The few fine days which we had during August revealed an interesting trick in one of the plants in the temperate greenhouse. David Tricker, one of our greenhouse keepers, noticed that in bright sunlight shadows on Begonia grandis were semi-permanent.

Semi-permenant shadow on Begonia grandis

Semi-permenant shadow on Begonia grandis

Rachel Brewer printed the RBGE logo onto acetate for me, and after a 2 week wait for annother sunny day I finally taped it to a leaf in bright sunlight.

Acetate template on leaf

Acetate template on leaf

5 minutes later I had a leaf print.

Sun print!

Sun print!

The print is very precise – it seems that single cells respond individually.

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5 minutes is enough time for a print to take and for it to fade.

Time course of sun printing

Time course of sun printing

The effect is due to moving chloroplasts.  Bright sunlight can damage the delicate photosynthetic machinery of the shade loving begonia so chloroplasts move out of the path of the sun, stacking up vertically against the sides of the cell.  In the shade the chloroplasts need to capture all the light they can so spread out along the horizontal ends of the cells

10um section through a leaf in shade and in sun

10um section through a leaf in sun and in shade

This effect is very precise.  Here’s the boundary between a sun exposed and a shaded region.

Sun-shade transistion zome

Sun-shade transistion zone

This effect was first reported over 100 years ago and has been well researched in model species (Wada and Suetsugu, 2004  Current Opinion in Plant Biology 7; 626–631).  Plants detect the change in levels of blue light and this activates a protein which binds the chloroplasts to the actin filaments, which make up the skeleton of the cell, moving them along.  We know from our work on the begonia genome that the signalling and the activating parts of the pathway exisit in begonia.  We have yet to find out why some species show this effect much more strongly than others.