IGNOU BZYET-143 Solved Assignment 2024 for B.Sc. CBCS Zoology

IGNOU BZYET-143 Solved Assignment 2024 | B.Sc. CBCS Zoology

Solved By – Anjali Patel – Bachelor of Science (B.Sc) from Mumbai University

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Details For BZYET-143 Solved Assignment

IGNOU BZYET-143 Assignment Question Paper 2024

bzyet-143-solved-assignment-2024-qp-f7c15420-900d-4a5d-a422-97852564b388

bzyet-143-solved-assignment-2024-qp-f7c15420-900d-4a5d-a422-97852564b388

  1. i) Give two examples of insects for each of the following types of metamorphosis:
    a) No metamorphosis:
    b) Incomplete metamorphosis:
    c) Complete metamorphosis:
    ii) Give the different developmental stages in the following insects:
    a) Silver fish:
    b) Grass hopper:
  2. a) Differentiate between:
    i) Propagative Transmission and Cyclopropagative Transmission
    ii) Cyclodevelopmental Transmission and Vertical Transmission
    b) Answer the following questions:
    i) Name the reduced hindwings of diptera and write their functions.
    ii) How do mosquitoes detect their host for sucking of blood?
  3. a) Name a hemimetabolous order which is exclusively parasitic. Explain its morphological features in brief.
    b) Write the important features of Order Siphonaptera which make them important disease vectors.
  4. Write short notes on the following:
    a) Prevention / control measures of fleas.
    b) Typhus fever
    c) Tunga penetrans
    d) Yersinia pestis transmission
  5. a) Distinguish between the following:
    i) Pediculus humanus corporis and Pediculus humanus capitis
    ii) Male and Female body louse
    b) Explain the role of Reduviid bug as a biological vector in the transmission of Chagas disease.
  6. a) Explain the epidemiology of malarial parasite.
    b) Discuss the preventive and control measures of Anopheles mosquito.
  7. Draw a labeled diagram of:
    a) Life cycle of JE
    b) Filarial worm transmission Cycle
  8. Give difference between the following:
    a) Extrinsic incubation period and intrinsic incubation period
    b) Transverse and vertical transmission
    c) Urban cycle and sylvatic cycle
  9. Write short notes on:
    a) Traps used for controlling houseflies
    b) Cultural control of Musca
    c) Chemical control of housefly
    d) Myiasis
  10. a) Explain the concept of Integrated Vector Management.
    b) How can the disease vectors be genetically manipulated to reduce their population?
\(cos\left(2\theta \right)=cos^2\theta -sin^2\theta \)

BZYET-143 Sample Solution 2024

bzyet-143-solved-assignment-2024-ss-020cab3d-1c01-486f-9bdf-7506d86b97ee

bzyet-143-solved-assignment-2024-ss-020cab3d-1c01-486f-9bdf-7506d86b97ee

  1. i) Give two examples of insects for each of the following types of metamorphosis:
    a) No metamorphosis:
    b) Incomplete metamorphosis:
    c) Complete metamorphosis:
Answer:
Here are two examples of insects for each type of metamorphosis:
a) No Metamorphosis (Ametabolous):
  • Insects in this category do not undergo significant changes in body form as they develop from nymphs to adults. They simply grow larger.
  • Examples:
    1. Silverfish (Lepisma saccharina): These primitive insects have a carrot-shaped body and are commonly found in damp, dark areas.
    2. Bristletails (Order: Archaeognatha): These are small, wingless insects with elongated bodies and three long tail filaments.
b) Incomplete Metamorphosis (Hemimetabolous):
  • Insects with incomplete metamorphosis undergo three life stages: egg, nymph, and adult. The nymphs resemble the adults but lack fully developed wings and reproductive structures.
  • Examples:
    1. Grasshoppers (Order: Orthoptera): Grasshopper nymphs look like miniature adults and gradually develop wings as they molt.
    2. Cockroaches (Order: Blattodea): Cockroach nymphs are wingless and smaller than adults but share a similar body shape.
c) Complete Metamorphosis (Holometabolous):
  • Insects with complete metamorphosis undergo four distinct life stages: egg, larva, pupa, and adult. The larval stage looks entirely different from the adult, and the transformation occurs during the pupal stage.
  • Examples:
    1. Butterflies (Order: Lepidoptera): Butterfly larvae are caterpillars that feed and grow before entering the pupal stage (chrysalis) and emerging as winged adults.
    2. Beetles (Order: Coleoptera): Beetle larvae, often called grubs, undergo metamorphosis inside a pupal case and emerge as adult beetles with hardened exoskeletons and wings.
ii) Give the different developmental stages in the following insects:
a) Silver fish:
b) Grass hopper:
Answer:
Here are the developmental stages for the insects mentioned:
a) Silverfish (Lepisma saccharina):
  • Egg: Silverfish lay eggs in crevices or hidden areas. The eggs are oval-shaped and whitish.
  • Nymph (Young): After hatching, silverfish emerge as nymphs, which resemble smaller versions of the adults. They lack scales, which develop as they mature.
  • Adult: Nymphs molt several times as they grow, eventually becoming adults with silvery scales and a tapered, carrot-shaped body. Silverfish continue to molt throughout their lives, even after reaching adulthood.
Silverfish exhibit ametabolous development, meaning there is no significant metamorphosis. The young look like miniature adults and gradually grow larger with each molt.
b) Grasshopper (Order: Orthoptera):
  • Egg: Grasshoppers lay eggs in the soil or plant tissue. The eggs are typically laid in clusters called pods.
  • Nymph (Young): After hatching, grasshoppers emerge as nymphs, which look like small, wingless versions of the adults. Nymphs go through several instars (developmental stages between molts), during which they grow larger and gradually develop wing buds.
  • Adult: After the final molt, the nymphs transform into adults with fully developed wings and reproductive organs. Adult grasshoppers are capable of flight and reproduction.
Grasshoppers exhibit incomplete metamorphosis (hemimetabolous development), with three life stages: egg, nymph, and adult. The nymphs resemble the adults but lack fully developed wings and reproductive structures until they reach maturity.
  1. a) Differentiate between:
    i) Propagative Transmission and Cyclopropagative Transmission
    ii) Cyclodevelopmental Transmission and Vertical Transmission
Answer:
i) Propagative Transmission vs. Cyclopropagative Transmission:
  • Propagative Transmission: In this type of transmission, the pathogen multiplies within the vector without undergoing any developmental changes. The vector acquires the pathogen, which then propagates (increases in number) within the vector before being transmitted to the next host. This is common in viral transmissions, such as the transmission of the West Nile virus by mosquitoes.
  • Cyclopropagative Transmission: This involves both multiplication and development of the pathogen within the vector. The pathogen undergoes a cycle of changes, including both propagation and morphological or physiological development, before it becomes infective to the next host. An example is the transmission of malaria parasites (Plasmodium spp.) by Anopheles mosquitoes, where the parasites undergo asexual multiplication and sexual development within the mosquito before they can infect humans.
ii) Cyclodevelopmental Transmission vs. Vertical Transmission:
  • Cyclodevelopmental Transmission: In this type of transmission, the pathogen undergoes developmental changes within the vector but does not multiply. The pathogen changes its form or undergoes a necessary part of its life cycle within the vector before it can be transmitted to the next host. An example is the transmission of filarial worms (e.g., Wuchereria bancrofti) by mosquitoes, where the larvae develop into infective stages in the mosquito but do not multiply.
  • Vertical Transmission: This refers to the transmission of a pathogen from an infected parent directly to its offspring. Vertical transmission can occur through the placenta (transplacental), during childbirth (perinatal), or through breast milk (postnatal). An example is the transmission of HIV from an infected mother to her child during pregnancy, childbirth, or breastfeeding.

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