1 / 41

Sizing Up Species

Sizing Up Species. What is a species?. Species a group of organisms that have a similar look and can mate to produce offspring that can also mate. How many species are there?. We Do Not Know. Sad to say, we have no “good” estimates. Estimates range from 4-40

yin
Download Presentation

Sizing Up Species

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Sizing Up Species

  2. What is a species?

  3. Species a group of organisms that have a similar look and can mate to produce offspring that can also mate

  4. How many species are there?

  5. We Do Not Know. Sad to say, we have no “good” estimates. Estimates range from 4-40 (some even at 100) million.

  6. How did they get those estimate?

  7. Because: In Britain there are 22,000 species of insects, 67 of which are butterflies

  8. And Because Globally: There are 17,500 species of butterflies

  9. So: Assume same ratio of butterflies to insects exists globally 67 = 17,500 22,000 # insects globally

  10. Then: This leads to an estimate of 6 million insects Globally

  11. So what do we KNOW?

  12. Described Species: 1.0-1.6 million (often quoted number: ~ 1.5 million) species described, most of which are insects, particularly beetles.

  13. Where do we know the least/most?

  14. Best described regions: W. Europe and the United States-Canada

  15. Best described groups: birds and mammals

  16. Least described regions: deep-sea; tropics Giant Isopod

  17. Least described groups: insects, worms, fungi, protists, bacteria.

  18. How do we describe or group them?

  19. Using a classification system called taxonomy.

  20. Classification: The process of putting similar things into groups

  21. Taxonomy: The science of classifying living things.

  22. History of Classification • 4000 B.C. Aristotle (Greek) created 1st system -TWO Groups- Plants & Animals -Animal group - anything that that lived on land, water, or in the air. -Plant group - based on their different stems

  23. 1500’s – 1700’s -Many different classification systems created -Most were complicated and confusing

  24. 1700’s Carols Linnaeus – Swedish Biologist -Established simple classification system based on structural similarities of organism -Binomial Nonmenclature - 2 Name naming system -System of groups called TAXA or TAXON -Each Taxon is a category into which related organisms are placed. -System still used today.

  25. Moderns Day Levels of Classification KidsPlayingCatchOnFreewaysGetSquashed KingdomPhylumClassOrderFamily GenusSpecies

  26. Kingdom: Animalia (mobile critters; have many cells; can’t make their own food) Phylum: Chordata (flexible skeletal rod with accompanying nerves) Class: Chondrichthyes (‘fish’ with a cartilaginous skeleton) Order: Lamniformes (‘Mackerel’ sharks) Family: Lamnidae (‘Mackerel’ sharks) Genus: Carcharodon (from the Greek carcharos meaning “ragged” or “pointed” and odon meaning “tooth”) Species: carcharias (Greek for “shark”)

  27. Binomial Nonmenclature “Two-Name Naming” Is a system of Scientific Naming using: TWO NAMES FOR EVERY ORGANISM THE GENUS AND THE SPECIES NAME

  28. The system follows certain rules 1. The scientific name must be Greek or Latin 2. The 1st name is always the Genus and the 2nd is always the species (Latin for “identifier”) Panthera tigris

  29. 3. The Genus is always capitalized, species is always lower case. Name should be underlined or written in italics. Genus can be abbreviated. Ex: Tyrannosaurus rex Tyrannosaurus rex T. rex or T. rex

  30. 4. Two different organisms MUST not be assigned the same scientific name and one particular organism will have ONLY one scientific name. Ex: Cougar….Mt Lion….Puma Felix concolor

  31. Dog ښڝڞ perro canis Sobaka chien Advantages of using a universal taxonomic system: Organization- for better understanding Common Language- for better communication among scientists

  32. Have nucleus Prokaryotes: Lack a nucleus

  33. Five – Kingdom System

  34. Kingdom Monera Characteristics: 1. Prokaryotes (no nucleus) 2. Heterotrophic & Autotrophic 3. Aquatic, terrestrial & in the air 4. Asexual & sexual 5. Oldest kingdom (3.5 BYA) Ex: Bacteria

  35. Kingdom Protista Characteristics: 1. Eukaryotes (nucleus) 2. Heterotrophic and Autotrophic 3. Mostly aquatic 4. Mostly sexual 5. Mobile and Immobile Ex: Paramecium, Diatoms Slime mold

  36. Kingdom Fungi Characteristics: 1. Eukaryote 2. Heterotrophic 3. Single & Multicellular 4. Mostly terrestrial 5. Asexual & Sexual 6. Nonmobile Ex: Mushroom, mold, yeast

  37. Kingdom Plantae Characteristics: 1. Eukaryote 2. Multicellular 3. Autotrophic 4. Mostly terrestrial 5. Asexual & Sexual 6. Nonmobile Ex: Mosses, ferns, conifers flowering plants

  38. Kingdom Animalia Characteristics: 1. Eukaryote 2. Heterotrophic 3. Multicellular 4. Terrestrial & aquatic 5. Sexual 6. Mobile Ex: Sponges, jellyfish, mollusks, fish, birds mammals, reptiles, insects

  39. A dichotomous key is a tool that allows the user to determine the identity of items in the natural world, such as trees, wildflowers, mammals, reptiles, rocks, and fish.

  40. Keys consist of a series of choices that lead the user to the correct name of a given item.

  41. "Dichotomous" means "divided into two parts". Therefore, dichotomous keys always give two choices in each step.

More Related