Title: Conservation Genetics
1Conservation Genetics
2All the remaining individuals of the Great and
Lesser Apes would fit into a couple of football
stadiums (IUCN Red Book 2007) Ebola, war,
habitat loss (logging and oil palm), bushmeat,
poaching, etc.
3From a genetics perspective
- Populations are smaller than they seem
- Genetic diversity is lost as Ne declines, not
just Nc - Ne reduced by many things, e.g., unequal sex
ratio, mating structure, population
fragmentation, age-related disease (Ebola), etc.
etc.
4ANDeffects of genetic change on ecosystems
5A species pool of genetic diversity exists at
three fundamental levels
6Evolutionary Change
Genetic drift
Mutation
Most mutations are recessive. Here the mutation
is dominant
Migration/gene flow
Natural selection
7Hairy-Nosed Wombat. Is 65 enough to survive?
What can genetics tell us?
If these populations can increase, are these
numbers good insurance against extinction? Must
also consider genetic variation.
1000 Kemps Ridley Turtle?
300 Right Whales?
8Inbreeding depression Vulnerable small populations
Population of 40 European Adders was isolated by
road. In a few years malformed individuals and
lower birth rates began to cause population
decline. This is an example of inbreeding
depression. Population growth was restored when
individuals from different population were
introduced.
9Many domesticated plants and animals, especially
pets, are highly inbred
10and some people. Why states outlaw marriage
between close relatives.
11Charles II of Spain illustrates the Hapsburg lip,
an Inbred trait in this royal line.
12Severe effects of inbreeding in zoo tiger
13African Cheetahs, wild and in zoos, are highly
inbred with little genetic variation. A feline
viral disease swept through European zoos killing
many cheetahs. Lions have much greater genetic
variation and were relatively unaffected by the
disease.
14How some plants avoid inbreeding
Programmed cell death an auto-immune response
of style (obligate outcrossing). Timing of
stigma and style reception differ Male and
female flowers on different plants Foreign
pollen out-competes self pollen (common)
15Population bottlenecks and reduced genetic
variation
Genes lost through drift
Slower recovery of genetic variation
More homozygosity
16..
Lost uncommon black allele
17Galapagos tortoise population on Volcan alcedo
suffered severe bottleneck about time of massive
eruption (molecular clock and geological
evidence). Population has less genetic variation
than other populations but population has
recovered.
18Bottleneck consequences
- More deleterious genes by chance means very slow
recovery or extinction - (African Cheetah)
- Fewer deleterious genes means fast recovery (N.
Elephant Seal) - Founder effect from migrants from small population
19American bison, a bottleneck enigma? ltEuropean
contact bison estimate 60,000,000 1890 about
750 By 2000 the number is about 360,000 Bison
have considerable genetic variation (within and
between population heterozygosity). How did
they retain so much genetic variation??? Hint
geographic herds and buffalo parks.
20Genetics provides new insight
- Pacific Gray Whales thought to be recovery
success at 22,000 - But, 10 whales are undernourished
- Calving frequency is down
- Feeding behavior has shifted from bottom
plowing (which supports sea birds) to feeding in
water column
21Pacific Gray Whale Using Genetics to Infer the
Past
22Gray whales migrate from winter feeding area to
southern mating and breeding site. Longest mammal
migration.
23(No Transcript)
24Pit marks left by whale foraging. Currently
resuspend about 172 million tons each year. More
than 2X that produced by the Yukon River, the 3rd
largest US river. Important food for sea birds.
25Recovery to 22,000. A success story?
26Gray whale cont
- Genetic variation between individuals indicates
much larger population in past - (mismatch analysis of sequence frequencies)
- Accounts from 1700s indicates large whale
populations. Their fetid breath fouled Monterey
Bay.. Calif. Bishop
27Gray whale cont
- Decline in plankton, plankton-feeding fish and
the birds that eat those fish suggests a decline
in productivity - Probably related to global warming and
temperature increase in coastal waters - Thus, Gray Whales may not be at historic carrying
capacity but rather the environment is changing
to their detriment.
28Gray whale cont
- Genetic information suggests an early population
between 78,500-117,000 - These populations would have disturbed between
22-31 of the sea sediment each year - and the effect from this nutrient input on birds
and fish??
29Genetics and dams. Populations of Oncorhynchus
mykiss usually contain two forms, a freshwater
form called Rainbow Trout and a form the lives
mostly in the sea, returning to freshwater to
spawn, Steelhead Trout. Putting a Steelhead
ladder around a dam in California allowed
Steelheads to mate with Rainbows, thereby
increasing genetic diversity.
30Genetics can help make conservation
decisions. Which river basin should be
preserved? Each has four imperiled fish species.
31A genetic analysis shows that fish in river basin
C have fewer genes in common (or morphological
characters are very different). Protecting river
basin C would protect the greatest genetic
diversity. But, may be other considerations in
choosing the river basin
32Genetics and captive breeding. May select for
individuals that are adapted to the captive
environment but not to the wild environment,
e.g., may not recognize predators. Difficult to
avoid.
33Wildlife as possible vectors of antibiotic
resistance genes?
Canada geese in Chesapeake Bay carried E. coli
resistant to penicillin G, ampicillin,
cephalothin, and sulfathiazole and enterococci
resistant to cephalothin, streptomycin, and
sulfathiazole.
34(No Transcript)
35(No Transcript)
36(No Transcript)
37Among population genetic diversity (Dpt) What
can it tell you? Above average for taxon
Unusual spatial segregation low mobility high
site fidelity (Red Cockaded Woodpeckers, Howler
monkeys) farther from ideal breeding
population Nc much Higher than Ne Below average
for taxon Unusual high migration panmixis
closer to ideal breeding population Nc close to
Ne
38(No Transcript)
39(No Transcript)
40Which population has the lowest heterozygosity?
41Heterozygosity
- Some genetically identical populations do well
(Northern Elephant Seal) others not - (Cheetahs)
- Rate of decline in heterozygosity
- is extremely important
42Genetics as a tool for conservation management
43(No Transcript)
44Swainson Thrush
45Swainson Thrush breeds in northern North America
from northern California and Great Lakes into
Canada and Alaska. During the non-breeding
season it is somewhere in the southern US or
down into Latin America as far as Argentina.
46Combining genetic with other methods For
migratory birds, how can we associate breeding
sites with non-breeding sites? For Swainson
thrush breeding in Wisconsin, where did they
spend their non-breeding time?
47Suppose the Wisconsin population began declining
and you want to know what is happening to the
thrushs habitat on its non-breeding habitat.
Where would you begin to look? If you banded
100 birds in Wisconsin, what would be the
probability of recovering them somewhere between
Georgia and Argentinia???
48Genetics Mitochondrial DNA (mtDNA) is
extranuclear and therefore inherited maternally.
Chloroplast DNA in plants is similar. mtDNA is
not reorganized during recombination and remains
stable within maternal lines, except for
mutations.
49mtDNA is haploid. Segments of DNA can be
separated by restriction enzymes and sequenced
for their gene array. Segments that are
associated with specific geographic areas are
called haplotypes. For the thrush, there are
tropical coastal haplotypes and interior
haplotypes. Very small amounts of blood can be
taken from feathers and the DNA amplified by PCA
for analysis by sequencing.
50coupled with non-genetic method Stable
isotopes Non-radioactive elements with more than
the normal number of neutrons. Most stable
isotopes have one or two extra neutrons and are
therefore very slightly heavier, e.g.,
Carbon-12/13, Nitrogen-14/15, Oxygen-16/18,
Deuterium -1/2, and Sulfur-32/34
51Hydrogen H/D strong North-South gradient in
ratio in precipitation Sulfur marine sulfur is
enriched with heavy sulfur isotope Therefore
H/D isotopes in feathers record the latitude of
molt S/S isotopes in feathers tell if individual
was from a coastal population
52 Pre-molting feathers were sampled for
isotope ratios and mtDNA to provide evidence of
where the female was when the feathers were
formed the previous year. Non-invasive. Birds
were banded.
53Results By combining both isotope and mtDNA
analysis, 75 of the birds could be assigned to
their correct breeding and non-breeding
sites. Reference Kelly et al. 2005. Combining
isotopic and genetic markers to identify
breeding origins of migrant birds. Ecol. Appl.
15 1487-1494.
54Genetic markers to determine origins of protected
populations
- DNA amplified from fecal and tissue samples
- Used to construct DNA library to determine origin
of elephant ivory, etc.
55(No Transcript)
56Forensic identification using mtDNA of dolphin
or minke whale meat samples legally sold in
Japanese markets
57 58Genetically effective population
- The genetically effective population (N with
subscript e, Ne) is the average number of
individuals in a population that contribute genes
to the next generation. It is usually less, and
often much less, than the census population (Nc).
59- It is influenced by age structure, sex ratio,
social structure, and especially by spatial
structure. Metapopulation structure may enhance
population viability but it may also contribute
to loss of genetic variation by reducing Ne.
Genetic models typically use Ne rather than Nc. - Loss in heterozygosity depends on Ne not Nc
60- Heterozygosity loss in 100 grizzly bears
Exchange 2 unrelated bears every 10 years in 100
Nc bears Isolated 100 Nc bears
61Average percentage of genetic variance remaining
over 10 generations
- Smaller genetically effective populations lose
more genetic variation - Losses are random due to genetic drift
62(No Transcript)
63Predicted percent loss of heterozygosity for 80
mammal species
64After a bottleneck, genetic variation recovers
very slowly
65Population bottlenecks and reduced genetic
variation
Genes lost through drift
Slower recovery of genetic variation
More homozygosity
66Rare alleles more likely lost in small
populations (genetic drift)
- Example shows alleles lost from small, isolated
populations of an endangered daisy in Australia
67(No Transcript)
68Inbred white-footed mice (open circles) had lower
survivorship than outbred individuals (solid
circles) after release into the wild
69(No Transcript)
70Not all alleles are equal
- MHC (major histocompatibility complex) genes
enhance immune response. Located on chromosome 6
in humans. - Heterozygous MHC generates more immune molecules
71Intracellular diversity of MHC is important
- MHC codes for large proteins that transport viral
particles to surface and holds them for T-cells
(killer cells) - Viral diversity is best delt with by diversity of
MHC proteins - Trade-off is that large proteins are costly to
make. Therefore..?
72Genes and Ecosystems
73Cottonwood trees (Populus spp.) Occurs along
streams Several species hybridize
74Cottonwood genotypes with high tannin conc
Cottonwood beavers
Fewer insects and less endophytic fungi
and
Fewer birds