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Do Linnaeus Used Similarities in Structure to Determine Relationships Among Organisms?
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∙ 10y ago
yes
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∙ 10y ago
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Linnaeus Used Similarities in Structure to Determine Relationships Among Organisms ture or false?
True
What evidence do scientists use to make phylogenetic trees?
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.
What are the aims of biological classification?
1. to know the evolutionary relationship of living organisms.2. to describe all species conveniently.The scientific grouping of organisms has some specific advantages. It makes the study of living organisms convenient.It helps in the specific identification of any given organism.The study of a few representatives from each distinct group helps us to integrate the idea of life as a whole.It reveals the relationships among various groups of organisms.It provides information about plants and animals, which occur in specific geographical regions.It indicates the evolutionary relationship by establishing the gradually increasing complexity of form and structure in different groups of organisms.
Study of organisms structure?
Anatomy is the study of the structure of organisms, and physiology is the study of their function.
What are organisms having the simplest cell structure?
Amoeba, protozoans have the simplest cell structure as thery are predominantly unicellular organisms
Linnaeus Used Similarities in Structure to Determine Relationships Among Organisms ture or false?
True
What similarities and differences could you look at when you classify organisms?
Organisms are classified by their: * physical structure (how they look) * evolutionary relationships * embryonic similarities (embryos) * genetic similarities (DNA) * biochemical similarities
The number and structure of what can help to determine evolutionary relationships between 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.
Why the homologous structures are evidence of evolutionary relationship?
They show similarities between organisms structure. if the similarities are large then it shows that those organisms share a common ancestor.
What indicates how species are related by evolution?
Usually the bone structure of the compared organisms will hint at evolutionary relation. For example, the fin bones of a whale are similar to the bones in a human hand.
The number and structure of can help to determine evolutionary relationships between species?
chromosommes
Is a type of evidence used by scientists to determine evolutionary relationships?
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.
All the complex feeding relationships among a number of different organisms make up the?
tropic structure
The earliest classification systems grouped organisms based on?
The earliest classification systems grouped organisms based on observable physical features, such as morphology and anatomy. This system organized living things into categories based on similarities in structure and behavior.
Morphology is the study of the?
structure of words.
What criteria are used to place organisms into the different taxa?
Organisms are placed into different taxa based on their shared characteristics, such as physical appearance, genetic makeup, and evolutionary history. Taxonomists consider traits like body structure, behavior, and biochemical processes to determine the relationships between different species and assign them to the appropriate taxonomic groups.
The classification of species by morphology involves what?
The classification of species by morphology involves examining physical characteristics such as size, shape, color, and structure to group organisms into categories based on similarities and differences. These traits can provide clues about an organism's evolutionary history and ecological relationships with other species.
