quantitative evolution of morphology - morphometrics 4b... · department of geological sciences |...
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![Page 1: Quantitative evolution of morphology - Morphometrics 4B... · Department of Geological Sciences | Indiana University (c) 2012, P. David Polly G562 Geometric Morphometrics Quantitative](https://reader034.vdocuments.mx/reader034/viewer/2022050116/5f4d3e4bd8bb29116b494aae/html5/thumbnails/1.jpg)
Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Quantitative evolution of morphology
![Page 2: Quantitative evolution of morphology - Morphometrics 4B... · Department of Geological Sciences | Indiana University (c) 2012, P. David Polly G562 Geometric Morphometrics Quantitative](https://reader034.vdocuments.mx/reader034/viewer/2022050116/5f4d3e4bd8bb29116b494aae/html5/thumbnails/2.jpg)
Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Properties of Brownian motion evolution of a single quantitative trait
Most likely outcome = starting value
Variance of the outcomes = number of step * (rate parameter)2
Outcomes are normally distributed (reason is Central Limit Theorem: each step adds a random variable, sum of many random variables forms a normal distribution)
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Brownian motion function for 2 traits !#################################################################!#!# This function generates a Brownian-motion random walk!# in two traits for n number of generations. The default step!# variance is 1. Written by David Polly, 2008.!#!#################################################################!!randomwalk <- function(n,r=1) { !scores <- matrix(ncol=3, nrow=n)!scores[1,] <- c(1,0,0)!for (i in 2:n) {!scores[i,1]=i!scores[i,2]=scores[i-1,2]+rnorm(1, mean=0, sd=sqrt(r)) !scores[i,3]=scores[i-1,3]+rnorm(1, mean=0, sd=sqrt(r)) !}!return(as.data.frame(scores)) !}!!
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Quantitative evolutionary theory
Lande, R. 1979. Quantitative genetic analysis of multivariate evolution, applied to brain: body size allometry. Evolution, 33: 402-416.
Change in phenotype
Selection coefficients
Additive genetic variance – covariance matrix
Selection coefficients can be: Random Directional Stabilizing Etc.
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
To properly model evolution
Additive genetic covariance matrix of traits for a single species
Normally this is estimated from parent-offspring data
Phenotypic covariance matrix (for a single species) can arguably be substituted
Don’t use covariance matrix based on multiple species because this confounds phenotypic covariances and phylogenetic covariances
Use this covariance matrix to construct shape space
Estimate step rates from phylogeny (e.g., Martins and Hansen, 1997; Gingerich, 1993, etc.)
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
![Page 7: Quantitative evolution of morphology - Morphometrics 4B... · Department of Geological Sciences | Indiana University (c) 2012, P. David Polly G562 Geometric Morphometrics Quantitative](https://reader034.vdocuments.mx/reader034/viewer/2022050116/5f4d3e4bd8bb29116b494aae/html5/thumbnails/7.jpg)
Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Polly, P. D. 2004. On the simulation of the evolution of morphological shape: multivariate shape under selection and drift. Palaeontologia Electronica, 7.2.7A: 28pp, 2.3MB. http://palaeo-electronica.org/2004_2/evo/issue2_04.htm
Adaptive landscape Wright, 1932 (original concept for allele frequency and reproductive fitness) Simpson 1944 (phenotypic concept for macro evolution) Lande, 1976 (quantitative theory for phenotypes)
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Brownian motion analogous to evolution on a flat adaptive landscape where random bumps appear and disappear
Polly, P. D. 2004. On the simulation of the evolution of morphological shape: multivariate shape under selection and drift. Palaeontologia Electronica, 7.2.7A: 28pp, 2.3MB. http://palaeo-electronica.org/2004_2/evo/issue2_04.htm
Shape model in landmark space
PC scores in shape space
Procrustes distance from ancestral (consensus) shape
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Directional selection analogous to a flat adaptive landscape that is tilted up in one direction
Polly, P. D. 2004. On the simulation of the evolution of morphological shape: multivariate shape under selection and drift. Palaeontologia Electronica, 7.2.7A: 28pp, 2.3MB. http://palaeo-electronica.org/2004_2/evo/issue2_04.htm
Shape model in landmark space
PC scores in shape space
Procrustes distance from ancestral (consensus) shape
![Page 10: Quantitative evolution of morphology - Morphometrics 4B... · Department of Geological Sciences | Indiana University (c) 2012, P. David Polly G562 Geometric Morphometrics Quantitative](https://reader034.vdocuments.mx/reader034/viewer/2022050116/5f4d3e4bd8bb29116b494aae/html5/thumbnails/10.jpg)
Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Polly, P. D. 2004. On the simulation of the evolution of morphological shape: multivariate shape under selection and drift. Palaeontologia Electronica, 7.2.7A: 28pp, 2.3MB. http://palaeo-electronica.org/2004_2/evo/issue2_04.htm
Stabilizing selection analogous to classic adaptive peak
Shape model in landmark space
PC scores in shape space
Procrustes distance from ancestral (consensus) shape
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Drift Perfectly flat landscape where change occurs by chance sampling from one generation to the next. Change is small and a function of population size (where population size is average number of breeding individuals in the species through the period of interest)
Polly, P. D. 2004. On the simulation of the evolution of morphological shape: multivariate shape under selection and drift. Palaeontologia Electronica, 7.2.7A: 28pp, 2.3MB. http://palaeo-electronica.org/2004_2/evo/issue2_04.htm
Shape model in landmark space
PC scores in shape space
Procrustes distance from ancestral (consensus) shape
![Page 12: Quantitative evolution of morphology - Morphometrics 4B... · Department of Geological Sciences | Indiana University (c) 2012, P. David Polly G562 Geometric Morphometrics Quantitative](https://reader034.vdocuments.mx/reader034/viewer/2022050116/5f4d3e4bd8bb29116b494aae/html5/thumbnails/12.jpg)
Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
The curvature and slope of a divergence graph depend on the type of selection and the rate of evolution
Mode of selection Rate
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Applied to hominin tooth shape
Gómez-Robles, A. and P.D. Polly. 2012. Morphological integration in the hominin dentition: evolutionary, developmental, and functional
factors. Evolution, 66: 1024-1043.
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Possible issues with this kind of modeling: • Does not model the gain or loss of features • Presumes that trait covariances don’t change • Presumes that evolutionary transitions in phenotypes are continuous
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
![Page 16: Quantitative evolution of morphology - Morphometrics 4B... · Department of Geological Sciences | Indiana University (c) 2012, P. David Polly G562 Geometric Morphometrics Quantitative](https://reader034.vdocuments.mx/reader034/viewer/2022050116/5f4d3e4bd8bb29116b494aae/html5/thumbnails/16.jpg)
Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Polly, 2008
New Frontiers: Alternative approaches
“Homology free” geometric methods that can accommodate gain and loss of features
Non-linear shape spaces that can be used to model interactions of genetic, developmental, and environmental effect
Homologous landmarks
“Homology free” outline
semilandmarks
“Homology free” surface
semilandmarks
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Estimated trajectory of pinniped calcaneum evolution
Polly, P. D. 2008. Adaptive Zones and the Pinniped Ankle: A 3D Quantitative Analysis of Carnivoran Tarsal Evolution. In (E. Sargis and M. Dagosto, Eds.) Mammalian Evolutionary Morphology: A Tribute
to Frederick S. Szalay. Springer: Dordrecht, The Netherlands.
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Department of Geological Sciences | Indiana University (c) 2012, P. David Polly
G562 Geometric Morphometrics
Further reading Adams, D. C. and M. L. Collyer. 2009. A general framework for the analysis of phenotypic trajectories in evolutionary studies. Evolution, 63: 1143-1154.
Arnold, S. J., M. E. Pfrender, and A. G. Jones. 2001. The adaptive landscape as a conceptual bridge between micro- and macroevolution. Genetica, 112-113: 9-32.
Felsenstein, J. 1988. Phylogenetics and quantitative characters. Annual Review of Ecology and Systematics, 19: 445-471.
Lande, R. 1976. Natural selection and random genetic drift in phenotypic evolution. Evolution, 30: 314-334.
Lande, R. 1986. The dynamics of peak shifts and the pattern of morphological evolution. Paleobiology, 12: 343-354.
Martins, E.P. and T.F. Hansen. 1997. Phylogenies and the comparative method: a general approach to incorporating phylogenetic information into the analysis of interspecific data. The American Naturalist, 148: 646-667.
Polly, P. D. 2004. On the simulation of the evolution of morphological shape: multivariate shape under selection and drift. Palaeontologia Electronica, 7.2.7A: 28pp, 2.3MB. http://palaeo-electronica.org/2004_2/evo/issue2_04.htm
Polly, P.D. 2008. Developmental dynamics and G-matrices: Can morphometric spaces be used to model evolution and development? Evolutionary Biology, 35, 83-96.