Insect collecting explained

Insect collecting refers to the collection of insects and other arthropods for scientific study or as a hobby. [1] Most insects are small and the majority cannot be identified without the examination of minute morphological characters, so entomologists often make and maintain insect collections. Very large collections are conserved in natural history museums or universities where they are maintained and studied by specialists. Many college courses require students to form small collections. There are also amateur entomologists and collectors who keep collections.

Historically, insect collecting has been widespread and was in the Victorian age a very popular educational hobby. Insect collecting has left traces in European cultural history, literature and songs (e.g., Georges Brassens's La chasse aux papillons (The Hunt for Butterflies)). The practice is particularly common among Japanese youths.

Capture and kill techniques

Insects may be passively caught using traps such as funnels, pitfall traps, bottle traps, malaise traps, or flight interception traps, some of which are baited with small bits of sweet foods (such as honey). Entomologists collecting nocturnal insects (especially moths) during faunistic survey studies might utilize ultraviolet light traps such as the Robinson trap. Aspirators, sometimes called "pooters", suck up insects too small or delicate to handle with fingers.[2]

Active capture of insects often involves using nets. Aerial insect nets are used to collect flying insects. The bag of a butterfly net is generally constructed from a lightweight mesh to minimize damage to delicate butterfly wings. Sweep nets are more rugged, and used to collect insects from grass and brush. A sweep net is swept back and forth through vegetation quickly turning the opening from side to side and following a shallow figure eight pattern. The collector walks forward while sweeping, and the net is moved through plants and grasses with force. Sweeping continues for some distance and then the net is flipped over, with the bag hanging over the rim, trapping the insects until they can be removed. Other types of nets used for collecting insects include beating nets and aquatic nets.[3] Leaf litter sieves are used by coleopterists and to collect larvae.

Once collected, insects must be killed before they damage themselves trying to escape. Killing jars are used on hard-bodied insects. Soft-bodied insects, such as those in the larval stage, are generally fixed in a vial containing an ethanol and water solution.[4]

Storage and curation

There are several different preservation methods that are used; some of which include: dried preservation (pinning), liquid preservation, or slide mounts. Another (now mostly historical) approach is caterpillar inflation, where the innards were removed and the skin dried.[5] Pinning is by far the most common form of insect preservation. [6]

It is better to pin an insect that has died recently enough that it has not dried yet, because it allows the thoracic muscles to adhere to the pin. Previously dried specimens must have glue applied to the pin location to avoid spinning. The large majority of the time insects are pinned vertically through their mesothorax and slightly off-center to the right of the mid-line.[7] The pin should sit with 1/4 of the pin above the insect as to allow enough room for labels to be readable underneath.

When pinning insects with wings, it is important to display them properly: Lepidoptera wings should always be spread. When drying insects with wings such as butterflies, setting paper is used to position the wings.

Orthopteroids often have their left wings spread. In scientific collections, the insect's wings, legs, and antenna are tucked underneath it to conserve space.

When point-mounting small insects the insect is glued to a small piece of non acidic, triangle paper. When drying an insect the relaxed insect is spread out accordingly using pins on a foam block where it can dry and retain its positioning.

When labeling insects the labels are presented in this order top down: Locality, additional locality/voucher label/accession numbers, insect identification.[8]

Insect pins

See main article: Insect pins.

Insect pins are used by entomologists for mounting insect specimens. [9]

As standard, they are 38mm long and come in sizes from 000 (the smallest diameter), through 00, 0, and 1, to 8 (the largest diameter).The most generally useful size in entomology is size 2, which is 0.46mm in diameter, with sizes 1 and 3 being the next most useful.

They were once commonly made from brass or silver, but these would corrode from contact with insect bodies and are no longer commonly used.Instead they are nickel-plated brass, yielding "white" or "black" enamelling, or even made from stainless steel.Similarly, the smallest sizes from 000 to 1 used to be impractical for mounting until plastic and polyethylene became commonly used for pinning bases.

There are also micropins, which are 10mm15mm long.minutens are headless micropins that are generally only made of stainless steel, used for double-mounting, where the insect is mounted on the minuten, which is pinned to a small block of soft material, which is in turn mounted on a standard, larger, insect pin.

Pinning of entomological specimens

As an exception to this standard, there also are pins of size 7, extra-long and very strong pins for very large beetles; they are 52mm long and thicker than size 6 pins.

The stage usually is positioned at such a distance up the vertical stage-pin, as to put the specimen at the same height as a directly pinned insect; this normally allows room for labels beneath and to allow handling of the specimen without damage.

If insects are side-pinned by pins that pass right through the specimens, then the minuten should be at such an angle that different features are damaged on the opposite sides of the thorax. Competent staging protects small specimens and displays most features conveniently. The stage-pin then is easy to manipulate when moving the specimen and the stage absorbs vibrations.

In popular culture

Pokémon creator Satoshi Tajiri's childhood hobby of insect collecting is the inspiration behind the popular video game series.[12]

A beetle collection becomes a source of fascination for a mentally disturbed woman in Chapter XI of MacKinlay Kantor's Pulitzer Prize-winning novel Andersonville (1955).

See also

References

Works cited

Further reading

Picture guide series for college students. Out of date, but very useful for beginners:

External links

Notes and References

  1. Manoj K., Ranjan R., Sinha M. P., Dhan A., Naaz F., Khanum G., Rani K. A., Sharma S., Raipat B. S. (2022). A Review on Insect Collection and Preservation Techniques. European Journal of Pharmaceutical and Medical Research, 9(7): 233-239.
  2. Martin, J.E.H. 1977. Collecting, preparing and preserving insects, mites, and spiders. The Insects and Arachnids of Canada, Part 1. Publ. 1643, Res. Br., Canada Dep. Agric., Ottawa, ON. Archived PDF
  3. [Charles Valentine Riley]
  4. Hongfu, Zhu, 1949 How to know the immature insects; an illustrated key for identifying the orders and families of many of the immature insects with suggestions for collecting, rearing and studying them, by H. F. Chu. Pictured key nature series Dubuque, Iowa,W. C. Brown Co.Full text online here
  5. Book: Gibb . Timothy J. Oseto . Christian . 2006 . Arthropod Collection and Identification: Laboratory and Field Techniques . . 67. 0123695457 .
  6. Manoj K., Ranjan R., Sinha M. P., Dhan A., Naaz F., Khanum G., Rani K. A., Sharma S., Raipat B. S. (2022). A Review on Insect Collection and Preservation Techniques. European Journal of Pharmaceutical and Medical Research, 9(7): 233-239.
  7. Web site: Department of Entomology . How to Make an Awesome Insect Collection: Purdue: entomology: insect: collect: supplies: specimen: mounting: identifying: displaying: preserve: labels . Purdue . December 27, 2019.
  8. V.M. Uys & R.P. Urban (Eds.): "How to Collect and Preserve Insects and Arachnids". Pretoria 2006. 112 p.
  9. Manoj K., Ranjan R., Sinha M. P., Dhan A., Naaz F., Khanum G., Rani K. A., Sharma S., Raipat B. S. (2022). A Review on Insect Collection and Preservation Techniques. European Journal of Pharmaceutical and Medical Research, 9(7): 233-239.
  10. Book: Common . I. F. B. . Moths of Australia . 1990 . BRILL . 978-90-04-09227-3 . 473 . 14 June 2022 . en.
  11. Web site: Rondon . Sylvia . Corp . Mary . Pinning and Labeling Insects . oregonstate.edu . Oregon State University . 14 June 2022.
  12. https://www.inshorts.com/news/pokemon-inspired-from-creators-bug-collection-hobby-1468331005757 Pokémon inspired from creator’s bug collection hobby