it means the species shared a common ancestor in the recent past
a natural system of classification is that system of classification in which the organism is classified on the basis of their vegitative characters which are permanent and do not change with the envoirment this system of classification avoids the grouping of hetereogeneous and un related groups of organisms according to this sytem plants are classified on the basis of evolutionary trends while as animals are classified on basis of both evolutionary and phylogenetic trends........junaid
Phylogenetic classification is based on the evolutionary history of organisms, grouping them together based on their shared ancestry and genetic relationships. This type of classification aims to reflect the relatedness and evolutionary connections between different species.
Linnaeus classification is based on physical and observable characteristics of organisms, categorizing them into hierarchical groups like kingdoms and species. Phylogenetic classification, on the other hand, is based on evolutionary relationships and genetic similarities among organisms, organizing them into groups that reflect their evolutionary history. Phylogenetic classification provides a more accurate depiction of the evolutionary relatedness between different species compared to Linnaeus classification.
Plants are classified under the kingdom Plantae. They are further divided into divisions (or phyla), classes, orders, families, genera, and species based on their characteristics and evolutionary relationships. This system of classification helps scientists understand the diversity and relationships among different plant species.
If two different species belong to the same class, they will also share the same phylum and kingdom in their classification. These levels indicate a closer evolutionary relationship between the two species compared to others in the same kingdom.
a natural system of classification is that system of classification in which the organism is classified on the basis of their vegitative characters which are permanent and do not change with the envoirment this system of classification avoids the grouping of hetereogeneous and un related groups of organisms according to this sytem plants are classified on the basis of evolutionary trends while as animals are classified on basis of both evolutionary and phylogenetic trends........junaid
Phylogenetic classification is based on the evolutionary history of organisms, grouping them together based on their shared ancestry and genetic relationships. This type of classification aims to reflect the relatedness and evolutionary connections between different species.
Linnaeus classification is based on physical and observable characteristics of organisms, categorizing them into hierarchical groups like kingdoms and species. Phylogenetic classification, on the other hand, is based on evolutionary relationships and genetic similarities among organisms, organizing them into groups that reflect their evolutionary history. Phylogenetic classification provides a more accurate depiction of the evolutionary relatedness between different species compared to Linnaeus classification.
Modern classification is based on evolutionary relationships between organisms while traditional classification is not.
Evolution and classification are related because classification systems are used to organize and categorize organisms based on their shared evolutionary history and similarities. Evolutionary relationships help scientists determine how organisms are related and classify them into groups that share common ancestry, reflecting the idea that organisms have evolved over time from common ancestors.
A branch on a phylogenetic tree indicates the evolutionary relationship between different species. The length of the branch represents the amount of evolutionary change that has occurred between the species, with shorter branches indicating a closer relationship and longer branches indicating a more distant relationship.
The most accurate evidence of an evolutionary relationship between two organisms is the presence of shared genetic similarities, specifically in their DNA sequences. This indicates a common ancestry and evolutionary history between the two organisms.
they both are organisms
They both explain History
Plants are classified under the kingdom Plantae. They are further divided into divisions (or phyla), classes, orders, families, genera, and species based on their characteristics and evolutionary relationships. This system of classification helps scientists understand the diversity and relationships among different plant species.
Classification is the organization of organisms into groups based on shared characteristics, while evolution is the process by which organisms change over time. Classification reflects the relatedness of organisms based on their evolutionary history, with closely related organisms grouped together. Evolutionary relationships between organisms can provide insights into their classification and help refine the existing classification system.
If two organisms share the same classification level, it means they are more closely related in terms of evolutionary history. They likely have more recent common ancestors and share more similar characteristics compared to organisms that are classified in different levels. This classification system helps scientists understand the relationships between different organisms.