The following information on preserving and examining larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
is mostly repeated from the following book chapter focused on tortricids, although the techniques can be applied to nearly any lepidopteran larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
. Passoa, S. C. 2008. Part III: Immature Stages, pp. 295-314. In: T. M. Gilligan et al. (eds.), Olethreutine moths of the midwestern United States, an identification guide. Ohio Biological Survey, Columbus, Ohio./p>
Methods of preserving larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
are discussed by Peterson (1962)Peterson (1962):
Peterson, A. 1962. Larvae of insects: an introduction to Nearctic species. Part I: Lepidoptera and plant infesting Hymenoptera. Columbus, Ohio. 315 pp., Winter (2000), Wagner (2005)Wagner (2005):
Wagner, D. L. 2005. Caterpillars of eastern North America: A guide to identification and natural history. Princeton University Press, New Jersey. 512 pp., Dugdale et al. (2005), and in detail by Stehr (1987). The objective is to fix the tissues to prevent discoloration or rotting of samples. This can be accomplished with heat or with chemical fixing agents.
For the amateur collector, or if another preservative such as alcohol is unavilable, the simplest method for killing larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
is to drop them in household vinegar (5% acetic acid) for 24 hours. Specimens are then transferred to alcohol for permanent preservation. Although the results are far from ideal, this method has the advantages that vinegar is cheap, nonflammable, relatively nontoxic, and may be readily available in remote locations. The remainder of this section discusses techniques appropriate for research purposes.
Larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
can be killed and heat-fixed by dropping them in very hot or gently boiling water, a process that causes the body to expand and become rigid. The resulting body distention makes the crochetscrochets:
sclerotized, hooklike structures, usually arranged in rows or circles on the prolegs of Lepidoptera larvae
easy to see and prevents folds of cuticle from obscuring body setaeseta:
a hairlike projection of the body wall that is articulated in a socket; compare to spine
. However, bloated larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
are difficult to manipulate and can be punctured by forceps. Light colors tend to be poorly preserved; the process causes most individuals to bleach bright white. Dark markings are unaffected.
Chemical killing agents and fixatives usually involve a mixture of alcohol and some organic solvent or acid. This approach allows the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
to be slightly bent or twisted without repositioning the sample. Color preservation tends to be better than with boiling, but crochet patterns are often difficult to see unless the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
is inflated. Perhaps the biggest disadvantage of this method is that toxic acids and organic solvents require a fume hood for use and storage. Godfrey (1972) used a mixture of nine parts 70% ethanol and one part glacial acetic acid by volume. The specimen can be injected through the mouth or anus using a diabetes syringe to inflate the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
as needed. In this process, use of protective eyewear is essential as specimens can burst, squirting the acid alcohol mixture in all directions. Dugdale et al. (2005) mentions an alternative chemical fixative called Carnoy's solution, which contains chloroform as well as the alcohol-acetic acid mixture.
After killing and fixing, the larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
should be transferred into vials containing 75-80% ethanol for storage. Proper labeling is important: place the label inside the vial to avoid loss; use only 100% rag, acid-free paper; and write the label in pencil to avoid smearing of ink. Rubber stoppered vials are preferred for long-term storage. Periodic inspection is needed to check for alcohol evaporation. Institutional collections usually place the vials in mason jars that are themselves filled with alcohol. Adding a few drops of glycerine per vial provides some protection to the specimen should the alcohol completely evaporate.
Before alcohol collections became popular, most larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
were dried, mounted on pins, and stored with the associated adults. The technique involved rolling out the body contents with a tube and then inflating and drying the cuticle under low constant heat. Details are given by Hammond (1960) and Stehr (1987). Numerous examples of these "inflated larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
" still exist in collections, but the method is used rarely today because of the time and effort required to prepare the specimens and the damage that results to the terminal abdominal segments. Chemical dehydration and freeze-drying alternatives are discussed by Stehr (1987). Dried specimens have the advantage that they are easily manipulated on the pin to observe gross morphological characters, and they often show cuticle texture better than alcohol preserved material. Dry preservation also eliminates the maintenance issues associated with alcohol collections.
Routine identification of larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
normally is done with a stereoscope. Larval specimens need to be completely immersed in alcohol in order to see the setaeseta:
a hairlike projection of the body wall that is articulated in a socket; compare to spine
and other morphological characters. Changing the background from white to black to gray, changing the angle or intensity of the light source, using a ring light or dual arm fiber optic unit, using transmitted or reflected light or both at the same time and even changing the alcohol can have a dramatic effect on the ability to see characters. Positioning the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
usually involves some kind of invention with pins, paperclips, glass chips, glass beads, or microcontainers. No two workers use exactly the same method, but the ability to angle the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
in different views usually needs to be invented.
Serious morphological studies of larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
require that specimens be cleared for examination under a microscope. Dugdale et al. (2005) recommends macerating the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
in a 10% potassium hydroxide solution and then making two transverse slits to expel the body contents. One slit cuts the membrane that attaches the head to the prothoraxprothorax:
the first thoracic segment
; the other is made between the fifth and sixth abdominal segments. The cuticle can then be stained with Chlorazol Black E and examined under high magnification. If a slide mount is desired, longitudinal slits are made instead of two transverse ones. The cuticle is stained and then slide mounted using typical genitalia techniques (see Robinson, 1976). Carter and Vane-Wright (1999)Carter and Vane-Wright (1999):
Carter, D. J. and D. Vane-Wright. 1999. General preservation of eggs, larvae and pupae for morphological work. News of the Lepidopterists' Society 41: 75. discussed the preservation and study of immature Lepidoptera in general.
The following modification of the above procedure has been used by S. Passoa for many years. Maceration, staining and separation of the head follow Dugdale et al. (2005), but the larval cuticle is prepared by making a longitudinal slit in the subdorsal region between the D and SD setaeseta:
a hairlike projection of the body wall that is articulated in a socket; compare to spine
. This allows better observation of the spacing of the V setaeseta:
a hairlike projection of the body wall that is articulated in a socket; compare to spine
, an important character in some groups. The mouthparts are dissected and mounted separately following Godfrey (1972), thus avoiding the problems mentioned by Dugdale et al. (2005) in trying to position the mandible. The spinneretspinneret:
a structure from which silk is spun, usually located on the labium of larvae
can be mounted laterally or ventrally depending on the desired view.
One option for staining larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
is to dip the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
in dilute Chlorazol Black for a few minutes to differentially stain sclerotizedsclerotized:
hardened and tanned, so that it is yellow to black in color
parts like the pinaculapinaculum:
a small, flat, or slightly elevated chitinized area bearing a seta or setae
. Another option is to slide mount the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
. Small specimens can be cleared in lactophenol and then eventually mounted in Canadian balsam after dehydrating and clearing. They also can be directly mounted in Hoyer's medium that may or may not have a stain added. More traditional methods include treating the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
like an adult abdomen for genital studies; clearing the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
in potassium or sodium hydroxide and eventually mounting it in Euparal. There are no firm rules to choose among the above methods. Access to the chemicals and personal preference are likely the two most important considerations.
The following page illustrates miscellaneous taxonomically important structures of various species treated in LepIntercept. These images were created using various light microscope techniques in order to demonstrate some of the tools a port identifier might use to study Lepidoptera larvaelarva:
the stages between the egg and pupa of those insects having complete metamorphosis
.
Microscope techniques to view taxonomically important structures in larvae page
Accurate identifications of intercepted Lepidoptera start with the proper submission of specimens. Passoa (2007, 2009) listed some of the issues seen over the last two decades of receiving samples. Eggs now can be identified with molecular methods. Given that these normally come in groups of more than one, at least some eggs should be preserved in 95% ethanol for future sequencing. Do not kill eggs and expect a species identification based on morphology. Given the number of doubtful host/insect associations in the PestID system, one cannot help but worry about unlabeled vials by the thousands being bounced around from officer to identifier to specialist between several different locations. At minimum, a pencil label with origin, host (at least identified to genus), and date should be immediately dropped in the vial (not some 25 digit complicated port code). This should stay with the specimen. No specialist should ever get unlabeled vials! Given the age of camera cell phones, there is no excuse for submitting leaf miners without, at minimum, a picture of the mine, even if taken with a camera on a cell phone. Ideally, preserve the mine as a pressed specimen or at least cut the mine from the leaf and send it with the larvalarva:
the stages between the egg and pupa of those insects having complete metamorphosis
in alcohol. Discarding a pupal cocoon and cast larval exuvium almost always makes the identification twice as difficult to nearly impossible - these parts need to be saved if present (they may be hard to find with stem borers or in butterflies the larval exuvium is normally not near the pupa). There is also a problem with adult label data. If an adult moth was collected in a container of produce, there is no guarantee it was reared from that host. It is misleading to label adults with this information. The label can say "collected in a container of ..." or if reared, then "reared from ..."; but it should not go on the form as a host or be listed on a label without qualifying the association.