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Wing Measurements

This page is credited in full to Dave Cushman who created it. His voice is expressed in black colour text and any additions or comments in blue belong to myself. Credit: Dave Cushman’s website.

PH.

 

Wing Venation Measurement
and other Honey Bee Wing Morphometry

Measurement of wing vein characteristics to establish race and breeding purity in honey bees, with the intention of using the data for breeding selection purposes.

These measurements can be taken using a 35 mm slide projector to project the images of mounted wings onto a white wall. It is Important that the projector is arranged so that the beam is aligned perpendicular to the wall in both the horizontal and vertical planes, otherwise optical distortion will degrade the accuracy of results. (This usually means mounting the projector at a greater height than a normal projector stand.)

Several computer programs have now been prepared so that the slides will go into a 35 mm slide adaptor on a high quality document scanner or purpose designed slide scanner. Enabling the images to be read and the results printed out automatically. There is a LINUX version available.

A description of how to prepare and mount the wings is given in a page titled Wing Mounting.

Forewing Length… Measuring the length of the honey bee wing gives a simple, but not infallible guide.

The maximum possible distance should be measured for consistency.
Honey Bee Wing Length

Cubital Index… We can measure the ratio of two of the wing vein segments to obtain this:-
Whole Wing of honey bee ?? ?Inset Showing Detail for Cubital Index

The enlarged drawing? is of the purple rectangle shown on the smaller overall sketch above.

The points A, B & C should be judged to the centroid of the vein junctions concerned. The distance “BC” is divided by the distance “AB”. There is a tool for doing this known as the Herold Fan named after Pfarrer Herold who devised the method.

Discoidal Shift… Is used most when dealing with AMM types as most other types are zero or positive whilst for AMM this is a negative value.
The measuring tool (known as a discoidal card) is set so that the horizontal line passes through the extreme tips of the radial cell with the perpendicular passing through the junction of the “Cubital III Cell” and the “Radial Cell”. The offset of point “D” is measured using the angular gradations on the tool. The particular example shown here is a positive value. Judgement of points can be the cause of discrepancies in information generated by different operatives. ?? ?Enlarged Section Showing Discoidal Shift Detail

Much of the calculation work has now been taken over by computer application packages, but as measurement becomes more easy and precise, it calls into question the accuracy of the databases that are used for comparison standards. Database refinement will be the subject of a future page.

 

Most of this work is now done by programs and scanners.

PH

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