we compared their bone.
Embryos provide evidence for evolution by showing similarities in early development among different species, suggesting a common ancestry. This supports the idea that all living organisms have evolved from a shared ancestor over time.
evolution from a distant common ancestor
Similar structures in embryos refer to the presence of common anatomical features and developmental patterns observed in the early stages of different organisms. This similarity is often used as evidence to support the theory of common ancestry, suggesting that these organisms share a common evolutionary history. Studying these similarities can provide insights into the relationships between different species and the processes of evolution.
Actually yes it can. Embryos, DNA sequences, and fossils amongst others things can help show similarities within species. This can show that those species have similar traits because they evolved from a common ancestor. But those differences show why they are different species and thus evolving.
All vertebrate embryos look roughly the same, showing that they come from a common ancestor.
Comparing embryos of different organisms can reveal similarities in their development, suggesting a common ancestry. These similarities in early development provide evidence for evolution by showing that different species share a common evolutionary history. Studying embryonic development can help trace the evolutionary relationships between different species and support the idea of descent with modification.
The process of looking at embryos at different stages of development is known as embryology. Embryology involves studying the growth and differentiation of embryos from fertilization to the fetus stage. It helps scientists and researchers understand the biological processes that lead to the formation of complex organisms.
yes
Both have gills when they're embryos
No, not all organisms start out as embryos. Embryos are typically seen in higher animals that undergo sexual reproduction, where a fertilized egg develops into an organism. Organisms like bacteria and protists reproduce asexually and do not have an embryonic stage in their life cycle.
Embryos of different animals may look similar due to shared evolutionary history. This concept is known as embryonic homology and suggests that animals with a common ancestor will display similarities during early development. Shared genetic and developmental pathways contribute to these similarities, even if the adult forms of the animals look very different.
Embryology can show that organisms are related through the presence of homologous structures in embryos that go on to develop into different adult forms, indicating a shared evolutionary history. Similarities in developmental pathways and stages across different species can provide evidence of a common ancestry and indicate evolutionary relationships. Additionally, studying the genetic and molecular mechanisms underlying embryonic development can reveal similarities that support the idea of organisms sharing a common ancestor.