Amber, Permafrost, and Tar.
There are so many well preserved fossils because there are so many fossils, some will be well preserved. In certain locations at certain times the conditions will be right for preserving living tissues.
skin tissues, mussle tissues, organ tissues and bone tissues.
Anything a scientist can get their hands on to test are of interest and value to the scientist as well as the human race which gains information. The operative word 'trace' means that DNA can be extracted from this fossil, most fossils are long dried up and the elements have been absorbed back into the environment, and just an impression is left. With trace fossils there is some sort of tissues left. ya your right
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An organism whose tissues are completely replaced by minerals is a fossil.
Soft tissues such as skin, fur, feathers, and organs are less likely to become fossils compared to hard parts like bones, teeth, shells, and exoskeletons. Rapid burial in sediment or other materials can better preserve soft parts, but this is less common than the preservation of hard parts.
Asphalt fossils are prehistoric organisms that have been preserved in asphalt or tar deposits. These fossils can provide valuable information about ancient ecosystems and species. The natural properties of asphalt can create unique conditions for preservation, including exceptional detail of soft tissues.
Amber fossils are preserved in hardened tree resin, while regular fossils are preserved in rocks. Both types of fossils capture the remains of ancient organisms, providing important insights into the past. Amber fossils often preserve delicate details and even soft tissues due to the protective properties of the resin, making them particularly valuable for scientific study.
Because soft tissues, organs, skin and muscle doesn't turn into fossils.
because the fossilization process rarely preserves soft tissues and the fossils that do are very rare.
The term for implanting radioactive materials into tissues for treatment is called brachytherapy.
Cuticle Stomata is an advantage to land plants because it keeps water inside the plant from evaporating. Vascular tissues are an advantage because they transport water, food, and other materials throught the plant. They also preserve water.
Materials that are unlikely to fossilize include soft tissues like muscles and organs, as they decay quickly. Similarly, materials that easily decompose, such as feathers and hairs, are less likely to become fossils. Substances that dissolve easily in water, like salts and some minerals, are also less likely to fossilize.
Gymnosperms transport materials through vascular tissues.
Because water, minerals and prepared food materials are conducted (transported) through these tissues.
Ones with hard bony parts, soft tissues do not from fossils.
Fossils can only form when the remains of a plant or animal are buried in sediment quickly after death. The organic tissues are gradually replaced by minerals from the surrounding environment, creating a fossilized replica of the original organism. The process of fossilization usually requires specific conditions such as lack of oxygen, minimal disturbance, and the presence of water and minerals.