It shows the " progression " of organisms from simple to more complex ( generally ) and shows relationship between species that lived long ago and today's species. It shows the change over time, albeit a bit gappy, that organism have gone through; evolution.
There is strong support for the theory of evolution due to fossils that have been found by archeologists. The fossil records show evidence of evolution over billions of years.
fossil evidence is when scientist study fossils to figure out how the animal died how it evoled
Fossils can be used as evidence for evolution because they can show the development of a species over a long period of time.
There is plenty of fossil records and observable speciation to provide evidence for Evolution. Within the scientific community there is little to no debate on whether evolution is wrong. No concrete evidence has been provided by anyone to dispute the claims of evolution since its formulation by Darwin, otherwise it would have been discarded through the scientific method.--------------------------------------------------------------------------------------------While the above is right, observation and scientific studies provide evidence and arguments to the theory.
Actually, it is the strongest evidence for evolution. Without one fossil we would know from the DNA evidence that evolution has occurred and is occurring. It is in the DNA of organisms that we see the strongest evidence for common ancestry. The products of those genes are sometimes highly conserved down the ages. Ribosomes, the workbenches on which proteins are made, differ hardly at at between you and pets.
how does the fossil record provide evidence for evolution?!
There is strong support for the theory of evolution due to fossils that have been found by archeologists. The fossil records show evidence of evolution over billions of years.
fossil evidence is when scientist study fossils to figure out how the animal died how it evoled
Evidence for evolution includes fossil records showing transitional forms between species, genetic similarities between different species, and observations of natural selection leading to changes in populations over time. Additionally, comparative anatomy and embryology provide further support for the theory of evolution.
The study of comparative anatomy and embryology can provide evidence of evolution by showing similarities in structures across different species, suggesting a common ancestry. Fossil records and molecular genetics can also provide evidence by tracing the evolution of species over time and showing genetic relatedness between different organisms.
The primary evidence supporting evolution comes from a combination of fossil records, comparative anatomy, embryology, molecular biology, and observed genetic changes over time. These pieces of evidence collectively provide a strong foundation for the theory of evolution.
Fossil records, comparative anatomy, molecular biology, and observed natural selection in various species all provide evidence supporting the theory of evolution. Additionally, geographical distribution of species and the occurrence of vestigial structures in organisms offer further insights into evolutionary processes.
There are thousands of instances of direct evidence of evolution. The most well-known example is that of Darwin's Finches. These finches were observed through fossil records to have changed over time to adapt to their environment.
The lines of evidence that support the theory of evolution include fossil records, comparative anatomy, molecular biology, and biogeography. Fossil records show a progression of life forms over time, while comparative anatomy reveals similarities in structures among different species. Molecular biology demonstrates common genetic sequences among organisms, and biogeography examines the distribution of species around the world, all of which provide evidence for the common ancestry and gradual change of species over time outlined in the theory of evolution.
Fossil records provide physical evidence of organisms that lived in the past, showing a progression of life forms over time. By studying fossils, scientists can observe how species have evolved and changed over millions of years, providing crucial evidence for the process of evolution. The patterns seen in the fossil record support the idea that life on Earth has evolved from simpler to more complex forms.
A discovery that shows species appearing suddenly in the fossil record without any preceding ancestors would provide evidence against the theory of evolution. This would contradict the gradual changes in species predicted by evolution.
Indirect evidence in evolution refers to evidence that supports a particular evolutionary hypothesis through inference rather than direct observation. This can include fossil records, comparative anatomy, embryology, and molecular biology studies that provide clues about the relationships between different species and how they have evolved over time. This type of evidence helps scientists piece together the history and patterns of evolution.