>>Do you? If so, explain how one kind of animal evolves into another kind. Be specific.<<
Since “kind” is not a scientific term there is no need to answer. Perhaps you care to rephrase?
Since kind is not a scientific term there is no need to answer. Perhaps you care to rephrase?
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The created kind is a specific scientific term, corresponding in general to the taxonomic rank of family, but without all the evolutionism baggage. The most well-known kind is the human kind, aka, humankind. Other kinds include dogs, cats, finches, beetles, bacteria, and so forth.
The rule of thumb is, a plant or animal never naturally strays genetically outside its created kind. There is a genetic barrier, or boundary, that keeps them within their respective kinds, as explained by this writer for Phys.org:
“In analysing the barcodes across 100,000 species, the researchers found a telltale sign showing that almost all the animals emerged about the same time as humans...Which brings us back to our question: why did the overwhelming majority of species in existence today emerge at about the same time?... another unexpected finding from the studyspecies have very clear genetic boundaries, and there’s nothing much in between. “If individuals are stars, then species are galaxies,” said Thaler. “They are compact clusters in the vastness of empty sequence space.” The absence of “in-between” species is something that also perplexed Darwin, he said.” [Hood, Marlowe, “Sweeping gene survey reveals new facets of evolution.” Phys.Org, May 28, 2017, pp.3-4]
https://phys.org/news/2018-05-gene-survey-reveals-facets-evolution.html
That research implies what the book of Genesis says: 1) that animals and humans arrived on the scene about the same time; and 2) that animals multiply after their respectives kinds.
Biochemist Michael Behe explains the boundary in more detail in his latest book:
“Darwin rightly touted natural selection as relentless, as ‘daily and hourly scrutinising... every variation, even the slightest; rejecting that which is bad, preserving and adding up all that is good.’1 Yet, since the mechanism has no foresight, and since in many circumstances the random damaging of genes can be helpful to an organism, then selection ‘adds up’ those degradative changes only in the sense that broken pieces of machinery might be added to a growing pile of junk. Its inexorable predilection to hastily squander genetic information for short-term gainencapsulated by the First Rule of Adaptive Evolutionguarantees that Darwin’s mechanism is powerfully devolutionary and explains why unguided evolution is self-limiting. Ironically, random mutation and natural selection do help form new species and new genera, but chiefly by promoting the loss of genetic abilities. Over time, dwindling degradatory options fence in an evolutionary lineage, halting organismal change before it crosses the family line.” [Behe, Michael J., “Darwin Devolves.” HarperOne, 2019, Chap.10]
I hope that helps.
Mr. Kalamata