they search along side hills because that is where the most fossils can be found. when the animals migrated across the land many weren't able to make it all the way up the hill so the ended up falling get stuck in the mud and dying. also they could have gotten stuck in a mud slide or sink hole.
i hpoe this answers your question!
The way fossils are formed in very dry places is called mummification. Amber is a hardened tree sap, yellow to brown in color, and often a source of insect fossils.
Because the animal gets trapped and will stay floating or sink and over time the flesh will decay and so the tar will sink in to the bones.The scientists will dig it up because the tar would be hard by now.
Body fossils and trace fossils are the principal types of evidence about ancient life, and geochemical evidence has helped to decipher the evolution of life before there were organisms large enough to leave fossils. Estimating the dates of these remains is essential but difficult: sometimes adjacent rock layers allow radiometric dating, which provides absolute dates that are accurate to within 0.5%, but more often paleontologists have to rely on relative dating by solving the "jigsaw puzzles" of biostratigraphy.Classifying ancient organisms is also difficult, as many do not fit well into the Linnean taxonomy that is commonly used for classifying living organisms, and paleontologists more often use cladistics to draw up evolutionary "family trees". The final quarter of the 20th century saw the development of molecular phylogenetics, which investigates how closely organisms are related by measuring how similar the DNA is in their genomes. Molecular phylogenetics has also been used to estimate the dates when species diverged, but there is controversy about the reliability of the molecular clock on which such estimates depend.
Radiometric dating comes from the fossils themselves very rarely. Most of the time the dating method interprets the strata surrounding the fossil.
They are leaves stems roots and seeds I checked its in my book(:
Paleontologists are looking for fossils in sedimentary rock.
they study first the soil composition of the ground check for valuable minerals and geographic chemicals which will be analyzed if the soil has a huge possibility to have an bones and fossils. this process may be skipped if a local community did find some bones there. the next step would be carefully digging the bones in there.
Fossils usually provide paleontologists with information about an organism's age, structure, and behavior, but they do not typically provide direct insights into an organism's color. While some fossilized impressions may suggest color through mineralization or other means, the original pigments often degrade over time, leaving paleontologists without definitive evidence of the organism's coloration.
This all depends; Paleontologists are usually in an office, or, they are out doing field work. If they are in an office this could also mean in a classroom, seeing a lot of paleontologists work as university professors.
They aren't fragile but they are brittle. Fossils are mineral crystalisations of decayed organic matter. Basically they are rocks.
Although paleontologists must know alot about biology, fossils are not alive and are often made of rock. So, understanding rocks are more useful
paleontologists wear all sorts of things that often concur with what kind of penis you have
Index fossils are original fossil remains, just a specific subcategory of them. Index fossils are used by paleontologists to identify a particular period of time and often a subperiod of time - the specific fossil is chosen as an index fossil because it is very specific to a time period and allows the other fossils and remains around them to be identified to the same time period.
Fossils can be found in various places in Europe, including sedimentary rock formations, quarries, cliffs, caves, and coastal areas. Some well-known fossil sites in Europe include the Jurassic Coast in England, the Solnhofen Limestone in Germany, and the Monte San Giorgio in Switzerland. Paleontologists and fossil enthusiasts often search for fossils in these locations.
The branch of earth science that deals with the study of plants, animals, and fossils is called paleontology. Paleontologists investigate the history of life on Earth through the examination of fossils, which provide insights into ancient ecosystems and the evolution of species. This field often overlaps with geology and biology, contributing to our understanding of past climates and environments.
Archaeologists and paleontologists in Alberta discovered dinosaur fossils primarily through systematic fieldwork, where they surveyed sedimentary rock formations known for preserving fossils. The region's rich geological history, particularly the Late Cretaceous period, exposed numerous fossil sites through natural erosion and construction activities. Additionally, local residents and amateur fossil hunters often contributed by reporting findings, which led to significant discoveries. Excavations in areas like the Dinosaur Provincial Park have yielded some of the most important dinosaur fossils in North America.
There are about 2000 accredited colleges in the United States. Many of these are small private religious schools, or liberal arts schools, and do not have paleontology departments. My guess is fewer than half these schools would have professors of paleontology, while only a handful would have more than one on their faculty. In addition, some museums have their own paleontologists, though museums often enjoy the cooperation of academics. Although paleontology is popular, it is largely a hobby. There are a few commercial paleontologists, mining mostly marine fossils for a retail sales market. Vertebrate fossils are protected in many states now. In conclusion, my guess is there are probably about a thousand professional paleontologists in the United States, and perhaps several times that number throughout the rest of the world.