3. Facts
• Where it can live – most archaebacteria lives in extreme
environments such as, really salty water, volcanoe, hot springs, or
black mud.
• How it reproduces – the archae produces by asexual reproduction by
binary fission, budding, or fragmentation.
• How it gets nutrients – Depending species – nutrition intake may be
absortion, non photosynthetic, photophosphorylation, or
chemosynthesis
• Domain – archaebacteria
4. Facts
Cell type – prokaryote – other organisms have membrane or eukaryote
cells are bigger than prokaryote cells.
Cell surrounding – consists of cytoplasm and dna surrounded by a cell
membrane and a cell wall.
Cell organization – single celled organism that lack A true nucleus.(
unicellular )
5. Defining Characteristics
The composition of the cell wall is unique to archaea. The cell wall
is made of pseudomurein. Archaebacteria only survive in oxygen
free environments & they are extremophiles and they can live in
extreme environments.
Importance to us:
7. Defining Characteristics, Domain, and Where
it can Live
• Characteristics- its an organism , it has lack of membrane , it consists
of of cytoplasm, their DNA is surrounded by a cell membrane, it's
round, rod shaped and spiral.
• Domain-Eubacteria
• Where it can live- it can live in any living and non living things.
8. How it Reproduces and how it gets its
Nutrients
• It reproduces asexually by fission
• Fission- cell division that forms 2 genetically identical cells. It's a 20
minute process
• Bacteria is both, many are autotrophs and eat dead organisms,
although others are heterotrophs and make their own food with light
energy
9. Cell Type, Cell Surrounding, and Cellular
Organization
• It's cell type is prokaryote which it doesn’t have any membrane.
• The Eubacteria has both a cell membrane and a cell wall
• Unicellular organism doesn't have Nucleus or other membrane such
as bound organelles.
10. Example of Organisms and Importance to Us
• 2 examples-
• Anaerobic- does not need oxygen to survive
• Aerobic- needs oxygen
• Importance to us- bacteria breaks down food in our bodies
12. Domain, Characteristics, and where they
can live
The domain of Protista is Eukaya
Defining Characteristics:
Where it can live:
Plantlike Animal like Fungus like
Make own food Heterotroph Heterotroph
Uni and multi cellular Unicellular Multicellular
Plantlike Animal like Fungus like
Near or in Water Wet Enviroments Surfaces of Plants
13. How They Reproduce, How They get
Nutrients, and Cell Type
Animal-like, fungus-like, and plant-like all reproduce sexual or asexual
How they get Nutrients:
Cell Type:
Plantlike Animal like Fungus like
Autotroph Heterotroph Heterotroph
Plantlike Animal like Fungus like
Eukaryote Eukaryote Eukaryote
14. Cell surroundings and cellular
organization
Surrounding Call:
Cellular Organization
Plantlike Animal like Fungus like
Cell Wall Membrane Membrane
Plantlike Animal like Fungus like
Unicellular and
Multicellular
Unicellular Multicellular
15. Examples of organisms and importance
to us
Plantlike Animal Like Fungus like
Algae Paramecium Slime mold
Examples
Importance to us
Plantlike Animal like Fungus like
Used in things like
toothpaste, lotions,
fertilizers, and some
swimming pool filters.
Decompose other
organisms.
Breaks down dead
plants and animals.
17. Importance To Us
Fungi is important because pollution would build up without fungi. Sac Fungus causes bread to rise,
causes diaper rashes because of damp skin under the diaper. Many common sac fungi causes
diseases in plants, animals, mushrooms, mold, and mildew are all examples offungi.
18. Characteristics
Scientist group fungi based on how they look and reproduce. Fungi forms a long threadlike structure
that grows into large tangles.(usually underground) Fungi are eukaryotes. Most fungi are multicellular
and consist of many complex cells. Fungi are considered to be decomposers. Fungi can grow and live
underground and grows on threadlike structures.. Although Fungican reproduce sexually mostly all
reproduce asexually by producing spores. This is when meiosis occurs. Fungi are heterotrophs which
means they make their own energy.
19. Fungi Cells
Fungi is a eukaryote. Surrounding the Fungi is a cell membrane. These cell walls are made up of a
material called chitin. Fungi is both unicellular and multicellular.
22. KINGDOM PLANTEA
• DOMAIN: EUKARYA
• DEFINING CHARACTERISTICS: TYPES OF LEAVES, SHAPE, TYPES OF BRANCHES/ BRANCHING/ BARK
• WHERE IT CAN LIVE: PLANTS CAN LIVE IN FERTILIZED SOIL WITH PLENTY OF SUN, SHADE, AND WATER
• HOW IT PRODUCES: IT DEPENDS ON WHAT TYPE OF PLANT AND WHERE IT IS LIVE LIKE FLOWER THEY
PRODUCE SEXUALLY
23. PLANTS INFO
• PLANTS ARE AUTOTROPHS THEY DON'T HAVE MOUTHS SO THEY MAKE THEIR OWN FOOD
• PLANTS CELL TYPES ARE EUKARYOTE.
• BOTH A CELL WALL AND MEMBRANE .
• THE CELLULAR ORGINIZATOION OF A PLANT IS MULTICELLULA.
24. EXAMPLES AND WHY IT'S IMPORTANT
• EXAMPLES
• 1.MOSS 2.DANDELION 3.PINE 4. FERN 5.MAPLE
• WHY IT'S IMPORTANT.
PLANTS PRODUCE OXYGEN PLANTS CAN PRODUCE A FOOD SOURCE,
SHADE AND SHELTER
26. Domain & Defining Charichteristics
• They get all of their energy from the food they eat
• Their domain is Eukarya. The cell type is eukryote.
27. Where it can Live/ Celluar Orginization
• Animals from Kingdom Animalia can live in very different regions.
• They can live in Oceans, Jungles, Forest, Mountains, Tropical Regions,
Desert, Grassy Plains, Savannah, Lakes/Rivers, and Houses.
• Animals are multicellular.
28. How it Reproduces & The Cell Surrounding
• Animals reproduce by sexual reproduction.
• The cell surrounding in a animal cell is a membrane and not a cell wall
because cell walls are only found in plants.
29. Importance to Us & Examples of Organisims
Animals are a big food source to humans. Animals can also be used to help
humans survive. They can be companions people that have disabilities and
other medical issues