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What are the differences between the morphological species concept biological species concept and phylogenetic species concept?
The morphological species concept differentiates species by their physical traits, basically. The biological species concept defines a species as generally organisms that breed with others of the same species; rather a genetic isolation concept. The phylogenetic concept is based on evolutionary relationships and is the concept used by cladists.
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In regards to taxonomic classification of bacteria what is the relationship between physiological and genetic differentiation of bacteria?
You're lame typing the answer as exactly as it is on the lab manual......I.V. Genetic differences between bacteria causes specific physiological differences among the bacteria, such as certain morphological characteristics as well as what compounds the bacteria can ferment and produce as by-products in this process.
What do scientists most likely consider as important evidence when classifying an unknown organism?
Scientists most likely consider KNOWN characteristics of KNOWN and named organisms when first classifying an unknown organism. They look for similarities and differences between what is known versus unknown. Major differences exclude known categories; strong similarities include the new organism into a known category. This is how scientists continually build a "family tree" of every organism.
What are the differences between an airtrain and a vene?
what are the differences between and airtrain and a vene ?? what are the differences between and airtrain and a vene ??
What is the difference between the fruit of mango and almond?
The mango belongs to the biological family Anacardiaceae, but the almond belongs to the biological family Rosaceae.
What is the differences between science and Reality?
nothing
What is the usefulness for phylogenetic trees?
The phylogenetic tree is used for the study of evolutionary Biology. The phylogenetic tree is a symbolic diagram that is meant to represent the similarity and differences of different species for comparison with common evolutionary relatives.
How is the length of a phylogenetic tree determined?
The length of a phylogenetic tree is determined by the amount of genetic differences or changes that have occurred over time between different species or groups of organisms. These differences are typically measured using molecular data, such as DNA sequences, and are used to calculate the evolutionary distance between species on the tree. The longer the branches on the tree, the greater the genetic differences between the species.
Explain the difference between the morphological and biological concepts of species?
The morphological concept of species defines species based on physical characteristics, such as appearance and structure. In contrast, the biological concept of species defines species based on reproductive isolation - individuals that can interbreed and produce viable offspring are considered to be of the same species.
What term do scholars use to refer to biological differences between man and woman?
Scholars use the term "sexual dimorphism" to refer to biological differences between men and women. This term encompasses differences in physical characteristics such as body structure, reproductive anatomy, and hormonal profiles.
The evolutionary history of a species can be displayed in a?
phylogenetic tree, which shows the relationship and divergence of different species from a common ancestor over time. Branches on the tree represent genetic or morphological changes, and the length of the branches can indicate the amount of evolutionary change that has occurred. Phylogenetic trees help researchers understand the evolutionary relationships between different species and how they have evolved over time.
The name of the diagram sciantist use to show if organisms are related?
Scientists use phylogenetic trees to show the evolutionary relationships between different organisms. These diagrams illustrate the evolutionary history and relatedness of species based on molecular or morphological characteristics.
How can DNA sequences be utilized in creating phylogenetic trees?
DNA sequences can be used to create phylogenetic trees by comparing the similarities and differences in the genetic code of different organisms. By analyzing these sequences, scientists can determine the evolutionary relationships between species and construct a visual representation of their evolutionary history.
Which concept refers to the biological distinction between males and females?
The concept that refers to the biological distinction between males and females is called "sex." This is determined by chromosomal, hormonal, and anatomical differences.
What is the difference between morphological divergence and homologous structure?
Morphological divergence refers to how different species evolve distinct physical characteristics over time. Homologous structures are similar traits found in different species due to a common ancestor. In essence, morphological divergence can lead to differences in body structures, while homologous structures show similarities in body parts across species.
What is Goldberg's thesis?
Goldberg's thesis is that biological differences between men and women underpin societal gender roles and differences in behavior. He argues that these differences are rooted in evolutionary biology and are responsible for various disparities between the sexes.
. Explain how nucleic acid base sequences are used in phylogenetic classification?
Nucleic acid base sequences are used in phylogenetic classification to determine the evolutionary relationships between different species. By comparing the base sequences of organisms, researchers can identify similarities and differences, which can indicate how closely related species are to each other. This information is then used to construct phylogenetic trees that show the evolutionary history and relatedness of different species.
Why are enantiomers of biological interest?
Mainly because enantiomers have identical physical and chemical properties. However, the difference between two enantiomers can have tremendous impact, especially in biological systems, because many important biological molecules are chiral.
