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Nutrition of
Entomophagous insect
and their host
Prepared By
Aaliya Afroz
Ph. D. Scholar
Dept. of Entomology, IGKV, Raipur
Introduction
• The artificial rearing of parasitoid insects started a long time ago,
with the main goal to try obtaining a mean to multiply and
produce parasitoids to be released in biological control strategies.
• It is also a powerful tool to conduct studies on biology, physiology
and behaviour of entomophages, especially endoparasitoid species.
• There are different types of nutritional needs, and they are
variable according to the stage and the physiological state, usually
higher for larvae than for adults, except during reproduction.
Evaluation of nutritional needs
Various analytical approaches were employed to try to determine
the different requirements and define the food composition for
entomophages. (Thompson 1990b,
Grenier et al. 2005).
• Food analysis
• Carcass analysis of whole parasitoid/ predator body
• Nutritional balance sheet
• Supplementation studies
1. Food analysis
• The biochemical analyses of host or prey could be conducted in their
amino acid contents after total or partial hydrolysis. Fatty acids or
carbohydrate analyses are also often achieved.
• The results have to be expressed in total amounts per weight or in
percentages as relative values (patterns) useful for establish the
quantity for each component of the food.
• Ex. - Tachinidae (lepidopteran larvae), Trichogrammatidae
(lepidopteran eggs), predatory bugs and coccinellids (aphids,
lepidopteran eggs, Artemia cysts).
2. Carcass analysis of whole parasitoid/ predator
body
• Advantage of these carcass analyses is also to give an evaluation of
the quality of an insect grown on artificial food by comparison
with insect grown on control food, and to allow improving the
composition of this food.
3. Nutritional balance sheet
• The evaluations of food intake, weight gain, faeces and wastes
rejected during a given time, allow calculating some indexes.
• With this method, specific compartments could be studied
separately (nitrogen or lipid compartment).
• The determination of the enzymatic activities of the insect to be
reared in artificial food gives some information about its
possibility of digestion and assimilation.
4. Deletion/ Supplementation studies
• Many nutritional studies for free living insects are dealing with the
deletion or supplementation of one component to verify if it is
essential or not.
The nutritional requirements
• The sources of nitrogen are a very important parameter in the
nutrition of entomophagous insects, because of the very fast growth
of many species.
• The supply in amino acids has to fit the needs, to avoid a lost of time
and energy in conversion between amino acids, and the production
of toxic metabolites.
• Parasitoids and predators are carnivorous species needing a
protein-rich diet, with some specific requirements in aromatic
amino acids especially in parasitoid diptera at the end of their
larval development for cuticle tanning (Bonnot et al. 1976).
i. Nitrogen sources
• The sources of nitrogen are a very important parameter in the
nutrition of entomophagous insects, because of the very fast growth
of many species.
• For example, the weights of newly hatched and mature larvae of the
tachinid Lixophaga diatraeae are respectively 12 μg and 33 mg. The
larval growth is completed in 8 days with a weight doubling time of
about 17 hours.
ii. Lipids
• The similarity of the composition in total fatty acids of many
parasitoids with that of their host, suggests they may copy to a
certain extent the host composition Polyunsaturated fatty acids
may be required for normal growth of several entomophagous
insects (Sighinolfi 2008).
• Dietary sterols are required by a great number of parasitoids and
predators, such as Exeristes roborator (Thompson 1990a),
• Fatty acids may be supplied as free fatty acids or triglycerides, and
need the use of emulsifying agents to obtain their homogeneous
dispersion in the aqueous phase. Eicosanoids (derived mainly from
the arachidonic fatty acid) were recently recognised to mediate
different functions in insects, such as reproduction and immunity.
iii. Carbohydrates
• Carbohydrates are often considered as energy sources, as well as some
lipids. It is usually admitted that there are no specific needs for
carbohydrates, but glucose promotes growth and lipogenesis,
increasing the level of unsaturated fatty acids in E. roborator
(Thompson 1982).
• Trehalose, the most common non-reducing disaccharide in insects,
plays an important role in metabolism and stress resistance.
• It could be used instead of sucrose or glucose, and also partly replaced
hemolymph in media for Trichogramma .
• Moreover, sucrose may act as a feeding stimulant on parasitoid, as
well as on predator insects.
iv. Other needs
a. Inorganic salts
• They are generally required for the normal development of
insects, but their level and the balance between the different
cations, especially K+/Na+ is of prime importance and varies
according to the species. Many authors introduce in the
medium/diet a classical list of salts, frequently, Wesson’s or
Neissenheimer’s salt mixture.
b. Vitamins
• about 12 vitamins were added in the diets, mainly hydrosoluble ones
including B vitamins, as well as C vitamin, and 2 liposoluble ones
(retinol-A, and tocopherol-E). Commercial preparations are available
and often used by many authors, like Vanderzant vitamin mixture for
insects (Vanderzant 1969).
c. Miscellaneous
• Ribonucleic acids (RNA) are sometimes incorporated in medium/diet,
but their dispensability is questionable. RNA could increase survival or
promote growth.
5. Other Physiological Requirements
• Besides the nutritional needs, the medium must have acceptable
physicochemical parameters, and provide for other requirements
concerning essential physiological functions like respiration,
excretion, and general protection for endoparasitoids.
• Digestion process - structure of the gut
• Respiration
• Hormones
• Teratocytes
Digestion process - structure of the gut
• Besides the composition of the medium/diet, protein digestion and
utilization, are key processes that could be investigated to assert a
proper metabolization of the diet components (Gomes et al. 2000,
Grenier et al. 2005).
• This is also true for many other food ingredients. The composition
of the medium/diet nicely fitted with the needs, is necessary but not
sufficient, it is also of prime importance to make sure that digestion
and assimilation processes will correctly liberate the components
required.
Respiration
• Some lipids could hamper the respiration by alteration of the
characteristics of the interface larval tegument / medium.
• The gas exchanges in parasitoid larvae occur through the tegument
or by the spiracles.
• To culture Trichogramma species in vitro, it will be of prime
importance to ensure a normal respiration of prepupae and pupae.
• Species like Ooencyrtus pityocampae (Encyrtidae) havespecial
anatomical adaptation, in a form of a stalk protruding from the host
egg or plastic film, allowing them to respire through the host
tegument or through an artificial membrane. But a high mortality
was observed in artificial conditions when mature larvae leave their
respiratory stalk before pupation
Hormones
• In natural situation, the hormonal changes in parasitoids may be
synchronized with those of their hosts, and are key factors for
parasitoid’s development and species survival.
• It is usually admitted that koinobiont parasitoids, either alter the host
endocrine system in order to promote their own growth (called
“regulators”), or depend on host hormones to synchronize their
development with that of the host (called “conformers”) (Lawrence
1986).
• For predators, they are not dependent on exogenous hormones.
• The fenoxycarb shows a high JH activity and induces deleterious
effects on many parasitoids and predators (Grenier and Grenier
1993).
Teratocytes
• Cells, called teratocytes, derived from the embryonic membrane of
egg in some Scelionidae or Trichogrammatidae species are released
into host hemocele at hatching. Their role in the successful in vitro
culture of egg parasitoid suggests a function on digestion and
assimilation of host components.
Physico-chemical factors
Osmotic Pressure (OP)
• The dietary osmolarity is an important parameter and must be adapted
to each species, especially for endoparasitoids for which the medium is
not only the food, but also the environment in which they are bathed all
their larval life. Ectoparasitoid Hymenoptera are usually more tolerant
to high OP.
pH
• Usually hydrogen ion concentration in insect hemolymph varies from 6.0
to 8.2, but is more often observed between 6.4 and 6.8 (Mullins 1985).
Most of the artificial media for parasitoids show a pH near these latter
values.
• Usually, high percentages of adults of Trichogramma spp. were obtained
for pH between 6.6 and 7.0 by many authors.
6. Presentation of the food
• The presentation of the food is more crucial for egg parasitoids and
predators
• Especially for non-gregarious species, larvae need a limited quantity of
food because they cannot regulate their food intake, otherwise the
development will terminate mainly at pupation, or will produce adults
showing abnormalities (Grenier and Bonnot 1988).
• Thus, for egg parasitoids the medium is presented in various ways to
create an artificial host egg. The hanging drop technique consists in the
deposition of droplets of medium on a flat surface in which the
Trichogramma eggs are deposited for development.
• Predators
• Diets for predaceous coccinellids could be presented in gelled cubes or as
powder, or dry pellets. Stretched Parafilm was used to package diets with
a paste-like consistency for several hemipterous predators, as well as for
some species of coccinellids.
7. Sterilization and Preservatives
• The artificial diets are rich in all the nutrients allowing the growth of
bacteria and fungi
• Some classical bactericides (penicillin, streptomycin, gentamycine) are
efficient to control bacteria and non-toxic for entomophagous insects
• The fungicides incorporated into the food for phytophagous insects
(nipagine, merthiolate, sorbic acid) are often detrimental for
entomophages (Grenier 1977).
• Specific fungicides used in cell cultures (amphotericine, nystatin) are
better tolerated than more generalist products (Grenier and Liu 1990).
• Some antimicrobial agents (penicillin, streptomycin, rifampicin,
tetracycline hydrochloride, lincomycin hydrochloride, methyl p-
hydroxybenzoate, cycloheximide and sodium benzoate) could
significantly increase the protein content of the pupae of the parasitoid.
Conclusion
• During several decades, many successes were obtained in
different countries around the world, mainly with idiobiontic
parasitoids and polyphagous predators.
• Approximately 130 entomophagous species have been partly or
completely reared in artificial diets, among them more than 20
species of Trichogrammatidae.
Thank You

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Nutrition of Entomophagous Insect and their Host

  • 1. Nutrition of Entomophagous insect and their host Prepared By Aaliya Afroz Ph. D. Scholar Dept. of Entomology, IGKV, Raipur
  • 2. Introduction • The artificial rearing of parasitoid insects started a long time ago, with the main goal to try obtaining a mean to multiply and produce parasitoids to be released in biological control strategies. • It is also a powerful tool to conduct studies on biology, physiology and behaviour of entomophages, especially endoparasitoid species. • There are different types of nutritional needs, and they are variable according to the stage and the physiological state, usually higher for larvae than for adults, except during reproduction.
  • 3. Evaluation of nutritional needs Various analytical approaches were employed to try to determine the different requirements and define the food composition for entomophages. (Thompson 1990b, Grenier et al. 2005). • Food analysis • Carcass analysis of whole parasitoid/ predator body • Nutritional balance sheet • Supplementation studies
  • 4. 1. Food analysis • The biochemical analyses of host or prey could be conducted in their amino acid contents after total or partial hydrolysis. Fatty acids or carbohydrate analyses are also often achieved. • The results have to be expressed in total amounts per weight or in percentages as relative values (patterns) useful for establish the quantity for each component of the food. • Ex. - Tachinidae (lepidopteran larvae), Trichogrammatidae (lepidopteran eggs), predatory bugs and coccinellids (aphids, lepidopteran eggs, Artemia cysts).
  • 5. 2. Carcass analysis of whole parasitoid/ predator body • Advantage of these carcass analyses is also to give an evaluation of the quality of an insect grown on artificial food by comparison with insect grown on control food, and to allow improving the composition of this food.
  • 6. 3. Nutritional balance sheet • The evaluations of food intake, weight gain, faeces and wastes rejected during a given time, allow calculating some indexes. • With this method, specific compartments could be studied separately (nitrogen or lipid compartment). • The determination of the enzymatic activities of the insect to be reared in artificial food gives some information about its possibility of digestion and assimilation.
  • 7. 4. Deletion/ Supplementation studies • Many nutritional studies for free living insects are dealing with the deletion or supplementation of one component to verify if it is essential or not. The nutritional requirements • The sources of nitrogen are a very important parameter in the nutrition of entomophagous insects, because of the very fast growth of many species. • The supply in amino acids has to fit the needs, to avoid a lost of time and energy in conversion between amino acids, and the production of toxic metabolites.
  • 8. • Parasitoids and predators are carnivorous species needing a protein-rich diet, with some specific requirements in aromatic amino acids especially in parasitoid diptera at the end of their larval development for cuticle tanning (Bonnot et al. 1976). i. Nitrogen sources • The sources of nitrogen are a very important parameter in the nutrition of entomophagous insects, because of the very fast growth of many species. • For example, the weights of newly hatched and mature larvae of the tachinid Lixophaga diatraeae are respectively 12 μg and 33 mg. The larval growth is completed in 8 days with a weight doubling time of about 17 hours.
  • 9. ii. Lipids • The similarity of the composition in total fatty acids of many parasitoids with that of their host, suggests they may copy to a certain extent the host composition Polyunsaturated fatty acids may be required for normal growth of several entomophagous insects (Sighinolfi 2008). • Dietary sterols are required by a great number of parasitoids and predators, such as Exeristes roborator (Thompson 1990a), • Fatty acids may be supplied as free fatty acids or triglycerides, and need the use of emulsifying agents to obtain their homogeneous dispersion in the aqueous phase. Eicosanoids (derived mainly from the arachidonic fatty acid) were recently recognised to mediate different functions in insects, such as reproduction and immunity.
  • 10. iii. Carbohydrates • Carbohydrates are often considered as energy sources, as well as some lipids. It is usually admitted that there are no specific needs for carbohydrates, but glucose promotes growth and lipogenesis, increasing the level of unsaturated fatty acids in E. roborator (Thompson 1982). • Trehalose, the most common non-reducing disaccharide in insects, plays an important role in metabolism and stress resistance. • It could be used instead of sucrose or glucose, and also partly replaced hemolymph in media for Trichogramma . • Moreover, sucrose may act as a feeding stimulant on parasitoid, as well as on predator insects.
  • 11. iv. Other needs a. Inorganic salts • They are generally required for the normal development of insects, but their level and the balance between the different cations, especially K+/Na+ is of prime importance and varies according to the species. Many authors introduce in the medium/diet a classical list of salts, frequently, Wesson’s or Neissenheimer’s salt mixture.
  • 12. b. Vitamins • about 12 vitamins were added in the diets, mainly hydrosoluble ones including B vitamins, as well as C vitamin, and 2 liposoluble ones (retinol-A, and tocopherol-E). Commercial preparations are available and often used by many authors, like Vanderzant vitamin mixture for insects (Vanderzant 1969). c. Miscellaneous • Ribonucleic acids (RNA) are sometimes incorporated in medium/diet, but their dispensability is questionable. RNA could increase survival or promote growth.
  • 13. 5. Other Physiological Requirements • Besides the nutritional needs, the medium must have acceptable physicochemical parameters, and provide for other requirements concerning essential physiological functions like respiration, excretion, and general protection for endoparasitoids. • Digestion process - structure of the gut • Respiration • Hormones • Teratocytes
  • 14. Digestion process - structure of the gut • Besides the composition of the medium/diet, protein digestion and utilization, are key processes that could be investigated to assert a proper metabolization of the diet components (Gomes et al. 2000, Grenier et al. 2005). • This is also true for many other food ingredients. The composition of the medium/diet nicely fitted with the needs, is necessary but not sufficient, it is also of prime importance to make sure that digestion and assimilation processes will correctly liberate the components required.
  • 15. Respiration • Some lipids could hamper the respiration by alteration of the characteristics of the interface larval tegument / medium. • The gas exchanges in parasitoid larvae occur through the tegument or by the spiracles. • To culture Trichogramma species in vitro, it will be of prime importance to ensure a normal respiration of prepupae and pupae. • Species like Ooencyrtus pityocampae (Encyrtidae) havespecial anatomical adaptation, in a form of a stalk protruding from the host egg or plastic film, allowing them to respire through the host tegument or through an artificial membrane. But a high mortality was observed in artificial conditions when mature larvae leave their respiratory stalk before pupation
  • 16. Hormones • In natural situation, the hormonal changes in parasitoids may be synchronized with those of their hosts, and are key factors for parasitoid’s development and species survival. • It is usually admitted that koinobiont parasitoids, either alter the host endocrine system in order to promote their own growth (called “regulators”), or depend on host hormones to synchronize their development with that of the host (called “conformers”) (Lawrence 1986). • For predators, they are not dependent on exogenous hormones. • The fenoxycarb shows a high JH activity and induces deleterious effects on many parasitoids and predators (Grenier and Grenier 1993).
  • 17. Teratocytes • Cells, called teratocytes, derived from the embryonic membrane of egg in some Scelionidae or Trichogrammatidae species are released into host hemocele at hatching. Their role in the successful in vitro culture of egg parasitoid suggests a function on digestion and assimilation of host components.
  • 18. Physico-chemical factors Osmotic Pressure (OP) • The dietary osmolarity is an important parameter and must be adapted to each species, especially for endoparasitoids for which the medium is not only the food, but also the environment in which they are bathed all their larval life. Ectoparasitoid Hymenoptera are usually more tolerant to high OP. pH • Usually hydrogen ion concentration in insect hemolymph varies from 6.0 to 8.2, but is more often observed between 6.4 and 6.8 (Mullins 1985). Most of the artificial media for parasitoids show a pH near these latter values. • Usually, high percentages of adults of Trichogramma spp. were obtained for pH between 6.6 and 7.0 by many authors.
  • 19. 6. Presentation of the food • The presentation of the food is more crucial for egg parasitoids and predators • Especially for non-gregarious species, larvae need a limited quantity of food because they cannot regulate their food intake, otherwise the development will terminate mainly at pupation, or will produce adults showing abnormalities (Grenier and Bonnot 1988). • Thus, for egg parasitoids the medium is presented in various ways to create an artificial host egg. The hanging drop technique consists in the deposition of droplets of medium on a flat surface in which the Trichogramma eggs are deposited for development. • Predators • Diets for predaceous coccinellids could be presented in gelled cubes or as powder, or dry pellets. Stretched Parafilm was used to package diets with a paste-like consistency for several hemipterous predators, as well as for some species of coccinellids.
  • 20. 7. Sterilization and Preservatives • The artificial diets are rich in all the nutrients allowing the growth of bacteria and fungi • Some classical bactericides (penicillin, streptomycin, gentamycine) are efficient to control bacteria and non-toxic for entomophagous insects • The fungicides incorporated into the food for phytophagous insects (nipagine, merthiolate, sorbic acid) are often detrimental for entomophages (Grenier 1977). • Specific fungicides used in cell cultures (amphotericine, nystatin) are better tolerated than more generalist products (Grenier and Liu 1990). • Some antimicrobial agents (penicillin, streptomycin, rifampicin, tetracycline hydrochloride, lincomycin hydrochloride, methyl p- hydroxybenzoate, cycloheximide and sodium benzoate) could significantly increase the protein content of the pupae of the parasitoid.
  • 21. Conclusion • During several decades, many successes were obtained in different countries around the world, mainly with idiobiontic parasitoids and polyphagous predators. • Approximately 130 entomophagous species have been partly or completely reared in artificial diets, among them more than 20 species of Trichogrammatidae.