Hydrangeas and their Variety of Colour

Hydrangeas (Hydrangea macrophylla) have been known to form in a range of colours, from red, to purple, to blue, with having nothing to do with the genetics of the plant. So, if this colour difference isn't due to the genes, it must be due to certain environmental factors, and as it turns out, it is all to do with the pH and other properties of the soil. The more acidic the soil, and the greater [Al³⁺] in the soil, the more blue the sepals of the hydrangea will become. So why is this? Let's start with looking at the pigments which govern the colour of the sepals. The major pigment found in Hydrangeas (along with a number of other plants) is called Myrtillin, also known as delphinidin 3-glucoside, which is part of a group of molecules called anthocyanin.

But odly, this molecule assumes a red colour in acidic conditions and blue in basic conditions¹ (opposite to that of the soil conditions) and the pH within the sepals is usually slightly acidic, with little variation, so the blue colouring must have something to do with the Al³⁺. Through much research, Kondo et al. ², came up with a model proposing that the aluminum acts as a bridge to coordinate the Myrtillin to other copigments pigments known as acylquinic acids, which produces this blue colour.

While this is how the blue colour is formed, it can be safely assumed that the red colour is merely caused by Myrtillin by itself without any co-pigments or metal chelation.  A question which hasn't been answered yet is what the pH of the soil has to do with all of this.  The low pH allows there to be more free aluminum ions within the soil, to allow there to be more [Al³⁺] taken up into the plant.

References:
Second figure from 1.
1. K. Yoshida, M. Mori and T. Kondo, Nat. Prod. Rep., 2009, 26, 884–915.
2. T. Kondo, Y. Toyama-Kato and K. Yoshida, Tetrahedron Lett., 2005, 46, 6645–6649.