Determine the identity оf the dаughter nuclide frоm the electrоn cаpture by Cl.
Cоnstructiоn оf а clаdogrаm Cladogram depicts a hypothesis of evolutionary relationships (a cladogram is the type of phylogenetic tree produced by cladistic analysis). Species with a common ancestor, as indicated by the possession of shared derived characters, are said to belong to a clade. Clades are thus evolutionary units and refer to a common ancestor and all of its descendants. A derived character shared by clade members is called a synapomorphy of that clade. Figure below illustrates that a simple cladogram is a nested set of clades, each characterized by its own synapomorphies. For example, amniotes are a clade for which the evolution of an amniotic membrane is a synapomorphy. Within that clade, mammals are a clade, with hair as a synapomorphy, and so on. Ancestral states are called plesiomorphies, and shared ancestral states are called symplesiomorphies. In contrast to synapomorphies, symplesiomorphies are not informative about phylogenetic relationships. Let's return to the character state “presence of a tail,” which is exhibited by lampreys, sharks, salamanders, lizards, and tigers. Does this mean that tigers are more closely related to—and shared a more recent common ancestor with—lizards and sharks than to apes and humans, their fellow mammals? The answer, of course, is no: because symplesiomorphies reflect character states inherited from a distant ancestor, they do not imply that species exhibiting that state are closely related. Screenshot 2023-01-15 at 1.04.54 PM.png