Sophisticated inferential tools coupled with the coalescent model have recently emerged for estimating past population sizes from genomic data. Recent methods that model recombination require small sample sizes, make constraining assumptions about population size changes, and do not report measures of uncertainty for estimates. Here, we develop a Gaussian process-based Bayesian nonparametric method coupled with a sequentially Markov coalescent model that allows accurate inference of population sizes over time from a set of genealogies. In contrast to current methods, our approach considers a broad class of recombination events, including those that do not change local genealogies. We show that our method outperforms recent likelihood-based ...
The inference of demographic history from genome data is hindered by a lack of efficient computation...
The coalescent is the primary probabilistic model for modeling genealogies. However, in practice, th...
Rapidly developing sequencing technologies and declining costs have made it possible to collect geno...
Summary. Changes in population size influence genetic diversity of the population and, as a result, ...
Changes in population size influence genetic diversity of the population and, as a result, leave a s...
Thesis (Ph.D.)--University of Washington, 2013Phylodynamics is an area at the intersection of phylog...
Background: Coalescent theory is a general framework to model genetic variation in a population. Spe...
Abstract Background Effective population size (Ne) is related to genetic variability and is a basic ...
International audienceThe large state space of gene genealogies is a major hurdle for inference meth...
Effective population size characterizes the genetic variability in a population and is a parameter o...
Effective population size is fundamental in population genetics and characterizes genetic diversity....
Effective population size characterizes the genetic variability in a population and is a parameter o...
Demographic events shape a population's genetic diversity, a process described by the coalescent-wit...
Effective population size characterizes the genetic variability in a population and is a parameter o...
The inference of demographic history from genome data is hindered by a lack of efficient computation...
The coalescent is the primary probabilistic model for modeling genealogies. However, in practice, th...
Rapidly developing sequencing technologies and declining costs have made it possible to collect geno...
Summary. Changes in population size influence genetic diversity of the population and, as a result, ...
Changes in population size influence genetic diversity of the population and, as a result, leave a s...
Thesis (Ph.D.)--University of Washington, 2013Phylodynamics is an area at the intersection of phylog...
Background: Coalescent theory is a general framework to model genetic variation in a population. Spe...
Abstract Background Effective population size (Ne) is related to genetic variability and is a basic ...
International audienceThe large state space of gene genealogies is a major hurdle for inference meth...
Effective population size characterizes the genetic variability in a population and is a parameter o...
Effective population size is fundamental in population genetics and characterizes genetic diversity....
Effective population size characterizes the genetic variability in a population and is a parameter o...
Demographic events shape a population's genetic diversity, a process described by the coalescent-wit...
Effective population size characterizes the genetic variability in a population and is a parameter o...
The inference of demographic history from genome data is hindered by a lack of efficient computation...
The coalescent is the primary probabilistic model for modeling genealogies. However, in practice, th...
Rapidly developing sequencing technologies and declining costs have made it possible to collect geno...