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Fossils are used to show changes because they are permanent. These fossils are also old and show evolutionary changes in species alive today.
Assuming the layers aren't deformed, the lowest deposition layers are the earliest. Later deposition layers accumulate on top of the earlier layers. Thus, the lowest layers have the earliest fossils, and the highest layers have newer fossils. By comparing the features of early and late fossils of a species, you can determine some of its evolutionary changes. Of course, not all features survive in a fossil - soft tissues, for example.
They show similarities between organisms structure. if the similarities are large then it shows that those organisms share a common ancestor.
Fossils show that there have been many plants and animals that no longer exist.
Scientists use a variety of evidence to determine when they think speciation occurred. This includes analyzing fossils, studying genetic similarities and differences between different species, and observing patterns of geographic distribution and reproductive isolation. Additionally, scientists may also use techniques such as radiometric dating to estimate the age of fossils and the timing of speciation events.
Fossils are used to show changes because they are permanent. These fossils are also old and show evolutionary changes in species alive today.
Fossils show scientists how the animals and plants of the past looked and gives them an idea of how they might have interacted.
In simplest terms, fossils show what living things were like long ago.
yes it can if u have other characteristics that have not been inherited then yes it can be used for evolutionary relationship so you are able to show them all
it gives information about the past which to scientists is important to know
Fossils provide valuable evidence of how organisms have evolved over time. By studying the structure, shape, and characteristics of fossils, scientists can observe unique features that have changed or stayed the same. Fossils also help in understanding the transition from one species to another and provide a record of extinct species, giving insights into the diversity of past ecosystems and the evolutionary journey of life on Earth.
Assuming the layers aren't deformed, the lowest deposition layers are the earliest. Later deposition layers accumulate on top of the earlier layers. Thus, the lowest layers have the earliest fossils, and the highest layers have newer fossils. By comparing the features of early and late fossils of a species, you can determine some of its evolutionary changes. Of course, not all features survive in a fossil - soft tissues, for example.
Fossils help scientists by leaving a record for scientists to use. Fossils can help show a scientist which type of animal was living in an area during a certain time. This gives scientists a better idea of what that area was like hundreds of millions of years ago all the way through today.
homology is the equality between two sequences that show the same evolutionary pattern and similarity is the likeness between two sequences that may not follow an identical evolutionary relationship.
Fossils are remains of ancient beings that has been preserved in rock for billions of years. Within many layers of rock are these fossils. The deeper the fossil, the older it is. By looking at the remains of different beings from different time period, we can track similarities in different remains to see how a specimen has evolved over the years to suit its environment better. Such goes their relationship between fossils and evolution. Through this process, scientist have actually found that we have a common ancestors with monkeys and therefore we didn't actually didn't come from apes in case you wanted an example :)
Sedimentary rock are made of materials that could show what lived where. Also they are the only rock to hold fossils.
They show similarities between organisms structure. if the similarities are large then it shows that those organisms share a common ancestor.