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The classification of higher organisms utilizes PHYLOGENETIC approaches to determine relatedness or phylogeny.
Kingdom was traditionally the highest level of classification for organisms until recently, when the concept of domains was introduced. There are five kingdoms: Animalia, Plantae, Protista, Fungi and Monera.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.
PHYLOGENY
Binomial nomenclature and phylogeny both have to do with organisms. The former refers to the modern scientist's system for naming organisms. The latter is about how an organism evolved over time.
phylogeny.
Phylogeny is discovered using molecular sequencing data and morphological data matrices.
Phylogeny is the study of evolutionary relation among groups of organisms (e.g. species, populations), which is discovered through molecular sequencing data and morphological data matrices.
Phylogeny based on molecular analysis can sometimes differ from the original phylogeny based on anatomical similarities because molecular analysis looks at genetic similarities, which may not always align with physical traits. Molecular analysis can provide a more accurate depiction of evolutionary relationships among organisms, as it is less affected by convergent evolution or other factors that can cloud anatomical comparisons.
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.
Rui Diogo has written: 'Morphological Evolution, Aptations, Homoplasies, Constraints, And Evolutionary Trends' -- subject(s): Catfishes, Macroevolution, Phylogeny 'Comparative anatomy and phylogeny of primate muscles and human evolution' -- subject(s): Anatomy, Evolution, Muscles, Phylogeny, Human evolution, Primates, Comparative Anatomy
The evolution of a organism depends on what type of organism it is
The classification of higher organisms utilizes PHYLOGENETIC approaches to determine relatedness or phylogeny.
Scientists, or biologists in this case, use several methods to determine an organisms phylogeny. They examine many of the characteristics and traits in order to put them in their groups. This examination to classify organisms is called taxonomy. Please see following links for more details, as this is a very large topic.
cladistics is based on the shared characteristics between organisms and their network of evolutionary relationships
Taxonomy is the classification of organisms into categories based on shared characteristics, while phylogeny is the evolutionary history and relationships among organisms. Both taxonomy and phylogeny aim to organize and understand the diversity of life by grouping organisms based on their relatedness and evolutionary connections. They both help in studying the evolutionary relationships and history of species.
Phylogeny
Kingdom was traditionally the highest level of classification for organisms until recently, when the concept of domains was introduced. There are five kingdoms: Animalia, Plantae, Protista, Fungi and Monera.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.