How to Shoot Macro Photos with Regular Lenses and Extension Tubes

A bee on a flower

Macro photography works well with conventional lenses and inexpensive extension tubes. The combination achieves 0.3x to 0.5x magnification. Depth of field is much greater with these moderate magnifications than at the 1x magnification possible with macro lenses.

I have superb 90mm and 105mm macro lenses which I use to photograph bees.  But often I want a longer focal length to capture the rapidly moving bees at a greater distance.  I’ve tried telephoto lenses with both diopter lenses screwed on the front and with extension tubes inserted between the camera body and the lens.

Camera lens extension tubes and a diopter lens
16mm and 21mm extension tubes (left) and a diopter lens (right).

Diopter lenses work with manual focus but don’t autofocus well. I need autofocus for fast-moving bees.

Extension tubes allow autofocus and, after moderate sharpening, deliver sharpness which rivals macro lenses.  I shoot mostly at f/11 with both the macro and extended telephoto lenses.

A fly on a flower
Shot with a Sony 70-350mm.

I mainly use a 16mm extension tube for lenses from 100 to 200mm, but 21mm works well with my longer lenses.

The longer the extension, the greater the possible magnification, but autofocus is more difficult with longer extensions.

A wasp on a leaf
Shot with a Tamron 28-200mm.
A ladybug on a flower
Shot with a Tamron 28-200mm.

Zoom Lenses Will Only Autofocus at the Long End of Their Zoom Range

I’ve bought 3 tube sets for about $25. They work with every telephoto lens I’ve tried. I mostly extend 150 to 300mm lenses.

While 1:1 isn’t achievable, it’s much easier to shoot at lower magnification because depth of field increases rapidly with lower magnification. I find that 0.3x to 0.5x meets most of my macro needs. The formula for depth of field is:

Depth Of Field (in mm) = .02 x f-number / Magnification2

Note how DOF increases rapidly with lower magnification:

A chart of magnification and depth of field

0.32mm is about 3x the thickness of a human hair.

Some ordinary lenses are capable of 0.25x or closer without extension tubes.

A macro photo of a spider on a flower
Shot with a Tamron 70-300mm.

Determining Your Maximum Magnification

You can measure your maximum magnification by photographing a ruler at the shortest distance that will focus.

A close-up photo of a tape measure on a wooden surface

This was shot with my Tamron 28-200mm at 200mm on a 16mm extension tube. The capture is 3.3″ wide which calculates to 0.4x magnification. The vignetting is due to the extension tube, but it never concerns me because I only keep a small portion from the center of the frame.

Then calculate magnification as follows:

Magnification = Sensor width / Captured ruler width

Sensor widths are approximately:

Full frame: 36mm or 1.4″
APS-C: 24mm or 0.95″
Micro Four Thirds: 17mm or 0.7″

A moth on a flower
Shot with a Tamron 28-200mm.
A wasp on a leaf
Shot with a Tamron 28-200mm.

Lower Magnification Can Compete With Macro Focus Stacking

I recently issued a focus stacking “challenge” on a macro forum. I had no objection to focus stacking but wanted to demonstrate that a single frame at moderate magnification works surprisingly well.

A man who goes by “Roger in Edmonton” posted a 29-frame stacked image of a silver dollar and I came pretty close with this single frame:

A macro photo of a coin on a table

The above photo was shot with a Sony a6400 and an ordinary 18-135mm kit lens without extension tubes, at f/16 and 135mm zoom.

Following are example bee photos.

Shot with Sigma 105mm macro lens at f/11
Shot with Sony 90mm macro lens at f/11

The following were all shot with telephoto lenses on extension tubes.

Tamron 28-200mm at 200mm f/16
Sony 70-350mm at 350mm f/11. This An APS-C lens, but I only keep a small part in the center.
A bee on a flower
Tamron 70-180mm at 180mm f/11
Sony 100-400mm at 315mm f/11

If you have a yen for macro photography you can get started for very little cost with extension tubes on your existing lenses. You may never need a real 1x macro lens.


About the author: Alan Adler lives in Los Altos, California. The opinions expressed in this article are solely those of the author. He has been an avid photographer for 60 years. He is also a well-known inventor with about 40 patents. His best-known inventions are the Aerobie flying ring and the AeroPress coffee maker.



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