You are saying that plasticity arose for some random reason...and after that, since it is advantageous, it has continued to be 'selected'. 
You really have an emotional connect with Natural Selection, don't you?! Won't let it down... 
No - it is simple evolution by natural selection theory and has been demonstrated time and again. Indeed it is really easy to reproduce in the lab and is used as a routine tool when genetic modification is being used in a range of techniques. Typically an antibiotic resistance is 'knocked-in' along with the gene of interest - you then 'select' for the cells (usually bacteria or yeast) that have been modified by adding the antibiotic to the environment and guess what, only the modified cells survive and divide. Simple.
IMO, phenotypic plasticity is obvious and does not require any 'process' such as natural selection to keep it going. It is the only way evolution can possibly happen. The point is that, phenotypic plasticity has arisen, which is itself something to think about.
If it didn't convey evolutionary advantage it would not be selected for and would not be transmitted from generation to generation. So there will be, no doubt, countless examples where phenotypic plasticity has arisen which is either neutral in terms of evolutionary advantage, or even negative - those traits will fail to survive. Only those that are advantageous, or co-arisen with an advantageous trait survive.
As I see it, in the years to come, it will become clear that plasticity is the single process by which evolution happens in all organisms. Natural Selection, at least in the manner in which it is currently defined, will be discarded.
But phenotypic plasticity is merely one of countless traits that can arise through the normal evolutionary process - it isn't distinct from evolution by natural selection - it is part of it.
Secondly, plasticity clearly highlights how 'intelligent' natural processes are. The above article says '.... occurs within the lifespan of an individual organism, as it allows individuals to 'fit' their phenotype to different environments'. Organisms actually 'fit' their phenotypes to specific environments!
How with a single genotype several phenotypes can be generated to 'fit' into specific environmental requirements....is something scientists are going to find very awkward to unravel.....!
Not really - scientist have been studying this for decades and understand it very well, although of course there is always more detail to uncover. So don't forget that the genotype merely reflects the genetic code in our DNA - phenotype is driven by the patterns of genes that are turned on and turned off in various parts of the organism and across time. It is pretty easy to see phenotypic change in a single organism through its lifespan - just look at the phenotypic changes that occur from a new born baby to an adult - throughout this period the genotype is, effectively, unaltered but there are immense phenotypic changes as different sets of genes are turned on and off.
The control of the turning on an off of genes and the ensuing activity of the proteins they code for (and therefore phenotype) involves a range of mechanisms, and many of them are environmental. Interestingly some are heritable - so called epigenetic traits, and again some environmentally control alterations are epigenetic.
So Sriram - I know you want to try to turn this into some kind of great mystery that is perplexing to science and challenges traditional thinking on evolution. But it doesn't - ask any credible biologist and they'll shrug their shoulders and go 'sure, yes we've know this sort of thing happens for decades - still plenty to uncover about the mechanisms, but they'll be more about that in the articles in next week's edition of Nature and I've got a grant proposal being submitted to find out a little more myself'.
