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All vertebrate embryos look roughly the same, showing that they come from a common ancestor.
because of a common ancestor of all vertebrates in Pre-Cambrian period, scientists says that they all will have a common development stage.
evolved from a common ancestor that also had the structure bg
They have the same common ancestor if you go back far enough in time.
Scientists found that both segmented worms and arthropods have a hollow space in their bodies to hold their organs. They both also have larvae stages early on in their life cycle.
something to do with embryology
They look similar at birth
Scientists have not identified an evolutionary ancestor to fungi.
Actually it has more similarities to horseshoe crabs, ticks and mites, but it is not an ancestor of these creatures either. It is most likely a cousin of the ancestor of these creatures. http://www.austmus.gov.au/palaeontology/research/trilobites02.htm
All vertebrate embryos look roughly the same, showing that they come from a common ancestor.
because of a common ancestor of all vertebrates in Pre-Cambrian period, scientists says that they all will have a common development stage.
Physiological similarities suggest the species evolved from the same ancestor.
Scientists mainly compare similarities and differences in what the organisms look like. With the less obvious relations, they analyze their DNA. The goal is to find a common ancestor between the two organisms. The more recently that ancestor existed, the more closely related the organisms are.
Why do scientists think related species have similar body structures and development patterns?
Scientists believe this because they have a similar body model.
A common ancestor.
that they share a common ancestor