AP Biology Macroevolution Part 2.

Slides:

Advertisements

Similar presentations

Chapter 13 Earth’s History Who is Stan Hatfield and Ken Pinzke.

Advertisements

Valdosta State University Glen McDonald MGMS 7401.

Historical Biogeography CH 7. Current Distribution Result of the interaction of: – Early history and place of origin – Fragmentation of continents – Climactic.

Chapter 24 The Origin of Species. Hummingbirds of Costa Rica Species.

How do species occur? Concept 24.2: Speciation can take place with or without geographic separation Speciation can occur in two ways: – Allopatric speciation.

Speciation can occur in two ways: Allopatric Speciation

Geologic Timescale.

Chapter 24 The Origin of Species. Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Speciation = origin of new species.

La nuova biologia.blu Le cellule e i viventi David Sadava, David M. Hillis, H. Craig Heller, May R. Berenbaum.

Geologic Time Basics. Earth’s history is huge! In order to understand earth’s history, humans must think in much larger units of time than those we use.

Speciation - Macroevolution. What is a Species? Morphological species Problems?

Ch. 24 The Origin of Species Objective: Show the different ways in which speciation can occur.

© 2014 Pearson Education, Inc. 1. Dimetrodon Coccosteus cuspidatus Stromatolites Tappania Tiktaalik Hallucigenia Dickinsonia costata 3,500 1,

Ch 24 – Origin of Species. Overview: The “Mystery of Mysteries” Overview: The “Mystery of Mysteries” Darwin explored the Galápagos Islands Darwin explored.

NOTES – CH 24: The Origin of Species

Speciation and Extinction

AP Biology Macroevolution Part 2.

Pop Quiz 1)A Change in a sequence of DNA is called what? 2) Darwin called the ability of an organism to survive and reproduce in its environment what?

Geological History of the Earth. Hadeon Eon No rocks because the Earth was molten.

Origin of Life on Earth Chapter 25. Earth originated about 4.6 billion years ago. Cloud dust rocks, water vapor. Settled by 3.9 billion years ago (bya)

Stromatolites: layers of rock with fossils. Origin of Life Big Bang Theory: formation of the universe (20 billion years ago=bya) Earth formed 4.5 bya.

AP Biology Saturday Session 3

Students -Turn in Video worksheet – make sure your name is on it -Galapagos forms in box – Meeting 6:30 -LL Mid point check (Ch 22 – 24) – Monday.

Mechanisms of Evolution. Macroevolution Speciation.

Biogeography and the History of Life Chapters 24, 25 and 26.

Phylogeny & Geologic Time

AP Biology Macroevolution Part 2. Important concepts from previous units 1) In order to keep a species extant (living) reproduction must be possible.

How do we measure the Earths Age?

TIMELINE Eras of Phanerozoic Sample presentation created by iSpring Solutions Inc.

HISTORY OF LIFE Emergence 3/25/08. MaEonEraPeriodTectonic EventClimatic EventBiotic Event 24 Phanerozoic Cenozoic Neogene (Quaternary) Isthmus of Panama.

Session 3 Phylogenetics and Time. Phylogeny A. This term refers to the evolutionary history of a species.

 Lecture: Macroevolution and Mass Extinction. Macroevolution  Macroevolution- large-scale evolutionary changes that take place over long periods of.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings PowerPoint Lectures for Biology, Seventh Edition Neil Campbell and Jane Reece.

Chapter 24: The Origin of Species 1.What is a species? -A population whose members can interbreed in nature and produce viable, fertile offspring -aka….reproductive.

Unit 4: Biodiversity and Endangered Species Section 1: Evolution and Biodiversity.

Evolutionary History Chapter 15. What you need to know! The age of the Earth and when prokaryotic and eukaryotic life emerged. Characteristics of the.

Speciation and Extinction Rates. The history of Earth as been shaped by the rise and fall of groups of organisms Concept 23.2: The rise and fall of groups.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings PowerPoint Lectures for Biology, Seventh Edition Neil Campbell and Jane Reece.

1 Evolution Chapter 5. 2 Darwin Darwin’s observations included diversity of living things, remains of ancient organisms, and characteristics of organism.

CAMPBELL BIOLOGY IN FOCUS © 2014 Pearson Education, Inc. Urry Cain Wasserman Minorsky Jackson Reece Lecture Presentations by Kathleen Fitzpatrick and Nicole.

The Origin of Species Crash Course Video:

Tectonics from the Cambrian into the Future

Earth’s Geologic History based on fossils

In the Galápagos Islands Darwin discovered plants and animals found nowhere else on Earth Figure 24.1 How did this flightless bird come to live on the.

Geologic time scale In depth: chapter 19.

Geologic Time Unit 8.5.

How can fossils provide clues to the past?

Welcome to AP Biology Saturday Study Session

Copyright Pearson Prentice Hall

How is the Earth like a broken cookie?

Cambrian period, ~525mya. Gondwana (southern continent) beginning to form.

GEOLOGIC TIME SCALE. GEOLOGIC TIME SCALE The GEOLOGIC TIME SCALE is a record of the history of the Earth, based major geologic & biologic events.

What is Mass Extinction?

BIOGEOGRAPHY YEAR 10 BIOLOGY.

Other Definitions of Species

The Tree of Life An Introduction to Biological Diversity

Chapter 17 The History of Life

Geological Time Scale.

Geologic Time Ch. 30.

Video worksheet – due tomorrow

Chapter 14 The Origin of Species.

Life in the Mesozoic Era

What type of life do you think can be found in Antarctica?

Copyright Pearson Prentice Hall

Phanerozoic Proterozoic Archean Cambrian Ordovician Silurian Devonian

Chapter 24: The Origin of Species

Geologic Timeline based on Fossils

1.C.1: Speciation and Extinction

Presentation transcript:

AP Biology Macroevolution Part 2

Modes of Speciation Allopatric speciation Sympatric speciation

Geographic Range of west coast salamanders (A ring species)

Galapagos Islands

Galapagos Islands close up

Darwin’s Galapagos Island finches

Modes of Speciation Allopatric speciation Sympatric speciation

Failure of cell division in a cell of a growing Autopolyploidy Failure of cell division in a cell of a growing diploid plant after chromosome duplication gives rise to a tetraploid branch or other tissue. Offspring with tetraploid karyo- types may be viable and fertile—a new biological species. Gametes produced by flowers on this tetraploid branch are diploid. 2n 2n = 6 4n = 12 4n

Allopolyploidy Unreduced gamete with 4 chromosomes Unreduced gamete Hybrid with 7 chromosomes Viable fertile hybrid (allopolyploid) Meiotic error; chromosome number not reduced from 2n to n Species A 2n = 4 2n = 10 Normal gamete n = 3 Normal gamete n = 3 Species B 2n = 6

Stephen Jay Gould

. Time Gradualism model Punctuated equilibrium model

Mass extinctions over time Millions of years ago 600 500 400 300 200 100 100 2,500 Number of taxonomic families 80 2,000 Permian mass extinction ) Extinction rate 60 1,500 Number of families ( Extinction rate ( 40 1,000 Cretaceous mass extinction ) 20 500 Cambrian Ordovician Silurian Devonian Carboniferous Permian Triassic Jurassic Cretaceous Paleogene Proterozoic eon Neogene Ceno- zoic Paleozoic Mesozoic

Snowball Earth

Pangaea By about 10 million years ago, Earth’s youngest major mountain range, the Himalayas, formed as a result of India’s collision with Eurasia during the Cenozoic. The continents continue to drift today. Cenozoic North America Eurasia By the end of the Mesozoic, Laurasia and Gondwana separated into the present-day continents. 65.5 Africa South America India Madagascar Australia Antarctica Laurasia By the mid-Mesozoic Pangaea split into northern (Laurasia) and southern (Gondwana) landmasses. 135 Gondwana Millions of years ago Mesozoic At the end of the Paleozoic, all of Earth’s landmasses were joined in the supercontinent Pangaea. 251 Pangaea Paleozoic

Asteroid Impact NORTH AMERICA Chicxulub crater Yucatán Peninsula

Example of Descent with Modification and Natural Selection

Evolution of the eye Pigmented cells (photoreceptors) Pigmented cells Epithelium Nerve fibers Nerve fibers Patch of pigmented cells Eyecup Fluid-filled cavity Cellular fluid (lens) Cornea Epithelium Optic nerve Pigmented layer (retina) Optic nerve Pinhole camera-type eye Eye with primitive lens Cornea Lens Retina Optic nerve Complex camera-type eye