all derive from a single African lineage that spread from there into other parts of the world starting relocation about 50,000 years ago
Genetic findings need corresponding fossil evidence to be true.
Fossil evidence of evolution is not typically disproved, as fossils are considered crucial pieces of evidence in supporting the theory of evolution. However, the interpretation of fossil evidence can sometimes be open to debate or revision based on new discoveries or scientific understanding. Overall, the accumulation of diverse fossil evidence provides strong support for the concept of evolution and the relatedness of different species.
Yes, fossil evidence such as similar plant and animal species found on separate continents has been used to support the continental drift hypothesis. The distribution of fossils across continents suggests that these land masses were once connected and later moved apart.
One form of evidence used to support a theory can be experimental data that demonstrates a consistent relationship between variables. For instance, in the theory of evolution, the fossil record provides evidence of gradual changes in species over time, showing transitional forms that link different groups. Additionally, genetic analysis reveals similarities in DNA sequences across related species, reinforcing the idea of common ancestry. Such evidence collectively strengthens the validity of the theory.
Yes, fossil evidence supports the theory of continental drift. Fossils of similar plants and animals have been found on continents that are now separated by oceans, suggesting they were once connected. This provides evidence that continents have indeed moved over time.
Through fossil and genetic evidence. Genetic evidence can be used to construct trees of relatedness; fossil evidence can be used to give us an idea of what remote ancestors looked like and when they lived.
Genetic findings need corresponding fossil evidence to be true.
Yes, evidence supporting the common ancestry between two different species includes similarities in genetic sequences, anatomical structures, and developmental patterns. Additionally, the fossil record often reveals transitional forms that link different species together. Overall, these lines of evidence strongly support the theory of evolution and common ancestry among living organisms.
yes
Fossil evidence, such as transitional forms showing intermediate characteristics between species, and genetic evidence, like similarities in DNA sequences among related species, both support the occurrence of evolution.
hard core
The discontinuities in the fossil record that seemed to show that some species or taxons were in a state of non-evolution and then seemed to go through a burst of rapid evolutionary change. This is really only seen in the fossil record and does not have a lot of support in disciplines such as molecular genetic, which genetic divergence back through time in today's genomes.
The three forms of evidence supporting evolution are fossil record showing transitional forms, comparative anatomy highlighting similarities in structures across species, and genetic similarities indicating common ancestry.
The four pieces of evidence that support the theory of evolution are the fossil record showing transitional forms, homologous structures in different species indicating a common ancestor, genetic similarities between different species, and observable examples of natural selection in action.
Dinosaur bones, plant fossil, sealife fossil the evidence proves that there were animals long ago, and can support evolution
Personal beliefs and opinions are not a kind of evidence used to support evolutionary theory. Scientific evidence such as fossil records, DNA analysis, and observational data are the main sources of evidence.
Fossil records, anatomical similarities, embryological development, and genetic similarities are all forms of evidence that support the theory of evolution. These pieces of evidence show the gradual changes in species over time and provide support for the idea that all organisms are related through common ancestry.