Download presentation
Presentation is loading. Please wait.
Published byMaximilian Wiggins Modified over 8 years ago
1
Nomenclature & The Tree of Life
2
Systematics Biological systematics is the study of the diversification of living forms, both past and present, and the relationships among living things through time.
3
Why Classify? In binomial nomenclature, each species is assigned a two-part scientific name. The goal of systematics is to organize living things into groups that have biological meaning.
4
Why Binomial Nomenclature? By using a scientific name, biologists can be sure that they are discussing the same organism. Common names can be confusing because they vary among languages and from place to place. For example, the names cougar, puma, panther, and mountain lion can all be used to indicate the same animal— Felis concolor.
5
Binomial Nomenclature The first part of the name— Ursus—is the genus to which the organism belongs. A genus is a group of similar species. The genus Ursus contains five other species of bears, including Ursus arctos, the brown bear or grizzly bear.
6
Binomial Nomenclature The second part of a scientific name—maritimus for polar bears—is unique to each species and is often a description of the organism’s habitat or of an important trait. The Latin word maritimus refers to the sea: polar bears often live on pack ice that floats in the sea.
7
Linnaean Classification Carl Linnaeus developed a classification system that organized species into a hierarchy, or ranking: Kingdom, Phylum, Class, Order, Family, Genus, Species Latest guide for classification Latest guide for classification
8
Human Classification
9
Based on their names, you know that the baboons Papio annubis and Papio cynocephalus do NOT belong to the same A)class. B)family. C)genus. D)species.
10
A genus is composed of a number of similar A)kingdoms. B)phyla. C)orders. D)species.
11
Animals that are warm-blooded, have body hair, and produce milk for their young are grouped in the class A)Amphibia. B)Mammalia. C)Aves. D)Reptilia.
12
Kingdoms The six-kingdom system of classification includes the kingdoms Eubacteria, Archaebacteria, Protista, Fungi, Plantae, and Animalia
13
Three Domains A domain is a larger, more inclusive category than a kingdom. Under this classification there are three domains – Bacteria Archaea Eukarya
14
Three Domains
15
Tree of All Life
16
Domain Bacteria unicellular and prokaryotic. kingdom Eubacteria. Their cells have thick, rigid walls that surround a cell membrane and contain a substance known as peptidoglycan.
17
Domain Archaea unicellular and prokaryotic live in some extreme environments. Many can survive only in the absence of oxygen. Their cell walls lack peptidoglycan, and their cell membranes contain unusual lipids that are not found in any other organism.
18
Domain Eukarya all organisms that have a nucleus. kingdoms: Protista, Fungi, Plantae, and Animalia.
19
“Protists” – Unicellular Eukaryotes Recent molecular studies and cladistic analyses have shown that “the eukaryotes formerly known as “Protista” do not form a single clade. Current cladistic analysis divides these organisms into at least five clades. Since these organisms cannot be properly placed into a single taxon, we refer to them as “protists.”
20
“Protists” Most are unicellular, but one group, the brown algae, is multicellular. Some “protists” are photosynthetic, while others are heterotrophic. Some display characters that resemble those of fungi, plants, or animals.
21
Fungi heterotrophs with cell walls containing chitin. Mushrooms and other recognizable fungi are multicellular, like the ghost fungus shown. Some fungi—yeasts, for example—are unicellular.
22
Fungi Most feed on dead or decaying organic matter. They secrete digestive enzymes into their food source, which break the food down into smaller molecules. The fungi then absorb these smaller molecules into their bodies.
23
Plantae Members of the kingdom Plantae: are multicellular, have cell walls that contain cellulose, are autotrophic (can make their own food).
24
Animalia Members of the kingdom Animalia are: Multicellular Heterotrophic (get their food from external sources). Animal cells do not have cell walls.
25
All organisms in the kingdoms Protista, Plantae, Fungi, and Animalia are A)multicellular organisms. B)photosynthetic organisms. C)eukaryotes. D)prokaryotes.
26
The domain that contains unicellular organisms that live in extreme environments is A)Eubacteria. B) Eukarya. C)Archaea. D)Bacteria.
27
The two domains composed of only unicellular organisms are A)Eubacteria and Archaea. B)Eukarya and Bacteria. C)Archaea and Bacteria. D)Archaea and Eukarya.
28
The three-domain system recognizes fundamental differences between two groups of A)prokaryotes. B)eukaryotes. C)protists. D)multicellular organisms.
29
Evolutionary Classification The goal of phylogenetic systematics, or evolutionary classification, is to group species into larger categories that reflect lines of evolutionary descent, rather than overall similarities and differences.
30
Cladograms A cladogram links groups of organisms by showing how evolutionary lines, or lineages, branched off from common ancestors.
31
Building Cladograms A speciation event, in which an ancestral lineage branches into two new lineages, is the basis for each branch point, or node. Each node represents the last point at which the new lineages shared a common ancestor. A speciation event, in which an ancestral lineage branches into two new lineages, is the basis for each branch point, or node. Each node represents the last point at which the new lineages shared a common ancestor. The bottom, or “root,” of the tree represents the common ancestor shared by all organisms on the cladogram. The bottom, or “root,” of the tree represents the common ancestor shared by all organisms on the cladogram.
32
Building Cladograms A cladogram’s branching patterns indicate degrees of relatedness among organisms. A cladogram’s branching patterns indicate degrees of relatedness among organisms. Because lineages 3 and 4 share a common ancestor more recently with each other than they do with lineage 2, that means 3 and 4 are more closely related to each other than either are to 2. Because lineages 3 and 4 share a common ancestor more recently with each other than they do with lineage 2, that means 3 and 4 are more closely related to each other than either are to 2.
33
Building Cladograms This cladogram represents current hypotheses about evolutionary relationships among vertebrates. This cladogram represents current hypotheses about evolutionary relationships among vertebrates. Note that in terms of ancestry, amphibians are more closely related to mammals than they are to ray-finned fish! Note that in terms of ancestry, amphibians are more closely related to mammals than they are to ray-finned fish! See 2 nd VA question on Study Guide. See 2 nd VA question on Study Guide.
34
Reading Cladograms This cladogram shows a simplified phylogeny of the cat family. This cladogram shows a simplified phylogeny of the cat family.
35
Derived Characters A derived character is a trait that arose in the most recent common ancestor of a particular lineage and was passed along to its descendants. A derived character is a trait that arose in the most recent common ancestor of a particular lineage and was passed along to its descendants. The positions of the derived characters on the cladogram reflect the order in which those characteristics arose in a lineage. The positions of the derived characters on the cladogram reflect the order in which those characteristics arose in a lineage.
36
Reading Cladograms The trait of four limbs, for example, appeared before the trait of hair in the history of the cat’s lineage. The trait of four limbs, for example, appeared before the trait of hair in the history of the cat’s lineage.
37
Reading Cladograms Each derived character defines a clade. Hair, for example, is a defining character for the clade Mammalia. Each derived character defines a clade. Hair, for example, is a defining character for the clade Mammalia.
38
Reading Cladograms Retractable claws is a derived character shared only by members of the clade Felidae. Retractable claws is a derived character shared only by members of the clade Felidae.
39
The ultimate Cladogram! Tree of Life
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.