Parasitic
adaptation in Platyhelminthes
Adaptation
• Fitness of an organism to its environment
• It is the characteristic which results in suitable &
convenient morphological & functional correlation between an organism &
its environment
Parasitic adaptation
• Platyhelminthes have undergone profound adaptation to suit their
parasitic modes of life
• These adaptations- parasitic adaptations
• Are of morphological & physiological nature
1. Morphological adaptations
A. Body covering
B. Organs of adhesion
C. Organs of locomotion
D. Organs of nutrition (Trophic organs)
E. Neurosensory system
F. Reproductive system
A. Body covering
Thick tegument frequently provided with scales affords suitable
protection to the parasite
This thick protoplasmic layer is continually renewed by
mesenchymal cells forming it
B. Organs of adhesion
• For a firm grip on/in the host’s body, some special organs of
adhesion are needed
• Flatworms are variously armed with suckers, hooks & spines
• Suckers may be with/without hooks/spines
C. Organs of locomotion
• Locomotion is actually an effort of procuring food
• But parasites habitually inhabit such places in host’s body, where
sufficient food is available without effort
• Thus, organs of locomotion such as cilia of turbellarians- absent
in parasitic forms
• Locomotory organs present in free living larvae of parasitic forms
• Miracidium possess cilia & cercaria bears a tail for
locomotion
D. Organs of nutrition (Trophic organs)
• Food of parasite comprises readily available & digested/ semi
digested food of the host
• Elaborate organs of nutrition not needed
• Trematodes have an incomplete gut & in most cases a suctorial
pharynx for sucking food
• An eversible pharynx is present in free living turbellarians
• In cestodes, parasite freely bathes in digested food of host which
is absorbed directly
Thus, total absence of alimentation in
tapeworms
E. Neurosensory system
• Need for quick & efficient “response to stimuli” is associated
with free active life & not with a quiet parasitic life in a safe
environment
• In parasites therefore, there is preferred reduction of nervous
system & a total absence of sense organs
• But the free living miracidium possesses eye spots
F. Reproductive system
• Best developed system in helminth parasites, designed &
preferred to meet the need for tremendous egg production
• Parasitic flatworms with a few exceptions like Schistosoma, are monoecious
(hermaphrodite)
• Hermaphroditism is of distinct advantage to the parasite because:
1. It ensures copulation even when a few individuals are present
2. After copulation both individuals lay eggs, doubling the rate
of production
3. In absence of companion parasite can reproduce offspring
• In cestodes reproductive system is much more elaborate & each
mature proglottid possesses 1 or2 complete sets of male & female genitalia
• In gravid proglottid all other organs of the system degenerate to
make room for the uterus which becomes highly enlarged & branched to
accommodate large number of eggs
2. Physiological adaptations
A. Protective mechanism
B. Anaerobic respiration
C. Osmoregulation
D. High fertility
A. Protective mechanism
• Inside the alimentary canal the parasites have to protect themselves from the action of
digestive juices of host
• Tapeworms accomplish this:
1. By stimulating walls of gut to secrete mucus, which then forms
a protective clothing around parasite
2. By secreting antienzymes to neutralize the digestive enzymes of
host
3. By probably continually renewing their protective body covering
i.e., tegument
B. Anaerobic respiration
• Environment in gut & bile ducts is devoid of free oxygen
• Flatworms inhabiting these places, therefore, respire
anaerobically by breaking down glycogen
C. Osmoregulation
• Osmotic pressure of endoparasite’s body fluids, especially in case
of trematodes is almost the same as that of host
• This renders osmoregulation unnecessary
• But in intestinal tapeworms, osmotic pressure is little higher
• This permits ready absorption of host’s digested food by tapeworms
D. High fertility
• Eggs produced by a parasitic flatworm face a very uncertain future
while passing through the complex life cycle, these potential offsprings face
several hazards as a result of which a very small percentage of total eggs
produced reaches adulthood
• This threat to the very existence of species is suitably met by
parasite which in its life time may produce eggs in millions
• Reproductive organs of flatworms are accordingly developed
No comments:
Post a Comment