1 / 22

Chapter 14 Lesson 2 Classifying Species

Chapter 14 Lesson 2 Classifying Species. Classification. grouping objects or organisms based on similarities. 1. Taxonomy – the science of classifying organism s - similarities among organisms indicates that they are somehow related 2. What categories are used to classify organisms ?

Télécharger la présentation

Chapter 14 Lesson 2 Classifying 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. Chapter 14 Lesson 2Classifying Species

  2. Classification • grouping objects or organisms based on similarities

  3. 1. Taxonomy – the science of classifying organism s - similarities among organisms indicates that they are somehow related 2.What categories are used to classify organisms? a.Homologies – similar structures or similar biochemistry that results from a common ancestor b.Embryonic development – development of fetus c.Genetics – DNA and gene similarities d.Evolutionary history

  4. History of Classification Systems 1.Aristotle - ~350 BC a.Developed the 1st widely accepted classification system b.Divided organisms into plants or animals c.Plants were further divided by size and structure (trees, shrubs, herbs) d. Animals were classified by where they lived (land, sea, or air)

  5. Early Classification • Previous classification system – 2 kingdom: Plantae and Animalia • Declared inadequate • Next system: added • Protista - microorganisms and bacteria – • Fungi – mushrooms, molds, and yeasts

  6. Carolus Linneaus • Classification system based on physical and structural similarities of organisms b.System called – Binomial nomenclature – two word names i.1st part – Genus ii.2nd part – Species c.Latin d.Ex. Humans – Homo sapiens e.Scientific names must be in italics or underlined f.Genus name is capitalized, species name is lower case

  7. Scientific Names i.common names can be misleading because they vary (language or location) ii.scientific names are recognized worldwide iii.scientific names indicate relationships – 1.Maple Trees – Genus – Acer 2.Acer rubrum – red maple 3.Acer saccharum – sugar maple

  8. Classification Groups • Taxon – a group of organism (plural – taxa) • Seven Classification Taxa– 1.Kingdom – largest taxa, includes many types of organism with some similarities 2.Phylum 3.Class 4.Order 5.Family 6.Genus 7.Species – smallest category, only includes one type of organism

  9. Similar species grouped in one Genus • Similar Genus are grouped in one family & so on • Categories – always based on similarities among organisms • Ex. – Phylum Chordata – backbones • Class Mammal – warm-blooded, hair or fur, produce milk for young • Order Carnivore - sharp teeth, claws, hunt and eat meat • As we learn more, the classification of an organism can change • Species – a group of organisms that can mate and produce fertile young

  10. Six Kingdoms Differ in cell structure oUnicellular vs. multicellular oProkaryotic vs. Eukaryotic • Differ in means of obtaining energy • autotrophic vs.heterotrophic

  11. 3. Protista – (protists) a.Eukaryotic b.Single celled (but some, like algae, are multicellular) c.Most are microscopic d.Do not have complex organ systems e.2 main divisions – 1.Algae – autotrophic a.Plant-like, but do not have leaves or stems b.Important base of many food chains 2.Protozoa– heterotrophic a.Animal-like b.Amoeba, paramecium

  12. 4.Fungi a.Eukaryotes b.Unicellular (yeasts) and multicellular (mushrooms and molds) c.Heterotrophic – mainly decomposers d.Cell walls contain – chitin – a long-chain polymer of beta-glucose that forms a hard, semitransparent material e.Absorb food through cell walls f.Develop from spores, do not move

  13. 5.Plantea: (Plants) a.Eukaryotic b.Multicellular c.Autotrophic (photosynthetic) d.Cell walls contain cellulose e.Tissues, organs, organs systems f.Do not move around g.Trees, moss, ferns, grass

  14. 6.Animalia (animals) a.Eukaryotic b.Multicellular c.Heterotrophic d.Able to move at some time in life e.No cell walls f.Tissues, organs, organ systems Ex. Nervous, circulatory, muscle systems g.Ex. Hydra, sponges, coral, fish, insects, birds, frogs, mammals

  15. Biological Keys • also called dichotomous (2 branched) key • series of paired (2) statements that compare or describe characteristics of organisms in order to identify them • To use a key you always start with the first set of sentences, read the description, compare it to your organism, then follow the instructions to continue the key • You will work to find the name through descriptions until the name of your organism is given

  16. How to make a dichotomous key • divide your samples into 2 groups using one characteristic • write a set of 2 sentences describing the characteristics you have used to divide your object/organisms • Characteristics must be objective (ex. 5 cm) not subjective (ex. Short/long)

  17. Example 1.Has straight sides………………………go to 2 Does not have straight sides……….go to 4 2. Has 3 sides ………………………………………triangle Has more than three sides………………go to 3 3. Has 4 sides ……………………………………………..Square Has more than 4 sides …………………..star 4.Diameter is same all over………….circle Diameter varies…………………………….oval

More Related