Notes: Diversity of Life (page 8 of Interactive Notes)

Slides:

Advertisements

Similar presentations

Fungi. Bacteria Archaea Lobose amoebae Cellular slime molds Plasmodial slime molds Fungi Choanoflagellates Animals Parabasilids Diplomonads Euglenids.

Advertisements

Differences and Similarities Why do we put that there?

Bellringer 3/19/15 Which is the evolutionary difference between the salamander and the lizard? a. claws or nailsc. jaws b. fur; mammary glandsd. lungs.

Living Things. How do we know is something is ‘living’? All living things are characterised as being able to do 3 things N R I Can you guess what these.

5 Kingdoms Moneran  One celled  No separate nucleus  Example: bacteria.

When a taxonomist discovers a new organism they start classifying it based on certain characteristics…..first, they look at what kind of cell structure.

5 Kingdoms How we classify living things…. Review Terms Heterotrophic- must find it’s food Autotrophic- makes it’s own food New Terms to be learned *

The Six Kingdoms Organisms are placed into kingdoms based on five questions 1.Prokaryotic or Eukaryotic? 2.Unicellular or Multicellular? 3.Producer or.

TAXONOMY OF ORGANISMS 6.12 C. TAXONOMY The branch of Science that formally names and classifies organisms by their structure, function and relationships.

Overview of Domains and Kingdoms. The most widely used biological classification system has six kingdoms within three domains.

The Six Kingdoms. Directions Record all notes that have the following symbol on the slide.

E. The Six Kingdoms Chart in your notes!!!!!.

Taxonomy of Organisms 6.12 C. Taxonomy The branch of Science that formally names and classifies organisms by their structure, function and relationships.

Classification of All Organisms

Kingdoms & Domains.

SIX KINGDOMS All Living Things 6 Kingdom Introduction Video Video Introduction Video Introduction (Classification Video) Classification Review Video.

The Six Kingdoms Organisms are placed into kingdoms based on five questions Prokaryotic or Eukaryotic? Unicellular or Multicellular? Producer or Consumer?

Taxonomy of Organisms 6.12 C.

Domains of Life Refer to Domains Chart.

Classification of Living Things Part 2: The Kingdoms

4-3 The Diversity of Living Things

April 29TH, 2010 Phylogeny Review 1.

Classification of Living Organisms

Other Characteristics

Domains and Kingdoms SC.912.L.15.6.

Classification of Organisms

Our Five Kingdoms Created by Ms. Zwilling.

Interactive Notebook Notes

Kingdom Diversity.

Taxonomy of Organisms 6.12 C.

Classification of Living Things.

Today we will be taking notes on Taxonomy (Classification)

Domains and Kingdoms.

Introduction to the Six Kingdoms

Mind Stretcher 4/23/18.

Domains and Kingdoms Spring 2018.

Kingdoms & Domains Chapter 18-3

6 Kingdoms Graphic Organizer

Current Classification

Kingdom: Plantae Cell type: Eukaryote

Taxonomy Naming and grouping organisms based on characteristics and evolutionary history.

The Kingdom Systems.

Kingdoms & Domains Chapter 18-3

The Eukaryotes.

The Six Kingdoms: Chapter 17.

Mind Stretcher 4/23/18.

Classification is always a work in progress.

6 Kingdoms TEK.

Kingdoms and Domains Chapter 18-3.

KINGDOMS & DOMAINS 5/16/07.

Basic Overview of the Domains & Kingdoms

Kingdoms & Domains Chapter 18-3

The Three Domains All organisms belong to one of three domains, depending on their characteristics. A domain is the most inclusive (broadest) taxonomic.

Mind Stretcher 4/23/18.

Linneaen Taxonomy.

Please turn in your homework and get out your notebooks

Organizing Life Chapter 4 Ms. Cuthrell Ecology 2nd Period.

The Five Kingdoms Addyson and Madison.

Introduction to the Six Kingdoms

Kingdoms & Domains Chapter 18-3

KEY CONCEPT The current tree of life has three domains.

Presentation transcript:

Notes: Diversity of Life (page 8 of Interactive Notes)

Three Domains

Three Domains Archaea Single celled Prokaryotic (no nucleus) Extremophiles

Three Domains Archaea Single celled Prokaryotic (no nucleus) Extremophiles 2. Bacteria Photosynthetic (cyanobacteria) or heterotrophic

Three Domains Archaea Single celled Extremophiles 2. Bacteria Photosynthetic or heterotrophic 3. Eukarya Complex cells with nucleus and other organelles Single celled or multi-cellular Animals, plants, fungi, protists

Output (pg 9 of I.N.) Draw the Tree of Life Turn paper sideways

EUKARYA BACTERIA ARCHAEA

Animals Invertebrates Arthropods, Worms, Mollusks

Animals Invertebrates Vertebrates Arthropods, Worms, Mollusks Fish, Amphibians, Reptiles, Birds, Mammals

Plants Bryophytes (Mosses)

Plants Bryophytes (mosses) Ferns

Plants Mosses Ferns Gymnosperms (cones)

Plants Mosses Ferns Gymnosperms (cones) Angiosperms (flowers)

Fungi Basidiomycota (Mushrooms)

Fungi Basidiomycota (Mushrooms) Ascomycota (Cup fungi)

Fungi Basidiomycota (Mushrooms) Ascomycota (Cup fungi) Zygomycota & Deuteromycota (Molds)

Protists Euglenids (single celled, photosynthetic)

Protists Euglenids Protozoa (single celled heterotrophs) Amoebas, ciliates

Protists Euglenids Protozoa (single celled heterotrophs) Amoebas, ciliates Brown algae (single or multicellular, photosynthetic) Diatoms, Kelp, Oomycetes

Protists Euglenids Protozoa (single celled heterotrophs) Brown algae Amoebas, ciliates Brown algae Diatoms, Kelp, Oomycetes Green algae (single or multicellular, photosynthetic)

Protists Euglenids Protozoa (single celled heterotrophs) Brown algae Amoebas, ciliates Brown algae Diatoms, Kelp, Oomycetes Green algae Slime molds

EUKARYA BACTERIA ARCHAEA Plants Green algae Cyanobacteria Euglenids Animals Heterotrophic bacteria Fungi Brown algae Methanogens Protozoa Slime molds Halophiles Thermophiles ARCHAEA

In your lab groups, each person will investigate one of the following types of protists: Slime molds Oomycetes (especially Phytophthora) Plasmodium Diatoms You will give a 2 minute presentation to your group about why this type of protist is interesting and important. Include pictures and/or videos from the computer