The distribution of phenotypes simulated according to the Brownian motion model of evolution (“Brown”).

Data from: A general model for estimating macroevolutionary landscapes

Boucher, Florian C.
Démery, Vincent
Conti, Elena
Harmon, Luke J.
Uyeda, Josef

The evolution of quantitative characters over long timescales is often studied using stochastic diff...

Inferring Bounded Evolution in Phenotypic Characters from Phylogenetic Comparative Data

Boucher, Florian C.
Démery, Vincent

October 2021

Our understanding of phenotypic evolution over macroevolutionary timescales largely relies on the us...

Evolutionary simulation scheme, and definition of model.

Tamar Friedlander (442229)
Avraham E. Mayo (384895)
Tsvi Tlusty (21722)
Uri Alon (15569)

August 2013

(A) Simulation was initiated by randomly choosing population members each consisting of 2...

The change in phenotypic values occurring by transforming a Brownian motion generated phenotype (gray dots) by applying a trend in the rate of evolution (upper row, green dots) or a drift to the phenotypic mean (lower row, purple dots).

S. Castiglione (471931)
C. Serio (6263894)
A. Mondanaro (6263897)
M. Di Febbraro (6263900)
A. Profico (6263903)
G. Girardi (6263906)
P. Raia (6263909)

January 2019

The shaded areas represent the distribution of values generated after 100 random iterations. The gra...

Illustration of the simulation experiments performed to test the power of search.trend function to correctly identify clades evolving at different regimes from the rest of the tree.

S. Castiglione (471931)
C. Serio (6263894)
A. Mondanaro (6263897)
M. Di Febbraro (6263900)
A. Profico (6263903)
G. Girardi (6263906)
P. Raia (6263909)

January 2019

The gray shaded area represent the idealized distribution of phenotypes and rates according to the B...

Overview of the modelling approach.

Charles L. Nunn (9930434)
Alexander Q. Vining (11320591)
Debapriyo Chakraborty (603173)
Michael H. Reiskind (5505626)
Hillary S. Young (7852778)

August 2021

The schematic shows the four main steps in the model, labelled 1–4. Note that λ is adjusted to refle...

Simultaneous detection of macroevolutionary patterns in phenotypic means and rate of change with and within phylogenetic trees including extinct species - Fig 3

S. Castiglione (471931)
C. Serio (6263894)
A. Mondanaro (6263897)
M. Di Febbraro (6263900)
A. Profico (6263903)
G. Girardi (6263906)
P. Raia (6263909)

January 2019

The application of phenotypic drift (left) and trend in rate variation (right) develped by the RRphy...

Simultaneous detection of macroevolutionary patterns in phenotypic means and rate of change with and within phylogenetic trees including extinct species - Fig 5

S. Castiglione (471931)
C. Serio (6263894)
A. Mondanaro (6263897)
M. Di Febbraro (6263900)
A. Profico (6263903)
G. Girardi (6263906)
P. Raia (6263909)

January 2019

Upper row, the relationship between the intensity of the simulated phenotypic pattern (obtained appl...

Justin Garson
Linton Wang
Sahotra Sarkar

January 2015

Abstract. A framework is presented in which the role of developmental rules in phenotypic evolution ...

The evolution of different phenotypes shown by an evolutionary tree.

Jordi van Gestel (110582)
Martin A. Nowak (24845)
Corina E. Tarnita (110587)

December 2012

The phenotypes that are associated with the three most-abundant genotypes that were present at th...

Predictions from the Brownian motion (BM) and Ornstein-Uhlenbeck (OU) models of evolution.

François Blanquart (3191950)
Chris Wymant (4102264)
Marion Cornelissen (68855)
Astrid Gall (640832)
Margreet Bakker (255262)
Daniela Bezemer (134739)
Matthew Hall (736847)
Mariska Hillebregt (4102258)
Swee Hoe Ong (400404)
Jan Albert (176517)
Norbert Bannert (201664)
Jacques Fellay (192975)
Katrien Fransen (80730)
Annabelle J. Gourlay (4102261)
M. Kate Grabowski (2793961)
Barbara Gunsenheimer-Bartmeyer (300168)
Huldrych F. Günthard (173082)
Pia Kivelä (4102255)
Roger Kouyos (178908)
Oliver Laeyendecker (199157)
Kirsi Liitsola (4102267)
Laurence Meyer (130347)
Kholoud Porter (252703)
Matti Ristola (264027)
Ard van Sighem (134719)
Guido Vanham (114634)
Ben Berkhout (7015)
Paul Kellam (6413)
Peter Reiss (4933)
Christophe Fraser (7754)

June 2017

(A) Illustration of the models of character evolution on a phylogeny (top panel), showing ...

An Evolution Model of Phenotypic Characters

P. Freguglia
A. Bazzani

January 2015

Abstract:-We propose a simple model for the evolution of phenotypic characters based on a axiomatic ...

A General Model for Estimating Macroevolutionary Landscapes

Boucher, Florian C.
Démery, Vincent
Conti, Elena
Harmon, Luke J.
Uyeda, Josef

October 2021

The evolution of quantitative characters over long timescales is often studied using stochastic diff...

Beyond Brownian motion and the ornstein-uhlenbeck process: stochastic diffusion models for the evolution of quantitative characters

Blomberg, Simone P.
Rathnayake, Suren I.
Moreau, Cheyenne M.

February 2020

Gaussian processes, such as Brownian motion and the Ornstein-Uhlenbeck process, have been popular mo...

Data from: Inferring bounded evolution in phenotypic characters from phylogenetic comparative data

Boucher, Florian C.
Démery, Vincent

January 2016

Our understanding of phenotypic evolution over macroevolutionary timescales largely relies on the us...

Data from: A general model for estimating macroevolutionary landscapes

Boucher, Florian C.
Démery, Vincent
Conti, Elena
Harmon, Luke J.
Uyeda, Josef

The evolution of quantitative characters over long timescales is often studied using stochastic diff...

Inferring Bounded Evolution in Phenotypic Characters from Phylogenetic Comparative Data

Boucher, Florian C.
Démery, Vincent

October 2021

Our understanding of phenotypic evolution over macroevolutionary timescales largely relies on the us...

Evolutionary simulation scheme, and definition of model.

Tamar Friedlander (442229)
Avraham E. Mayo (384895)
Tsvi Tlusty (21722)
Uri Alon (15569)

August 2013

(A) Simulation was initiated by randomly choosing population members each consisting of 2...

The change in phenotypic values occurring by transforming a Brownian motion generated phenotype (gray dots) by applying a trend in the rate of evolution (upper row, green dots) or a drift to the phenotypic mean (lower row, purple dots).

S. Castiglione (471931)
C. Serio (6263894)
A. Mondanaro (6263897)
M. Di Febbraro (6263900)
A. Profico (6263903)
G. Girardi (6263906)
P. Raia (6263909)

January 2019

The shaded areas represent the distribution of values generated after 100 random iterations. The gra...

Illustration of the simulation experiments performed to test the power of search.trend function to correctly identify clades evolving at different regimes from the rest of the tree.

S. Castiglione (471931)
C. Serio (6263894)
A. Mondanaro (6263897)
M. Di Febbraro (6263900)
A. Profico (6263903)
G. Girardi (6263906)
P. Raia (6263909)

January 2019

The gray shaded area represent the idealized distribution of phenotypes and rates according to the B...

Overview of the modelling approach.

Charles L. Nunn (9930434)
Alexander Q. Vining (11320591)
Debapriyo Chakraborty (603173)
Michael H. Reiskind (5505626)
Hillary S. Young (7852778)

August 2021

The schematic shows the four main steps in the model, labelled 1–4. Note that λ is adjusted to refle...

Simultaneous detection of macroevolutionary patterns in phenotypic means and rate of change with and within phylogenetic trees including extinct species - Fig 3

S. Castiglione (471931)
C. Serio (6263894)
A. Mondanaro (6263897)
M. Di Febbraro (6263900)
A. Profico (6263903)
G. Girardi (6263906)
P. Raia (6263909)

January 2019

The application of phenotypic drift (left) and trend in rate variation (right) develped by the RRphy...

Simultaneous detection of macroevolutionary patterns in phenotypic means and rate of change with and within phylogenetic trees including extinct species - Fig 5

S. Castiglione (471931)
C. Serio (6263894)
A. Mondanaro (6263897)
M. Di Febbraro (6263900)
A. Profico (6263903)
G. Girardi (6263906)
P. Raia (6263909)

January 2019

Upper row, the relationship between the intensity of the simulated phenotypic pattern (obtained appl...

Justin Garson
Linton Wang
Sahotra Sarkar

January 2015

Abstract. A framework is presented in which the role of developmental rules in phenotypic evolution ...

The evolution of different phenotypes shown by an evolutionary tree.

Jordi van Gestel (110582)
Martin A. Nowak (24845)
Corina E. Tarnita (110587)

December 2012

The phenotypes that are associated with the three most-abundant genotypes that were present at th...

Predictions from the Brownian motion (BM) and Ornstein-Uhlenbeck (OU) models of evolution.

François Blanquart (3191950)
Chris Wymant (4102264)
Marion Cornelissen (68855)
Astrid Gall (640832)
Margreet Bakker (255262)
Daniela Bezemer (134739)
Matthew Hall (736847)
Mariska Hillebregt (4102258)
Swee Hoe Ong (400404)
Jan Albert (176517)
Norbert Bannert (201664)
Jacques Fellay (192975)
Katrien Fransen (80730)
Annabelle J. Gourlay (4102261)
M. Kate Grabowski (2793961)
Barbara Gunsenheimer-Bartmeyer (300168)
Huldrych F. Günthard (173082)
Pia Kivelä (4102255)
Roger Kouyos (178908)
Oliver Laeyendecker (199157)
Kirsi Liitsola (4102267)
Laurence Meyer (130347)
Kholoud Porter (252703)
Matti Ristola (264027)
Ard van Sighem (134719)
Guido Vanham (114634)
Ben Berkhout (7015)
Paul Kellam (6413)
Peter Reiss (4933)
Christophe Fraser (7754)

June 2017

(A) Illustration of the models of character evolution on a phylogeny (top panel), showing ...

An Evolution Model of Phenotypic Characters

P. Freguglia
A. Bazzani

January 2015

Abstract:-We propose a simple model for the evolution of phenotypic characters based on a axiomatic ...

A General Model for Estimating Macroevolutionary Landscapes

Boucher, Florian C.
Démery, Vincent
Conti, Elena
Harmon, Luke J.
Uyeda, Josef

October 2021

The evolution of quantitative characters over long timescales is often studied using stochastic diff...

Beyond Brownian motion and the ornstein-uhlenbeck process: stochastic diffusion models for the evolution of quantitative characters

Blomberg, Simone P.
Rathnayake, Suren I.
Moreau, Cheyenne M.

February 2020

Gaussian processes, such as Brownian motion and the Ornstein-Uhlenbeck process, have been popular mo...

Data from: Inferring bounded evolution in phenotypic characters from phylogenetic comparative data

Boucher, Florian C.
Démery, Vincent

January 2016

Our understanding of phenotypic evolution over macroevolutionary timescales largely relies on the us...

Data from: A general model for estimating macroevolutionary landscapes

Boucher, Florian C.
Démery, Vincent
Conti, Elena
Harmon, Luke J.
Uyeda, Josef

The evolution of quantitative characters over long timescales is often studied using stochastic diff...

Inferring Bounded Evolution in Phenotypic Characters from Phylogenetic Comparative Data

Boucher, Florian C.
Démery, Vincent

October 2021

Our understanding of phenotypic evolution over macroevolutionary timescales largely relies on the us...

Evolutionary simulation scheme, and definition of model.

Tamar Friedlander (442229)
Avraham E. Mayo (384895)
Tsvi Tlusty (21722)
Uri Alon (15569)

August 2013

(A) Simulation was initiated by randomly choosing population members each consisting of 2...

The distribution of phenotypes simulated according to the Brownian motion model of evolution (“Brown”).

Abstract

Extracted data

The distribution of phenotypes simulated according to the Brownian motion model of evolution (“Brown”).

Abstract

Extracted data

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