Classification of Living Things
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Transcript of Classification of Living Things
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Activity
• 1 Whole
• Make a Family tree using a graphic organizer. Tracing your origin from your grandparents to grand children.
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ClassificationClassification
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The Challenge
• Biologists have identified and named approximately 1.5 million species so far.
• They estimate that between 2 and 100 million species have yet to be identified.
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• 1. Why Classify?– To study the diversity of life– To organize and name organisms
• 2. Why give scientific names?– Common names are misleading
Finding Order in Diversity
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jellyfish silverfish star fish
None of these animals are fish!
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• Different levels of classification are analogous to a postal address. 1st sorted by country, then provinces, followed by municipality, and by district or barangay. The mailman then finds the street and house number until the letter reaches the recipient.
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Philippines
Isabela
Quezon
Samonte District
23 Rizal St.
Bucaneg
Phylum/Division
Class
Family
Genus
Kingdom
Order
Pedro Species
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Chordata
Mammalia
Hominidae
Homo
Animalia
Primata
Phylum/Division
Class
Family
Genus
Kingdom
Order
Species Sapiens
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Some organisms have several common names
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This cat is commonly known as:
•Florida panther
•Mountain lion
•Puma
•Cougar
Scientific name: Felis concolor
Scientific name means “coat of one color”
Why Scientists Assign Scientific Names to Organisms
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Origin of Scientific Names
• By the 18th century, scientists realized that naming organisms with common names was confusing.
• Scientists during this time agreed to use a single name for each species.
• They used Latin and Greek languages for scientific names.
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Slide # 6
Linnaeus: The Father of Modern Taxonomy
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Carolus Linnaeus
1732: Carolus Linnaeus developed system of classification – binomial nomenclaturea. Two name naming system
b. Gave organisms 2 names
Genus (noun) and species (adjective)
Rules for naming organisms
1. Written is Latin (unchanging)
2. Genus capitalized, species lowercase
3. Both names are italicized or underlined
EX: Homo sapiens: wise / thinking man
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Kingdom
Phylum
Class
Order
Family
Genus
SpeciesGo to Section:
Linnaeus’s System of Hierarchy
Least specific
Most specific
1. Which of the following contains all of the others?
a. Family c. Class
b. Species d. Order
2. Based on their names, you know that the baboons Papio annubis and Papio cynocephalus do not belong to the same:
a. Family c. Order
b. Genus d. Species
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Binomial Nomenclature Example• For example, the polar bear is named
Ursus maritimus.
• The genus, Ursus, describes a group of closely related bear species.
• In this example, the species, maritimus, describes where the polar bear lives—on pack ice floating on the sea.
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Modern Classification
• Linnaeus grouped species into larger taxa, such as genus and family, based on visible similarities.
• Darwin’s ideas about descent with modification evolved into the study of phylogeny, or evolutionary relationships among organisms.
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Modern Classification
• Modern biologists group organisms into categories representing lines of evolutionary descent.
• Species within a genus are more closely related to each other than to species in another genus.
Genus: Felis Genus: Canis
Felis domistica Canis familiaris
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Similarities in DNA and RNA
• Scientists use similarities and differences in DNA to determine classification and evolutionary relationships.
• They can sequence or “read” the information coded in DNA to compare organisms.
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Kingdoms and Domains
• In the 18th century, Linnaeus originally proposed two kingdoms: Animalia and Plantae.
• By the 1950s, scientists expanded the kingdom system to include five kingdoms.
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The Five Kingdom SystemMonera
bacteria
Protista
Amoeba, slime mold
Fungi mushrooms, yeasts, molds
Plantae flowering plants, mosses, ferns, cone-bearing plants
Animalia mammals, birds, insects, fishes, worms, sponges
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• Organisms belonging to Kingdom Monera are called PROKARYOTES because they lack a true nucleus, cytoskeleton and internal membranes.
• All other organisms are called EUKARYOTES because their cell nuclei and organelles are enclosed by membranes and they contain a cytoskeleton
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• Living organisms can be classified as:
1.Unicellular- made up of single cell
2.Multicellular – made up of more than one cell
• Most monerans and protists are unicellular organisms, while all fungi, plants and animals are multicellular
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The Six Kingdom System
• In recent years, biologists have recognized that the Monera are composed of two distinct groups.
• As a result, the kingdom Monera has now been separated into two kingdoms: Eubacteria and Archaebacteria, resulting in a six-kingdom system of classification.
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• Kingdom Eubacteria – includes the true bacteria and cyanobacteria (phosynthetic bacteria)
• Kingdom Archaea- includes bacteria-like organisms that live in extremely harsh environment such us hotsprings, volcanic vents, sewage treatment plants, ocean floor and swamp sediments.
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The Three-Domain System
• Scientists can group modern organisms by comparing ribosomal RNA to determine how long they have been evolving independently.
• This type of molecular analysis has resulted in a new taxonomic category—the domain.
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The Three Domains
• The three domains, which are larger than the kingdoms, are the following:
• Eukarya – protists, fungi, plants and animals
• Bacteria – which corresponds to the kingdom Eubacteria.
• Archaea – which corresponds to the kingdom Archaebacteria.
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BacteriaArchaea Eukarya
Prokaryotic ancestor (2 Billion years ago)
Prokaryotic ancestor (3 Billion years ago)
Origin of Life
Non of the three groups are ancestral or primitive to the other, and each domain shares certain features with the others as well as having unique characteristics of its own. Biologist believe that the three domains share a common prokaryotic ancestor
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Classification of Living Things
The three-domain system
Bacteria Archaea Eukarya
EubacteriaArchae-bacteria
Protista Plantae Animalia
The six-kingdom system
Fungi
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Grizzly bear Black bear Giant panda
Red fox Abert squirrel
Coral snake
Sea star
KINGDOM Animalia
PHYLUM Chordata
CLASS Mammalia
ORDER Carnivora
FAMILY Ursidae
GENUS Ursus
SPECIES Ursus arctos
Hierarchical Ordering of Classification
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As we move from the kingdom level
to the species level, more and more members are
removed.
Each level is more specific.
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AssignmentNotebook:
1.List down the characteristics of the following Kingdoms
a. Kingdom Eubacteria
b. Kingdom Archaea
c. Kingdom Protist
d.Kingdom Fungi
e. Kingdom Plantae
f. Kingdom Animalia
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Bird’s Eyeview of the Living World
The Six Kingdom of Classifiction
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Kingdom Archaebacteria
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Cell Type Prokaryote
Number of Cells Unicellular
Nutrition Autotroph or Heterotroph
Location Extreme Environments Volcanoes, Deep Sea Vents, Yellowstone Hot Springs
Examples Methanogens
Thermophiles
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Kingdom Eubacteria
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E. coli
Streptococcus
Cell Type Prokaryote
Number of Cells Unicellular
Nutrition Autotroph or Heterotroph
Examples Streptococcus, Escherichia coli (E. coli)
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Kingdom Protista
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Paramecium
Green algae
Amoeba
Cell Type Eukaryote
Number of Cells Most Unicellular, some multicellular
Nutrition Autotroph or Heterotroph
Examples Amoeba, Paramecium, Euglena,
The “Junk-Drawer” Kingdom
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Kingdom Fungi
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Mildew on Leaf
Mushroom
Cell Type Eukaryote
Number of Cells Most multicelluar, some unicelluar
Nutrition Heterotroph
Example Mushroom, yeast, mildew, mold
Most Fungi are DECOMPOSERS
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Kingdom Plantae
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Ferns : seedless vascular
Sunflowers: seeds in flowers
Douglas fir: seeds in cones
Mosses growing on trees
Cell Type Eukaryote
Number of Cells Multicellular
Nutrition Autotroph
Examples Mosses, ferns, conifers, flowering plants
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Kingdom Animalia
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Sage grouse
Poison dart frog
Bumble bee
Sponge
Jellyfish
Hydra
Cell Type Eukaryote
Number of Cells Multicellular
Nutrition Heterotroph
Examples Sponges, worms, insects, fish, mammals
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CELL WALL
1. PEPTIDOGLYCAN: contain peptidoglycan, a complex web-like molecule; found only in the Eubacteria
2. UNCOMMON LIPIDS: nonpeptidoglycan, contains uncommon lipids, found only in Archaebacteria
3. PECTIN: contain pectin a complex polysaccharide, found in most Protista
3. CELLULOSE: contain cellulose a complex polysaccharide; found in Plantae
3. CHITIN: contain chitin, a tough material like that making up crab shells; found only in the Fungi
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MODE OF NUTRITION (how obtain energy/gets food)
A. AUTOTROPHIC: make own food, contain chlorophyll (photosynthetic), (some without chlorophyll are chemotrophic)
B. HETEROTROPHIC: get food from other organism, no chlorophyll, ingestion or absorption (free living, parasitic, saprophytic)