Fossils tell you about what plants and animals lived under what conditions. If tree rings are small, that tells you the times were dry or cold. If they are big, that tells you they were wet. If you find one type of animal's bones when the tree rings were one way and one when they were another way, that tells you about the fauna. To learn the most about the environment you must actually dig and find them in the site. You must also take pictures while you dig and keep careful records.
Modern animals may be related to fossilized organisms.
Fossils found, such as Wolly Mammoths,differ in many ways. Wolly mammoths are the ancestors to the elephants we have living today. The difference? Wolly mammoths are much longer and differ in size. For example, if you had a mammoth and an elephant stand on their hind legs, the mammoth would be taller.
Biogeography is the study of the distribution of species (biology) spatially (geography) and temporally (history). Biogeography aims to reveal where organisms live, at what abundance, and why they are or are no) found in a certain geographical area. Biogeography does not support the theory of evolution any more then when (history) you (biology) moved into your house (geography).
C) Many traits of modern birds resemble the fossils of winged dinosaurs C) Many traits of modern birds resemble the fossils of winged dinosaurs
Asking why there are more animal fossils presupposes that there are more animal fossils than plant fossils. This is not the necessarily case. Plant fossils are actually much more common than animal fossils. If you consider the distribution of biomass in modern ecosystems, it is clear that plants are the dominant kingdom (e.g if you walk into a rainforest, you see hundreds of trees, but few large animals). This distribution is a necessity for any functioning ecosystem because the plants are primary producers (other species need them for survival).Lignite, a low grade coal, is composed entirely of semi-compacted plant fossils. It is so common that it is often burned for use as fuel.This being said, plants also decay faster than animals given the same initial conditions (they do not typically have hard parts like bones), so the percentage of plants that are fossilized should be less than the percentage of macroscopic animals. Since plants so greatly outnumber animals, however, this does not make fossil animals more common.Addendum:It matters too whether one is discussing microfossils or fossils large enough to see or whole fossils or merely a fossilized leaf. See related questions.Plants have softer bodys parts than animals
Modern plants and animals resemble fossils found in the same area.
Artifacts and fossils teach us about the past by giving us a perspective about ancient cultures. Scientists studying artifacts and fossils do so to give the world a better understanding of cultures. The more artifacts and fossils discovered, the more lost puzzle pieces are found
All modern day organisms have an ancestor in the Jurassic.Identifying which fossil animals are the direct ancestors of any modern day animal is impossible since fossils don't preserve DNA.However comparing the bones of fossil animals and those of modern day animals, family trees can be hypothesised.With modern day animals their DNA can be compared to produce much more accurate results.
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Modern animals may be related to fossilized organisms.
Creating a timeline of Earth's history using fossils found in different layers of sedimentary rock. Investigating the effects of different preservation methods on fossils, such as casting and molding. Comparing the anatomy of modern animals with their prehistoric ancestors using fossil evidence. Studying the impact of climate change on fossil formation and preservation. Analyzing the diets of ancient organisms by examining fossilized stomach contents. Experimenting with fossil preparation techniques, such as acid preparation or air scribing. Investigating the process of fossilization by simulating it in a controlled environment. Exploring the concept of taphonomy by studying how fossils are buried and preserved over time. Conducting a field study to search for and identify fossils in a local area. Creating a museum exhibit showcasing a collection of fossils and their significance in understanding Earth's history.
Hominids
Fossils of birds similar to modern species offer insights into past climates by indicating the types of environments in which they thrived. For instance, the presence of certain bird fossils in specific geological layers can suggest whether an area was once tropical, temperate, or arid based on the ecological preferences of those birds. Additionally, these fossils can reveal information about the flora and fauna of the time, further informing scientists about the climate conditions that supported those ecosystems. Thus, studying these bird fossils helps reconstruct ancient climates and understand how they have changed over time.
Fossils found, such as Wolly Mammoths,differ in many ways. Wolly mammoths are the ancestors to the elephants we have living today. The difference? Wolly mammoths are much longer and differ in size. For example, if you had a mammoth and an elephant stand on their hind legs, the mammoth would be taller.
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Biogeography is the study of the distribution of species (biology) spatially (geography) and temporally (history). Biogeography aims to reveal where organisms live, at what abundance, and why they are or are no) found in a certain geographical area. Biogeography does not support the theory of evolution any more then when (history) you (biology) moved into your house (geography).
French naturalist George Cuvier (1769-1832) was one of the first paleontologists, beginning around 1790. He compared the fossils of unknown animals with modern animals, and was one of the first proponents of the extinction theory (catastrophism). His taxonomy established similarities between earlier organisms and their modern counterparts.