Information about Primitive (biology)
Primitive is a descriptive term often used in the field of evolution to describe particular species or traits that are older on the evolutionary scale of development, often relative to more recent developments. For example, prokaryotes such as bacteria are often described as primitive because they are older in the evolutionary time scale, and are less complex than later organisms such as eukaryotes.
This term has fallen out of favor with some evolutionary biologists, since it implies that the evolutionary scale is a "ladder" in which each new addition is superior than organisms in the lower rungs. The argument against this limited interpretation is that far more recent or complex organisms are not always superior to older, simpler organisms. For example, archaea, forms of prokaryotic organisms, are able to survive efficiently in a much broader range of extreme environments than can "advanced" humans. It is for this reason that many biologists prefer the dichotomy of simple vs. complex, where the evolutionary complexity of organismal functions determines the relationship between "sets," rather than "levels," of the evolutionary process.
In modern biology, phylogeny, the study of evolutionary relationships, takes the form of extending branches. Instead of having the evolutionary system as a division between higher (superior) and lower (inferior) organisms, each branch extends outwards to represent temporal and developmental distance. The preferred term for cladists is basal; its antonym is derived.
This term has fallen out of favor with some evolutionary biologists, since it implies that the evolutionary scale is a "ladder" in which each new addition is superior than organisms in the lower rungs. The argument against this limited interpretation is that far more recent or complex organisms are not always superior to older, simpler organisms. For example, archaea, forms of prokaryotic organisms, are able to survive efficiently in a much broader range of extreme environments than can "advanced" humans. It is for this reason that many biologists prefer the dichotomy of simple vs. complex, where the evolutionary complexity of organismal functions determines the relationship between "sets," rather than "levels," of the evolutionary process.
In modern biology, phylogeny, the study of evolutionary relationships, takes the form of extending branches. Instead of having the evolutionary system as a division between higher (superior) and lower (inferior) organisms, each branch extends outwards to represent temporal and developmental distance. The preferred term for cladists is basal; its antonym is derived.
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species is one of the basic units of biological classification. A species is often defined as a group of organisms capable of interbreeding and producing fertile offspring.
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character is an attribute of an organism that allows it to be compared with another. In genetics this refers to heritable features which can exist in more than one state.[1] A trait
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Prokaryotes (IPA: /prəʊˈkæriəʊtiz/) are a group of organisms that lack a cell nucleus (= karyon), or any other membrane-bound organelles.
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Bacteria
Phyla
Actinobacteria
Aquificae
Chlamydiae
Bacteroidetes/Chlorobi
Chloroflexi
Chrysiogenetes
Cyanobacteria
Deferribacteres
Deinococcus-Thermus
Dictyoglomi
Fibrobacteres/Acidobacteria
Firmicutes
Fusobacteria
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Phyla
Actinobacteria
Aquificae
Chlamydiae
Bacteroidetes/Chlorobi
Chloroflexi
Chrysiogenetes
Cyanobacteria
Deferribacteres
Deinococcus-Thermus
Dictyoglomi
Fibrobacteres/Acidobacteria
Firmicutes
Fusobacteria
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Plantae Chromalveolata Heterokontophyta Haptophyta Cryptophyta Alveolata
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Evolutionary biology is a sub-field of biology concerned with the origin and descent of species, as well as their change, multiplication, and diversity over time.
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Archaea
Woese, Kandler & Wheelis, 1990
Phyla
Crenarchaeota
Euryarchaeota
Korarchaeota
Nanoarchaeota
ARMAN
The Archaea (
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Woese, Kandler & Wheelis, 1990
Phyla
Crenarchaeota
Euryarchaeota
Korarchaeota
Nanoarchaeota
ARMAN
The Archaea (
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Prokaryotes (IPA: /prəʊˈkæriəʊtiz/) are a group of organisms that lack a cell nucleus (= karyon), or any other membrane-bound organelles.
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phylogenetics (Greek: phyle = tribe, race and genetikos = relative to birth, from genesis = birth) is the study of evolutionary relatedness among various groups of organisms (e.g., species, populations).
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Cladistics is a philosophy of classification that arranges organisms only by their order of branching in an evolutionary tree and not by their morphological similarity, in the words of Luria et al. (1981).
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In phylogenetics, basal members of a group diverged earlier than a subgroup of others (or vice versa). It is often used in opposition to the word derived. The following are example usages of the term basal:....
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Antonyms, from the Greek anti ("opposite") and onoma ("name") are word pairs that are opposite in meaning, such as hot and cold, obese and skinny, and up and down.
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In phylogenetics, derived members of a group diverged after another member (or subgroup of members) had already diverged. The earlier members are termed basal. Neither word means anything on its own, and each can only be interpreted in the context of other members of the
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Herod_Archelaus
