Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Eukaryotic
(Cells with
Nucleus)
Prokaryotic
(Cells with
no Nucle...
http://sciencepowerpoint.com/Website Link:
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
 Dichotomous key: A tool that allows the user to
determine the identity of items in the natural
world.
Copyright © 2010 R...
• Taxonomy and Classification Available
Sheet.
– Follows slideshow for classwork.
• Please use the key to answer the
questions below.
– I have no feathers but legs?___________
– I have feathers but don’t ...
• Please use the key to answer the
questions below.
– I have no feathers but legs? Lizard
– I have feathers but don’t swim...
• Please use the key to answer the
questions below.
– I have no feathers but legs? Lizard
– I have feathers but don’t swim...
• Please use the key to answer the
questions below.
– I have no feathers but legs? Lizard
– I have feathers but don’t swim...
• Please use the key to answer the
questions below.
– I have no feathers but legs? Lizard
– I have feathers but don’t swim...
• Please use the key to answer the
questions below.
– I have no feathers but legs? Lizard
– I have feathers but don’t swim...
• Please use the key to answer the
questions below.
– I have no feathers but legs? Lizard
– I have feathers but don’t swim...
• Please use the key to answer the
questions below.
– I have no feathers but legs? Lizard
– I have feathers but don’t swim...
 Based on characteristics and uses process of
comparison and elimination.
Copyright © 2010 Ryan P. Murphy
• Which shark fin fits the following
description?
– Tail not separated into a top and bottom fin.
End of tail is blunt ins...
• Which shark fin fits the following
description?
– Tail not separated into a top and bottom fin.
End of tail is blunt ins...
• Answer! Which shark fin fits the following
description?
– Tail not separated into a top and bottom fin.
End of tail is b...
• Answer! Which two shark fins fit the
following description?
Copyright © 2010 Ryan P. Murphy
• Answer! Which two shark fins fit the
following description?
– Upper part of tail extends far beyond the
bottom. Tip of t...
• Answer! Which two shark fins fit the
following description?
– Upper part of tail extends far beyond the
bottom. Tip of t...
• Which two shark fins fit the following
description?
– Trunk before tail fin has small fin.
Copyright © 2010 Ryan P. Murp...
• Which two shark fins fit the following
description?
– Trunk before tail fin has small fin.
Copyright © 2010 Ryan P. Murp...
• Use constant characteristics rather than ones that
disappear or vary with the season or other
environmental factor.
Copy...
• Use constant characteristics rather than ones that
disappear or vary with the season or other
environmental factor.
Copy...
• Use characteristics which can be directly
observed.
Copyright © 2010 Ryan P. Murphy
• Use characteristics which can be directly
observed.
Copyright © 2010 Ryan P. Murphy
Black and White
color with orange
ar...
• Use characteristics which can be directly
observed.
Copyright © 2010 Ryan P. Murphy
And they love
each other…
• Use characteristics which can be directly
observed.
Copyright © 2010 Ryan P. Murphy
And they love
each other…
• Use characteristics which can be directly
observed.
Copyright © 2010 Ryan P. Murphy
And they love
each other…
“They form...
• What is a big insect to you?
• What is a big insect to you?
• What is a big insect to you?
• Use quantitative (numbered) measurements
with an amount or dimension rather than
vague terms like…
Copyright © 2010 Ryan...
• Use quantitative (numbered) measurements
with an amount or dimension rather than
vague terms like… "big" and "small."
Co...
• Use quantitative (numbered) measurements
with an amount or dimension rather than
vague terms like… "big" and "small."
Co...
• Use quantitative (numbered) measurements
with an amount or dimension rather than
vague terms like… "big" and "small."
Co...
• Use quantitative (numbered) measurements
with an amount or dimension rather than
vague terms like… "big" and "small."
Co...
• Use quantitative (numbered) measurements
with an amount or dimension rather than
vague terms like… "big" and "small."
Co...
• Rules to Follow When Using a
Dichotomous Key
– Always read both choices, even if the first
seems to be the logical.
– Un...
• Rules to Follow When Using a
Dichotomous Key
– Always read both choices, even if the first
seems to be the logical.
– Un...
• Rules to Follow When Using a
Dichotomous Key
– Always read both choices, even if the first
seems to be the logical.
– Un...
• Rules to Follow When Using a
Dichotomous Key
– Always read both choices, even if the first
seems to be the logical.
– Un...
• Rules to Follow When Using a
Dichotomous Key
– Always read both choices, even if the first
seems to be the logical.
– Un...
• Activity! Guess Who / 7 Questions?
Copyright © 2010 Ryan P. Murphy
• Activity! Guess Who / 7 Questions?
–Create a series of questions to find the
three secret members of the class that I
ha...
• Activity! Guess Who / 7 Questions?
–Create a series of questions to find the
three secret members of the class that I
ha...
• Activity! Wacky People.
– Use a dichotomous key to find the names for
various humanoids.
– Assignment is to correctly id...
• Activity – EEK Dichotomous Key
– http://www.dnr.state.wi.us/org/caer/ce/eek/veg/
treekey/treestart.htm
Copyright © 2010 ...
Copyright © 2010 Ryan P. Murphy
• Leaf for EEK Dichotomous key.
Copyright © 2010 Ryan P. Murphy
• You should be close to page 4/5 in your
bundle.
 Classification uses…
Copyright © 2010 Ryan P. Murphy
 Homology: Similarities between organisms
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Embryonic homology
Copyright © 2010 Ryan P. Murphy
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the following is a blastula (early embryo) of
a sea urchin, starfish, frog, and human
Copyright © 2010 Ryan P. ...
• Which of the embryos below is a human,
chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
• Which of the embryos below is a human,
chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
• Which of the embryos below is a human,
chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
• Which of the embryos below is a
human, chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
• Which of the embryos below is a
human, chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
• Which of the embryos below is a human,
chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
• Which of the embryos below is a human,
chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
• Which of the embryos below is a
human, chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
• Which of the embryos below is a human,
chicken, fish, and cat?
Human
Copyright © 2010 Ryan P. Murphy
Learn more about h...
 DNA: Similar genes aid in classification
Copyright © 2010 Ryan P. Murphy
• DNA provides insight into how similar and
how different organisms are.
Copyright © 2010 Ryan P. Murphy
• DNA provides insight into how similar and
how different organisms are. This allows
taxonomist to classify organisms more...
• DNA provides insight into how similar and
how different organisms are. This allows
taxonomist to classify organisms more...
• Humans and Chimpanzee share 94% of
the same genes.
Copyright © 2010 Ryan P. Murphy
• Humans and Chimpanzee share 94% of
the same genes.
Copyright © 2010 Ryan P. Murphy
• Humans and Chimpanzee share 94% of
the same genes.
Copyright © 2010 Ryan P. Murphy
• Humans and Chimpanzee share 94% of
the same genes.
– We can get a blood transfusion from a chimp.
Copyright © 2010 Ryan ...
• Red Pandas
• Red Pandas and Giant Pandas
• Red Pandas and Giant Pandas both eat
bamboo.
• Red Pandas and Giant Pandas both eat
bamboo.
– Giant Pandas are more closely related to…
• Red Pandas and Giant Pandas both eat
bamboo.
– Giant Pandas are more closely related to…
– Red Pandas more closely relat...
• Red Pandas and Giant Pandas both eat
bamboo.
– Giant Pandas are more closely related to…
– Red Pandas more closely relat...
• Red Pandas and Giant Pandas both eat
bamboo.
– Giant Pandas are more closely related to…
– Red Pandas more closely relat...
• Red Pandas and Giant Pandas both eat
bamboo.
– Giant Pandas are more closely related to…
– Red Pandas more closely relat...
• Red Pandas and Giant Pandas both eat
bamboo.
– Giant Pandas are more closely related to…
– Red Pandas more closely relat...
• Red Pandas and Giant Pandas both eat
bamboo.
– Giant Pandas are more closely related to…
– Red Pandas more closely relat...
• Can these two mate?
Copyright © 2010 Ryan P. Murphy
• Horse zebra hybrid (sterile), called a
Zebroid.
Copyright © 2010 Ryan P. Murphy
• Horse zebra hybrid (sterile), called a
Zebroid.
– Zebras and horses have a different number of
genes.
Copyright © 2010 R...
• Horse zebra hybrid (sterile), called a
Zebroid.
– Zebras and horses have a different number of
genes. A sterile offsprin...
• Horse zebra hybrid (sterile), called a
Zebroid.
– Zebras and horses have a different number of
genes. A sterile offsprin...
• Activity Worksheet! Salamander (Order
Caudata) Dichotomous Key.
– Use a dichotomous key to identify salamanders
Copyrigh...
 The 3 Domains of Life. All life is either…
 Archaeabacteria
 Eubacteria
 Eukarya
Copyright © 2010 Ryan P. Murphy
 The 3 Domains of Life. All life is either…
 Archaeabacteria
 Eubacteria
 Eukarya
Copyright © 2010 Ryan P. Murphy
 The 3 Domains of Life. All life is either…
 Archaeabacteria
 Eubacteria
 Eukarya
Copyright © 2010 Ryan P. Murphy
 The 3 Domains of Life. All life is either…
 Archaeabacteria
 Eubacteria
 Eukarya
Copyright © 2010 Ryan P. Murphy
 The 3 Domains of Life. All life is either…
 Archaeabacteria
 Eubacteria
 Eukarya
Copyright © 2010 Ryan P. Murphy
Lear...
• Humans are Eukarya,
Copyright © 2010 Ryan P. Murphy
• Humans are Eukarya, the other domains
are forms of bacteria.
Copyright © 2010 Ryan P. Murphy
“Excuse Me”
“Does anyone
know where
I can find
some good
food.”
 The Kingdoms of life.
Copyright © 2010 Ryan P. Murphy
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
Monera
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
Monera
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
Monera
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
Monera
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
Monera
 The Kingdoms of life.
 All life belongs to one of these.
Copyright © 2010 Ryan P. Murphy
Monera
Learn more about the si...
“I’m dressed as
King Phillip.”
“Am I late for
the spaghetti
dinner?”
• Taxonomy and Classification Available
Sheet.
– Follows slideshow for classwork.
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Eubacteria
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Eubacteria
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Eubacteria
Prokaryotic
(Cells with
no Nucleus)
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Eubacteria
Prokaryotic
(Cells with
no Nucleus)
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Prokaryotic
(Cells with
no Nucleus)
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Prokaryotic
(Cells with
no Nucleus)
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Prokaryotic
(Cells with
no Nucleus)
Universal Ancestor
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Eukaryotic
(Cells with
Nucleus)
Prokaryotic
(Cells with
no Nucle...
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Eukaryotic
(Cells with
Nucleus)
Prokaryotic
(Cells with
no Nucle...
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Eukaryotic
(Cells with
Nucleus)
Prokaryotic
(Cells with
no Nucle...
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Eukaryotic
(Cells with
Nucleus)
Prokaryotic
(Cells with
no Nucle...
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Eukaryotic
(Cells with
Nucleus)
Prokaryotic
(Cells with
no Nucle...
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Eukaryotic
(Cells with
Nucleus)
Prokaryotic
(Cells with
no Nucle...
Copyright © 2010 Ryan P. Murphy
Eubacteria
Archaebacteria
Eukaryotic
(Cells with
Nucleus)
Prokaryotic
(Cells with
no Nucle...
• Until recently (1984), scientists believed all
life got its energy from the sun.
Copyright © 2010 Ryan P. Murphy
• Until recently (1984), scientists believed all
life got its energy from the sun.
Copyright © 2010 Ryan P. Murphy
• Until recently (1984), scientists believed all
life got its energy from the sun. A whole
new system existed on the ocean...
• Until recently (1984), scientists believed all
life got its energy from the sun. A whole
new system existed on the ocean...
• Until recently (1984), scientists believed all
life got its energy from the sun. A whole
new system existed on the ocean...
• Archaebacteria can create energy without
light at the bottom of the ocean under
enormous pressures,
Copyright © 2010 Rya...
• Archaebacteria can create energy without
light at the bottom of the ocean under
enormous pressures, hot and cold
tempera...
• Archaebacteria can create energy without
light at the bottom of the ocean under
enormous pressures, hot and cold
tempera...
• Video Link! Hydrothermal Vents.
– http://www.youtube.com/watch?v=BXGF3XS-yAI
– without light.
Copyright © 2010 Ryan P. M...
Copyright © 2010 Ryan P. Murphy
Copyright © 2010 Ryan P. Murphy
Learn more about archaeabacteria at…
http://www.ucmp.berkeley.edu/archaea/archaea.html
Copyright © 2010 Ryan P. Murphy
• These bacteria can also be found in
extreme places.
Copyright © 2010 Ryan P. Murphy
• These bacteria can also be found in
extreme places.
– Many scientists think this type of life may be
found in the harsh ...
• These bacteria can also be found in
extreme places.
– Many scientists think this type of life may be
found in the harsh ...
• Video Link! Archaeabacteria
– http://www.youtube.com/watch?v=W25nI9kpxtU
Copyright © 2010 Ryan P. Murphy
“By the way, I
really enjoy
eating
Spaghetti.”
 Domains and Kingdoms
 Domains and Kingdoms
Domain
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Animalia
Cell Type Prokaryotic
(N...
 Domains and Kingdoms
Domain Eubacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Animalia
Cell Type Pro...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
 Domains and Kingdoms
Domain Eubacteria Archae-
bacteria
Kingdom Eubacteria Archae-
bacteria
Protista Plantae Fungi Anima...
• Video Link! Hank Explains Eubacteria,
Archaeabacteria, and Protists
– http://www.youtube.com/watch?v=vAR47-g6tlA
Copyrig...
“Can I come
over for good
spaghetti”
• Taxonomy and Classification Available
Sheet.
– Follows slideshow for classwork.
Copyright © 2010 Ryan P. Murphy
• Does anyone know King Phillip?
Copyright © 2010 Ryan P. Murphy
• Does anyone know King Phillip?
– Will someone invite him over for dinner?
Copyright © 2010 Ryan P. Murphy
• Does anyone know King Phillip?
– Will someone invite him over for dinner?
– He likes spaghetti?
Copyright © 2010 Ryan P....
• Does anyone know King Phillip?
– Will someone invite him over for dinner?
– He likes spaghetti?
– Make sure the spaghett...
 The 8 Taxonomic ranks. All living things
have 8 names.
 1)
 2)
 3)
 4)
 5)
 6)
 7)
 8)
Copyright © 2010 Ryan P. ...
 Domain - Did
Copyright © 2010 Ryan P. Murphy
 Kingdom - King
Copyright © 2010 Ryan P. Murphy
 Phylum - Phillip
Copyright © 2010 Ryan P. Murphy
 Class - Come
Copyright © 2010 Ryan P. Murphy
 Order - Over
Copyright © 2010 Ryan P. Murphy
 Family - For
Copyright © 2010 Ryan P. Murphy
 Genus - Good
Copyright © 2010 Ryan P. Murphy
 Species – Spaghetti
Copyright © 2010 Ryan P. Murphy
• What does “Did King Phillip Come Over
For Good Spaghetti” stand for?
Copyright © 2010 Ryan P. Murphy
• Answer!
– 1) Domain - Did
– 2) Kingdom - King
– 3) Phylum - Phillip
– 4) Class – Come
– 5) Order - Over
– 6) Family - Fo...
• Carlos Linnaeus created a system that uses
binominal nomenclature (two names):
• Carlos Linnaeus created a system that uses
binominal nomenclature (two names):
– Every organism gets a genus and species...
• Carlos Linnaeus created a system that uses
binominal nomenclature (two names):
– Every organism gets a genus and species...
• Carlos Linnaeus created a system that uses
binominal nomenclature (two names):
– Every organism gets a genus and species...
• Carlos Linnaeus created a system that uses
binominal nomenclature (two names):
– Every organism gets a genus and species...
• Carlos Linnaeus created a system that uses
binominal nomenclature (two names):
– Every organism gets a genus and species...
• Carlos Linnaeus created a system that uses
binominal nomenclature (two names):
– Every organism gets a genus and species...
 Genus name is Capitalized, species name
is not. They are both italicized.
Copyright © 2010 Ryan P. Murphy
 Genus name is Capitalized, species name
is not. They are both italicized.
 Ex) Armadillidium vulgare
Copyright © 2010 R...
 Genus name is Capitalized, species name
is not. They are both italicized.
 Ex) Armadillidium vulgare
Copyright © 2010 R...
 Genus name is Capitalized, species name
is not. They are both italicized.
 Ex) Armadillidium vulgare
Copyright © 2010 R...
• Two or more groups can sometimes be found
to be more closely related than thought.
• Two or more groups can sometimes be found
to be more closely related than thought.
– If the organism is more connected t...
• Two or more groups can sometimes be found
to be more closely related than thought.
– If the organism is more connected t...
• The wolf Canus lupus is not endangered.
Canus lupus lupus
• The wolf Canus lupus is not endangered.
– Canus lupus has 39 subspecies. Some of these
subspecies are threatened.
Canus ...
• The wolf Canus lupus is not endangered.
– Canus lupus has 39 subspecies. Some of these
subspecies are threatened.
Canus ...
• The wolf Canus lupus is not endangered.
– Canus lupus has 39 subspecies. Some of these
subspecies are threatened.
Canus ...
• The wolf Canus lupus is not endangered.
– Canus lupus has 39 subspecies. Some of these
subspecies are threatened.
Canus ...
• The wolf Canus lupus is not endangered.
– Canus lupus has 39 subspecies. Some of these
subspecies are threatened.
Canus ...
• The wolf Canus lupus is not endangered.
– Canus lupus has 39 subspecies. Some of these
subspecies are threatened.
Canus ...
• Which of the following organisms below
are not of the Kingdom Animalia?
• Answer – Which are not of Phylum
Chordata?
• Answer – Which are not in the Order
Mammalia?
• Answer – Which are not in the Order
Rodentia?
• Answer – Which are not in the Family
Sciuridae?
• Answer – Which are not in the Genus
Scuirus?
• Answer – Which are not in the Class
vulgaris?
• Answer – Sciurus vulgaris
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Taxanomic Name:
• Domain -Eukarya
• Kingdom -Animalia
• Class -Chordata
• Phylum –Mammalia
• Order –Rodentia
• Family –S...
• Activity! Wearing a “Hello, My name is…”
name tag for the rest of today and tomorrow
until class.
• Activity! Wearing a “Hello, My name is…”
name tag for the rest of today and tomorrow
until class.
Your real name goes he...
Eukarya,
Eukarya, Animalia,
Eukarya, Animalia, Chordata,
Eukarya, Animalia, Chordata, Sub
Phylum Vertebrata,
Eukarya, Animalia, Chordata, Sub
Phylum Vertebrata, Mammalia,
Eukarya, Animalia, Chordata, Sub
Phylum Vertebrata, Mammalia,
Primate,
Eukarya, Animalia, Chordata, Sub
Phylum Vertebrata, Mammalia,
Primate, Hominidae,
Eukarya, Animalia, Chordata, Sub
Phylum Vertebrata, Mammalia,
Primate, Hominidae, Homo sapien
sapien
Eukarya, Animalia, Chordata, Sub
Phylum Vertebrata, Mammalia,
Primate, Hominidae, Homo sapien
sapienSubspecies
 Humans Taxonomic Classification
 -
 -
 -
 -
 -
 -
 -
 -
Copyright © 2010 Ryan P. Murphy
 Domain - Eukarya
Copyright © 2010 Ryan P. Murphy
 Kingdom - Animalia
Copyright © 2010 Ryan P. Murphy
 Phylum - Chordata
Copyright © 2010 Ryan P. Murphy
 Sub-Phylum is vertebrata.
Copyright © 2010 Ryan P. Murphy
• Sub-Phylum is vertebrata.
– Vertebrata have backbone, some primitive
organisms in Chordata have a notochord.
Copyright ©...
 Class - Mammalia
Copyright © 2010 Ryan P. Murphy
 Order – Primate
Copyright © 2010 Ryan P. Murphy
 Family - Hominidae
Copyright © 2010 Ryan P. Murphy
 Genus - Homo
Copyright © 2010 Ryan P. Murphy
 Species – sapien sapien
Copyright © 2010 Ryan P. Murphy
 Species – sapien sapien subspecies
Copyright © 2010 Ryan P. Murphy
 Species – sapien sapien subspecies
Copyright © 2010 Ryan P. Murphy
Homo sapien means wise man, or knowing
man in Latin.
Note: We get another sapiens so
we are Homo sapiens sapiens. It
means we are a bit different (sub
species) from our 250,00...
Note: We get another sapiens so
we are Homo sapiens sapiens. It
means we are a bit different (sub
species) from our 250,00...
• Video Link! (Optional) Khan Academy
• Tree of Life (Advanced)
• http://www.khanacademy.org/video/taxono
my-and-the-tree-...
• Video Link! Taxonomy and Classification
Crash Course.
– Optional and Advanced.
– Preview for language.
– http://www.yout...
• Try Again! Try to guess the mystery
picture beneath the boxes.
– Raise your hand when you think you know.
You only get o...
“Did you know
that I really
like good
spaghetti.”
“Did you know
that I really
like good
spaghetti.”
“If you guessed
a guy
dressed up as
King Phillip
than you are
right.”
• You should be close to page 4/5 in your
bundle.
http://sciencepowerpoint.com/Website Link:
• This PowerPoint is one small part of my Taxonomy and
Classification Unit.
• A Seven Part 3,000+ Slide PowerPoint full of...
Areas of Focus within The Taxonomy and Classification Unit:
Taxonomy, Classification, Need for Taxonomy vs. Common Names, ...
• Please visit the links below to learn more
about each of the units in this curriculum
– These units take me about four y...
Physical Science Units Extended Tour Link and Curriculum Guide
Science Skills Unit http://sciencepowerpoint.com/Science_In...
• More Units Available at…
Earth Science: The Soil Science and Glaciers Unit, The Geology Topics
Unit, The Astronomy Topic...
• Thank you for your time and interest in this
curriculum tour. Please visit the welcome / guide on
how a unit works and l...
http://sciencepowerpoint.com/Website Link:
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants
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Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants

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This PowerPoint is one small part of the Taxonomy and Classification unit from www.sciencepowerpoint.com. A 3800+ slide Five Part PowerPoint presentation becomes the roadmap for an amazing and interactive science experience full of built-in lab activities, built-in quizzes, video links, class notes(red slides),review games, projects, unit notes, answer keys, and much more. Also included is a student version of the unit that is much like the teachers but missing the answer keys, quizzes, PowerPoint review games, hidden box challenges, owl, and surprises meant for the classroom. This is a great resource to distribute to your students and support professionals. The Classification and Taxonomy Unit covers topics associated with Taxonomy and Classification. The unit examines all of the Kingdoms of Life in detail. Areas of Focus within The Taxonomy and Classification Unit: -Taxonomy, Classification, Need for Taxonomy vs. Common Names, What is a Species?, Dichotomous Keys, What does Classification Use?, The Domains of Life, Kingdoms of Life,The 8 Taxonomic Ranks, Humans Taxonomic Classification, Kingdom Monera, Prokaryotic Cells, Types of Eubacteria, Bacteria Classification, Gram Staining,Bacterial Food Borne Illnesses, Penicillin and Antiseptic, Oral Hygiene and Plaque, Bacterial Reproduction (Binary Fission), Asexual Reproduction, Positives and Negatives of Bacteria, Protista, Plant-like Protists, Animal-like Protists, Fungi-like Protists, Animalia, Characteristics of Animalia, Animal Symmetry, Phylums of Animalia (Extensive), Classes of Chordata, Mammals, Subclasses of Mammals, Characteristics of Mammals, Fungi, Positives and Negatives of Fungi, Divisions of Fungi (Extensive), Parts of a Mushroom, 3 Roles of Fungi, Fungi Reproduction, Mold Prevention, Plant Divisions, Kingdom Plantae. If you have any questions please feel free to contact me. Thanks again and best wishes. Sincerely, Ryan Murphy www.sciencepowerpoint@gmail.com

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Dichotomous Key, Classification Lesson PowerPoint, Biology, Idetification Plants

  1. 1. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Universal Ancestor
  2. 2. http://sciencepowerpoint.com/Website Link:
  3. 3.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  4. 4.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  5. 5.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  6. 6.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  7. 7.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  8. 8.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  9. 9.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  10. 10.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  11. 11.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  12. 12.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  13. 13.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  14. 14. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  15. 15. • Please use the key to answer the questions below. – I have no feathers but legs?___________ – I have feathers but don’t swim?________ – I have no feathers or legs?______ – I have feathers and swim?____________ Copyright © 2010 Ryan P. Murphy
  16. 16. • Please use the key to answer the questions below. – I have no feathers but legs? Lizard – I have feathers but don’t swim?________ – I have no feathers or legs?______ – I have feathers and swim?____________ Copyright © 2010 Ryan P. Murphy
  17. 17. • Please use the key to answer the questions below. – I have no feathers but legs? Lizard – I have feathers but don’t swim?________ – I have no feathers or legs?______ – I have feathers and swim?____________ Copyright © 2010 Ryan P. Murphy
  18. 18. • Please use the key to answer the questions below. – I have no feathers but legs? Lizard – I have feathers but don’t swim? Hen – I have no feathers or legs?______ – I have feathers and swim?____________ Copyright © 2010 Ryan P. Murphy
  19. 19. • Please use the key to answer the questions below. – I have no feathers but legs? Lizard – I have feathers but don’t swim? Hen – I have no feathers or legs?______ – I have feathers and swim?____________ Copyright © 2010 Ryan P. Murphy
  20. 20. • Please use the key to answer the questions below. – I have no feathers but legs? Lizard – I have feathers but don’t swim? Hen – I have no feathers or legs? Snake – I have feathers and swim?____________ Copyright © 2010 Ryan P. Murphy
  21. 21. • Please use the key to answer the questions below. – I have no feathers but legs? Lizard – I have feathers but don’t swim? Hen – I have no feathers or legs? Snake – I have feathers and swim?____________ Copyright © 2010 Ryan P. Murphy
  22. 22. • Please use the key to answer the questions below. – I have no feathers but legs? Lizard – I have feathers but don’t swim? Hen – I have no feathers or legs? Snake – I have feathers and swim? Duck Copyright © 2010 Ryan P. Murphy
  23. 23.  Based on characteristics and uses process of comparison and elimination. Copyright © 2010 Ryan P. Murphy
  24. 24. • Which shark fin fits the following description? – Tail not separated into a top and bottom fin. End of tail is blunt instead of pointy? Copyright © 2010 Ryan P. Murphy
  25. 25. • Which shark fin fits the following description? – Tail not separated into a top and bottom fin. End of tail is blunt instead of pointy? Copyright © 2010 Ryan P. Murphy
  26. 26. • Answer! Which shark fin fits the following description? – Tail not separated into a top and bottom fin. End of tail is blunt instead of pointy? Copyright © 2010 Ryan P. Murphy
  27. 27. • Answer! Which two shark fins fit the following description? Copyright © 2010 Ryan P. Murphy
  28. 28. • Answer! Which two shark fins fit the following description? – Upper part of tail extends far beyond the bottom. Tip of top tail fin curved. Copyright © 2010 Ryan P. Murphy
  29. 29. • Answer! Which two shark fins fit the following description? – Upper part of tail extends far beyond the bottom. Tip of top tail fin curved. Copyright © 2010 Ryan P. Murphy
  30. 30. • Which two shark fins fit the following description? – Trunk before tail fin has small fin. Copyright © 2010 Ryan P. Murphy
  31. 31. • Which two shark fins fit the following description? – Trunk before tail fin has small fin. Copyright © 2010 Ryan P. Murphy
  32. 32. • Use constant characteristics rather than ones that disappear or vary with the season or other environmental factor. Copyright © 2010 Ryan P. Murphy
  33. 33. • Use constant characteristics rather than ones that disappear or vary with the season or other environmental factor. Copyright © 2010 Ryan P. Murphy
  34. 34. • Use characteristics which can be directly observed. Copyright © 2010 Ryan P. Murphy
  35. 35. • Use characteristics which can be directly observed. Copyright © 2010 Ryan P. Murphy Black and White color with orange around neck…
  36. 36. • Use characteristics which can be directly observed. Copyright © 2010 Ryan P. Murphy And they love each other…
  37. 37. • Use characteristics which can be directly observed. Copyright © 2010 Ryan P. Murphy And they love each other…
  38. 38. • Use characteristics which can be directly observed. Copyright © 2010 Ryan P. Murphy And they love each other… “They form mating pairs is a better description.”
  39. 39. • What is a big insect to you?
  40. 40. • What is a big insect to you?
  41. 41. • What is a big insect to you?
  42. 42. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… Copyright © 2010 Ryan P. Murphy
  43. 43. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy
  44. 44. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy
  45. 45. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy
  46. 46. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy
  47. 47. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy “OH?” “That’s not very Big.”
  48. 48. • Rules to Follow When Using a Dichotomous Key – Always read both choices, even if the first seems to be the logical. – Understand the meaning of the terms involved in the key. – When measurements are given, use a scale to measure the specimen. Do not guess at a measurement. – Living things are always variable, so do not base your organism identification in the field on a single observation. Copyright © 2010 Ryan P. Murphy
  49. 49. • Rules to Follow When Using a Dichotomous Key – Always read both choices, even if the first seems to be the logical. – Understand the meaning of the terms involved in the key. – When measurements are given, use a scale to measure the specimen. Do not guess at a measurement. – Living things are always variable, so do not base your organism identification in the field on a single observation. Copyright © 2010 Ryan P. Murphy
  50. 50. • Rules to Follow When Using a Dichotomous Key – Always read both choices, even if the first seems to be the logical. – Understand the meaning of the terms involved in the key. – When measurements are given, use a scale to measure the specimen. Do not guess at a measurement. – Living things are always variable, so do not base your organism identification in the field on a single observation. Copyright © 2010 Ryan P. Murphy
  51. 51. • Rules to Follow When Using a Dichotomous Key – Always read both choices, even if the first seems to be the logical. – Understand the meaning of the terms involved in the key. – When measurements are given, use a scale to measure the specimen. Do not guess at a measurement. – Living things are always variable, so do not base your organism identification in the field on a single observation. Copyright © 2010 Ryan P. Murphy
  52. 52. • Rules to Follow When Using a Dichotomous Key – Always read both choices, even if the first seems to be the logical. – Understand the meaning of the terms involved in the key. – When measurements are given, use a scale to measure the specimen. Do not guess at a measurement. – Living things are always variable, so do not base your organism identification in the field on a single observation. Copyright © 2010 Ryan P. Murphy
  53. 53. • Activity! Guess Who / 7 Questions? Copyright © 2010 Ryan P. Murphy
  54. 54. • Activity! Guess Who / 7 Questions? –Create a series of questions to find the three secret members of the class that I have selected and put their names on the card. Copyright © 2010 Ryan P. Murphy
  55. 55. • Activity! Guess Who / 7 Questions? –Create a series of questions to find the three secret members of the class that I have selected and put their names on the card. –Use yes / no questions based on characteristics. Copyright © 2010 Ryan P. Murphy
  56. 56. • Activity! Wacky People. – Use a dichotomous key to find the names for various humanoids. – Assignment is to correctly identify each character with the correct name. Copyright © 2010 Ryan P. Murphy
  57. 57. • Activity – EEK Dichotomous Key – http://www.dnr.state.wi.us/org/caer/ce/eek/veg/ treekey/treestart.htm Copyright © 2010 Ryan P. Murphy Collect a leaf and use the online dichotomous key at… http://oregonstate.edu/trees/dichotomous_key.html
  58. 58. Copyright © 2010 Ryan P. Murphy
  59. 59. • Leaf for EEK Dichotomous key. Copyright © 2010 Ryan P. Murphy
  60. 60. • You should be close to page 4/5 in your bundle.
  61. 61.  Classification uses… Copyright © 2010 Ryan P. Murphy
  62. 62.  Homology: Similarities between organisms Copyright © 2010 Ryan P. Murphy
  63. 63. Copyright © 2010 Ryan P. Murphy
  64. 64. Copyright © 2010 Ryan P. Murphy
  65. 65. Copyright © 2010 Ryan P. Murphy
  66. 66. Copyright © 2010 Ryan P. Murphy
  67. 67. Copyright © 2010 Ryan P. Murphy
  68. 68. Copyright © 2010 Ryan P. Murphy
  69. 69. Copyright © 2010 Ryan P. Murphy
  70. 70. Copyright © 2010 Ryan P. Murphy
  71. 71. Copyright © 2010 Ryan P. Murphy
  72. 72. Copyright © 2010 Ryan P. Murphy
  73. 73. Copyright © 2010 Ryan P. Murphy
  74. 74. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  75. 75. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  76. 76. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  77. 77. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  78. 78. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  79. 79. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  80. 80. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  81. 81. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  82. 82. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  83. 83. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  84. 84. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  85. 85. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  86. 86. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  87. 87. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  88. 88. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  89. 89. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  90. 90. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  91. 91. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  92. 92. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  93. 93. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  94. 94. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  95. 95. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  96. 96. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  97. 97. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  98. 98. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  99. 99. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  100. 100. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  101. 101. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  102. 102. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  103. 103. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  104. 104. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  105. 105. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  106. 106. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  107. 107. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  108. 108. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  109. 109. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  110. 110. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  111. 111. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  112. 112. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  113. 113. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  114. 114. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  115. 115. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  116. 116. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy Learn more about homology at… http://evolution.berkeley.edu/evolibrary/article/lines_04
  117. 117.  DNA: Similar genes aid in classification Copyright © 2010 Ryan P. Murphy
  118. 118. • DNA provides insight into how similar and how different organisms are. Copyright © 2010 Ryan P. Murphy
  119. 119. • DNA provides insight into how similar and how different organisms are. This allows taxonomist to classify organisms more accurately. Copyright © 2010 Ryan P. Murphy
  120. 120. • DNA provides insight into how similar and how different organisms are. This allows taxonomist to classify organisms more accurately. Copyright © 2010 Ryan P. Murphy
  121. 121. • Humans and Chimpanzee share 94% of the same genes. Copyright © 2010 Ryan P. Murphy
  122. 122. • Humans and Chimpanzee share 94% of the same genes. Copyright © 2010 Ryan P. Murphy
  123. 123. • Humans and Chimpanzee share 94% of the same genes. Copyright © 2010 Ryan P. Murphy
  124. 124. • Humans and Chimpanzee share 94% of the same genes. – We can get a blood transfusion from a chimp. Copyright © 2010 Ryan P. Murphy
  125. 125. • Red Pandas
  126. 126. • Red Pandas and Giant Pandas
  127. 127. • Red Pandas and Giant Pandas both eat bamboo.
  128. 128. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to…
  129. 129. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  130. 130. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  131. 131. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  132. 132. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  133. 133. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  134. 134. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  135. 135. • Can these two mate? Copyright © 2010 Ryan P. Murphy
  136. 136. • Horse zebra hybrid (sterile), called a Zebroid. Copyright © 2010 Ryan P. Murphy
  137. 137. • Horse zebra hybrid (sterile), called a Zebroid. – Zebras and horses have a different number of genes. Copyright © 2010 Ryan P. Murphy
  138. 138. • Horse zebra hybrid (sterile), called a Zebroid. – Zebras and horses have a different number of genes. A sterile offspring is usually the result after breeding. Copyright © 2010 Ryan P. Murphy
  139. 139. • Horse zebra hybrid (sterile), called a Zebroid. – Zebras and horses have a different number of genes. A sterile offspring is usually the result after breeding. A horse and zebra are closely related but both different species. Copyright © 2010 Ryan P. Murphy
  140. 140. • Activity Worksheet! Salamander (Order Caudata) Dichotomous Key. – Use a dichotomous key to identify salamanders Copyright © 2010 Ryan P. Murphy
  141. 141.  The 3 Domains of Life. All life is either…  Archaeabacteria  Eubacteria  Eukarya Copyright © 2010 Ryan P. Murphy
  142. 142.  The 3 Domains of Life. All life is either…  Archaeabacteria  Eubacteria  Eukarya Copyright © 2010 Ryan P. Murphy
  143. 143.  The 3 Domains of Life. All life is either…  Archaeabacteria  Eubacteria  Eukarya Copyright © 2010 Ryan P. Murphy
  144. 144.  The 3 Domains of Life. All life is either…  Archaeabacteria  Eubacteria  Eukarya Copyright © 2010 Ryan P. Murphy
  145. 145.  The 3 Domains of Life. All life is either…  Archaeabacteria  Eubacteria  Eukarya Copyright © 2010 Ryan P. Murphy Learn more about the Domains of Life at… http://www.ucmp.berkeley.edu/alllife/threedomains.html
  146. 146. • Humans are Eukarya, Copyright © 2010 Ryan P. Murphy
  147. 147. • Humans are Eukarya, the other domains are forms of bacteria. Copyright © 2010 Ryan P. Murphy
  148. 148. “Excuse Me” “Does anyone know where I can find some good food.”
  149. 149.  The Kingdoms of life. Copyright © 2010 Ryan P. Murphy
  150. 150.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  151. 151.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  152. 152.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  153. 153.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  154. 154.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  155. 155.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  156. 156.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy Monera
  157. 157.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy Monera
  158. 158.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy Monera
  159. 159.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy Monera
  160. 160.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy Monera
  161. 161.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy Monera Learn more about the six Kingdoms of Life at… http://biology.about.com/od/evolution/a/aa091004a.htm
  162. 162. “I’m dressed as King Phillip.” “Am I late for the spaghetti dinner?”
  163. 163. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  164. 164. Copyright © 2010 Ryan P. Murphy
  165. 165. Copyright © 2010 Ryan P. Murphy
  166. 166. Copyright © 2010 Ryan P. Murphy
  167. 167. Copyright © 2010 Ryan P. Murphy
  168. 168. Copyright © 2010 Ryan P. Murphy
  169. 169. Copyright © 2010 Ryan P. Murphy
  170. 170. Copyright © 2010 Ryan P. Murphy
  171. 171. Copyright © 2010 Ryan P. Murphy
  172. 172. Copyright © 2010 Ryan P. Murphy
  173. 173. Copyright © 2010 Ryan P. Murphy
  174. 174. Copyright © 2010 Ryan P. Murphy Universal Ancestor
  175. 175. Copyright © 2010 Ryan P. Murphy Universal Ancestor
  176. 176. Copyright © 2010 Ryan P. Murphy Universal Ancestor
  177. 177. Copyright © 2010 Ryan P. Murphy Eubacteria Universal Ancestor
  178. 178. Copyright © 2010 Ryan P. Murphy Eubacteria Universal Ancestor
  179. 179. Copyright © 2010 Ryan P. Murphy Eubacteria Prokaryotic (Cells with no Nucleus) Universal Ancestor
  180. 180. Copyright © 2010 Ryan P. Murphy Eubacteria Prokaryotic (Cells with no Nucleus) Universal Ancestor
  181. 181. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Prokaryotic (Cells with no Nucleus) Universal Ancestor
  182. 182. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Prokaryotic (Cells with no Nucleus) Universal Ancestor
  183. 183. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Prokaryotic (Cells with no Nucleus) Universal Ancestor
  184. 184. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Universal Ancestor
  185. 185. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Universal Ancestor
  186. 186. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Universal Ancestor
  187. 187. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Universal Ancestor
  188. 188. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Universal Ancestor
  189. 189. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Universal Ancestor
  190. 190. Copyright © 2010 Ryan P. Murphy Eubacteria Archaebacteria Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Universal Ancestor
  191. 191. • Until recently (1984), scientists believed all life got its energy from the sun. Copyright © 2010 Ryan P. Murphy
  192. 192. • Until recently (1984), scientists believed all life got its energy from the sun. Copyright © 2010 Ryan P. Murphy
  193. 193. • Until recently (1984), scientists believed all life got its energy from the sun. A whole new system existed on the ocean floor. Copyright © 2010 Ryan P. Murphy
  194. 194. • Until recently (1984), scientists believed all life got its energy from the sun. A whole new system existed on the ocean floor. Copyright © 2010 Ryan P. Murphy
  195. 195. • Until recently (1984), scientists believed all life got its energy from the sun. A whole new system existed on the ocean floor. Copyright © 2010 Ryan P. Murphy 12H2S + 6CO2 → C6H12O6 (=carbohydrate) + 6H2O + 12S Learn more about the differences between chemosynthesis and photosynthesis at... http://oceanexplorer.noaa.gov/facts/photochemo.html
  196. 196. • Archaebacteria can create energy without light at the bottom of the ocean under enormous pressures, Copyright © 2010 Ryan P. Murphy
  197. 197. • Archaebacteria can create energy without light at the bottom of the ocean under enormous pressures, hot and cold temperatures and without light. Copyright © 2010 Ryan P. Murphy
  198. 198. • Archaebacteria can create energy without light at the bottom of the ocean under enormous pressures, hot and cold temperatures and without light. Copyright © 2010 Ryan P. Murphy
  199. 199. • Video Link! Hydrothermal Vents. – http://www.youtube.com/watch?v=BXGF3XS-yAI – without light. Copyright © 2010 Ryan P. Murphy
  200. 200. Copyright © 2010 Ryan P. Murphy
  201. 201. Copyright © 2010 Ryan P. Murphy Learn more about archaeabacteria at… http://www.ucmp.berkeley.edu/archaea/archaea.html
  202. 202. Copyright © 2010 Ryan P. Murphy
  203. 203. • These bacteria can also be found in extreme places. Copyright © 2010 Ryan P. Murphy
  204. 204. • These bacteria can also be found in extreme places. – Many scientists think this type of life may be found in the harsh environments on other planets. Copyright © 2010 Ryan P. Murphy
  205. 205. • These bacteria can also be found in extreme places. – Many scientists think this type of life may be found in the harsh environments on other planets. Copyright © 2010 Ryan P. Murphy Their cell membrane is a bit different from Eubacteria which allow them to survive in harsh places.
  206. 206. • Video Link! Archaeabacteria – http://www.youtube.com/watch?v=W25nI9kpxtU Copyright © 2010 Ryan P. Murphy
  207. 207. “By the way, I really enjoy eating Spaghetti.”
  208. 208.  Domains and Kingdoms
  209. 209.  Domains and Kingdoms Domain Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies
  210. 210.  Domains and Kingdoms Domain Eubacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies
  211. 211.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies
  212. 212.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies
  213. 213.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies
  214. 214.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies
  215. 215.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Gets Energy from.. Varies Varies
  216. 216.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or Multi- Cellular Gets Energy from..
  217. 217.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Gets Energy from..
  218. 218.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Cell Wall Prokaryotic (No nucleus) Cell Wall Eukaryotic (Nucleus) Cell Wall Varies Eukaryotic (Nucleus) Cell Wall Eukaryotic (Nucleus) Cell Wall (Chitin) Eukaryotic (Nucleus) No Cell Wall Single or Multi- Cellular Gets Energy from..
  219. 219.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Gets Energy from..
  220. 220.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Most are Unicellular) Some are multicellular Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies
  221. 221.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Auto / Hetero Varies Auto / Hetero Varies Auto / Hetero Sunlight Autotrophic Absorbs Hetero- trophic Consumes Hetero- trophic
  222. 222.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Auto / Hetero Varies Auto / Hetero Varies Auto / Hetero Sunlight Autotrophic Absorbs Hetero- trophic Consumes Hetero- trophic Autrophic: Can make its own food (chemo or photsynthesis
  223. 223.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Auto / Hetero Varies Auto / Hetero Varies Auto / Hetero Sunlight Autotrophic Absorbs Hetero- trophic Consumes Hetero- trophic Heterotrophic: Must consume food (eat or absorb)
  224. 224.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food
  225. 225.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a multicellular organism that absorbs its food?
  226. 226.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Hetero- trophic Consumes Food I’m a multicellular organism that absorbs its food? Fungi (Heterotrophs)
  227. 227.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a single celled organism that has a nucleus?
  228. 228.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a single celled organism that has a nucleus? Protista
  229. 229.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a multicellular organism that can make it own food?
  230. 230.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Auto- trophic Absorbs Consumes Food I’m a multicellular organism that can make it own food? Plantae (Autotroph)
  231. 231.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a unicellular organism without a nucleus?
  232. 232.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a unicellular organism without a nucleus? Eubacteria or Archaebacteria
  233. 233.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a multicellular organism that eats other organisms?
  234. 234.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Hetero- trophic I’m a multicellular organism that eats other organisms?
  235. 235.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a multicellular organism?
  236. 236.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a multicellular organism? Plantae, Fungi, and Animalia
  237. 237.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m an autroph?
  238. 238.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m an autroph? Eubacteria, Archaebacteria, some Protista, and Plantae (Varies)
  239. 239.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m only a heterotroph?
  240. 240.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m only a heterotroph? Fungi and Animalia, they must eat or absorb food.
  241. 241.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m heterotrophic?
  242. 242.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m heterotrophic? Fungi and Animalia, and Eubacteria, Archaebacteria, Protista (Varies)
  243. 243.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Varies Multicellular Cell Wall Multicellular Cell Wall (Chitin) Multicellular No Cell Wall Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I don’t have a cell wall?
  244. 244.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Varies Multicellular Cell Wall Multicellular Cell Wall (Chitin) Multicellular No Cell Wall Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I don’t have a cell wall? Animalia
  245. 245.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Varies Multicellular Cell Wall Multicellular Cell Wall (Chitin) Multicellular No Cell Wall Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I have a cell wall but it’s made of chitin?
  246. 246.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Varies Multicellular Cell Wall Multicellular Cell Wall (Chitin) Multicellular No Cell Wall Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I have a cell wall but it’s made of chitin? Fungi
  247. 247.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Varies Multicellular Cell Wall Multicellular Cell Wall (Chitin) Multicellular No Cell Wall Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I have a cell wall made of peptidoglycan?
  248. 248.  Domains and Kingdoms Domain Eubacteria Archae- bacteria Kingdom Eubacteria Archae- bacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or Multi- Cellular Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Single (Unicellular) Cell Wall Varies Multicellular Cell Wall Multicellular Cell Wall (Chitin) Multicellular No Cell Wall Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I have a cell wall made of peptidoglycan? Eubacteria
  249. 249. • Video Link! Hank Explains Eubacteria, Archaeabacteria, and Protists – http://www.youtube.com/watch?v=vAR47-g6tlA Copyright © 2010 Ryan P. Murphy
  250. 250. “Can I come over for good spaghetti”
  251. 251. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  252. 252. Copyright © 2010 Ryan P. Murphy
  253. 253. • Does anyone know King Phillip? Copyright © 2010 Ryan P. Murphy
  254. 254. • Does anyone know King Phillip? – Will someone invite him over for dinner? Copyright © 2010 Ryan P. Murphy
  255. 255. • Does anyone know King Phillip? – Will someone invite him over for dinner? – He likes spaghetti? Copyright © 2010 Ryan P. Murphy
  256. 256. • Does anyone know King Phillip? – Will someone invite him over for dinner? – He likes spaghetti? – Make sure the spaghetti is good, King Phillip only likes top quality pasta. Copyright © 2010 Ryan P. Murphy
  257. 257.  The 8 Taxonomic ranks. All living things have 8 names.  1)  2)  3)  4)  5)  6)  7)  8) Copyright © 2010 Ryan P. Murphy
  258. 258.  Domain - Did Copyright © 2010 Ryan P. Murphy
  259. 259.  Kingdom - King Copyright © 2010 Ryan P. Murphy
  260. 260.  Phylum - Phillip Copyright © 2010 Ryan P. Murphy
  261. 261.  Class - Come Copyright © 2010 Ryan P. Murphy
  262. 262.  Order - Over Copyright © 2010 Ryan P. Murphy
  263. 263.  Family - For Copyright © 2010 Ryan P. Murphy
  264. 264.  Genus - Good Copyright © 2010 Ryan P. Murphy
  265. 265.  Species – Spaghetti Copyright © 2010 Ryan P. Murphy
  266. 266. • What does “Did King Phillip Come Over For Good Spaghetti” stand for? Copyright © 2010 Ryan P. Murphy
  267. 267. • Answer! – 1) Domain - Did – 2) Kingdom - King – 3) Phylum - Phillip – 4) Class – Come – 5) Order - Over – 6) Family - For – 7) Genus - Good – 8) Species – Spaghetti Copyright © 2010 Ryan P. Murphy
  268. 268. • Carlos Linnaeus created a system that uses binominal nomenclature (two names):
  269. 269. • Carlos Linnaeus created a system that uses binominal nomenclature (two names): – Every organism gets a genus and species name.
  270. 270. • Carlos Linnaeus created a system that uses binominal nomenclature (two names): – Every organism gets a genus and species name. – The names are usually based in Latin
  271. 271. • Carlos Linnaeus created a system that uses binominal nomenclature (two names): – Every organism gets a genus and species name. – The names are usually based in Latin Brachypelma smithi Grammostola rosea
  272. 272. • Carlos Linnaeus created a system that uses binominal nomenclature (two names): – Every organism gets a genus and species name. – The names are usually based in Latin Brachypelma smithi Grammostola rosea
  273. 273. • Carlos Linnaeus created a system that uses binominal nomenclature (two names): – Every organism gets a genus and species name. – The names are usually based in Latin Brachypelma smithi Grammostola rosea
  274. 274. • Carlos Linnaeus created a system that uses binominal nomenclature (two names): – Every organism gets a genus and species name. – The names are usually based in Latin Brachypelma smithi Grammostola rosea
  275. 275.  Genus name is Capitalized, species name is not. They are both italicized. Copyright © 2010 Ryan P. Murphy
  276. 276.  Genus name is Capitalized, species name is not. They are both italicized.  Ex) Armadillidium vulgare Copyright © 2010 Ryan P. Murphy
  277. 277.  Genus name is Capitalized, species name is not. They are both italicized.  Ex) Armadillidium vulgare Copyright © 2010 Ryan P. Murphy
  278. 278.  Genus name is Capitalized, species name is not. They are both italicized.  Ex) Armadillidium vulgare Copyright © 2010 Ryan P. Murphy
  279. 279. • Two or more groups can sometimes be found to be more closely related than thought.
  280. 280. • Two or more groups can sometimes be found to be more closely related than thought. – If the organism is more connected than originally though the species can be connected with a super put on the name “Supergroups”.
  281. 281. • Two or more groups can sometimes be found to be more closely related than thought. – If the organism is more connected than originally though the species can be connected with a super put on the name “Supergroups”. – If less connected than originally thought the species may be a subspecies.
  282. 282. • The wolf Canus lupus is not endangered. Canus lupus lupus
  283. 283. • The wolf Canus lupus is not endangered. – Canus lupus has 39 subspecies. Some of these subspecies are threatened. Canus lupus lupus
  284. 284. • The wolf Canus lupus is not endangered. – Canus lupus has 39 subspecies. Some of these subspecies are threatened. Canus lupus lupus Canis lupus albus Canis lupus arabs
  285. 285. • The wolf Canus lupus is not endangered. – Canus lupus has 39 subspecies. Some of these subspecies are threatened. Canus lupus lupus Canis lupus arctos Canis lupus baileyi
  286. 286. • The wolf Canus lupus is not endangered. – Canus lupus has 39 subspecies. Some of these subspecies are threatened. Canus lupus lupus Canis lupus crassodon Canis lupus dingo
  287. 287. • The wolf Canus lupus is not endangered. – Canus lupus has 39 subspecies. Some of these subspecies are threatened. Canus lupus lupus Canis lupus familaris Canis lupus dingo Domestic Dog
  288. 288. • The wolf Canus lupus is not endangered. – Canus lupus has 39 subspecies. Some of these subspecies are threatened. Canus lupus lupus Canis lupus familaris Canis lupus dingo Domestic Dog Not threatened
  289. 289. • Which of the following organisms below are not of the Kingdom Animalia?
  290. 290. • Answer – Which are not of Phylum Chordata?
  291. 291. • Answer – Which are not in the Order Mammalia?
  292. 292. • Answer – Which are not in the Order Rodentia?
  293. 293. • Answer – Which are not in the Family Sciuridae?
  294. 294. • Answer – Which are not in the Genus Scuirus?
  295. 295. • Answer – Which are not in the Class vulgaris?
  296. 296. • Answer – Sciurus vulgaris
  297. 297. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  298. 298. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  299. 299. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  300. 300. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  301. 301. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  302. 302. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  303. 303. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  304. 304. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  305. 305. • Taxanomic Name: • Domain -Eukarya • Kingdom -Animalia • Class -Chordata • Phylum –Mammalia • Order –Rodentia • Family –Sciuridae • Genus –Sciurus • Species -vulgaris
  306. 306. • Activity! Wearing a “Hello, My name is…” name tag for the rest of today and tomorrow until class.
  307. 307. • Activity! Wearing a “Hello, My name is…” name tag for the rest of today and tomorrow until class. Your real name goes here…
  308. 308. Eukarya,
  309. 309. Eukarya, Animalia,
  310. 310. Eukarya, Animalia, Chordata,
  311. 311. Eukarya, Animalia, Chordata, Sub Phylum Vertebrata,
  312. 312. Eukarya, Animalia, Chordata, Sub Phylum Vertebrata, Mammalia,
  313. 313. Eukarya, Animalia, Chordata, Sub Phylum Vertebrata, Mammalia, Primate,
  314. 314. Eukarya, Animalia, Chordata, Sub Phylum Vertebrata, Mammalia, Primate, Hominidae,
  315. 315. Eukarya, Animalia, Chordata, Sub Phylum Vertebrata, Mammalia, Primate, Hominidae, Homo sapien sapien
  316. 316. Eukarya, Animalia, Chordata, Sub Phylum Vertebrata, Mammalia, Primate, Hominidae, Homo sapien sapienSubspecies
  317. 317.  Humans Taxonomic Classification  -  -  -  -  -  -  -  - Copyright © 2010 Ryan P. Murphy
  318. 318.  Domain - Eukarya Copyright © 2010 Ryan P. Murphy
  319. 319.  Kingdom - Animalia Copyright © 2010 Ryan P. Murphy
  320. 320.  Phylum - Chordata Copyright © 2010 Ryan P. Murphy
  321. 321.  Sub-Phylum is vertebrata. Copyright © 2010 Ryan P. Murphy
  322. 322. • Sub-Phylum is vertebrata. – Vertebrata have backbone, some primitive organisms in Chordata have a notochord. Copyright © 2010 Ryan P. Murphy
  323. 323.  Class - Mammalia Copyright © 2010 Ryan P. Murphy
  324. 324.  Order – Primate Copyright © 2010 Ryan P. Murphy
  325. 325.  Family - Hominidae Copyright © 2010 Ryan P. Murphy
  326. 326.  Genus - Homo Copyright © 2010 Ryan P. Murphy
  327. 327.  Species – sapien sapien Copyright © 2010 Ryan P. Murphy
  328. 328.  Species – sapien sapien subspecies Copyright © 2010 Ryan P. Murphy
  329. 329.  Species – sapien sapien subspecies Copyright © 2010 Ryan P. Murphy Homo sapien means wise man, or knowing man in Latin.
  330. 330. Note: We get another sapiens so we are Homo sapiens sapiens. It means we are a bit different (sub species) from our 250,000 year old ancestors. Not that much different however (less robust and some differences in the skull and slightly larger brain size). We could still mate with them? That would be a bit awkward I imagine.
  331. 331. Note: We get another sapiens so we are Homo sapiens sapiens. It means we are a bit different (sub species) from our 250,000 year old ancestors. Not that much different however (less robust and some differences in the skull and slightly larger brain size). We could still mate with them? That would be a bit awkward I imagine.
  332. 332. • Video Link! (Optional) Khan Academy • Tree of Life (Advanced) • http://www.khanacademy.org/video/taxono my-and-the-tree-of-life?playlist=Biology
  333. 333. • Video Link! Taxonomy and Classification Crash Course. – Optional and Advanced. – Preview for language. – http://www.youtube.com/watch?v=F38BmgPcZ_I
  334. 334. • Try Again! Try to guess the mystery picture beneath the boxes. – Raise your hand when you think you know. You only get one guess. Copyright © 2010 Ryan P. Murphy
  335. 335. “Did you know that I really like good spaghetti.”
  336. 336. “Did you know that I really like good spaghetti.”
  337. 337. “If you guessed a guy dressed up as King Phillip than you are right.”
  338. 338. • You should be close to page 4/5 in your bundle.
  339. 339. http://sciencepowerpoint.com/Website Link:
  340. 340. • This PowerPoint is one small part of my Taxonomy and Classification Unit. • A Seven Part 3,000+ Slide PowerPoint full of engaging activities, critical class notes, review opportunities, question, answers, games, and much more. • 19 Page bundled homework that chronologically follows the slideshow for nightly review. Modified version provided as well as answer keys. • 24 pages of unit notes with visuals for students and support professionals. • 2 PowerPoint Review Games with Answer Key • Rubrics, videos, templates, materials list, First Day PowerPoint, guide, and much more. • http://sciencepowerpoint.com/Taxonomy_Classification_Unit. html
  341. 341. Areas of Focus within The Taxonomy and Classification Unit: Taxonomy, Classification, Need for Taxonomy vs. Common Names, What is a Species?, Dichotomous Keys, What does Classification Use?, The Domains of Life, Kingdoms of Life,The 8 Taxonomic Ranks, Humans Taxonomic Classification, Kingdom Monera, Prokaryotic Cells, Types of Eubacteria, Bacteria Classification, Gram Staining,Bacterial Food Borne Illnesses, Penicillin and Antiseptic, Oral Hygiene and Plaque, Bacterial Reproduction (Binary Fission), Asexual Reproduction, Positives and Negatives of Bacteria, Protista, Plant-like Protists, Animal-like Protists, Fungi-like Protists, Animalia, Characteristics of Animalia, Animal Symmetry, Phylums of Animalia (Extensive), Classes of Chordata, Mammals, Subclasses of Mammals, Characteristics of Mammals, Classes of Fish, Fashion a Fish Project, Animal Poster Project, Fungi, Positives and Negatives of Fungi, Divisions of Fungi (Extensive), Parts of a Mushroom, 3 Roles of Fungi, Fungi Reproduction, Mold Prevention, Plant Divisions, Photosynthesis, Plant Photo Tour, Non Vascular Plants, Algae, Lichens, Bryophytes, Seedless Vascular Plants, Cone Bearing Plants, Flowering Plants, Monocotyledons, Dicotyledons and much more. Full Unit can be found at… http://sciencepowerpoint.com/Taxonomy_Classification_Unit.html
  342. 342. • Please visit the links below to learn more about each of the units in this curriculum – These units take me about four years to complete with my students in grades 5-10. Earth Science Units Extended Tour Link and Curriculum Guide Geology Topics Unit http://sciencepowerpoint.com/Geology_Unit.html Astronomy Topics Unit http://sciencepowerpoint.com/Astronomy_Unit.html Weather and Climate Unit http://sciencepowerpoint.com/Weather_Climate_Unit.html Soil Science, Weathering, More http://sciencepowerpoint.com/Soil_and_Glaciers_Unit.html Water Unit http://sciencepowerpoint.com/Water_Molecule_Unit.html Rivers Unit http://sciencepowerpoint.com/River_and_Water_Quality_Unit.html = Easier = More Difficult = Most Difficult  5th – 7th grade 6th – 8th grade 8th – 10th grade
  343. 343. Physical Science Units Extended Tour Link and Curriculum Guide Science Skills Unit http://sciencepowerpoint.com/Science_Introduction_Lab_Safety_Metric_Methods. html Motion and Machines Unit http://sciencepowerpoint.com/Newtons_Laws_Motion_Machines_Unit.html Matter, Energy, Envs. Unit http://sciencepowerpoint.com/Energy_Topics_Unit.html Atoms and Periodic Table Unit http://sciencepowerpoint.com/Atoms_Periodic_Table_of_Elements_Unit.html Life Science Units Extended Tour Link and Curriculum Guide Human Body / Health Topics http://sciencepowerpoint.com/Human_Body_Systems_and_Health_Topics_Unit.html DNA and Genetics Unit http://sciencepowerpoint.com/DNA_Genetics_Unit.html Cell Biology Unit http://sciencepowerpoint.com/Cellular_Biology_Unit.html Infectious Diseases Unit http://sciencepowerpoint.com/Infectious_Diseases_Unit.html Taxonomy and Classification Unit http://sciencepowerpoint.com/Taxonomy_Classification_Unit.html Evolution / Natural Selection Unit http://sciencepowerpoint.com/Evolution_Natural_Selection_Unit.html Botany Topics Unit http://sciencepowerpoint.com/Plant_Botany_Unit.html Ecology Feeding Levels Unit http://sciencepowerpoint.com/Ecology_Feeding_Levels_Unit.htm Ecology Interactions Unit http://sciencepowerpoint.com/Ecology_Interactions_Unit.html Ecology Abiotic Factors Unit http://sciencepowerpoint.com/Ecology_Abiotic_Factors_Unit.html
  344. 344. • More Units Available at… Earth Science: The Soil Science and Glaciers Unit, The Geology Topics Unit, The Astronomy Topics Unit, The Weather and Climate Unit, and The River Unit, The Water Molecule Unit. Physical Science: The Laws of Motion and Machines Unit, The Atoms and Periodic Table Unit, The Energy and the Environment Unit, and The Introduction to Science / Metric Unit. Life Science: The Diseases and Cells Unit, The DNA and Genetics Unit, The Life Topics Unit, The Plant Unit, The Taxonomy and Classification Unit, Ecology: Feeding Levels Unit, Ecology: Interactions Unit, Ecology: Abiotic Factors, The Evolution and Natural Selection Unit and The Human Body Systems and Health Topics Unit. Copyright © 2010 Ryan P. Murphy
  345. 345. • Thank you for your time and interest in this curriculum tour. Please visit the welcome / guide on how a unit works and link to the many unit previews to see the PowerPoint slideshows, bundled homework, review games, unit notes, and much more. Thank you for your interest and please feel free to contact me with any questions you may have. Best wishes. • Sincerely, • Ryan Murphy M.Ed • ryemurf@gmail.com
  346. 346. http://sciencepowerpoint.com/Website Link:

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