Title: Different Types of Evolution

Slides:



Advertisements
Similar presentations
Evidence of Evolution Evolution is a continuous process of gradual modifications or changes in organisms. Patterns of evolution can be detected by viewing.
Advertisements

EVIDENCE OF EVOLUTION.
Evolution Test Study Guide Answers
 Fossil: Any non-living object obtained from the ground indicating the former presence of a living thing in a broad sense is a FOSSIL  Rock strata can.
Mechanisms of Evolution Convergent Divergent Adaptive radiation.
Evidence For Evolution. Homologous Structures: Similar features that indicate a common ancestor. Example: Click here for a link to Winging It: Fish with.
Evidence Supporting Theory of Evolution (pages 126 – 133)
AIM: How do comparative studies help trace evolution?
AP Biology Chapter 15.3 Evidence of Evolution Dodo bird.
Evidence of Evolution Main Types of Evidence 1. Fossils 2. Homologous structures 3. Embryology.
Evolution and the Diversity of Life. Theory Theories embody the highest level of certainty for comprehensive ideas in science. Thus, when someone claims.
Evidences of EVOLUTION. Evidence Supporting Evolutionary Theory Fossil Record Fossil Record Biogeography Biogeography Homologies Homologies Anatomical-
Evidence for Evolution by Natural Selection.
The Theory of Evolution.  Darwin developed the first theory on evolution, which is the basis for modern evolutionary theory ◦ Darwin spent 5 years sailing.
Evidence for Evolution. 1. Fossil Evidence 2. Biogeograpy 3. Anatomy 4.Comparative embryology 5.Molecular Biology.
Date: May 3, 2016 Aim #76: How do comparative studies help trace evolution? HW: 1)Whales in the Making Article Review due Thursday 5/5 2)Relationships.
Evidence of Evolution.
TOPIC 7- EVIDENCE FOR THE THEORY OF EVOLUTION
Biological Evolution Fossils present but rare
Evidence for Evolution
Evolution.
Biological Evidence of Evolution
Section 2: Applying Darwin’s Ideas
The Theory of Evolution
Bellwork: Pull out Natural Selection Lab Summary for me to read.
S&T: 3 pg. 310 give examples of types of evidence that Darwin gathered to develop the theory of evolution; Structural similarities among organisms. Geographic.
Evidence of Evolution From Biology
Do Now What does it mean to evolve? Provide an example based on the modern theory of evolution.
Chapter 13, Lessons 2 & 3 Outlines
Evidence for Evolution.
EVIDENCE OF EVOLUTION.
EVIDENCE OF EVOLUTION.
Warm-Up: vocabulary chart, add other words you need.
Patterns of Evolution & Speciation
Evidence of Evolution From Biology
15.2 Evidence of Evolution Main idea: Multiple lines of evidence support the theory of evolution. Objectives: Describe how fossils provide evidence of.
EVOLUTION IS… Evolution is a change in a population over time Proposed by Charles Darwin.
More Than An EyeWitness
Biological Evidence of Evolution
Catalyst: If the answer is False, explain why.
Evidence for Evolution
Evidence of Evolution Grade 8 Science.
Evidence for Evolution
3. Anatomical record Animals with different structures on the surface
Name causes of genetic drift and describe how they work?
More Than An EyeWitness
Outline 15-3 B: Evidence of Evolution
II. Evidence for Evolution: evolutionary biologists look at a variety
Evidence for Evolution
The Unifying Theme of Biology
Evidence of Evolution Grade 8 Science.
More Than An EyeWitness
Bellringer What is genetic drift? What are two mechanisms (ways it is caused) of genetic drift? Once done answering the bellringer question on your sheet,
More Than An EyeWitness
The Theory of Evolution—Darwinian Evolution
Section 5.3 Evidence of Evolution from Biology Chapter 5 Section 5.3 Evidence of Evolution from Biology.
NOTES – Evidence of Evolution
EVIDENCE OF EVOLUTION.
Evolution HAVE Evidence of Evolution
Evidence for Evolution
Change over a period of time.
Name 2 vestigial structures in the human body.
II. Evidence for Evolution:
Evidence for Evolution
Evidence for Evolution
The Unifying Theme of Biology
Evidence of Evolution Chapter 15 Section 3.
The Scientific Evidence for Evolution
Evidence of evolution Ch.12 and Ch.13.
Evolution Biology Mrs. Johnson.
Presentation transcript:

Title: Different Types of Evolution Learning question: What are the different ways that evolution can occur??

Key words Divergent evolution Speciation Adaptation Common ancestor Adaptive radiation Convergent evolution analogous structures Comparative anatomy Embryology Homologous structures Vestigial structures Analogous structures Molecular phylogeny bioinformatics

Divergent Evolution A pattern of evolution where differences between groups of organisms accumulate to a critical point that leads to the development of a new species (speciation) Genetic isolation can account for speciation Organisms with a recent common ancestor adapt to suit their new environment via mutations over successive generations – divergence occurs Development of various different species in this manner is referred to as adaptive radiation

Adaptive Radiation Adaptive radiation is a pattern of divergent evolution – organisms rapidly diversify to adapt to new environment and niche Tropical forests that covered central Australia gave rise to very different organisms that exist today. Organisms compete to survive changing environment and divergent evolution led to other Australian mammals dominating the new environment.µ

Convergent Evolution A pattern of evolution when unrelated organisms evolve similar adaptations in response to their environment e.g. ant eaters have developed similar structures No recent common ancestor and belong to different orders Traits and behaviors have developed independently and coincidentally Analogous structures result from convergent evolution – adaptations of different types of structures that solve a problem in a similar way

Evidence for evolution: comparative anatomy Examination of physical characteristics of species, studying: Embryonic Adult stages of evolution

Modern Life: Evidence for Evolutionary Change Developmental biologists study the stages of growth and development from fertilized egg until mature adult and beyond. When embryos of organisms are similar, it shows that they are related because they have developed in similar ways.

Embryology Embryology is a branch of developmental biology that focuses on the early development of organisms before they are born or hatched. These developing organisms are known as embryos. Embryology is particularly useful in studying organisms that can be grouped together as having a common ancestor and therefore finds out more about their evolutionary past.

Homologous structures Homologous structures are structures derived from a common ancestor or same evolutionary or developmental origin. Homologous structures may not necessarily perform the same function but they share a common ancestral origin. For example, the forelimbs of humans and bats are homologous structures. Although they are used differently, the basic skeletal structure is the same and they are derived from the same embryonic origin. Their similarity in this regard could indicate a likely evolution from a common ancestor.

Vestigial Homologous Structures Vestigial structures useless structures that no longer have a function in one organism but may still function in a related organism. Examples-snake legs, whale pelvis, eyes in blind salamanders, human tail bone, etc. A pattern of similar characteristics for both homologous and vestigial structures, suggests how organisms are related. Click on the image of the flightless Cormorant to find out more about its vestigial structures.

Analogous structures Features of organisms that have the same function, but not the same basic structure are described as analogous structures E.g. bats, butterflies and birds all have wings, but no common ancestor. However, they have adapted to a similar environment Evidence that they have evolved from distinct lines of evolution

Comparative genetics Scientists also compare the DNA of organisms DNA is found in the nucleus of every cell and contains all of the genes that give organisms their traits and proteins. The more alike the DNA, the more related. For example, Monkeys are 93% similar and Chimpanzee 96% to humans in terms of DNA.

Protein Conservation Proteins that are well suited to their function are conserved, while others may evolve Mutations may change functionality of proteins over time, however, some mutations may substitute one amino acid for another that is very similar in charge and shape

Genetic Comparison A baseline rate of mutations will always occur within a population – can be measured within a species as the mutation rate Comparison of genetics between two species can use mutation rates as a “clock” to estimate when in time these species diverged from common anscestor

Comparative Genomics Bioinformatics digitally stores, retrieves, organizes and analyses data Used to provide evidence for evolution through rapid analysis of data gathered Data can be used to create molecular phylogenic trees (molecular phylogeny) to illustrate how genes evolve and are modified to give rise to different lineages

What does this Phylogenetic tree tell us about CCR5 and HIV? Humans and other primates have closely related CCR5 sequences. This means that the SIV viruses that infect non-human primates didn't have to mutate very much to be able to use human CCR5 as a coreceptor and infect the human immune system.