In biology, most random mutations take place on a level that is either unnoticeable or of a nature as to be trivial to a species. Many evolutionary naysayers claim that evolution is false because of their lack of understanding of what mutations are, and how they could possibly be of any benefit to the plant or animal to which it occurs. They tend to see mutations like they happened in the X-Men comic book, granting special powers to the mutant, or like the Elephant Man, rendering the mutant disfigured and deformed. And there are some who even claim that mutations do not exist at all. And because most mutations happen gradually over time, and humans are blinkered to only truly understand timeframes as they relate to a human lifespan, most mutations are imperceptible to the average person, and occur unnoticed.
Enter the picture Acacia Leprosa.
I love late winter in Melbourne, the garden seems to come back to life after the winter dormancy. It's still cold, but it's mild enough that we would probably only get the occasional frost, and snow is almost unheard of in these parts. And at this time of year, all the trees start to bloom and blossom.
The above photo was taken in my back yard yesterday afternoon. It is of Acacia Leprosa or "Cinnamon Wattle" which in itself is a very common tree which puts on a spectacular show of golden blossoms in late winter all across the state. In 1995 some bushwalkers in eastern Melbourne stumbled upon a remarkable find. In amongst the hectares of Acacia Leprosa which were in flower that year, they stumbled upon a specimen that had bright red flowers instead of the standard bright yellow. This was the only time ever this has been documented, and at first the bushwalkers thought they had discovered a new species altogether. They took some cuttings back to Melbourne's Royal Botanic Gardens, where they were able to propagate these cuttings. This plant is now in wide distribution, and I think you'll agree it is quite spectacular when in bloom. It has since been named Acacia Leprosa "Scarlet Blaze".
This find is remarkable for several reasons. This is the only time this kind of mutation has been documented in this species, and the only time a wattle has been seen with a red colouration. The tree, whose DNA is identical to those around it except for the mutation which caused the red colouration. But most importantly, this mutation is a perfect example of how mutations can prove to be beneficial to a species. And through human intervention, we have a brilliant example of natural selection. An important thing to note here is that the "Scarlet Blaze", unlike most plants which reproduce by the fertilization and germination of seeds, is actually a clone of the original plant, so it retains all the characteristics of the original plant. And in a way, all the commercially bought examples of this plant are actually the same plant, much like commercial apple trees or grafted roses. By human intervention, we have extended the lifespan of this particular tree to more than double what it would have been in the wild, and there's no reason why it couldn't continue indefinitely with human intervention.
In earlier articles I have written, I proposed the idea that nothing is unnatural, that everything that happens does so because that is the way the laws of physics and chemistry work. So the idea that just because humans have intervened to propagate this flowering wattle makes it no less of a natural selection than the evolution of a slightly superior eye on a flatworm over its predecessors. The benefit here is that we as a species find the red-flowers to be appealing, and that the novelty value of such a mutation is desirable.
In the same way, humans have taken random mutations of plants and animals and propagated them to perpetuate the trait in later generations of the species. Almost all plants and animals we use for our domestic purposes have been selectively bred to enhance their usefulness to us and our societies. Dogs, cats, cattle, roses, apples, tulips, marijuana, tea, wheat, bananas, you name it, we have altered it to suit us. And we have taken a random mutation in Acacia Leprosa, which is useful to us on a more cerebral level, and have captured it for our own use
Another thing to keep in mind is the fact that this mutation has only changed the colouration of the flowers. The rest of the tree is indistinguishable from any other Acacia Leprosa, so the mutation appears to be only an aesthetic one. So humans notice this mutation easily, but to a bee the mutation may seem minor or imperceptible. So this mutation may only be beneficial to the one single tree because of humans and out ability to see colour the way we do, our ability to clone and propagate cuttings of the living organisms, and our ability to distribute these around the country. Had it not been for human intervention, this specimen would have simply died when it reached the end of its lifespan.
In the same way that this plant has managed to continue its lifespan through being mildly beneficial to another species, many plants and animals, through random mutations and slight changes over a long period of time, have increased their chances of survival by being beneficial to another species. Orchids are a great example of this, and there are many species of orchids which mimic their pollinators to lure them into believing that they are mating with one of their own kind, when in fact they are actually acting as carriers of pollen. This video from a David Attenborough documentary shows this in action.