Transcript Slide 1

Cross-Dressing Salmon
By Tom Horvath
SUNY College at Oneonta
1
CQ#1: Which statement best
describes natural selection?
A. Survival of the fittest.
B. The strongest individuals get to reproduce.
C. The best adapted individuals survive and
reproduce.
D. Survival and reproduction is a matter of
luck.
2
3
Movie Clip
http://www.arkive.org/atlantic-salmon/salmosalar/video-09a.html?offset=0pt
4
CQ#2: Out of all the eggs a female
lays, how many hatchlings (or
smolts) do you think will survive to
spawn?
A. 50% (50 out of 100)
B. 10% (10 out of 100)
C. 1%
(1 out of 100)
D. 0.1% (1 out of 1000)
E. Less than 0.1 %
Mass of fertilized salmon eggs
5
About 0.03% survive & reproduce themselves
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Which are the lucky few who
make it to reproduce?
7
Charles Darwin’s Theory of
Natural Selection
It is not just random luck.
Some individuals have a
better chance of surviving
and reproducing than others.
8
CQ#3: Are all these smolts ABSOLUTELY identical?
A: Yes
B: No
9
Variation in salmon translates into
variations in survival and reproductive
success.
10
Theory of Evolution
by Natural Selection
• More offspring produced than survive
to adulthood (OVERPRODUCTION).
• Variation among individuals of a
species.
11
What good is variation?
Talk to your neighbor and list as many
characteristics a salmon may posses that
helps it survive.
12
ADAPTATION
• Any characteristic that improves the
survival or reproductive success of an
organism.
• Often the result of natural selection.
• Organisms match closely with their
environment.
13
Survival is only half the
story
– you have to reproduce to
pass on those good traits
that aided survival to this
point.
14
Theory of Evolution
by Natural Selection
• More offspring produced than survive to
adulthood (OVERPRODUCTION).
• Inheritable variation among individuals of a
species.
• Best adapted individuals survive and
reproduce (UNEQUAL REPRODUCTIVE
SUCCESS).
15
Typical Dominant Male Phenotype
16
Movie Clip
• Focus on the male defending redd.
• Time point in clip is 0:25.
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The most dominant males (usually largest
and most aggressive) successfully defend
their redds and inseminate the eggs.
Smaller males that also have the kype lose
out in head-to-head competition with larger
males.
CQ#4: Are we seeing “survival of the
fittest” in action here?
A. Yes
B. No
18
A Different Type of Male
Female Mimic
•Lack dominant male characteristics (e.g., no kype).
•Appear more female-like.
Disadvantage: They can’t compete head-to-head with
dominant males either, but….
19
Why do these non-dominant
males persist in the population
over time?
Why don’t female mimics get
weeded out through natural
selection if they are not fit?
20
CQ#5: Why are female mimics still
found in each generation?
A. Some outcompete the dominant males in the
redds.
B. They appear from mutations randomly each
generation.
C. They have a different reproductive strategy
from dominant males and it works.
D. Some females change into males under
stressful environmental conditions.
21
Cross-Dressing Salmon
Female mimics can stay near the redds because
dominant males don’t see them as competition;
they think they are females.
These fish get a brief chance to inseminate a few
eggs before being ultimately bumped out by
dominant males.
.22
CQ#6: Even though female mimics
are not dominant, are they fit?
A. Yes
B. No
23
Survival of the Fittest?
Darwinian fitness: contribution an individual makes
to the gene pool of the next generation relative to
the contribution of others.
24
Fitness can be compared with relative
values (values from 1 to 0)
• A fitness value of 1 is assigned to the
phenotype with the highest representation.
• All other phenotypes are assigned based on
their reproductive success relative to the
dominant type.
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Fitness Value Example
• Dominant male phenotype produces 300
male offspring in the next generation.
• Female mimic phenotype produces 50 male
offspring in the next generation.
• Small male phenotype produce only 5 male
offspring.
Dominant Male Phenotype – Fitness = 300/300 = 1.0
Female Mimic Phenotype – Fitness = 50/300 = 0.17
Small Male Phenotype – Fitness = 5/300 = 0.02
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Natural Selection
• Analyzing change in frequency of
traits in a population:
• Three patterns emerge:
– Directional selection
– Stabilizing selection
– Disruptive selection
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Natural Selection
Directional Selection
-Individuals of one
extreme phenotype
favored.
Disruptive Selection
- Both extreme
phenotypes favored;
intermediate
phenotypes selected
against.
Stabilizing Selection
- Individuals with
intermediate
phenotype favored;
Extreme phenotypes
selected against.
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Directional Selection
Individuals of one extreme phenotype favored
Frequency
Population with
no natural selection
Population under
directional selection
Body Size of Salmon
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Stabilizing Selection
Individuals with intermediate phenotype favored;
extreme phenotypes selected against
Frequency
Population under
stabilizing selection
Population with
no natural selection
Body Size of Salmon
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Disruptive Selection
Both extreme phenotypes favored; intermediate
phenotypes selected against
Frequency
Population with
no natural selection
Population under
disruptive selection
Body Size of Salmon
31
CQ#7: Given our fitness value from
the example, which pattern of
selection would we expect in the
salmon population?
A.
B.
C.
D.
Directional selection
Stabilizing selection
Disruptive selection
Unnatural selection
32
CQ#8: Do individuals have to be
the “strongest” to be fit?
A. Yes
B. No
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CQ#9: Which of these traits might confer
fitness upon an individual?
A. Being sneaky and tricking the dominant males into
letting you hang around the spawning females.
B. Having an awesome hook on your jaw and large
body size.
C. Having sperm that are extra good at finding and
fertilizing eggs.
D. Being extra good at storing fat, which will fuel all
that waterfall jumping while migrating upstream.
E. Any of the above will increase fitness.
.34
Slide Credits
Slide 1 , Slide 19 , and Slide 24
Description: Spawning salmon.
Author: Andrew Holland, Timberwolf Photography, [email protected]
Source: The Adams River Salmon Society
Link: http://www.salmonsociety.com/2006_Photo/AH6s.jpg
Clearance: ©Andrew Holland, used with permission.
Slide 3
Description: Diagram of the salmon life cycle.
Source: USDA Forest Service—Tongass National Forest
Link: http://www.fs.fed.us/r10/tongass/districts/mendenhall/fishcam/lifecycle.shtml
Clearance: Public domain, a work of the United States Federal Government under the terms of Title 17, Chapter 1, Section
105 of the US Code.
Slide 6 and Slide 8
Description: Mass of salmon eggs.
Source: Bonneville Power Administration, United States Department of Energy
Link: http://www.bpa.gov/corporate/BPANews/Library/images/fish/
Clearance: Public domain, courtesy of BPA.
Slide 7—Left
Description: Survival chart for an average salmon family.
Source: U.S. Fish and Wildlife Service
Link: http://www.fws.gov/r5cneafp/survival.gif
Clearance: Public domain, a work of the United States Federal Government under the terms of Title 17, Chapter 1, Section
105 of the US Code.
Slide 9
Description: Water-colour portrait of Charles Darwin.
Author: George Richmond
Source: Wikimedia Commons.
Link: http://en.wikipedia.org/wiki/Image:Charles_Darwin_by_G._Richmond.jpg
Clearance: A faithful reproduction of an original two-dimensional work of art from the late 1830s. The work of art itself is
in the public domain and its copyright has expired. This applies to the United States, Australia, the European Union
and those countries with a copyright term of life of the author plus 100 years or fewer.
Slide 10 and Slide 13
Description: Salmon smolts.
Source: Bonneville Power Administration, United States Department of Energy
Link: http://www.bpa.gov/corporate/BPANews/Library/images/fish/
Clearance: Public domain, courtesy of BPA.
Slide 11
Description: Mass of salmon.
Source: Bonneville Power Administration, United States Department of Energy
Link: http://www.bpa.gov/corporate/BPANews/Library/images/fish/
Clearance: Public domain, courtesy of BPA.
Slide 17
Description: Male salmon showing hook nose (kype).
Source: U.S. Fish and Wildlife Service
Link: http://www.fws.gov/r5cneafp/hookjaw.jpg
Clearance: Public domain, a work of the United States Federal Government under the terms of Title 17, Chapter 1, Section
105 of the US Code.
Slide 20 and Slide 33
Description: Male and Female sockeye salmon.
Source: Fisheries and Oceans Canada
Link: http://www.pac.dfo-mpo.gc.ca/recfish/Species/sockeye_e.htm
Clearance: Permissible non-commercial reproduction in accordance with Fisheries and Oceans Canada.
Slide 22
Description: Illustration of single salmon.
Source: USDA Forest Service—Tongass National Forest
Link: http://www.fs.fed.us/r10/tongass/districts/mendenhall/fishcam/images/sockeye_female.jpg
Clearance: Public domain, a work of the United States Federal Government under the terms of Title 17, Chapter 1, Section
105 of the US Code.
Slide 23
Description: Sockeye salmon spawning in an Alaskan stream.
Author: Wyatt Rivard
Source: Dreamstime.com, ID 8063677
Clearance: Copyrighted, licensed, royalty free.
Slide 25
Description: .
Source: USDA Forest Service—Tongass National Forest
Link: http://www.fs.fed.us/r10/tongass/districts/mendenhall/fishcam/lifecycle.shtml
Clearance: Public domain, a work of the United States Federal Government under the terms of Title 17, Chapter 1, Section
105 of the US Code.