Genetic features, morphological features and behavioural features.
Fossil record
Phylogenetic trees represent hypotheses about the evolutionary relationships among a group of organisms. A phylogenetic tree may be built using morphological (body shape), biochemical, behavioral, or molecular features of species or other groups.
Teeth and Skull Size
Taxonomy is the science of naming and classifying organisms. It is done by looking at shared characteristics, such as morphological characters, against the background of biological diversity. It also takes phylogenetic relationships and DNA evidence into account.A phylogeny is the evolutionary history of a species or group of species. They separate organisms by evolutionary relationships (clades), based on comparative cytology and the comparison of DNA, morphological characters, and shared ancestral and derived characters.
Scientists leverage genetic evidence, like DNA sequences, to classify organisms based on evolutionary relationships. By comparing genetic similarities and differences, they decipher ancestral connections, constructing phylogenetic trees that depict species divergence and common ancestry. This method, termed molecular systematics, revolutionizes taxonomy by revealing hidden relationships, redefining classifications, and aiding conservation efforts. Curious to explore more? Join our free course on Molecular Systematics, unravel the secrets of genetic classification, and understand its pivotal role in shaping our understanding of life's diversity. Enroll now to delve into the fascinating world of genetic evidence in organism classification! click here >> sites. google. com/view/freecourse2024/home (Make sure you remove the space from the link)
The evidence do scientist use to determine evolutionary relationships by scientist have combined the evidence from DNA, protein structure, fossils, early development, and body structure to determine the evolutionary relationship amoung species.
Fossil record
Scientists want to determine the evolutionary relationships among different species.
The number and structure of chromosomes help determine evolutionary relationships between species. Chromosome comparison helps to provide evidence of the relationships in a species.
Phylogenetic trees represent hypotheses about the evolutionary relationships among a group of organisms. A phylogenetic tree may be built using morphological (body shape), biochemical, behavioral, or molecular features of species or other groups.
Biochemical analysis uses similarities in DNA, amino acid sequences, as evidence for evolutionary relationships
Homologous structures are the remnants of structures long ago that have evolved into other things now. This is why they are evidence of evolutionary relationships.
What can lead scientists to change an evolutionary tree?
DNA sequences .
I dunnooo :S
they started fu kkin other women a little less
a. seismic waves b. volcanoes c. earthquakes d. rocks