1. Taxonomy: hierarchy
Domains: prokaryotes vs. eukaryotes Classification�
2. Why do we classify? Because there are so many known species, a system of classification is needed for 3 reasons:
a. Organize species into groups and discuss them.
b. Identify new organisms.
c. Show relationships between organisms.
3. Evidence for evolution Why? Biochemical
Anatomy
embryology -those with similar DNA are more closely related
-those with similar physical properties are more related
Those that looked similar at birth more related. How do we classify
4. Recall: Anatomy Similar structure means common ancestor
The more homologies two organisms possess, the more likely it is that they have a close genetic relationship In the earlier days, scientists like Carolus Linnaeus based classification on physical features Homologies (structures)
5. Write your description based on 5 physical characteristics. Class activity
6. How many species are there Who came up with a system? 13-14 million species
Majority are microscopic probably haven't even seen before
1.8 millions have scientific names Carlus Linnaeus
Came up with a system for describing and naming species
Invented a system of classification Classification
7. Carlous Linneau
Developed a system of hierarchy
A system of ranking and organizing species
There are 8 ranks ( taxons) to the hearty
Taxon: group of organisms with an evolutionary relationship
Domains, kingdom, phylum, class, order, family, genus, species
Mnemonic: dignified kings play chess on fine green silk
Make your own
8. Domains Kingdom Based on cell type
Eukaryotic Vs prokaryotic Based on cellular organization
Single vs. multi cellular
Mode of nutrition
Make own food or get food from other sources: how does it obtain food
Ex: absorb, ingest Taxonomic heirchay
9. Phylum Class based on basic body plan: internal organization
-Hard bodied vs. soft bodied Based on: Skeletal system, general environment adaptation and reproductive system
How they reproduce and care for young Taxonomy heirchy
10. SPECIES: ORDER
FAMILY
GENUS
SPECIES
INCREASED SIMILARITY Can reproduce to produce fertile offspring
11. Example: Uses the genus and species name:
Ex: humans
the scientific name for humans is Homo sapiens. (Genus Homo=man, specific epithet sapiens=thinking. Literally, in Latin, thinking man Domain: Eukaryota (organisms which have cells with a nucleus)
Kingdom: Animalia (with eukaryotic cells having cell membrane but lacking cell wall, multicellular, heterotrophic)
Phylum: Chordata (animals with a notochord, dorsal nerve cord, and pharyngeal gill slits, which may be vestigial)
Subphylum: Vertebrata (possessing a backbone, which may be cartilaginous, to protect the dorsal nerve cord)
Class: Mammalia (endothermic vertebrates with hair and mammary glands which, in females, secrete milk to nourish young)
Cohort: Placentalia (giving birth to live young after a full internal gestation period)
Order: Primates (collar bone, eyes face forward, grasping hands with fingers, and two types of teeth: incisors and molars)
Family: Hominidae (upright posture, large brain, stereoscopic vision, flat face, hands and feet have different specializations)
Genus: Homo (s-curved spine, "man")
Species: Homo sapiens (high forehead, well-developed chin, skull bones thin)
Binomial classification
12. Humans Domain: Eukaryota (organisms which have cells with a nucleus)
Kingdom: Animalia (with eukaryotic cells having cell membrane but lacking cell wall, multicellular, heterotrophic)
Phylum: Chordata (animals with a notochord, dorsal nerve cord, and pharyngeal gill slits, which may be vestigial)
Class: Mammalia (endothermic vertebrates with hair and mammary glands which, in females, secrete milk to nourish young)
Order: Primates (collar bone, eyes face forward, grasping hands with fingers, and two types of teeth: incisors and molars)
Family: Hominidae (upright posture, large brain, stereoscopic vision, flat face, hands and feet have different specializations)
Genus: Homo (s-curved spine, "man")
Species: Homo sapiens (high forehead, well-developed chin, skull bones thin)
13. 3 domains of life 3:
Archea: extreme bacteria
Prokaryotic cells
Prokarya or bacteria
Prokaryotic cells
Eukaryota:
Eukaryotic cells Domains:
14. Archea Bacteria Microorganism that live in extreme environments
Primitive e forms of bacteria
hot springs More advanced forms of bacteria
Prokaryotic cells
15. Prokaryotic Cells (1) Prokaryotic cells are smaller and more primitive.
(2) They have few organelles and their organelles have no membranes. The cell has no nucleus. Many prokaryotes have a rigid cell wall. They are able to grow and multiply quickly because of their small surface area: volume ratio.
(3) They are bacteria and cyanobacteria (blue-green algae).
16. Eukaryotic Cells 1) are more advanced, larger, and contain organelles. These cells have a nucleus. All species other than bacteria and cyanobacteria are eukaryotes. This includes protists, fungi, plants, and animals, as well as humans.
2) Organelles allow many activities to take place within the same cell
17. Prokaryotes Eukaryotes
No Nucleus---Genetic Information Floats around in Cytoplasm
No Membrane-Bound Organelles
Much Smaller in size
Very Simple Structure
Have a Nucleus that contains Genetic Information
Have Membrane-Bound Organelles
Generally Larger in size
Very Complex Structure
comparison
