Natural Process Evolution (aka Neo-Darwinism, Naturalism, etc.) rests on the Blind Watchmaker argument in which mindless processes, via the natural realm, are responsible for the diversity of life on planet earth (indeed, responsible for the very cosmos we exist in).
We are told that we, as humans, have evolved to the point where we have minds that think, that reason, that design, and that engineer. Yet, if this is the case, how is it that we now seem to take our mind-driven cues, as shown below, from the alleged products of a completely mindless process? Common sense, from our evolved minds, should tell us that if we see a well designed and engineered product, then it is reasonable to conclude that it, in fact, came from a mind.
Therefore, I'd like to present a series of examples that we find in nature, of so-called MD (i.e., Mindless-process Design) and how, in doing so, we acknowledge the inescapable conclusion that there is design / engineering in what we behold:
First, we have an example of the seemingly ubiquitous bar code. From Wikipedia,
"The first patent for a bar code type product (US Patent #2,612,994) was issued to inventors Joseph Woodland and Bernard Silver on October 7, 1952. Its implementation was made possible through the work of Raymond Alexander and Frank Stietz, two engineers with Sylvania (who were also granted a patent), as a result of their work on a system to identify railroad cars. It was not until 1966 that barcodes were put to commercial use and they were not commercially successful until the 1980s."
Note that the first patent for a bar code type product was issued to inventors, and that its implementation was made possible by two engineers. Yeah. Got that? Inventors... engineers? Persons. Persons with... minds.
Barcodes have revolutionized the retail business. Now cashiers simply scan the items while computer technology does the rest. It has increased the speed and accuracy of the checkout process and provides the added benefit of giving the store managers a real-time inventory.
Scientists have come to realize that DNA can be used as a barcode to perform some of the same functions as barcodes printed onto food packaging. Biologists have been able to identify, catalog, and monitor animal species using relatively short, standardized segments of DNA within the genome that are unique to the species, or subspecies in some cases. And now new work extends the utility of DNA barcoding to plants.
One of the challenges of DNA barcoding centers on identifying a region within the genome that can distinguish a wide range of taxa. Researchers have recently discovered that the matK gene found in plastid DNA fulfills this requirement. This gene displays the so-called barcoding gap by simultaneously varying little within a species, but varying significantly between species...
The use of DNA as barcodes underscores the informational content of this biomolecule. DNA barcoding makes it clear that biochemical information is truly information.