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HYMENOPTERA, Figitidae (Cynipoidea) -- <Images> & <Juveniles> Please refer also to the following links for details on this
group: Figitidae = Link
1 Figitidae. -- Figitidae ; & -- These
are parasitoids of the pupae of lacewings and Diptera. The family is divided into
three subfamilies, primarily on the basis of the structure of the abdomen:
the Anacharitinae, which have the abdomen distinctly petiolate and the second
tergum longer than the third ( ), attack the cocoons of lacewings
(Chrysopidae); the Aspiceratinae, in which the second abdominal tergum is
narrow and much shorter than the third, attack the pupae of syrphid flies;
the Figitinae, in which the second tergum is only slightly shorter than the
third , attack the pupae of various Diptera (Borror et al., 1989). Description & Statistics
Clausen (1940) distinguished figitids from eucoilids by placing
each in a superfamily. He considered
the Eucoilinae as the best known of parasitic Cynipoidea, which were limited
in their host preferences to Diptera.
Oviposition is in the early larval instars, and adults emerge from the
puparia. Cothonaspis rapae Westw. is a parasitoid of
cabbage maggot, Hylemyia brassicae Bouché. Only the first two larval instars of the
host are subject to attack, and darkness is necessary for oviposition,
although adults are diurnal (James 1928, Malachanova 1930). It was believed that this caused maggots
in leaves and stems to be immune from attack. Parasitoid adults are attracted to infested cabbage, and no
attention is paid to free larvae or to those which have been moved to a fresh
plant. The life cycle is completed in
ca. 3 months, of which egg incubation takes 6 days and the larval period ca.
2 months. Hibernation is in the
mature larval stage, and there are two generations per year. Eucoila keilini Kieff. was studied by Keilin
& Baume-Pluvinel (1913) and Kleidotoma
marshalli Mshll. by James
(1928). Conspicuous ventral thoracic
processes are thought to be adaptive only and to serve in locomotion and
respiration. However James (1928)
could find no evidence of their use in locomotion by Kleidotoma. Both of these
parasitoids have two generations per year.
Parasitized host puparia are smaller than normal size, which effect
seems to be consistent in all Diptera attacked by Figitidae. Observations on Psilodora
sp., attacking blowfly larvae in dung and carrion, were made by Roberts
(1935). He find the life cycle to
take an average of 35 days under summer conditions, but there was a tendency
for the pupal period to be prolonged, and some individuals remained in
diapause for 7 months. Hibernation
took place in mature larvae or prepupae in the host puparium. No thelytoky was found. In his discussion of Cynipoidea, Clausen (1940) separated the
figitids from the eucoilids, although their hosts were the same. Figites
anthomyiarum Bouché attacks larvae
of various Diptera found in decaying meat (James 1928). Oviposition occurs only in 1st or 2nd
instar larvae, and a preference is shown for those which have just hatched. A temporary paralysis occurs, which is of
1-2 minutes duration. The initial
stimulus for oviposition is most certainly provided by the decaying meat
rather than by the maggots themselves (Clausen 1940/1962). Adults emerge from the host puparium. The cycle from egg to adult takes ca. 60
days in summer, of which the egg, larval and pupal stages last 2-3, 38, and
20 days, respectively. There are 2 or
possibly 3 generations per year and winter is passed as mature larvae in the
host puparium. Adult life usually
lasts only 8-9 days, and feeding is principally on juices of the host
infested meat. There is a
preoviposition period of ca. 2 days, and an examination of the reproductive
tract revealed the presence of several hundred mature eggs, suggesting a high
reproductive capacity. Clausen (1940) discussed the superfamily Charipinae separate from
the Figitidae, noting work by Haviland (1921) and Spencer (1926). An undetermined species of Charips studied by Haviland is a
solitary internal parasitoid of late larval instars of Aphidius ervi Hal. in Macrosiphum urticae Kalt. and of other Aphidiinae in various aphids. Oviposition takes place frequently in the
3rd or early 4th instar Aphidius
larva, although sometimes also in the late 2nd instar and while the aphid
host is still alive. The female
mounts on the back of the aphid, orients herself with her head toward that of
the host and inserts her ovipositor perpendicularly. The trophic membrane surrounding the
embryo usually disappears at the time of egg hatching, but occasionally it
persists until after the first molt.
The 1st instar larva is usually found ventrally in the posterior or
anterior 1/3rd of the host body and between the nerve cord and intestine. The last instar larva emerges from the
host through a break in the skin behind the head and completes its feeding
externally. This ectoparasitic phase
lasts only ca. 12 hrs. The pupal
stage lasts 22-26 days, and adult emergence is effected by biting out an
irregular hole dorsally in the host cocoon and aphid skin. Adults live only a short time, and feeding
is on honeydew and plant sap. Charips brassicae Ashm., studied by Spencer
(1926) is similar in habits to that given by Haviland. The 1st instar larva is enveloped by the
trophamnion, and feeding during the early stages is by diffusion through the
thin integument. The aphidiine host
is half grown when first attacked and reaches the pupa before death. The life cycle is completed in 26 days. For detailed descriptions of immature stages of Figitidae, please
see Clausen (1940/1962). References: Please refer to <biology.ref.htm>, [Additional references
may be found at: MELVYL
Library] Kerrich, G.
J. 1940. Ent. Mon. Mag. 76:
15-17. Quinlan,
J. 1979. Bull.
British Mus. Nat. Hist. 39: 85-133. Weld, L. H.
1951. Cynipoidea. Private Printing, Ann. Arbor, Mich.
351 p. |