Sampling bias and model choice in continuous phylogeography: Getting lost on a random walk

Kalkauskas, Antanas; Perron, Umberto; Sun, Yuxuan; Goldman, Nick; Baele, Guy; Guindon, Stéphane; Maio, Nicola De

doi:10.1371/journal.pcbi.1008561

Cited by 54 publications

(54 citation statements)

References 48 publications

(94 reference statements)

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“…With this procedure, we thus aimed (i) to construct and analyze data subsets that are amenable for joint Bayesian phylogeographic inference, and (ii) to explicitly mitigate sampling bias by subsampling NYC boroughs according to their relative importance during the epidemiological phase under investigation. Failing to correct for sampling bias can potentially lead to artifactual outcomes in the phylogeographic reconstructions [ 10 , 11 ]. For each of the ten subsets, we performed both a continuous [ 9 ] and a discrete [ 8 ] phylogeographic inference.…”

Section: Resultsmentioning

confidence: 99%

Dispersal dynamics of SARS-CoV-2 lineages during the first epidemic wave in New York City

et al. 2021

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During the first phase of the COVID-19 epidemic, New York City rapidly became the epicenter of the pandemic in the United States. While molecular phylogenetic analyses have previously highlighted multiple introductions and a period of cryptic community transmission within New York City, little is known about the circulation of SARS-CoV-2 within and among its boroughs. We here perform phylogeographic investigations to gain insights into the circulation of viral lineages during the first months of the New York City outbreak. Our analyses describe the dispersal dynamics of viral lineages at the state and city levels, illustrating that peripheral samples likely correspond to distinct dispersal events originating from the main metropolitan city areas. In line with the high prevalence recorded in this area, our results highlight the relatively important role of the borough of Queens as a transmission hub associated with higher local circulation and dispersal of viral lineages toward the surrounding boroughs.

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Section: Resultsmentioning

confidence: 99%

Dispersal dynamics of SARS-CoV-2 lineages during the first epidemic wave in New York City

et al. 2021

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“…Another limitation in phylogeographic analyses is the possible effect of sampling bias. Hence, any conclusions have to be carefully interpreted and situated against the sampling pattern and sampling effort, although recent work in the field have tried to mitigate the effects of sampling bias 29 , 30 .…”

Section: Resultsmentioning

confidence: 99%

Exploiting genomic surveillance to map the spatio-temporal dispersal of SARS-CoV-2 spike mutations in Belgium across 2020

Bollen

Artesi

Durkin

et al. 2021

Sci Rep

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At the end of 2020, several new variants of SARS-CoV-2—designated variants of concern—were detected and quickly suspected to be associated with a higher transmissibility and possible escape of vaccine-induced immunity. In Belgium, this discovery has motivated the initiation of a more ambitious genomic surveillance program, which is drastically increasing the number of SARS-CoV-2 genomes to analyse for monitoring the circulation of viral lineages and variants of concern. In order to efficiently analyse the massive collection of genomic data that are the result of such increased sequencing efforts, streamlined analytical strategies are crucial. In this study, we illustrate how to efficiently map the spatio-temporal dispersal of target mutations at a regional level. As a proof of concept, we focus on the Belgian province of Liège that has been consistently sampled throughout 2020, but was also one of the main epicenters of the second European epidemic wave. Specifically, we employ a recently developed phylogeographic workflow to infer the regional dispersal history of viral lineages associated with three specific mutations on the spike protein (S98F, A222V and S477N) and to quantify their relative importance through time. Our analytical pipeline enables analysing large data sets and has the potential to be quickly applied and updated to track target mutations in space and time throughout the course of an epidemic.

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“…Sampling bias can also be an issue in continuous phylogeographic inference when (a proportion of) samples are missing from certain locations, for example. Kalkauskas et al [ 80 ] have recently proposed to add sequence-free samples from undersampled areas to mitigate this issue, but acknowledge that it may be difficult to assess how many sequences to add from those locations. As an alternative to still perform such inference, the authors propose to use an alternative spatial

-Fleming-Viot (

FV) process, which is unexplored for use in phylogeographic inference.…”

Section: Novel Methodological Developments and Future Perspectivesmentioning

confidence: 99%

“…As an alternative to still perform such inference, the authors propose to use an alternative spatial

-Fleming-Viot (

FV) process, which is unexplored for use in phylogeographic inference. While this model currently lacks an implementation in popular software applications, Kalkauskas et al [ 80 ] show it to be appropriate to model viral diffusion in cases of endemic spread, with the classic continuous phylogeographic model [ 13 ] being more appropriate for recent outbreaks.…”

Section: Novel Methodological Developments and Future Perspectivesmentioning

confidence: 99%

“…For discrete phylogeographic analysis [ 12 ], typically one sampling location is assigned to a sequence, although in the case of uncertainty multiple locations can be considered with equal probability (using ambiguity codes), as well as using specific probabilities based on different sources of information [ 78 ]. In the atypical case of having a known RABV infection with available location data but missing genomic data, the use of “ghost” or “sequence-free” samples can be considered [ 79 , 80 ].…”

Section: Recommendations and Useful Resourcesmentioning

confidence: 99%

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On the Use of Phylogeographic Inference to Infer the Dispersal History of Rabies Virus: A Review Study

Nahata

Bollen

Gill

et al. 2021

Viruses

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Rabies is a neglected zoonotic disease which is caused by negative strand RNA-viruses belonging to the genus Lyssavirus. Within this genus, rabies viruses circulate in a diverse set of mammalian reservoir hosts, is present worldwide, and is almost always fatal in non-vaccinated humans. Approximately 59,000 people are still estimated to die from rabies each year, leading to a global initiative to work towards the goal of zero human deaths from dog-mediated rabies by 2030, requiring scientific efforts from different research fields. The past decade has seen a much increased use of phylogeographic and phylodynamic analyses to study the evolution and spread of rabies virus. We here review published studies in these research areas, making a distinction between the geographic resolution associated with the available sequence data. We pay special attention to environmental factors that these studies found to be relevant to the spread of rabies virus. Importantly, we highlight a knowledge gap in terms of applying these methods when all required data were available but not fully exploited. We conclude with an overview of recent methodological developments that have yet to be applied in phylogeographic and phylodynamic analyses of rabies virus.

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Sampling bias and model choice in continuous phylogeography: Getting lost on a random walk

Cited by 54 publications

References 48 publications

Dispersal dynamics of SARS-CoV-2 lineages during the first epidemic wave in New York City

Dispersal dynamics of SARS-CoV-2 lineages during the first epidemic wave in New York City

Exploiting genomic surveillance to map the spatio-temporal dispersal of SARS-CoV-2 spike mutations in Belgium across 2020

On the Use of Phylogeographic Inference to Infer the Dispersal History of Rabies Virus: A Review Study

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