Diversity of Living Things 1.1: Biodiversity. Biodiversity Number and variety of species and ecosystems on Earth By the end of 2010, 1.7 million species.

Slides:

Advertisements

Similar presentations

Chapter 18 Ms. Luaces Honors Biology

Advertisements

Classification of Organisms

Chapter 25/26 Taxonomy and Biodiversity Evolutionary biology The major goal of evolutionary biology is to reconstruct the history of life on earth ►Process:

CLASSIFICATION OF ORGANISMS. Biologists have classified nearly 2 million species Estimates range from 13 million to 40+ million The science of describing,

Classification. Classification of Living Organisms Identified by traits Organize life’s diversity – Over 1.7 million species on Earth Taxonomy Naming.

Classifying Organisms

Phylogeny Systematics Cladistics

Classification of Organisms

HISTORY OF BIOLOGICAL DIVERSITY Unit 4 1. Chapter 16 Primate Evolution 2.

Chapter 17 Table of Contents Section 1 Biodiversity

THE EVOLUTIONARY HISTORY OF BIODIVERSITY

Chapter 18 Classification

Chapter 18 Classification. Taxonomy - the science of classifying organisms and giving them a universally accepted name.

Ch 17 – Classification of Organisms

What we need to learn  How and why organisms are hierarchically classified and based on evolutionary relationships  Learn the reasons for changes in.

Chapter 9 - Taxonomy. Taxonomy – the science of classifying organisms – has two purposes: To identify the organism To represent relationships among them.

Unit 2 - Microbiology 2.1 Taxonomy Kingdoms Phylogeny.

TAXONOMY Presentation made by: sakura023. Need to Classify.

Phylogeny and the Tree of Life

Diversity of Organisms 5 to 30 million species estimated Axolotl.

Covers Chapter 4 Structure and Function of the Cell Pages

Welcome to Jeopardy!.

Aristotle classified organisms as either animals or plants.

March 3 rd, 2010  Warm Up Open to ch. 17 to follow along with lecture  Today Review Ch. 17 Lab  Homework Study for Ch. 17 exam on Friday.

Systematics the study of the diversity of organisms and their evolutionary relationships Taxonomy – the science of naming, describing, and classifying.

Chapter 17: Organizing Life’s Diversity

QUIZ What is the science that describes, names and classifies organisms? Linnaeus classified organisms according to their ______ & ______. (True or False)

Taxonomy Science of describing, naming, and classifying organisms. Designed by Linnaeus Based on morphology (form and structure) –Common name not useful.

Course Introduction and the Tree of Life Biology 160: Diversity and the History of Life Photo by Matt Ritter “Each [organism] instructs; its form and behavior.

CLASSIFICATION SYSTEMS. LEARNING GOALS: By the end of class, I will be able to:  Explain how organisms are classified  Explain traditional and modern.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu To View the presentation as a slideshow with effects select “View”

Classification Chapter 18.

An Introduction to Classification Biology 11. Taxonomy the science of classifying organisms.

Organizing Life’s Diversity.  It is easier to understand living things if they are organized into different categories.

Agenda for 2-13 Complete Short Answer Questions on Unit 6 Review Pollinate Plants and Check on Flies Classification PowerPoint Cladogram Construction and.

Classification of Organisms. ► The study of the kinds and diversity of organisms and their evolutionary relationships is called taxonomy  Taxonomy is.

Classification. Cell Types Cells come in all types of shapes and sizes. Cell Membrane – cells are surrounded by a thin flexible layer Also known as a.

Organisms can be classified based on physical similarities. How would you classify the organisms in your envelope?

Chapter 14 Notes Why Classify? Categories of Biological Classification: 1. Why Classify? –Eliminate confusion –Organize information –Reveal Evolutionary.

The History of Classification Copyright © McGraw-Hill Education Early Systems of Classification Classification is the grouping of objects or organisms.

Classification.

History of Classification To organize information about the diversity of living things.

Copyright © 2005 Brooks/Cole — Thomson Learning Biology, Seventh Edition Solomon Berg Martin Chapter 22 Understanding Diversity: Systematics.

CLASSIFICATION OF ORGANISMS Biology RiverDell High School C. Militano Introduction (why, what, how) History of Classification Systems and Nomenclature.

Unit #7.  Classification – define, reasons, history, and system  Archaebacteria (Archaea)-characteristics and examples  Eubacteria – characteristics.

Chapter 1 Lesson 2.  Aristotle (384 BC- 322 BC)  Greek Philosopher  Classified based on two groups  Plants and Animals  Classified by the structure.

CLASSIFICATION Why Classify?. INQUIRY ACTIVITY 1) Construct a table with six rows and six columns. Label each row with the name of a different fruit.

Identifying, Naming, and Classifying Species

Organizing Life’s Diversity Chapter 17. How Classification Began In order to better understand organisms scientists group them. Classification is the.

ORGANIZING BIODIVERSITY. A SPECIES How do we define a species? A reproductive population that occupies a specific niche (plays a role) in nature Individuals.

Chapter 18: Classification

Chapter 17 BIOLOGY. HOW WOULD YOU CATEGORIZE THESE?

1.2 The Nature of Classification

17.1 Classification Think about how things are grouped in a store or in your kitchen to help create order.

Chapter 17 Taxonomy. Chapter 17 Organizing Life’s Diversity Section 1: The History of Classification Section 2: Modern Classification Section 3: Domains.

Classification Introduction: Tree of Life Foldable.

How to Use This Presentation

Chapter 17 Table of Contents Section 1 Biodiversity

Phylogeny Chapter 25.

Systematics: Seeking Order Amidst Diversity

The Major Lineages of Life

An Introduction to Classification

Biological Classification Honors Biology.

Chapter 17 Table of Contents Section 1 Biodiversity

Classification.

Classifying Organisms

Chapter 17 Table of Contents Section 1 Biodiversity

Classification and Taxonomy

Classification of Organisms

Classification of Organisms

Presentation transcript:

Diversity of Living Things 1.1: Biodiversity

Biodiversity Number and variety of species and ecosystems on Earth By the end of 2010, 1.7 million species have been identified

Levels of Biodiversity Genetic diversity: variety of genes among organisms belonging to one species (environmental adaptation and evolution) Review Species: Members of groups or populations that can interbreed to produce viable and fertile offspring. Species diversity: quantity of each species as well as variety of different species in an ecosystem

Levels of Biodiversity Structural diversity: the range of physical shapes and sizes within a habitat or ecosystem Greater species diversity and greater structural diversity increases biodiversity

Biodiversity At Risk Loss of biodiversity -threatens our food supply - eliminates sources of medicines - economic impact on tourism and forestry - cause serious problems in cycles

Diversity of Living Things 1.2: Classification

Taxonomic Systems Biological classification: systematic grouping of organisms into biological categories based on physical and evolutionary relationships Taxonomy: science of classifying organisms Aristotle (Greek, B.C.) -“ladder of nature” - simplest organisms at the bottom of the ladder, most complex (i.e.humans) at the top

Taxonomic Systems Carl Linnaeus (Swedish, ) - Father of Taxonomy -classification system based on physical and structural features of organism -binomial nomenclature: method of naming organisms by 2 names (genus + species), e.g., Homo sapiens -indicates similarities in anatomy, embryology, evolutionary ancestry

Levels of Classification The most accepted system has seven levels of classification (taxa)

Levels of Classification 1.Kingdom 2.Phylum 3.Class 4.Order 5.Family 6.Genus 7.Species

Dichotomous Keys dichotomous key = two-part key to identify organisms *See textbook for examples: - birds, page 18, Figure 8 -fish, page 32-33, Investigation 1.2.1

Dichotomous Key: Limitations More complex when classifying a lot of organisms Plants: Can observe features by dissection only at certain times of the year Criteria used for classification (Example: Horseshoe crab is more closely related to spiders than true crabs based on internal blood chemistry Average bird family contains 50 species whereas there are 60,000 species of parasitic wasp in Ichneumonidae

Diversity of Living Things 1.3: Phylogeny and Modern Taxonomy

Phylogeny Phylogeny: evolutionary history of a group of organisms Phylogenetic tree: indicates relationships, from ancestral forms of organisms to all descendants Clade: taxonomic group that includes a single ancestor species and all its descendants See Tutorial 1 on p. 22 for example

Phylogeny

Taxonomy Today Morphological criteria of classifying organisms may overlook evolutionary relatedness Phylogenetic analysis can help in unravelling evolutinary relationships DNA barcoding (Paul Herbert): DNA profile of every species in the form of a barcode

Diversity of Living Things 1.4: Kingdoms and Domains

Domains of Life Carl Woese in 1996 proposed three distinct groups - Eubacteria: Kingdom Eubacteria - Archaea: Kingdom Archaea - Eukaryotes: Protista, Animalia, Plants and Fungi See p. 28 See Table 1 on p. 27