Second, there is no contradiction between the two theories. According to r/K selection, long life-span is a typical characteristic of K-selected species, while short lifespan is typical for the r-selected. The theory I espouse would simple add that the continuum between K-selected and r-selected species would tend to correspond to a continuum of evolutionary rates.
If you still disagree, please follow the link and point out flaws in the argument.
>The theory I espouse would simple add that the continuum between K-selected and r-selected species would tend to correspond to a continuum of evolutionary rates.
Looking at the last 2B years who has shown higher "global" evolutionary rate - the line of living matter leading to humans or the line leading to fish?
While of course it is obvious that the "local" evolutionary rate - rate of producing and churning through minor changes - is higher for shorter lived.
In short - giving the result the human rate of evolution
>You have fallen for the false assumption that evolution is teleological
it isn't false, it is true - the evolution leads to exponentially more complex systems. There is a very simple mathematical reason for that - evolution changes are small continuous deltas and a delta-changes to a more complex system cover more volume in the parameter space. Very rough - an organism with 2 times more types of cells, limbs, other morphological and behavioral features, etc.. will produce 2 times more of survivable variations.
>humans are the farthest along that teleological path.
mammals are farthest down the complexity path and humans just a bit further as it seems that we have a bit more complex brain.
Your Harward link is wrong on at least 2 metrics of biological systems both of which shows clear [exponential] increase as result of evolution - complexity and entropy increase integrated over given biological system's life-path in the space-time (that ability to maximize entropy beyond what can be achieved by following local gradient is the main differentiator between live and regular matter)
Second, there is no contradiction between the two theories. According to r/K selection, long life-span is a typical characteristic of K-selected species, while short lifespan is typical for the r-selected. The theory I espouse would simple add that the continuum between K-selected and r-selected species would tend to correspond to a continuum of evolutionary rates.
If you still disagree, please follow the link and point out flaws in the argument.