Gene-tree/species-tree discordance and diversification

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Gene-tree/species-tree discordance and diversification

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Gene-tree/species-tree discordance and diversification Sara Ruane CUNY (CSI, GC) R. Alex Pyron The GW Univ. Frank Burbrink CUNY (CSI, GC) Understanding patterns of ... – PowerPoint PPT presentation

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Title: Gene-tree/species-tree discordance and diversification

1
Gene-tree/species-tree discordance and
diversification
Sara Ruane CUNY (CSI, GC)
R. Alex Pyron The GW Univ.
Frank Burbrink CUNY (CSI, GC)
2
Understanding patterns of diversification

Ecological Opportunity
Key Innovations
Competition
Extinction
Ecological Limits

3
History of the study

Paleontological Research
Understand patterns of speciation and extinction
through time
Simpson (1944, 1953)
Sloss (1950)
Sepkoski (1979)
Stanley (1979)
Raup (1985)
Foote (1993)

4
Sloss 1950
5
Molecular Phylogenetic Approaches

Waiting times between speciation
Slowinski and Guiher (1989)
Harvey et al. (1991, 1994)
Nee et al. (1992, 1994)
Pybus and Harvey (2000)
Rabosky (2006, 2008)
Purvis et al. (2009)

6
Gamma and Rate Variable Models

Gamma (?) examines the density of nodes relative
to time
Models of diversification
1 ) Constant
Yule, Birth-Death
2) Variable
Yule2, Yule3, DDL, DDX

7
Plethodon ouachitae Complex
Early
Late
Even (Yule)
Log(Lineages)
Time
Gamma 2.2 (LB/Ext)
Gamma -4.5 (DDL)
Gamma -1.3 (Yule)
8
External Problems with Molecular Trees

Only Looking at the winners
Extinction dynamics must come from data external
to the tree or tame diversification rate
variation across a tree
Can we see all speciation events?

Quental and Marshall (2010)
9
Internal Problems Gene-Tree/Species-Tree
Discordance
A
B
(See Edwards and Beerli 2000)
10
What does ?t tell us?

Increasing 2Ne (T/2) increases ?t
Gene div gt Species div
?t will be small as div time between species
becomes large, because ?t will be a small
fraction of the total gene divergence
At deep div SG
At shallow div SltltG

11
Simulating gene trees from species trees
?t
Tree Depth
12
Impact on diversification estimation

Disproportionally pushes younger nodes towards to
the root
Density of nodes increases gt root.
Decreasing ? (early burst!)
Variable diversification models
Impact of T (4Neµ)?

13
Simulations

In R
(Phybase, Ape, Geiger, Laser, Phangorn)
Simulate Species Trees (ST)
Yule ?0 and BD
Taxa 25-100
Simulate Gene Trees (GT)
T 0.0001-100
T G distribution

Burbrink Pyron 2011
14
What are we looking for?

Impact of T on ?-error (GT ST)
Topology (RF Distance)

15
Simulation Results
16
Implications

T gt 1 yields a pattern of early burst (-?)
T gt 1 also increases topological discordance
Is T gt 1 likely?
Most studies of extant populations are well below
1.0.

17
Empirical Study

Group with all species sampled
Enough genes to construct a species trees
Lampropeltis
21 species of snakes
Throughout North America and South America
12 Loci

18
Comparisons

Tested fit of model for all genes and partitions
Species Trees (Beast) 3-7 individuals /species
Individual Gene Trees (Beast)
Concatenated gene trees with mtDNA
Concatenated gene trees nuclear genes only
Two calibration points

19
Lampropeltis Concat Gene Tree Depth Error
R20.87 Plt4.36x10-7
?t
Tree Depth
20
Null Distribution Yule
21
SpeciesTree -0.169 Yule
22
SpeciesTree -0.169 Yule
Nucl Gene Trees -1.512 to 0.415 Yule
23
SpeciesTree -0.169 Yule
Nucl GT -1.512 to 0.415 Yule
mtDNA GT -2.19 DDL
24
SpeciesTree -0.169 Yule
Concat GT mtdna and nuc -2.474 DDL
25
SpeciesTree -0.169 Yule
Concat mtdna and nuc -2.474 DDL
Concat nuc -2.11 Yule2
26
Is ?-errorassociated with topological
discordance?
R20.083 P0.787
?-error
RF
27
Issues