Taxonomy and Classification Lesson PowerPoint

4,807 views
4,648 views

Published on

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

0 Comments
16 Likes
Statistics
Notes
  • Be the first to comment

No Downloads
Views
Total views
4,807
On SlideShare
0
From Embeds
0
Number of Embeds
2
Actions
Shares
0
Downloads
0
Comments
0
Likes
16
Embeds 0
No embeds

No notes for slide

Taxonomy and Classification Lesson PowerPoint

  1. 1. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  2. 2. Website Link: http://sciencepowerpoint.com/
  3. 3. • RED SLIDE: These are notes that are very important and should be recorded in your science journal. Copyright © 2010 Ryan P. Murphy
  4. 4. -Please make notes legible and use indentations when appropriate. -Example of indent. -Skip a line between topics -Don’t skip pages -Make visuals clear and well drawn.
  5. 5. • RED SLIDE: These are notes that are very important and should be recorded in your science journal. • BLACK SLIDE: Pay attention, follow directions, complete projects as described and answer required questions neatly. Copyright © 2010 Ryan P. Murphy
  6. 6. • Keep an eye out for “The-Owl” and raise your hand as soon as you see him. – He will be hiding somewhere in the slideshow “Hoot, Hoot” “Good Luck!” Copyright © 2010 Ryan P. Murphy
  7. 7. • Remember! – Humans share, and are deeply connected to the millions of species that exist on this planet. Without them, the systems that support life on this planet would fail. Copyright © 2010 Ryan P. Murphy
  8. 8. Taxonomy and Classification Unit Copyright © 2010 Ryan P. Murphy
  9. 9. • Let’s go around the room and share where we live.
  10. 10. • Let’s now break it down from large to small or from broad to specific. ––––––––-  This unit belongs to Ryan P. Murphy Copyright 2010 Copyright © 2010 Ryan P. Murphy
  11. 11. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States New Hampshire Merrimack County Andover Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  12. 12. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States New Hampshire Merrimack County Andover Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  13. 13. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States New Hampshire Merrimack County Andover Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  14. 14. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States New Hampshire Merrimack County Andover Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  15. 15. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States New Hampshire Merrimack County Andover Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  16. 16. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States New Hampshire Merrimack County Andover Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  17. 17. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States New Hampshire Merrimack County Andover Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  18. 18. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States Our State Merrimack County Andover Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  19. 19. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States Our State Our County Our Town Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  20. 20. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States Our State Our County Our Town Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  21. 21. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States Our State Our County Our Town Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  22. 22. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States Our State Our County Our Town Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  23. 23. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States Our State Our County Our Town Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  24. 24. • You live, from broad to specific… – – – – – – – – – – The Cosmos The Milkyway Galaxy The Sol System (solar system) Planet Earth North American Continent United States Our State Our County Our Town Address • Number on road • Apartment at this number. Copyright © 2010 Ryan P. Murphy
  25. 25. • Please classify the organization of your grade at school. Include how the school organizes you, and how you organize yourselves. (work in table groups) (Must be respectful of others!) Copyright © 2010 Ryan P. Murphy
  26. 26. • You are classified by… – U.S Citizens – State Residents – County Residents – Town Residents – By Age – By homeroom • Gender – By peer groups • Umm Copyright © 2010 Ryan P. Murphy
  27. 27. • You are classified by… – U.S Citizens – State Residents – County Residents – Town Residents – By Age – By homeroom • Gender – By peer groups • Umm Copyright © 2010 Ryan P. Murphy
  28. 28. • You are classified by… – U.S Citizens – State Residents – County Residents – Town Residents – By Age – By homeroom • Gender – By peer groups • Umm Copyright © 2010 Ryan P. Murphy
  29. 29. • You are classified by… – U.S Citizens – State Residents – County Residents – Town Residents – By Age – By homeroom • Gender – By peer groups • Umm Copyright © 2010 Ryan P. Murphy
  30. 30. • You are classified by… – U.S Citizens – State Residents – County Residents – Town Residents – By Age – By homeroom • Gender – By peer groups • Umm Copyright © 2010 Ryan P. Murphy
  31. 31. • You are classified by… – U.S Citizens – State Residents – County Residents – Town Residents – By Age – By homeroom • Gender – By peer groups • Umm Copyright © 2010 Ryan P. Murphy
  32. 32. • You are classified by… – U.S Citizens – State Residents – County Residents – Town Residents – By Age – By homeroom • Gender – By peer groups • Umm Copyright © 2010 Ryan P. Murphy
  33. 33. • You are classified by… – U.S Citizens – State Residents – County Residents – Town Residents – By Age – By homeroom • Gender – By peer groups • Umm Copyright © 2010 Ryan P. Murphy
  34. 34. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  35. 35. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  36. 36. • Activity! Pile of Sneakers. Copyright © 2010 Ryan P. Murphy
  37. 37. • Activity! Pile of Sneakers. – Take off one of your sneakers / footwear and place it in a pile in the middle of the classroom. Copyright © 2010 Ryan P. Murphy
  38. 38. • Activity! Pile of Sneakers. – Take off one of your sneakers / footwear and place it in a pile in the middle of the classroom. – Classify the types of footwear into different groups based on their similarities and differences. Copyright © 2010 Ryan P. Murphy
  39. 39. • Activity! Pile of Sneakers. – Take off one of your sneakers / footwear and place it in a pile in the middle of the classroom. – Classify the types of footwear into different groups based on their similarities and differences. – Describe the physical features of each group, why are they placed where they are? Copyright © 2010 Ryan P. Murphy
  40. 40. • Other Option. Nuts and Bolts Classification. – Please arrange the bolts into groups that have similar characteristics (a few groups). – Describe the physical features of each group, why are they placed where they are? Copyright © 2010 Ryan P. Murphy
  41. 41. “Has anyone seen my shoes?” “I left them somewhere.”
  42. 42.  Taxonomy: The science of classification. Copyright © 2010 Ryan P. Murphy
  43. 43. • Modern taxonomic classification, based on the natural concepts and system of the Swedish botanist Carolus Linnaeus. Copyright © 2010 Ryan P. Murphy
  44. 44. • Modern taxonomic classification, based on the natural concepts and system of the Swedish botanist Carolus Linnaeus. Learn more about Carolus Linnaeus at.. http://www.ucmp.berkeley.edu/history/linnaeus.html Copyright © 2010 Ryan P. Murphy
  45. 45. • Which portrait is of Carolus Linnaeus?
  46. 46. • Which portrait is of Carolus Linnaeus?
  47. 47. • Which portrait is of Carolus Linnaeus? • King Phillip of Spain
  48. 48. • Which portrait is of Carolus Linnaeus? • King Phillip of Spain
  49. 49. • Which portrait is of Carolus Linnaeus? • King Phillip of Spain Carolus Linnaeus
  50. 50. • Which portrait is of Carolus Linnaeus? • Carolus Linnaeus King Phillip of Spain
  51. 51. • Which portrait is of Carolus Linnaeus? • Carolus Linnaeus King Phillip of Spain
  52. 52. • Which portrait is of Carolus Linnaeus? • Carolus Linnaeus King Phillip of Spain
  53. 53. • Which portrait is of Carolus Linnaeus? • Carolus Linnaeus King Phillip of Spain
  54. 54. • Which portrait is of Carolus Linnaeus? • Carolus Linnaeus King Phillip of Spain
  55. 55.  Classification is a very broad term which simply means putting things into groups.  Taxonomy means giving names to things. Copyright © 2010 Ryan P. Murphy
  56. 56.  Classification is a very broad term which simply means putting things into groups.  Taxonomy means giving names to things. Copyright © 2010 Ryan P. Murphy
  57. 57. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  58. 58. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  59. 59. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  60. 60. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  61. 61. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  62. 62. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  63. 63. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  64. 64. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  65. 65. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  66. 66. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  67. 67. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  68. 68. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  69. 69. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  70. 70. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  71. 71. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  72. 72. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  73. 73. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  74. 74. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  75. 75. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  76. 76. • How well do you know some common wildlife by their taxonomic names? Danaus plexippus Micropterus salmoides Bos taurus Marmota monax Notophthalmus viridescens Meleagris gallopavo Cyanocitta cristata Rana Catesbiana Odocoileus virginianus Groundhog White Tailed Deer Largemouth Bass Domestic cow Blue Jay Turkey Newt Bull Frog Monarch Butterfly Copyright © 2010 Ryan P. Murphy
  77. 77. • Class Poll, Which naming system do you prefer, common names or scientific names? Common Names Science Names • Should we use the science system or the common system? Copyright © 2010 Ryan P. Murphy
  78. 78. • Note: The next hundred slides are going to be a bit silly.
  79. 79. • Note: The next hundred slides are going to be a bit silly. – Only by exposing the silliness of common names will you see the importance of a naming and classification system.
  80. 80. • Note: The next hundred slides are going to be a bit silly. – Only by exposing the silliness of common names will you see the importance of a naming and classification system.
  81. 81. • Note: The next hundred slides are going to be a bit silly. – Only by exposing the silliness of common names will you see the importance of a naming and classification system.
  82. 82. • These are the birds that border forests near grasslands in the central United States. Copyright © 2010 Ryan P. Murphy
  83. 83. • Which bird do you think is the Red Breasted Black Bird? Copyright © 2010 Ryan P. Murphy
  84. 84. • Answer! Copyright © 2010 Ryan P. Murphy
  85. 85. • Which bird is the Brown Bird?
  86. 86. • Answer! Umm  Copyright © 2010 Ryan P. Murphy
  87. 87. • What animal is this? Copyright © 2010 Ryan P. Murphy
  88. 88. • Answer – Black bear (Ursus Americanus) Copyright © 2010 Ryan P. Murphy
  89. 89. • What animal is this? Copyright © 2010 Ryan P. Murphy
  90. 90. • Answer – Brown Bear (Ursus arctos) Copyright © 2010 Ryan P. Murphy
  91. 91. • What animal is this? Copyright © 2010 Ryan P. Murphy
  92. 92. • Answer – I’m not quite sure but I would guess White Bear. – Aren’t we using colors to identify? Copyright © 2010 Ryan P. Murphy
  93. 93. • Having simple descriptive names for a species doesn’t work. Copyright © 2010 Ryan P. Murphy
  94. 94. • Having simple descriptive names for a species doesn’t work. I see five black colored bears, Copyright © 2010 Ryan P. Murphy
  95. 95. • Having simple descriptive names for a species doesn’t work. I see five black colored bears, and three brown colored bears. Copyright © 2010 Ryan P. Murphy
  96. 96. • Having simple descriptive names for a species doesn’t work. I see five black colored bears, and three brown colored bears. One white bear, Copyright © 2010 Ryan P. Murphy
  97. 97. • Having simple descriptive names for a species doesn’t work. I see five black colored bears, and three brown colored bears. One white bear, and one black and white bear, Copyright © 2010 Ryan P. Murphy
  98. 98. • Having simple descriptive names for a species doesn’t work. I see five black colored bears, and three brown colored bears. One white bear, and one black and white bear, and a few kinda of brown and black with some white. Copyright © 2010 Ryan P. Murphy
  99. 99. • What animal is this? Copyright © 2010 Ryan P. Murphy
  100. 100. • Answer – Koala Marsupial (Phascolarctos cinereus) Copyright © 2010 Ryan P. Murphy
  101. 101. • Answer – Koala Marsupial (Phascolarctos cinereus) It’s not a bear. Copyright © 2010 Ryan P. Murphy
  102. 102. • Which one is the Daddy Long Legs?
  103. 103. • Which one is the Daddy Long Legs?
  104. 104. • Which one is the Daddy Long Legs?
  105. 105. • Which one is the Daddy Long Legs?
  106. 106. • Which one is the Daddy Long Legs?
  107. 107. • Which one is the Daddy Long Legs? Science Name Pholcus phalangioides
  108. 108. • How can you use simple descriptive features to name single celled organisms like this ciliate? – There are millions of different singled celled species. Copyright © 2010 Ryan P. Murphy
  109. 109. Copyright © 2010 Ryan P. Murphy
  110. 110. Copyright © 2010 Ryan P. Murphy
  111. 111. • The Catfish (Ictiobus bubalus) is not a mammal like a cat. Copyright © 2010 Ryan P. Murphy
  112. 112. • The Catfish (Ictiobus bubalus) is not a mammal like a cat. Copyright © 2010 Ryan P. Murphy
  113. 113. • Am I also a cat since I have whiskers?
  114. 114. • Am I also a cat since I have whiskers? Mammalian Order Pinnipedia, in the family Odobenidae.
  115. 115. • Star fish (Asterias Forbesii) Copyright © 2010 Ryan P. Murphy
  116. 116. • Star fish (Asterias Forbesii) Copyright © 2010 Ryan P. Murphy
  117. 117. • Star fish (Asterias Forbesii) Copyright © 2010 Ryan P. Murphy
  118. 118. • Seahorse (Hippocampus abdominalis)
  119. 119. • What am I?
  120. 120. • What am I?
  121. 121. • What am I? Clownfish
  122. 122. • What are these? Copyright © 2010 Ryan P. Murphy
  123. 123. • What are these? Copyright © 2010 Ryan P. Murphy
  124. 124. • What will happen when I type cat tails on the internet? Which will I get? Copyright © 2010 Ryan P. Murphy
  125. 125. • Water flea
  126. 126. • Water flea Cat Flea
  127. 127. • Water flea Cat Flea
  128. 128. • What animal is this? Copyright © 2010 Ryan P. Murphy
  129. 129. • Answer – Mountain Lion Copyright © 2010 Ryan P. Murphy
  130. 130. • What animal is this? Copyright © 2010 Ryan P. Murphy
  131. 131. • Answer – Puma Copyright © 2010 Ryan P. Murphy
  132. 132. • What animal is this? Copyright © 2010 Ryan P. Murphy
  133. 133. • Answer – Catamount. Copyright © 2010 Ryan P. Murphy
  134. 134. • What animal is this? Copyright © 2010 Ryan P. Murphy
  135. 135. • Answer – Cougar Copyright © 2010 Ryan P. Murphy
  136. 136. • What animal is this? Copyright © 2010 Ryan P. Murphy
  137. 137. • Answer – Panther Copyright © 2010 Ryan P. Murphy
  138. 138. • What animal is this? Copyright © 2010 Ryan P. Murphy
  139. 139. • Answer – Silberlöwe (German) Copyright © 2010 Ryan P. Murphy
  140. 140. • What animal is this? Copyright © 2010 Ryan P. Murphy
  141. 141. • Answer – пума (Russian) Copyright © 2010 Ryan P. Murphy
  142. 142. • What animal are all of these? Copyright © 2010 Ryan P. Murphy
  143. 143. • Are you ready for the very confusing science name? Copyright © 2010 Ryan P. Murphy
  144. 144. One name, for the whole planet. Puma concolor
  145. 145. One name, for the whole planet.
  146. 146. One name, for the whole planet.
  147. 147. • Science classification uses characteristics to name species. Copyright © 2010 Ryan P. Murphy
  148. 148. • Science classification uses characteristics to name species. • Puma concolor Copyright © 2010 Ryan P. Murphy
  149. 149. • Science classification uses characteristics to name species. • Puma concolor Felis Catus domesticus Copyright © 2010 Ryan P. Murphy
  150. 150. • Science classification uses characteristics to name species. • Puma concolor Felis Catus domesticus Copyright © 2010 Ryan P. Murphy
  151. 151. • The science name becomes the universal name for the whole world to study and understand. Copyright © 2010 Ryan P. Murphy
  152. 152. • There are about 1.3 million known species of living organisms Copyright © 2010 Ryan P. Murphy
  153. 153. • There are about 1.3 million known species of living organisms Neat news article about the number of species on planet earth at… http://www.nytimes.com/2011/08/30/science/30species.html?_r=0 Copyright © 2010 Ryan P. Murphy
  154. 154. • Estimates range the number of species on this planet between 10-100 million. – Imagine 100 million common names based on…? Copyright © 2010 Ryan P. Murphy
  155. 155. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  156. 156. • Which naming system makes more sense? Common Names Science Names • Should we use the science system or the common system? Copyright © 2010 Ryan P. Murphy
  157. 157.  A species… Copyright © 2010 Ryan P. Murphy
  158. 158.  Is a group of organisms with similar characteristics. Copyright © 2010 Ryan P. Murphy
  159. 159.  Must produces fertile offspring. Copyright © 2010 Ryan P. Murphy
  160. 160. • A mule is the offspring of a male donkey and a female horse. A mule is almost always sterile. Copyright © 2010 Ryan P. Murphy
  161. 161. • A mule is the offspring of a male donkey and a female horse. A mule is almost always sterile. – Donkey Equus assinus has 62 chromosomes. Copyright © 2010 Ryan P. Murphy
  162. 162. • A mule is the offspring of a male donkey and a female horse. A mule is almost always sterile. – Donkey Equus assinus has 62 chromosomes. – Horse Equus caballus 64 chromosomes Copyright © 2010 Ryan P. Murphy
  163. 163. • A mule is the offspring of a male donkey and a female horse. A mule is almost always sterile. – Donkey Equus assinus has 62 chromosomes. – Horse Equus caballus 64 chromosomes • Doesn’t make an embryo well. Copyright © 2010 Ryan P. Murphy
  164. 164. • A mule is the offspring of a male donkey and a female horse. A mule is almost always sterile. – Donkey Equus assinus has 62 chromosomes. – Horse Equus caballus 64 chromosomes • Doesn’t make an embryo well. Note: Some hybrids such as the Coywolf (Coyote X Wolf) can reproduce. Copyright © 2010 Ryan P. Murphy
  165. 165. • A mule is not a species but a hybrid between a horse and a donkey. – The correct scientific classification is hybrid (Equus caballus x Equus assinus). Copyright © 2010 Ryan P. Murphy
  166. 166. • Can these two mate? Copyright © 2010 Ryan P. Murphy
  167. 167. • Horse zebra hybrid (sterile), called a Zebroid. Copyright © 2010 Ryan P. Murphy
  168. 168. • What is a Tigon?
  169. 169. “Pretend I’m a female lion.”
  170. 170. • Tigon: Offspring of a male tiger Panthera tigris and a female lion Panthera leo. Copyright © 2010 Ryan P. Murphy
  171. 171. • What is a Liger?
  172. 172. “Pretend I’m a female Tiger.”
  173. 173. • Liger: Offspring of a male lion Panthera leo and a female tiger Panthera tigris. Copyright © 2010 Ryan P. Murphy
  174. 174. • Which name is real and which is made up for this Polar Bear x Grizzly Bear Hybrid? – Grolar Bear of Polgrizz Bear
  175. 175. • Which name is real and which is made up for this Polar Bear x Grizzly Bear Hybrid? – Grolar Bear of Polgrizz Bear
  176. 176. • Which name is real and which is made up for this Polar Bear x Grizzly Bear Hybrid? – Grolar Bear of Polgrizz Bear
  177. 177. • Which name is real and which is made up for this Polar Bear x Grizzly Bear Hybrid? – Grolar Bear of Polgrizz Bear
  178. 178. • Which name is real and which is made up for this Polar Bear x Grizzly Bear Hybrid? – Grolar Bear of Polgrizz Bear
  179. 179. • Which name is real and which is made up for this Polar Bear x Grizzly Bear Hybrid? – Grolar Bear of Polgrizz Bear as a pizzly bear or grizlar, Also known
  180. 180. • Which name is real and which is made up for this Polar Bear x Grizzly Bear Hybrid? – Grolar Bear of Polgrizz Bear as a pizzly bear or grizlar, Also known Ursus × inopinatus
  181. 181. Domestic Cow Bos taurus, and the American bison, Bison bison
  182. 182. Domestic Cow Bos taurus, and the American bison, Bison bison
  183. 183. Cross of the yak (Bos grunniens) and the American bison (Bison bison)
  184. 184. Cross of the yak (Bos grunniens) and the American bison (Bison bison)
  185. 185.  Has similar DNA. Copyright © 2010 Ryan P. Murphy
  186. 186. • Can a bird and a dog mate?
  187. 187. • Why two very different species generally can’t mate. – Chromosomal differences • If closely related then can happen (hybrids) – Most of the time the differences are large. – Behavioral differences • Mating behaviors, times, seasons, locations are different. • Structure differences between the two species. – Internal chemistry differences • Hormones, ovulation, sperm and egg enzyme differences.
  188. 188. • Why two very different species generally can’t mate. – Chromosomal differences • If closely related then can happen (hybrids) – Most of the time the differences are large. – Behavioral differences • Mating behaviors, times, seasons, locations are different. • Structure differences between the two species. – Internal chemistry differences • Hormones, ovulation, sperm and egg enzyme differences.
  189. 189. • It doesn’t work like this
  190. 190. • It doesn’t work like this (Hippocrab)
  191. 191. • Or this… (Crocodillafrog)
  192. 192. • Or Croc-A-fly
  193. 193. • Or this Zebrant
  194. 194. • Or Rhinochicken
  195. 195. • Or Doggyhorse
  196. 196. • Or this Dorse
  197. 197. • Or Pugrilla
  198. 198. • Or Gerbilon
  199. 199. • Or the Squirolf
  200. 200. • Or the turteraffe
  201. 201. • Or Dogman
  202. 202. • Or Sharkbird
  203. 203. • Or thankfully this…
  204. 204. • Or thankfully this… Shark-A-kitty
  205. 205.  Phylogeny -The history of a species as they change through time. Who came from whom? Copyright © 2010 Ryan P. Murphy
  206. 206. • Phylogenetic tree: A tree like chart showing the evolutionary relationships among various biological species. Copyright © 2010 Ryan P. Murphy
  207. 207. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  208. 208. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  209. 209. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  210. 210. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  211. 211. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  212. 212. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  213. 213. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  214. 214. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  215. 215. • A clade is a group of organisms that includes an ancestor and all descendants of that ancestor.
  216. 216. • Which colored clades are correct?
  217. 217. • Which colored clades are correct?
  218. 218. • Which colored clades are correct?
  219. 219. • Which colored clades are correct?
  220. 220. • Which colored clades are correct?
  221. 221. • Which colored clades are correct?
  222. 222. • Which colored clades are correct?
  223. 223. • Which colored clades are correct?
  224. 224. • Which colored clades are correct?
  225. 225. • Which colored clade is incorrect?
  226. 226. • Which colored clade is incorrect?
  227. 227. • Who is more closely related to the Coyote? – The Gray Wolf or the Red Fox?
  228. 228. • Who is more closely related to the Coyote? – The Gray Wolf or the Red Fox?
  229. 229. • Who is more closely related to the Crab Eating Fox? – The Gray Fox or the Maned Wolf ?
  230. 230. • Who is more closely related to the Crab Eating Fox? – The Gray Fox or the Maned Wolf ?
  231. 231. • Who is more closely related to the Cape Hunting Dog? – The Domestic Dog or the Bush Dog?
  232. 232. • Who is more closely related to the Cape Hunting Dog? – The Domestic Dog or the Bush Dog?
  233. 233. • Which species is the oldest?
  234. 234. • Which species is the oldest?
  235. 235. • Which species is the youngest?
  236. 236. • Which species is the youngest?
  237. 237. • Which species evolved from SCYPHOZOA?
  238. 238. • Which species evolved from SCYPHOZOA?
  239. 239. • Which two species are considered TRIPLOBLAST?
  240. 240. • Which two species are considered TRIPLOBLAST?
  241. 241. • Which two species are considered TRIPLOBLAST?
  242. 242. Learn more about phylogeny at… http://tolweb.org/tree/learn/concepts/whatisphylogeny.html
  243. 243.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  244. 244.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  245. 245.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  246. 246.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  247. 247.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  248. 248.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  249. 249.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  250. 250.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  251. 251.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  252. 252.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  253. 253.  Dichotomous key: A tool that allows the user to determine the identity of items in the natural world. Copyright © 2010 Ryan P. Murphy
  254. 254. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  255. 255. • 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
  256. 256. • 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
  257. 257. • 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
  258. 258. • 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
  259. 259. • 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
  260. 260. • 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
  261. 261. • 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
  262. 262. • 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
  263. 263.  Based on characteristics and uses process of comparison and elimination. Copyright © 2010 Ryan P. Murphy
  264. 264. • 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
  265. 265. • 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
  266. 266. • 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
  267. 267. • Which two shark fins fit the following description? Copyright © 2010 Ryan P. Murphy
  268. 268. • 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
  269. 269. • 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
  270. 270. • Which shark fin fits the following description? – Trunk before tail fin has small fin. Copyright © 2010 Ryan P. Murphy
  271. 271. • Which shark fin fits the following description? – Trunk before tail fin has small fin. Copyright © 2010 Ryan P. Murphy
  272. 272. • Use constant characteristics rather than ones that disappear or vary with the season or other environmental factor. Copyright © 2010 Ryan P. Murphy
  273. 273. • Use constant characteristics rather than ones that disappear or vary with the season or other environmental factor. Copyright © 2010 Ryan P. Murphy
  274. 274. • Use characteristics which can be directly observed. Copyright © 2010 Ryan P. Murphy
  275. 275. • Use characteristics which can be directly observed. Black and White color with orange around neck… Copyright © 2010 Ryan P. Murphy
  276. 276. • Use characteristics which can be directly observed. And they love each other… Copyright © 2010 Ryan P. Murphy
  277. 277. • Use characteristics which can be directly observed. And they love each other… Copyright © 2010 Ryan P. Murphy
  278. 278. • Use characteristics which can be directly observed. And they love each other… “They form mating pairs is a better description.” Copyright © 2010 Ryan P. Murphy
  279. 279. • What is a big insect to you?
  280. 280. • What is a big insect to you?
  281. 281. • What is a big insect to you?
  282. 282. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… Copyright © 2010 Ryan P. Murphy
  283. 283. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy
  284. 284. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy
  285. 285. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy
  286. 286. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." Copyright © 2010 Ryan P. Murphy
  287. 287. • Use quantitative (numbered) measurements with an amount or dimension rather than vague terms like… "big" and "small." “OH?” “That’s not very Big.” Copyright © 2010 Ryan P. Murphy
  288. 288. • 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
  289. 289. • 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
  290. 290. • 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
  291. 291. • 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
  292. 292. • 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
  293. 293. • Activity! Guess Who / 7 Questions? – Create a series of questions to find the three secret members of the class that I have written on note cards. – Use yes / no questions based on characteristics. Copyright © 2010 Ryan P. Murphy
  294. 294. • Activity! Wacky People Available Sheet – 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
  295. 295. • Activity! Wacky People Available Sheet – 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
  296. 296. Start here every time Y / N and then go where directed until you find the species name.
  297. 297. Patterned Mulywumpus Lugio Wirum Eggur Ondy Tri D. Duckt Elle E. Funk Tunia petalos Grif Leon Rita Nita C. Nile Cue Kide Quadrumenox Mosk Cara Giggles Hex Oculate Ru-ela Brella
  298. 298. • Activity – EEK Dichotomous Key – http://www.dnr.state.wi.us/org/caer/ce/eek/veg/ treekey/treestart.htm Collect a leaf and use the online dichotomous key at… http://oregonstate.edu/trees/dichotomous_key.html Copyright © 2010 Ryan P. Murphy
  299. 299. Copyright © 2010 Ryan P. Murphy
  300. 300. • Leaf for EEK Dichotomous key. Copyright © 2010 Ryan P. Murphy
  301. 301. • Activity Worksheet! Salamander (Order Caudata) Dichotomous Key. – Use a dichotomous key to identify salamanders Copyright © 2010 Ryan P. Murphy
  302. 302. Slimy Salamander Jefferson Salamander Spotted Newt Two Lined Mud puppy Tiger Four toed Red-backed Siren Marbled
  303. 303. • You should be close to page 4/5 in your bundle.
  304. 304.  Classification uses… Copyright © 2010 Ryan P. Murphy
  305. 305.  Homology: Similarities between organisms Copyright © 2010 Ryan P. Murphy
  306. 306. Copyright © 2010 Ryan P. Murphy
  307. 307. Copyright © 2010 Ryan P. Murphy
  308. 308. Copyright © 2010 Ryan P. Murphy
  309. 309. Copyright © 2010 Ryan P. Murphy
  310. 310. Copyright © 2010 Ryan P. Murphy
  311. 311. Copyright © 2010 Ryan P. Murphy
  312. 312. Copyright © 2010 Ryan P. Murphy
  313. 313. Copyright © 2010 Ryan P. Murphy
  314. 314. Copyright © 2010 Ryan P. Murphy
  315. 315. Copyright © 2010 Ryan P. Murphy
  316. 316. Copyright © 2010 Ryan P. Murphy
  317. 317. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  318. 318. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  319. 319. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  320. 320. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  321. 321. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  322. 322. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  323. 323. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  324. 324. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  325. 325. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  326. 326. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  327. 327. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  328. 328. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  329. 329. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  330. 330. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  331. 331. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  332. 332. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  333. 333. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  334. 334. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  335. 335. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  336. 336. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  337. 337. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  338. 338. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  339. 339. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  340. 340. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  341. 341. • Embryonic homology Copyright © 2010 Ryan P. Murphy
  342. 342. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  343. 343. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  344. 344. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  345. 345. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  346. 346. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  347. 347. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  348. 348. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  349. 349. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  350. 350. • Which of the following is a blastula (early embryo) of a sea urchin, starfish, frog, and human Copyright © 2010 Ryan P. Murphy
  351. 351. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  352. 352. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  353. 353. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  354. 354. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  355. 355. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  356. 356. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  357. 357. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  358. 358. • Which of the embryos below is a human, chicken, fish, and cat? Human Copyright © 2010 Ryan P. Murphy
  359. 359. • Which of the embryos below is a human, chicken, fish, and cat? Human Learn more about homology at… http://evolution.berkeley.edu/evolibrary/article/lines_04 Copyright © 2010 Ryan P. Murphy
  360. 360.  DNA: Similar genes aid in classification Copyright © 2010 Ryan P. Murphy
  361. 361. • DNA provides insight into how similar and how different organisms are. Copyright © 2010 Ryan P. Murphy
  362. 362. • DNA provides insight into how similar and how different organisms are. This allows taxonomist to classify organisms more accurately. Copyright © 2010 Ryan P. Murphy
  363. 363. • DNA provides insight into how similar and how different organisms are. This allows taxonomist to classify organisms more accurately. Copyright © 2010 Ryan P. Murphy
  364. 364. • Humans and Chimpanzee share 94% of the same genes. Copyright © 2010 Ryan P. Murphy
  365. 365. • Humans and Chimpanzee share 94% of the same genes. Copyright © 2010 Ryan P. Murphy
  366. 366. • Humans and Chimpanzee share 94% of the same genes. Copyright © 2010 Ryan P. Murphy
  367. 367. • Humans and Chimpanzee share 94% of the same genes. – We can get a blood transfusion from a chimp. Copyright © 2010 Ryan P. Murphy
  368. 368. • Red Pandas
  369. 369. • Red Pandas and Giant Pandas
  370. 370. • Red Pandas and Giant Pandas both eat bamboo.
  371. 371. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to…
  372. 372. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  373. 373. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  374. 374. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  375. 375. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  376. 376. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  377. 377. • Red Pandas and Giant Pandas both eat bamboo. – Giant Pandas are more closely related to… – Red Pandas more closely related to…
  378. 378.  The 3 Domains of Life. All life is either…  Archaeabacteria  Eubacteria  Eukarya Copyright © 2010 Ryan P. Murphy
  379. 379.  The 3 Domains of Life. All life is either…  Archaea  Eubacteria  Eukarya Copyright © 2010 Ryan P. Murphy
  380. 380.  The 3 Domains of Life. All life is either…  Archaea  Bacteria  Eukarya Copyright © 2010 Ryan P. Murphy
  381. 381.  The 3 Domains of Life. All life is either…  Archaea  Bacteria  Eukarya Copyright © 2010 Ryan P. Murphy
  382. 382.  The 3 Domains of Life. All life is either…  Archaea  Bacteria  Eukarya Learn more about the Domains of Life at… http://www.ucmp.berkeley.edu/alllife/threedomains.html Copyright © 2010 Ryan P. Murphy
  383. 383. “Excuse Me” “Does anyone know where I can find some good food.”
  384. 384.  The Kingdoms of life. Copyright © 2010 Ryan P. Murphy
  385. 385.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  386. 386.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  387. 387.  The Kingdoms of life.  All life belongs to one of these. Note: The use of Archaeabacteria is a bit dated. Now called just Archaea Copyright © 2010 Ryan P. Murphy
  388. 388.  The Kingdoms of life.  All life belongs to one of these. Note: The use of Archaeabacteria is a bit dated. Now called just Archaea and Eubacteria is just Bacteria. Copyright © 2010 Ryan P. Murphy
  389. 389.  The Kingdoms of life.  All life belongs to one of these. Note: The use of Archaeabacteria is a bit dated. Now called just Archaea and Eubacteria is just Bacteria. Copyright © 2010 Ryan P. Murphy
  390. 390.  The Kingdoms of life.  All life belongs to one of these. Copyright © 2010 Ryan P. Murphy
  391. 391.  The Kingdoms of life.  All life belongs to one of these. ea Copyright © 2010 Ryan P. Murphy
  392. 392.  The Kingdoms of life.  All life belongs to one of these. Blue Green Algae now called Cyanobacteria ea Copyright © 2010 Ryan P. Murphy
  393. 393.  The Kingdoms of life.  All life belongs to one of these. Blue Green Algae now called Cyanobacteria ea Copyright © 2010 Ryan P. Murphy
  394. 394.  The Kingdoms of life.  All life belongs to one of these. Blue Green Algae now called Cyanobacteria ea Copyright © 2010 Ryan P. Murphy
  395. 395.  The Kingdoms of life.  All life belongs to one of these. Blue Green Algae now called Cyanobacteria ea Learn more about the Kingdoms and Domains of Life at… http://biology.about.com/od/evolution/a/aa091004a.htm Copyright © 2010 Ryan P. Murphy
  396. 396. “I’m dressed as King Phillip.” “Am I late for the spaghetti dinner?”
  397. 397. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  398. 398. Copyright © 2010 Ryan P. Murphy
  399. 399. Copyright © 2010 Ryan P. Murphy
  400. 400. Copyright © 2010 Ryan P. Murphy
  401. 401. Copyright © 2010 Ryan P. Murphy
  402. 402. Copyright © 2010 Ryan P. Murphy
  403. 403. Copyright © 2010 Ryan P. Murphy
  404. 404. Copyright © 2010 Ryan P. Murphy
  405. 405. Copyright © 2010 Ryan P. Murphy
  406. 406. Copyright © 2010 Ryan P. Murphy
  407. 407. Copyright © 2010 Ryan P. Murphy
  408. 408. Universal Ancestor Copyright © 2010 Ryan P. Murphy
  409. 409. Universal Ancestor Copyright © 2010 Ryan P. Murphy
  410. 410. Universal Ancestor Copyright © 2010 Ryan P. Murphy
  411. 411. Bacteria Universal Ancestor Copyright © 2010 Ryan P. Murphy
  412. 412. Bacteria Universal Ancestor Copyright © 2010 Ryan P. Murphy
  413. 413. Prokaryotic (Cells with no Nucleus) Bacteria Universal Ancestor Copyright © 2010 Ryan P. Murphy
  414. 414. Prokaryotic (Cells with no Nucleus) Bacteria Universal Ancestor Copyright © 2010 Ryan P. Murphy
  415. 415. Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  416. 416. Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  417. 417. Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  418. 418. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  419. 419. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  420. 420. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  421. 421. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  422. 422. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  423. 423. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  424. 424. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  425. 425. Eukaryotic (Cells with Nucleus) Prokaryotic (Cells with no Nucleus) Bacteria Eukarya share more in common with Archaea than Bacteria Archaea Universal Ancestor Copyright © 2010 Ryan P. Murphy
  426. 426. • Until recently (1984), scientists believed all life got its energy from the sun. Copyright © 2010 Ryan P. Murphy
  427. 427. • Until recently (1984), scientists believed all life got its energy from the sun. Copyright © 2010 Ryan P. Murphy
  428. 428. • 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
  429. 429. • 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
  430. 430. • 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
  431. 431. • Until recently (1984), scientists believed all life got its energy from the sun. A whole new system existed on the ocean floor. 12H2S + 6CO2 → C6H12O6 (=carbohydrate) + 6H2O + 12S Learn more about the differences between chemosynthesis and photosynthesis at... http://oceanexplorer.noaa.gov/facts/photochemo.html Copyright © 2010 Ryan P. Murphy
  432. 432. • Some bacteria can create energy without light at the bottom of the ocean under enormous pressures, Copyright © 2010 Ryan P. Murphy
  433. 433. • Some bacteria 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
  434. 434. • 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
  435. 435. • Video Link! Hydrothermal Vents. (5 min) – https://www.youtube.com/watch?v=D69hGvCsW gAwithout light. Copyright © 2010 Ryan P. Murphy
  436. 436. Copyright © 2010 Ryan P. Murphy
  437. 437. Learn more about Archaea at… http://www.ucmp.berkeley.edu/archaea/archaea.html Copyright © 2010 Ryan P. Murphy
  438. 438. Copyright © 2010 Ryan P. Murphy
  439. 439. • Bacteria can also be found in extreme places. Copyright © 2010 Ryan P. Murphy
  440. 440. • Bacteria can also be found in extreme places. (Extremophiles) Their cell membrane is a bit different which allow them to survive in harsh places. Copyright © 2010 Ryan P. Murphy
  441. 441. • Bacteria can also be found in extreme places. (Extremophiles) – Many scientists think this type of life may be found in the harsh environments on other planets as well as the start of life on Earth. Their cell membrane is a bit different which allow them to survive in harsh places. Copyright © 2010 Ryan P. Murphy
  442. 442. • Video Link! Archaea – http://www.youtube.com/watch?v=W25nI9kpxtU Copyright © 2010 Ryan P. Murphy
  443. 443. “By the way, I really enjoy eating Spaghetti.”
  444. 444.  Domains and Kingdoms
  445. 445.  Domains and Kingdoms Domain Kingdom Eubacteria Archaebacteria Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Gets Energy from.. Varies Varies Protista Plantae Fungi Animalia Single (Unicellular) Multicellular Multicellular Multicellular
  446. 446.  Domains and Kingdoms Domain Bacteria Kingdom Eubacteria Archaebacteria Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Gets Energy from.. Varies Varies Protista Plantae Fungi Animalia Single (Unicellular) Multicellular Multicellular Multicellular
  447. 447.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Eubacteria Archaebacteria Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Gets Energy from.. Varies Varies Protista Plantae Fungi Animalia Single (Unicellular) Multicellular Multicellular Multicellular
  448. 448.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Eubacteria Archaebacteria Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Gets Energy from.. Varies Varies Protista Plantae Fungi Animalia Single (Unicellular) Multicellular Multicellular Multicellular
  449. 449.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Eubacteria Archaebacteria Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Gets Energy from.. Varies Varies Protista Plantae Fungi Animalia Single (Unicellular) Multicellular Multicellular Multicellular
  450. 450.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Eubacteria Archaebacteria Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Gets Energy from.. Varies Varies Protista Plantae Fungi Animalia Single (Unicellular) Multicellular Multicellular Multicellular
  451. 451.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Gets Energy from.. Varies Varies Protista Plantae Fungi Animalia
  452. 452.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Single or MultiCellular Gets Energy from.. Protista Plantae Fungi Animalia
  453. 453.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Gets Energy from..
  454. 454.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Gets Energy from.. Much Smaller
  455. 455.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Cell Wall Prokaryotic (No nucleus) Eukaryotic (Nucleus) Cell Wall Varies Eukaryotic (Nucleus) Eukaryotic (Nucleus) Cell Wall (Chitin) Eukaryotic (Nucleus) No Cell Wall Single or MultiCellular Gets Energy from.. Plant Cell Wall Cell Wall Cell Wall No Cell Wall
  456. 456.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Gets Energy from..
  457. 457.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Most are Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Some are multicellular Varies
  458. 458.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from..
  459. 459.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Auto / Hetero Varies Auto / Hetero Varies Auto / Hetero Sunlight Absorbs Consumes Heterotrophic Autotrophic Heterotrophic
  460. 460.  Domains and Kingdoms Domain Eubacteria Archaebacteria Kingdom Eubacteria Archaebacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Auto / Hetero Varies Auto / Hetero Varies Auto / Hetero Sunlight Absorbs Consumes Heterotrophic Autotrophic Heterotrophic Autrophic: Can make its own food (chemo or photsynthesis)
  461. 461.  Domains and Kingdoms Domain Eubacteria Archaea Kingdom Eubacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Auto / Hetero Sunlight Absorbs Consumes Heterotrophic Chemotroph Varies Varies Auto / Auto / Hetero Hetero Autotrophic Heterotrophic Autrophic: Can make its own food (chemo or photsynthesis)
  462. 462.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Auto / Hetero Varies Auto / Hetero Varies Auto / Hetero Sunlight Absorbs Consumes Heterotrophic Autotrophic Heterotrophic Heterotrophic: Must consume food (eat or absorb)
  463. 463.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Eubacteria Archaebacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Auto / Hetero Varies Auto / Hetero Varies Auto / Hetero Sunlight Absorbs Consumes Heterotrophic Autotrophic Heterotrophic Heterotrophic: Must consume food (eat or absorb)
  464. 464.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food
  465. 465.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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?
  466. 466.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Eubacteria Archaebacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Heterotrophic Consumes Food I’m a multicellular organism that absorbs its food? Fungi (Heterotrophs)
  467. 467.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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?
  468. 468.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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
  469. 469.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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’s own food?
  470. 470.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Autotrophic Absorbs Consumes Food I’m a multicellular organism that can make it’s own food? Plantae (Autotroph)
  471. 471.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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?
  472. 472.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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? Bacteria or Archaea
  473. 473.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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?
  474. 474.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Eubacteria Archaebacteria Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Heterotrophic I’m a multicellular organism that eats other organisms?
  475. 475.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m a multicellular organism?
  476. 476.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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
  477. 477.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m an autroph?
  478. 478.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m an autroph? Bacteria, Archaea, some Protista, and Plantae (Varies)
  479. 479.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m only a heterotroph?
  480. 480.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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.
  481. 481.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular Single (Unicellular) Single (Unicellular) Single (Unicellular) Multicellular Multicellular Multicellular Gets Energy from.. Varies Varies Varies Sunlight Absorbs Consumes Food I’m heterotrophic?
  482. 482.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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 Bacteria, Archaea, Protista (Varies)
  483. 483.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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?
  484. 484.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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
  485. 485.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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?
  486. 486.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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
  487. 487.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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?
  488. 488.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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? Bacteria
  489. 489.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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 am a bacteria but lack peptidoglycan in my cell wall?
  490. 490.  Domains and Kingdoms Domain Bacteria Archaea Kingdom Bacteria Archaea Protista Plantae Fungi Animalia Cell Type Prokaryotic (No nucleus) Prokaryotic (No nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Eukaryotic (Nucleus) Single or MultiCellular 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 am a bacteria but lack peptidoglycan in my cell wall? Archaea
  491. 491. • Video Link! Hank Explains Bacteria, Archaea, and Protists – http://www.youtube.com/watch?v=vAR47-g6tlA Copyright © 2010 Ryan P. Murphy
  492. 492. “Can I come over for good spaghetti”
  493. 493. • Taxonomy and Classification Available Sheet. – Follows slideshow for classwork.
  494. 494. Copyright © 2010 Ryan P. Murphy
  495. 495. • Does anyone know King Phillip? Copyright © 2010 Ryan P. Murphy
  496. 496. • Does anyone know King Phillip? – Will someone invite him over for dinner? Copyright © 2010 Ryan P. Murphy
  497. 497. • Does anyone know King Phillip? – Will someone invite him over for dinner? – He likes spaghetti? Copyright © 2010 Ryan P. Murphy
  498. 498. • 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
  499. 499.  The 8 Taxonomic ranks. All living things have 8 names.  1)  2)  3)  4)  5)  6)  7)  8) Copyright © 2010 Ryan P. Murphy
  500. 500.  Domain - Did Copyright © 2010 Ryan P. Murphy
  501. 501.  Kingdom - King Copyright © 2010 Ryan P. Murphy
  502. 502.  Phylum - Phillip Copyright © 2010 Ryan P. Murphy
  503. 503.  Class - Come Copyright © 2010 Ryan P. Murphy
  504. 504.  Order - Over Copyright © 2010 Ryan P. Murphy
  505. 505.  Family - For Copyright © 2010 Ryan P. Murphy
  506. 506.  Genus - Good Copyright © 2010 Ryan P. Murphy
  507. 507.  Species – Spaghetti Copyright © 2010 Ryan P. Murphy
  508. 508. • What does “Did King Phillip Come Over For Good Spaghetti” stand for? Copyright © 2010 Ryan P. Murphy
  509. 509. • Answer! – 1) Domain – 2) Kingdom – 3) Phylum – 4) Class – – 5) Order – 6) Family – 7) Genus – 8) Species – Did King Phillip Come Over For Good Spaghetti Copyright © 2010 Ryan P. Murphy
  510. 510. • Answer! – 1) Domain – 2) Kingdom – 3) Phylum – 4) Class – – 5) Order – 6) Family – 7) Genus – 8) Species – Did King Phillip Come Over For Good Spaghetti Copyright © 2010 Ryan P. Murphy
  511. 511. • Answer! – 1) Domain – 2) Kingdom – 3) Phylum – 4) Class – – 5) Order – 6) Family – 7) Genus – 8) Species – Did King Phillip Come Over For Good Spaghetti Copyright © 2010 Ryan P. Murphy
  512. 512. • Answer! – 1) Domain – 2) Kingdom – 3) Phylum – 4) Class – – 5) Order – 6) Family – 7) Genus – 8) Species – Did King Phillip Come Over For Good Spaghetti Copyright © 2010 Ryan P. Murphy
  513. 513. • Answer! – 1) Domain – 2) Kingdom – 3) Phylum – 4) Class – – 5) Order – 6) Family – 7) Genus – 8) Species – Did King Phillip Come Over For Good Spaghetti Copyright © 2010 Ryan P. Murphy

×