1. Classification of Living Things

2. Definitions
Taxonomy – the science of classifying organisms based on biological similarities
Carolus Linnaeus – the father of taxonomy
Binomial nomenclature – the way that organisms are named using two word Latin descriptions
Kingdom – the most general description of living things (6)
Phylum – the second level of classification

3. Definitions cont… Class – the third level of classification
Order – the fourth level of classification
Family – the fifth level of classification
Genus – a Latin name that describes a specific organism
Species – the most specific level of classification

4. Definitions cont…..
Eubacteria – a unicellular kingdom of bacteria that have a cell wall and a cell membrane made of carbohydrates
Archaebacteria – a unicellular kingdom of bacteria that are way different than the eubacterias
Plantae - multicellular kingdom of organisms that include flowering plants, mosses, and ferns
Animalia – a multicellular kingdom of organisms that includes an incredible diversity of animals
Fungi – a multicellular kingdom of organisms that can not move to get their food

5. Definitions cont….
Protista – unicellular kingdom of organisms that contain organelles and a nucleus
Dichotomous Key – a tool used by scientists to determine the scientific name of an organism
Scientific name - the name given to an organism using the genus and species name
Common name – a nickname given to an organism
classification – placing organisms into similar groups

6. The "Nuts and Bolts" of Taxonomy and Classification

7. Why Classify?
There are more than 2.5 million different living things on earth.
Millions more have not yet been discovered.
Life is diverse and needs to be organized.
It is organized so that scientists all over the world have a universal method of classifying.
Organisms are placed into groups with biological similarities.

9. History of Classification:
Aristotle years ago
Plant or Animal
Stem differences Land dweller
Water dweller
Air dweller

10. Problems with this early system:
Some plants and animals could not be classified using this system.
People also used common names.
Common names - don’t describe things accurately
Example:
Jellyfish is not a fish

11. Same common name for different species
Maple Trees = Silver Maple, Sugar Maple, & Red Maple are each different species

12. Cougar, Mountain Lion, Puma
By the 1700’s scientists realized that common names were too confusing.
They vary among languages and even
regions.

13. Carolus Linnaeus 1707 - 1778 Binomial Nomenclature “two names”
All organisms are called by their Genus and species

14. Canis lupus

15. Canis latrans

16. Canis domesticus

17. How are organisms classified?
Kingdom (6)
Phylum
Class
Order
Family
Genus
Species
The least specific
The most specific

18. The Six Kingdoms
Archaebacteria
Eubacteria
Protists
Fungi
Animalia
Plantae

19. Kingdom of bacteria that have no nucleus
Eubacteria
Kingdom of bacteria that have no nucleus

20. Eubacteria
Larger of the two prokaryote kingdoms.
Surrounded by a cell wall made of carbohydrates.
Wide range of organisms; simple to elaborate
Range from living in soil to infectious bacteria.
Such a large range; number of phyla is debated.

21. Examples of Eubacteria:
Cyanobacteria (blue-green bacteria)
Photosynthetic
Found throughout the world; salt water to freshwater
Some species survive in hot springs, or in the arctic
Usually a pioneer species; colonization after volcanoes

22. Kingdom of bacteria that are more developed than the eubacteria
Archaebacteria
Kingdom of bacteria that are more developed than the eubacteria

23. Archaebacteria
Lack an important carbohydrate found in the cell walls of eubacteria.
Differ in lipids, ribosomes, and gene sequences.
Organisms that live in extremely harsh environments- thick mud, digestive tracts, salty environments, and thermal vents.

24. Kingdom of unicellular organisms
Protista
Kingdom of unicellular organisms

25. Single-celled eukaryotic organisms Divided into three groups:
Protista
Single-celled eukaryotic organisms
Divided into three groups:
Animal-like protists
Plant-like protists
Fungus-like protists
Examples: amoeba, paramecium, euglena, slime mold

26. The mushrooms and molds
Fungi
The mushrooms and molds

27. Build cell walls that do not contain cellulose.
Fungi
Build cell walls that do not contain cellulose.
Heterotrophic- DO NOT CARRY OUT PHOTOSYNTHESIS
Examples: yeast, molds, mushrooms

28. Plantae
Kingdom of plants

29. Plantae
Multicellular
Cell walls contain cellulose
Autotrophic- can carry out photosynthesis using chlorophyll
Examples: flowering plants, mosses, ferns, multicellular algae

30. Animalia
Kingdom of animals

31. Cell membranes/ no cell walls Includes incredible diversity
Animalia
Multicellular
Heterotrophic
Cell membranes/ no cell walls
Includes incredible diversity

32. Memorize the levels of classification in order.
A good way to remember them is……
King Pete Caught Over Five Green Snakes
Kids Playing Catch On Freeways Get Squished
You can also come up with your own sentence to help you remember them in order.
Memorize all 6 kingdoms

33. Carolus Linnaeus

34. The Father of Taxonomy
His system for naming, ranking, and classifying organisms is still in wide use today (with many changes).
His ideas on classification have influenced generations of biologists during and after his own lifetime, even those opposed to the philosophical and theological roots of his work.

35. Let's take a look at how it works..
Classification
Carolus Linnaeus developed the classification system
His system was called binomial nomenclature
Organisms were named using the Latin genus and species names
An international committee keeps track of all new names
A Dichotomous Key is used by scientists to research new organisms and to figure out scientific names
Let's take a look at how it works..

36. Kingdom;Animalia

37. Phylum; Chordata

38. Class; Mammalia

39. Order; Carnivora

40. Family; Ursidae

41. Genus; Ursus or Ursus

42. Species; arctos or arctos
Scientific Name =
Ursus arctos

43. Ursus arctos
Scientific Name = or
Ursus arctos
Species
Genus
Common name =
Grizzly Bear

44. Writing a scientific name
The scientific name is equal to binomial nomenclature
The genus and species name are always used
The genus name is always written first
It always begins with a capital letter
The species name is written right after the genus name
It always begins with a lower case letter
Both words must be underlined or written in italics
Studentia lazyrentus

45. Number your paper from 1 to 6
Name each Kingdom
Number your paper from 1 to 6 1 5 3 2 6 4

46. Check your answers Animalia Fungi Archaebacteria Protista Plantae
Eubacteria

47. Dichotomous Key
A dichotomous key is a tool that allows the user to determine the identity of items in the natural world, such as trees, wildflowers, mammals, reptiles, rocks, and fish.
Keys consist of a series of choices that lead the user to the correct name of a given item.
"Dichotomous" means "divided into two parts".

48. Rules when reading a dichotomous key
Always read both choices, even if the first seems to be the logical one at first.
Be sure you understand the meaning of the terms involved. Do Not Guess.
When measurements are given, use a calibrated scale. Do Not Guess.
Since living things are always somewhat variable, do not base your conclusion on a single observation. Study several specimens to be sure your specimen is typical.
If the choice is not clear, for whatever reason, try both divisions. If you end up with two possible answers, read descriptions of the two choices to help you decide

49. Dichotomous Key Example
1. a. wings covered by an exoskeleton ………go to step 2
b. wings not covered by an exoskeleton …..go to step 3
2. a. body has a round shape …………….ladybug
b. body has an elongated shape ……….grasshopper
3. a. wings point out from the side of the body …….dragonfly
b. wings point to the posterior of the body ……….housefly

50. Notice that there were four organisms to be identified and it only took three steps. There should be one less step than the total number of organisms to be identified in your dichotomous key.

51. Constructing a dichotomous key
Use constant characteristics rather than variable ones.
Use measurements rather than terms like "large" and "small".
Use characteristics that are generally available to the user of the key rather than seasonal characteristics or those seen only in the field.
Make the choice a positive one - something "is" instead of "is not".
If possible, start both choices of a pair with the same word.
If possible, start different pairs of choices with different words.
Precede the descriptive terms with the name of the part to which they apply.