KEY CONCEPT The current tree of life has three domains.

Slides:

Advertisements

Similar presentations

Linnaeus developed the scientific naming system still used today.

Advertisements

The Six Kingdoms of Life. EUBACTERIA This is a kingdom of single-celled prokaryotes that have been around in similar forms since the beginning of life.

Class Notes 2: Classification

Classification This is Panorpa japonica. Commonly known as the scorpion fly.

Linnaeus developed the scientific naming system still used today.

Kingdoms and Domains 18.3.

Chapter 18 – Classification

Bacteria and Archaeabacteria

Classifying Organisms

 A. All classifications above species is “invented” by researchers who decide how to distinguish between 1 genus and another.

Initiation What type of organisms exist besides plant and animals? How do you know they are different than a plant or and animal?

1 Chapter 18- Classification. 2 I. Finding order in Diversity A. Why classify? 1. To study the diversity of life, biologists use a classification system.

Taxonomy: Branch of biology that groups all life according to their characteristics and history All life on earth is placed into 1 of 6 kingdoms: –

Taxonomy The science of naming and classifying organisms.

Vocab Unit 9 Kingdoms and Classification.. Broadest level of classification in the new system. There are three of these.

Classification. Linnaeus developed the scientific naming system still used today Taxonomy is the science of naming and classifying organisms A taxon is.

Classification 17.1 & 17.4.

The science of naming and classifying organisms

Evolution (Part 3) Phylogeny & Classification

Organisms can be classified based on physical similarities. How would you classify the organisms in your envelope?

Classification History

Linnaeus developed the scientific naming system still used today.

17.4 Domains and Kingdoms KEY CONCEPT The current tree of life has three domains.

17.4 Domains and Kingdoms KEY CONCEPT The current tree of life has three domains.

1) To explain how scientists classify living things 2) To identify the 6 kingdoms of life.

17.4 Domains and Kingdoms KEY CONCEPT The current tree of life has three domains.

Kingdoms and Domains Sec 18-3 “Ever changing Taxonomy”

KEY CONCEPT The current tree of life has three domains.

KINGDOMS AND DOMAINS.  The tree of life shows our most current understanding.  New discoveries can lead to changes in classification. - Until 1866:

Cell type (prokaryotic or eukaryotic) Source of energy Number of cells in their body.

The Three Domains Classification in Biology © J Beauchemin 2006.

Unit 6: Classification and Diversity Classification of Living Things Scientists estimate that there are between 3 million and 100 million species of organisms.

17.1 The Linnaean System of Classification KEY CONCEPT Organisms can be classified based on physical similarities.

17.1 The Linnaean System of Classification KEY CONCEPT Organisms can be classified based on physical similarities.

17.1 The Linnaean System of Classification KEY CONCEPT Organisms can be classified based on physical similarities.

Cell type (prokaryotic or eukaryotic) Source of energy Number of cells in their body.

Ancient Classification:

Classification Unit 1. 2 KEY CONCEPT: Organisms can be classified based on physical similarities. taxonomy- is the science of naming and classifying.

N18 Notes for Foldable Lab Leaders Gather following Materials: Textbook 5 sheets of computer paper/each member of group Color Pencils from black bin(optional)

CHAPTER 17 THE TREE of LIFE.

Section 3: Kingdoms and Domains

Early Classification Aristotle was a greek scholar

Linnaeus developed the scientific naming system still used today.

Ch 9.2 Domains and Kingdoms

Archaea Archea are single celled organisms that have no nutrcleus. They live in extreme environments where no other organism could survive. They were the.

Section 3: Kingdoms and Domains

Classification and Diversity

Copyright Pearson Prentice Hall

Kingdoms and Domains Section 18-3

Classification is always a work in progress.

Kingdom Basics.

18.3 Kingdom & Domains I. Updating Classification Systems

Class Notes 2: Classification

KEY CONCEPT The current tree of life has three domains.

KEY CONCEPT The current tree of life has three domains.

The student is expected to: 3F research and describe the history of biology and contributions of scientists; 8A define taxonomy and recognize the importance.

CLASSIFICATION OF ORGANISMS

KEY CONCEPT The current tree of life has three domains.

Linnaeus developed the scientific naming system still used today.

Kingdom Diversity.

Today’s Bell Ringer We watched a video on “What Plant Talk About”

Topic 5.3 Classification of biodiversity

KEY CONCEPT The current tree of life has three domains.

BELLRINGER FOR 9/25/12 IN YOUR SURVIVAL GUIDE AT THE TOP OF PAGE _37_make a chart: DOMAINS ARCHAEA BACTERIA EUKARYA.

KEY CONCEPT The current tree of life has three domains.

Three domains and Five kingdoms

Classification.

Classification of Organisms

KEY CONCEPT The current tree of life has three domains.

Presentation transcript:

KEY CONCEPT The current tree of life has three domains.

Classification is always a work in progress. The tree of life shows our most current understanding. New discoveries can lead to changes in classification. Until 1866: only two kingdoms, Animalia and Plantae Animalia Plantae

Classification is always a work in progress. The tree of life shows our most current understanding. New discoveries can lead to changes in classification. Until 1866: only two kingdoms, Animalia and Plantae Plantae Animalia 1866: all single-celled organisms moved to kingdom Protista Protista

Classification is always a work in progress. The tree of life shows our most current understanding. New discoveries can lead to changes in classification. Until 1866: only two kingdoms, Animalia and Plantae Animalia Protista Plantae 1866: all single-celled organisms moved to kingdom Protista 1938: prokaryotes moved to kingdom Monera Monera

Classification is always a work in progress. The tree of life shows our most current understanding. New discoveries can lead to changes in classification. Until 1866: only two kingdoms, Animalia and Plantae Protista Plantae Animalia 1866: all single-celled organisms moved to kingdom Protista 1938: prokaryotes moved to kingdom Monera Fungi 1959: fungi moved to own kingdom Monera

Classification is always a work in progress. The tree of life shows our most current understanding. New discoveries can lead to changes in classification. Until 1866: only two kingdoms, Animalia and Plantae Animalia Protista Fungi Plantae 1866: all single-celled organisms moved to kingdom Protista 1938: prokaryotes moved to kingdom Monera Archea Bacteria 1959: fungi moved to own kingdom 1977: kingdom Monera split into kingdoms Bacteria and Archaea

The three domains in the tree of life are Bacteria, Archaea, and Eukarya. Domains are above the kingdom level. proposed by Carl Woese based on rRNA studies of prokaryotes domain model more clearly shows prokaryotic diversity

Domain Bacteria includes prokaryotes in the kingdom Bacteria. one of largest groups on Earth classified by shape, need for oxygen, and diseases caused

Domain Archaea includes prokaryotes in the kingdom Archaea. cell walls chemically different from bacteria differences discovered by studying RNA known for living in extreme environments

Domain Eukarya includes all eukaryotes. kingdom Protista

Domain Eukarya includes all eukaryotes. kingdom Protista kingdom Plantae

Domain Eukarya includes all eukaryotes. kingdom Protista kingdom Plantae kingdom Fungi

Domain Eukarya includes all eukaryotes. kingdom Protista kingdom Plantae kingdom Fungi kingdom Animalia

Bacteria and archaea can be difficult to classify. transfer genes among themselves outside of reproduction blurs the line between “species” more research needed to understand prokaryotes bridge to transfer DNA