (S
PO
NG
ING
TY
PE
)
Modifications:
Labium: a thick double walled ( haustellum).
Labrum-Epipharynx: consists of labrum,
fused with the extended roof of the pre-oral
cavity,.
Hypopharynx: a tongue-like structure
resting along the floor of the haustellum, for
receiving the salivary duct.
Food-Meatus: a narrow channel enclosed
between the hypopharynx & the labrum-
epipharynx. Extended till the mouth opening
Labellae: 2 big sponge lobs carried on the
tip of the haustellum, for passage of saliva to
dissolve food before absorption.
The mandibles: absent
The maxillae: reduced.
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Lecture 5
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THORACIC REGION & ITS APPENDAGES
Thorax
Wingsdorsally
Legsventrall
y
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THORACIC REGION
Carrier to the locomotory organs.
Each of the three segments carries one pair of jointed leg.
Dorsally on each of meso- & metathorax it posses one pair
of wings and spiracles.
Typically structured from 3 sclerotized plates:
Tergite:( dorsal in position)
Sternite: (ventral)
Pleurites: (lateral)
With supporting function from all sides, provide
articulation for wings & legs, protection of the spiracles.
o Between each segments an articulating and bending inter-
segmental membrane, for bending & stretching.
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FORMS OF THORACIC SEGMENTS
Only in primitive insects & immature stages the thoracic segments similar in shape & equal in size.
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THORACIC APPENDAGE
The descriptions of the typical structure.
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MODIFICATIONS
The modification in different insects to suit the mode of locomotion or non-
locomotory functions (food collecting).
Running Cockroach
JumpingLocust
Walking upside-down
House fly
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SeizingFore-leg
Prey mantis
BurrowingFore-leg
Gryllotalpa
Swimming
Hind-legsWater beetles
Food collecting Hind-leg of Honey bee
worker
Clinging Lice
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Lecture 6
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THE WINGS
Most adult insects posses 2 pairs of wings
(on meso- & metathorax)
In flies & mosquitoes, the hind pair is
reduced
Wings are not modified legs as in birds &
bats, but are additional locomotory organs.
The base of wing articulates with the
tergum & pleuron of the segment carrying
it. This facilitates rotation of the wing
during flight in various directions in relation
to the body axis.
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TYPICAL STRUCTURE OF THE WINGS
Triangular, 3 regions (Jugum,
Vannus, & Remigium)
Wing Axil, posses small sclerotic
(support & articulation)
In the hind wings of most insects
the 3 regions are separated from
each other by 2 folds
This enables the insect to fold the
hind wings during repose & unfold
them during flight.
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HISTOLOGICAL STRUCTURE
Histologically, a wing is
analogous to a plant leaf,
contains double layer of
flattened cells covered with
extremely thin cuticle
Enclosing in between the
wing veins (for aeration)&
space for few blood cells
The wing surface carries
hairs, scales or spicules
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WING COUPLING
For fixing the for-wing with the hind-wing
This coupling enables the insect to resist the
opposing action while flying at considerable
heights.
1- In honey bee: the costal margin of the hind-wing
posses row of curved hooklets, that anchored to a
chitinous ridge of the anal margin of fore-wing,
(during Nuptial flight)
2- In some moths: the costal margin carries a
process that can fit within a loop extending from
the anal margin.
3- In other moths: the anal margin of the fore wing
has 2 clefts enclosing a lobe between them,
coupling by simple overlapping between the lope
& the costar margin of the hind-wing.
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WIN
G C
OU
PLIN
G
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TYPES OF WINGS
Wings of different insects differ in size, shape, texture &
other structural details.
Fore-wing usually differ from the hind-wings of the same
insect.
Function of wings:
1- flight ( rotationary vibrations effected by thoracic muscles).
2- Abdominal protective shield (fore-wing Elytera of beetles).
3- Balancing organs (modified hind-wing halteres in flies &
mosquitoes).
4- Sound-producing organs for calling mates (♂ crickets).
5- Important for insect classification (different types & mode
of development.
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TY
PES
OF W
ING
S
1- Tegmina (Leathery)
Cockroach
2- Elytra (elytron)
Coleopterous
3-Hemi-elytra
Hemiptera
4- Hairy type
Thrips
5- Lace type
Neuroptera
6-Scaly type
Lepodoptera
7- Membranous type
Hymenoptera
8- Haiteres (Balancers)
Diptera
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Lecture 7
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ABDOMINAL REGION & ITS APPENDAGES
It carries paired spiracles laterally
The gonophores postero-ventrally & the anus
terminally.
Contraction of abdominal muscles facilitates
hatching, molting & oviposition.
In apodous stages it was responsible for
locomotion (vermiform movements).
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THE ABDOMINAL SEGMENTS
Number: variable, the decrease in number is due to fusion, atrophy, or
modification.
Typical structure: a tergite, a starnite & 2 pleurites
Types: distinguished into:
1- Visceral S: constitute the major part of the abdomen next to the thorax (no
appendages)
2- Genital S: the subterminal 2 segments carries the gonopore & genitalia
(sexual function)
3- Post-Genital (Anal or Caudal) S: the terminal one or 2 segments carry
Anus & Cerci (similar in both sexes)
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MODIFICATIONS
Structural modifications are common in the genital & caudal
segmants. Examples are:
Last tergite in most big insects is split into 3 plates (2
lateral paraprocts & a median epiproct) for anus protection
and facilitating egesting
7th sternite in ♀ cockroach, enlarged & boat shaped to
protect the genitalia & holds the egg capsule
9th sternum in ♂ cockroach enlarged to protect the
genitalia & carries 2 thin sensory processes (Styli)
Last sternum in ♀ lice is clefted to facilitate mating &
oviposition
Terminal 3 segments in ♀ house fly reduced to retractile
telescoped tubules for oviposition
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VISCERAL APPENDAGES
• During immature stages some visceral segments carry paired
appendages for locomotion or aquatic breathing. In most of them
they were disappeared before maturity , but in Collembola they
remain
• types:
1- Prolegs: Caterpillars (5 pair of prolegs joined the ventral side
of 3rd, 4th, 5th, 6th, & 10th abdominal segments , they ends with
ring of curved hook-lets for clinging facilitation & climbing.
Additionally, they help the thoracic legs but differ from them in
position and structure (disappeared in the adult stage)
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Tracheal gills: feather-like lateral extensions of the
anterior 7 abdominal segments (May fly nymphs)
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SPRINGING APPARATUS
Springing apparatus: found in Collmbola, consists of
1- Colliphore (=Adhesor for adhesion)
2-Hamula (Clasper), hold the furcula during repose
3-Furcula (Spring) a long biforked flexible process extending from the latst (5th)
segment.
Springing takes place as follows
a. The fluid is withdrawn from the vesicles of colliphore, then collapse & the insect
gets free from substratum
b. The furcula is released from the clasper to return backwards in a sudden
movement (so, insects springs forwards swiftly)
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Lecture 8
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ANAL (CAUDAL) APPENDAGES
1- Cerci:
One pair carried by the last segment in both sexes
With different shape & size in different insects
All of them are tactile in function
Caudal gill plates, the terminal segment carries 3 leaf-
like thin walled gill plates for aquatic breathing
(Damselfly nymphs)
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TYPES OF CERCI
Short unsegmented (Locust)
Short, spindle shaped & segmented (cockroach)
Long segmented & setaceous (silverfish)
Forceps-shaped with serrated inner edges (ear-wigs) (for defence & preying)
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GENITAL APPENDAGES (GENITALIA)♂ GENITALIA
Penis: median hollow organ, joining the 9th sternum basally & carrying the ♂ gonopore (copulatory) claspers: one pair in some insects, enclosing the penis in-between
styli: in cockroaches only, one pair of thin unsegmented process
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♀ GENITALIA (OVIPOSITOR)
8th & 9th segments modified to an egg-laying
apparatus (by governing the egg deposition)
Honey bee, cockroach, grasshopper & parasitic
wasps
Typical structure: 3 pairs of valves, enclosing the
gonopore
Forms of ovipositors: depending on differ in shape &
size of valves, for different oviposition habits & other 2ry
functions
Function: 1- digging tunnels (Locust)
2- tearing plant leaves (Thrips)
3- piercing & narcotizing (parasitic wasps)
4- defense & attack (honey bees)
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FORMS OF OVIPOSITORS
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STIN
G O
F H
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B
EE
Modified ovipositorIn worker only for defense or attackStructure:
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Please consider the following in your comments about the course.
Would you prefer weekly quizzes rather than the “practice quizzes?
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Are the study materials helpful?
Is the list of terms helpful? The glossary?
Are the video clips helpful or distracting?
What can I do to improve attendance?
Would you recommend the course to a friend? An enemy?
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Please, list any suggestions for improving the course?
please, state your accepted skills during studying this course?
COURSE EVALUATION
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CITATION & REFERENCES
1- Text book of “Fundamentals of applied entomology”. 3rd edition, by Robert E. Pfadt. Macmillan publishing Co., INC. New York, 1971.
2- note book of “Entomology” 2nd year biology, published by the Zoology Dep., Faculty of Science Mansoura University.
http://images.google.com/images?hl=en&um=1&q=Forms+of+ovipositors+of+insects&sa=N&start=100&ndsp=20http://en.wikipedia.org/wiki/Insecthttp://www.earthlife.net/insects/anatomy.htmlhttp://www.amazon.com/Principles-Insect-Morphology-Comstock-Book/dp/0801481252#readerhttp://www.youtube.com/watch?v=Jpcpn5NX62c (honey bee
feeding)http://www.youtube.com/watch?v=L1bi-8uRCaU (house fly )http://www.youtube.com/watch?v=7V_GBQclQfc (mosquito)http://www.youtube.com/watch?v=daYvNM2IuOg (cockroach)
Recommended Text: The Insects, Structure and Function, by Chapman. Recommended Text: Evolution of the Insects, by Grimaldi and Engel. Recommended Text: Principles of Insect Morphology, by Snodgrass