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1. INTRODUCTION • Entomology (en-toe-mol-o-gee)is from the Greek word entomo, meaning insect. • Entomology: It is a science that deals with the study of arthropods in general, and incorporates sciences like zoology, biology, parasitology and micro-biology. • Medical entomology This is a branch of entomology which deals with arthropods which affect the health and well-being of man and vertebrate animals. • In other words, medical entomology is the medical science directly concerned with vectors that affect human and animal health. • Of an estimated 5–10 million species of insects, probably not more than a fraction of 1% interact, directly or indirectly, with humans.

2. Entomology There are also other branches of entomology for example: • Industrial Entomology/ Economical Entomology: deals with industrially or economically important arthropods (industrial pests). • Agricultural Entomology: Agricultural pest science dealing with arthropods that affect plants and animals.

3. INTRODUCTION • Arthropods: “Arthro” means jointed and “Poda” means legs. • Arthropods are invertebrate animals with jointed-legs and identified by their peculiar characteristics. • Entomologist the scientist who specializes in studying insect life.

4. DEVELOPMENT OF ARTHROPODS DEVELOPMENT OF ARTHROPODS The development of arthropods, which is called metamorphosis, is from egg to adult.  Metamorphosis: drastic change in shape & form for growth and development.  Tow types :  Incomplete : development from the egg to nymph, which looks like the adult  Complete : development, which extends from the egg to larva, pupa that later differentiate to the adult arthropod.  The stage of developing of an insect will affect insecticide efficacy.

7. Insects growth Insects need to shed (molt) an old skin to grow in size. The period between molts of larvae called an Instar. Most insects have 4- 8 instars before becoming adult.

8. Arthropods • All arthropods, while varying considerably in size and shape, have certain features in common . • They are all bilaterally symmetrical and metamerically segmented. • They have a hard chitinous exoskeleton, sometimes sclerotized or calcified. • Inside which is a hollow blood cavity containing a clear fluid (haemolymph), a dorsal tubular heart. • Alimentary tract. • central nervous system of two longitudinal nerve trunks fused segmentally to form ganglia. • Respiration may be achieved by a variety of methods: via gills, lung- hooks, gaseous exchange through the cuticle or by means of spiracles. • All arthropods have jointed appendages, which may take the form of legs, antennae, mouthparts or cerci. • The sexes are always separate.

9. Beneficial Effects of Insects 1- Insects pollinate flowers hence, fruit formation depends on them. 2- Insects form a source of food for man e.g. honey, termites, caterpillar. 3- Useful materials such as silk, bee wax, etc are obtained from insects 4- Insects are important in food chains, e.g. Aquatic insects form food for the fishes 5- Insects are important as scavengers – (decomposition involving cycling of materials) 6- Insects are important tools, e.g. Drosophila is used for research in genetics, physiology etc. 7- Some insects are used to control others that are pests (Biological Control) 8- Insects have aesthetic value (e.g. Butterflies are collected for their beauty). 9- Myiasis, the infestation of animal tissues (living or dead).

10. IMPORTANCE OF ARTHROPODS IN PARASITOLOGY Arthropods affect the health of man by being: (a) Direct agents for disease /discomfort. The following effects may be seen by the direct effect of arthropods. • Annoyance – comes from disruptive activities of insects, such as flying around or landing on the head, and from feeding, possibly causing blood loss, though they don’t remove sufficient blood to cause a medical problem in humans. • Entomophobia – is an irrational fear of insects. One extreme form of entomophobia is delusory parasitosis, in which individuals become convinced that they are infested with insects when no actual infestation exists. This may cause undue alarm and anxiety, leading to unwarranted use of insecticides, and in severe cases, requiring professional treatment.

11. IMPORTANCE OF ARTHROPODS IN PARASITOLOGY • Envenomization – is the introduction of a poison into the body of humans and animals. Arthropods may also inoculate poison to the host. E.g. Scorpion • Allergic reactions – a hypersensitive response to insect proteins. All of the mechanisms associated with envenomization can also cause exposure to allergens. In fact, human deaths from bee and wasp stings usually are associated with a hypersensitive reaction rather than direct effect of a toxin. • Dermatosis and dermatitis – dermatosis is a disease of the skin and dermatitis is an inflammation of the skin. Both dermatosis and dermatitis can be caused by arthropod activities. Many mite species, such as scabies mites produce acute skin irritations

12. Arthropods affect the health of man by being (b) Agents for disease transmission Arthropods can carry disease causative agents in the following two ways. • Mechanical carrier Here they lodge the disease causative agent without altering its development or multiplication. 1- Direct Mechanical carrier : - disease agents are carried from one host to another by inoculation arthropods simply mechanically carried. 2- Indirect Mechanical carrier: In this type of disease transmission by the body parts (example wings, hairs, etc). simply deposited in the body, food or drink of the host e.g. house fly. • Biological carrier When arthropods become biological carriers for transmission of disease, it means that certain stages in the life cycle of parasite takes place in the body of the insect. e.g. Anopheles mosquitoes.

13. Types of biological carrier 􀂃 Propagative- where there is multiplication of the parasite with no developmental change . e.g. Yellow fever virus in Aedes mosquito. 􀂃 Cyclopropagative – in this type both multiplication and developmental change are going on. e.g. Plasmodium species in Anopheles mosquito 􀂃 Cyclodevelopmental – here there is developmental change of the parasite but no multiplication E.g. Wucherera bancrofiti in Culex mosquito 􀂃 Transovarian- when the parasite passes to progeny arthropods through the ova. E.g. Rickettsia typhi in ticks

14. Vector-borne Parasites  A vector: is an agent(arthropods) which transfers a parasite from one host to another.  Typical parasite vectors: fleas, ticks, mites, mosquitoes, flies, and other insects. A zoonotic disease: is any disease which may be passed from animals to people or from people to animals.

15. Arthropod Habitats Arthropod Habitats • Depending upon species, arthropods live in various habitats. • The following are some of the factors that control habitats of arthropods: food, disease, breeding media, climate, competition, natural enemies and etc. • The habitats of arthropod include soil, water, ambient air, man, animal and plants.

17. CLASSIFICATION OF ARTHROPODS

18. CLASSIFICATION OF ARTHROPODS There are three medically important classes of Arthropods: 1. Class Insecta- (Hexapoda) consists of mosquitoes, fleas, bugs, flies, etc. 2. Class Arachnida- (Octapoda)consists of ticks, mites , scorpion, etc. 3. Class Crustacea- consists of Cyclops, crabs, cray fish, etc.

19. 1. Class Insecta The general feature of this class includes: • Division of body into head, thorax and abdomen. • Possess one pair of antenna on the head. Antenna (pl., antennae)—A segmented organ located on the head, usually used for smell. • 3 pairs of legs, carried by thorax. • Wings may be present and could be one /two pairs.

20. Insect anatomy • The following characteristics are useful in comparing insects with other animals: • Three body regions. • Wings. • Legs. • Antennae. • Mouthparts.

21. Three body regions • An adult insect’s body is made up of three parts: - Head. - Thorax . - Abdomen . However, the division between thorax and abdomen is not always obvious. • The thorax is made up of three segments: prothorax, mesothorax and metathorax. Each of these segments bears a pair of legs. The wings are attached to the mesothorax and/or metathorax, never to the prothorax (first segment). • The abdomen usually has 11 or 12 segments (although some insects have fewer), but in many cases they are difficult to distinguish. Some insects have a pair of appendages (cerci) at the tip of the abdomen. They may be short, as in grasshoppers, termites and cockroaches; extremely long, as in mayflies; or curved, as in earwigs.

22. Wings  Insects are the only flying invertebrates. • - Most adult insects have one or two pairs of wings. Some, however, have no wings. - Wing function for flight varies among insects. • - Wing surfaces may be covered with fine hairs or scales, or they may be bare. • The thickened front wings of beetles serve as protective covering for the hind wings when the beetle is not flying. • The membranous hind wings are the actual flight mechanisms. • Venation (the arrangement of veins in the wings) is different for each group of insects thus, it serves as a means of identification. Often wing venation is common to all members of a family or genus. There are systems for designating types of venation for descriptive purposes. • The names of most insect orders end in “ptera,” which comes from the Greek word meaning wing. Thus, each name denotes some feature of the wings. Hemiptera means half-winged; Hymenoptera means membrane-winged; Diptera means two-winged, and so forth.

25. Legs • Another important characteristic of insects is the presence of three pairs of jointed legs on the thorax. • These legs almost always are present in adult or mature insects and generally are present in other stages as well. • Uses of legs : - To walking. - Jumping. - Insects often use their legs for digging. - Grasping, Feeling, swimming, carrying loads, building nests and cleaning themselves. Because insect legs vary so greatly in size and form, they are regularly used in classification, especially the extreme part of the leg (the feet, or tarsi). • Prolegs (fleshy body projections or false legs) occur only on larvae of certain insect orders. They are used for clinging to plants.

26. Antennae • One of the main features of an insect’s head are its antennae. • All adult insects (except, at times, scale insects) have one pair. • They usually are located between or in front of the eyes. • Antennae are segmented, vary greatly in form and complexity and often are referred to as horns or feelers, which is misleading. • They primarily are organs of smell, but serve other functions in some insects.

27. Mouthparts • Mouthparts: - The most remarkable structural feature of insects, and the most complicated. - Vary in form and function. - Two basic types: chewing and sucking. - There also are intermediate types of mouthparts: 1- chewing-lapping (found in honeybees, wasps and bumblebees). 2- Rasping-sucking (found in thrips). -Some insects have different mouthparts as larvae and adults. Larvae generally have chewing-type mouthparts regardless of the kind they’ll have as adults. Nymphs have mouthparts similar to those of adults. For some adult insects, the mouthparts are vestigial (no longer used).

28. Type 1: Chewing Mouthparts • Four basic parts. • Mandibles used for chewing. • More primitive and generally stronger than sucking types. • Cannot feed on liquids materials.

29. Type 3 : Siphoning(coiled) mouthparts  Only proboscis or coiled tub are present.  Short lived as adults, feed intermittently.  Vary greatly. • Example: butterflies, moths.

30. Type 4: Sponging mouthparts  Reduced mouthparts suitable for soaking up liquids.  No ability to eat solid foods.  Some flies can bite but is actually scratching to feed on blood.  Example: flies (house fly)

31. Type 5: Piercing and sucking MP.  All mouthparts shaped like needles that form feeding tubes.  Only female of mosquitoes are bite.  Example : mosquitoes (6needls), plant bugs(4 needles)

32. Type 2: Chewing lapping mouthparts Complex modification of MP.  Mandible used for chewing.  Proboscis used for drinking (lapping) and exchanging fluids.  Mouthparts allow molding wax, feeding on pollen, nectar.  Examples: Honey bee, wasps.

36. Classification • The anatomy of an insect places it into a specific insect group called an order Each order is divided into families family genera and finally species. A specific insect usually is described by genus and species names; e.g., Musca domestica is the common housefly. • To categorize insects, professionals observe differences in body parts through a microscope. • Gardeners generally classify insects by common name.

37. Class Insecta/Hexapoda  Class Insecta/Hexapoda (the six legers). • The insects (class insecta) are the most abundant species. • In fact, about . million species are known, i.e. about 75% of all arthropods are insects. • They are the greatest pest animals as well and the greatest animals of medical importance (lots of diseases are transmitted through insects). • The body parts of insects are grouped into three: head, thorax and abdomen. • The head contains eyes, one pair of antennae and three pairs of appendages developed as mouth parts (details are discussed in chapter four). • The thorax has three pairs of legs, and one or two pairs of wings in most insects (some insects have no wings). • The abdomen is segmented with the end (posterior) part serving to show the sex of the insect. • A “V” shaped abdomen helps for egg disposing, carrying the genital and excretory organs. The abdomen also contains diffusion tubes called spiracles for air exchange (respiratory organs).

38. Class Crustacea • Class Crustacea - Cyclops, the sea- food group such as lobsters, crabs, cry fish, etc • The crustacean has evolved a two fold division of the body into a cephalothrax means prosoma (head and chest) and opisthosoma means abdomen . • The former bears sensory organs and mouth parts to form the head region and also five pairs of enlarged appendages for walking (in the higher forms). • The crustaceans have two pairs of antennae. • The prosoma carries the main sense organs (internally and externally) that is the antennae, the eyes and the feeding parts. • Opisthosoma consist the spiracles (respiratory organs) and the sex organs

39. Class Arachnida • Class Arachnida(the eight legers) - Spiders, mites, ticks, scorpions etc. • The class Arachnida has four pairs of legs. • The head and the thorax are fused forming a cephalo-thorax. • The appendages (legs) are located on the cephalothorax. • The head has no antennae, but pedipalps and different mouth parts from that of insects.

40. ` Crustica Archanida Insecta Characteristics Body divided into cephalothorax and abdomen Body divided into cephalothorax (head and thorax fused) and abdomen • Division of body into head, thorax and abdomen Body Octapoda :4 pairs of legs Octapoda :Possess 4 pairs of legs Hexapoda :3 pairs of legs, carried by thorax Legs 2 pairs of antenna No antennae Possess one pair of antenna on the head Antennae Wingless wingless Wings one /two pairs (sometimes absent). Wings ` ` - Complete. - Incomplete. Life cycle includes the Cyclops,crabs,cray fish, etc. Includes the ticks, mites ,scorpion and spiders. consists of mosquitoes, fleas, bugs, lice ,flies, etc. Species

41. Identification  Knowing the insect order gives you valuable information about many insects in the same order. This information includes: • The type of mouthparts (informing how the insect feeds and giving clues for its control) • Life cycle (indicating best times for control) • Type of habitation, including host(s) (where to find it) Beyond the family category, however, identification is very difficult for all but the most common insects without a magnifying instrument such as a microscope. The following identification strategies are useful for gardeners: • Experience—Periodically attend plant clinics and hands-on advanced training to gain valuable practice in insect identification. Working with experienced master gardeners also helps you develop valuable insight into solving plant problems when plant disease and other factors can make analysis difficult. • Specimen approach—Use keys, photographs, drawings and descriptions, along with insect specimen data. • Symptoms approach—Compare damage with the insect’s physical characteristics (Figure 8). For example, because of their different mouthparts, a beetle can cause chewing damage, but an aphid cannot. • Host approach—Check references that list hosts and potential insect damage. Like people, many insects have preferences for their meals. • Host location approach—Use this method to exclude certain insects. For example, large praying mantid species are not expected to be found in Alaska unless released. Also, some insects prefer dry or wet conditions.

42. Identification  Knowing the insect order gives you valuable information about many insects in the same order. This information includes: • The type of mouthparts (informing how the insect feeds and giving clues for its control) • Life cycle (indicating best times for control) • Type of habitation, including host(s) (where to find it) Beyond the family category, however, identification is very difficult for all but the most common insects without a magnifying instrument such as a microscope. The following identification strategies are useful for gardeners: • Experience—Periodically attend plant clinics and hands-on advanced training to gain valuable practice in insect identification. Working with experienced master gardeners also helps you develop valuable insight into solving plant problems when plant disease and other factors can make analysis difficult. • Specimen approach—Use keys, photographs, drawings and descriptions, along with insect specimen data. • Symptoms approach—Compare damage with the insect’s physical characteristics (Figure 8). For example, because of their different mouthparts, a beetle can cause chewing damage, but an aphid cannot. • Host approach—Check references that list hosts and potential insect damage. Like people, many insects have preferences for their meals. • Host location approach—Use this method to exclude certain insects. For example, large praying mantid species are not expected to be found in Alaska unless released. Also, some insects prefer dry or wet conditions.

43. The medically important classes are the following • Apterygota Pterygota SiphonapteraFleas Anopluralice Diptera Dictyoptera Hemiptera

44. 1. Class Insecta This class is divided into four orders (a) Order Diptera: this order consists of mosquitoes and flies. They have one pair of wing and development is by complete metamorphosis. (b) Order Siphonaptera: consists of fleas. Arthropods in this order are wingless but have strong leg to help them jump. Their development is by complete metamorphosis. (c) Order Anoplura: Is order consists of lice, which are wingless and with short legs. Their development is by incomplete metamorphosis. (d) Order Hemiptera- This order consists of bugs. Bugs have rudimentary wings and develop by incomplete metamorphosis.

45. Class Insecta Common names Order Flies, gnats, mosquitoes… Diptera sucking lice Anoplura Fleas Siphonaptera True bugs Hemiptera Chewing lice Hymenoptera Ants, bees, wasps -Mallophaga Butterflies, moths Lepidoptera Grasshoppers, Crickets Orthroptera Beetles, weevil’s Coleoptera Cockroaches Dictyoptera Termites Isoptera

46. 1- Diptera • Diptera (flies, mosquitoes, gnats, midges) : • the order diptera are the two winged (di = two; ptera = wings). - Undergo complete metamorphosis. • Diptera are only able to take fluid food, which in the case of bloodsucking flies is obtained by injecting the piercing mouthparts (proboscis) into living tissue. In other flies, food is liquidized externally by puddling it with spongy mouth parts in digestive fluid regurgitated from the foregut (crop). • Larvae may have mouth hooks or chewing mouthparts. - Most are legless. - Larvae of advanced forms (housefly and relatives) have no head capsule, possess mouth hooks, and are called maggots. - Lower forms, such as mosquito larvae and relatives, have a head capsule. • Adults have only one pair of wings and are rather soft bodied and often hairy. - They have either sponging (housefly) or piercing (mosquito) mouthparts. - This order demonstrates a multitude of lifestyles. • Houseflies are a nuisance as adults, but their larvae are major recycling organisms. • Mosquitoes and others are vectors of human and animal diseases, although an important food source for fish and wildlife populations. • Many other members of this order are either parasitic or predaceous on other insects, which makes them among the most important beneficial insect.

47. Differentiation between three kinds of mosquitoes Aedes aegypti Culex Anopheles Characteristics Not in Yemen In Yemen In Yemen Geographic distrib. Black with silver marks(tiger mosqu.) Grey Grey Color Parallel to surface. Parallel to surface. Makes angle 45 degrees with the surface. Resting position -Non spotted. -Non spotted. -Spotted Wing Single, black & spindle. Eggs in group. Single. Slipper like with bilateral air floats. Egg -C.piptens. -A.arabinensis. -A.sergenti. -A.multicolor. Common species in Yemen.

48. Differentiation between three kinds of mosquitoes Aedes aegypti Culex Anopheles Characteristics Bite mainly in the morning or evening Most species bite and rest outdoors. Bite throughout the night. Indoors & outdoors. During the day they are inactive, resting in dark corners,treas. Adult females bite people, animals. Bite active between sunrise and sunset. Indoors or outdoors. Many species feed on both or once of humans & animals blood. Behavior Dengue fever. Rift valley fever. Yellow fever. Tularemia. Avian malaria. W.bancrofti. -Human malaria. -W.malayi. Medical importance

49. Order Siphonaptera • Order Siphonaptera: ‘Siphon’ means tube, ‘a’ means without, and ‘ptera’ means wing. • These are the fleas. Fleas are wingless. • They are all blood-sucking, temporary ectoparasites of warm-blooded animals, mainly mammals, but a few will feed on birds. • Only a small proportion will attack humans. • Fleas, like bedbugs, are comparatively host-specific, but will often feed readily on other animals if their preferred host is not available.

50. Order Siphonaptera • Fleas are minute to small (from 0.8 mm to 5 mm) and have the following characteristics: compound eyes are absent or each is represented by an single ommatidium. Most fleas have a pair of small simple eyes (ocelli), although some are blind, usually those which live on hosts with underground burrows. • Antennae are short and can be folded into grooves in the head, mouth parts are piercing-sucking, coxae are long and tarsi are five-segmented, cerci are small and one segmented, and wings are absent. • Fleas are flattened from side to side (laterally, as opposed to dorsoventrally in most insects); this is a useful adaptation to enable them to move easily through the hairs or feathers of their host. • Their length ranges between 1-6 mm; they are oval in shape and light to dark brown in color. The small head has a proboscis that projects down wards and small antennae recessed into grooves. • Fleas have powerful legs adapted for jumping and can leap 10-15 cm. • The abdomen is the bulkiest part of the body and is conspicuously segmented. • The ending is rounded in the female, whereas in male the genitalia are apparent. Metamorphosis is complete. Eggs are oviposited on the host or more often in the host’s nest; in the former case, eggs fall off prior to hatching. The legless larva feeds upon such organic matter as may be available including fecal material from adult fleas that contains blood residues

51. Order Siphonaptera • They are vectors of disease. They are associated with • mammals including man. All mammals have fleas of their own • (dogs, cats, etc). Diseases from these animals could be • transmitted to one another and to human beings. The bubonic • plague is an epidemic between rats, flea and man. • • Fleas are also causes for chigger on man and • other animals. • • Fleas are annoying and irritating.

52. Adult Flea

53. -Hemiptera • Hemiptera (stinkbugs, plant bugs, flower bugs, shore bugs) • Metamorphosis is simple in this order. • Nymphs usually resemble adults. • Adults have piercing-sucking mouthparts and two pairs of wings; the first pair is membranous and thickened on the basal half, and the second pair is membranous throughout. • Adults and nymphs are both damaging in pest species. Some species, however, are predators of harmful insect pests and considered beneficials.

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