---
_id: '11479'
abstract:
- lang: eng
text: Understanding population divergence that eventually leads to speciation is
essential for evolutionary biology. High species diversity in the sea was regarded
as a paradox when strict allopatry was considered necessary for most speciation
events because geographical barriers seemed largely absent in the sea, and many
marine species have high dispersal capacities. Combining genome-wide data with
demographic modelling to infer the demographic history of divergence has introduced
new ways to address this classical issue. These models assume an ancestral population
that splits into two subpopulations diverging according to different scenarios
that allow tests for periods of gene flow. Models can also test for heterogeneities
in population sizes and migration rates along the genome to account, respectively,
for background selection and selection against introgressed ancestry. To investigate
how barriers to gene flow arise in the sea, we compiled studies modelling the
demographic history of divergence in marine organisms and extracted preferred
demographic scenarios together with estimates of demographic parameters. These
studies show that geographical barriers to gene flow do exist in the sea but that
divergence can also occur without strict isolation. Heterogeneity of gene flow
was detected in most population pairs suggesting the predominance of semipermeable
barriers during divergence. We found a weak positive relationship between the
fraction of the genome experiencing reduced gene flow and levels of genome-wide
differentiation. Furthermore, we found that the upper bound of the ‘grey zone
of speciation’ for our dataset extended beyond that found before, implying that
gene flow between diverging taxa is possible at higher levels of divergence than
previously thought. Finally, we list recommendations for further strengthening
the use of demographic modelling in speciation research. These include a more
balanced representation of taxa, more consistent and comprehensive modelling,
clear reporting of results and simulation studies to rule out nonbiological explanations
for general results.
acknowledgement: 'We greatly thank all the corresponding authors of the studies that
were included in our synthesis for the sharing of additional data: Thomas Broquet,
Dmitry Filatov, Quentin Rougemont, Paolo Momigliano, Pierre-Alexandre Gagnaire,
Carlos Prada, Ahmed Souissi, Michael Møller Hansen, Sylvie Lapègue, Joseph Di Battista,
Michael Hellberg and Carlos Prada. RKB and ADJ were supported by the European Research
Council. MR was supported by the Swedish Research Council Vetenskapsrådet (grant
number 2021-05243; to MR) and Formas (grant number 2019-00882; to KJ and MR), and
by additional grants from the European Research Council (to RKB) and Vetenskapsrådet
(to KJ) through the Centre for Marine Evolutionary Biology (https://www.gu.se/en/cemeb-marine-evolutionary-biology).'
article_processing_charge: No
article_type: original
author:
- first_name: Aurélien
full_name: De Jode, Aurélien
last_name: De Jode
- first_name: Alan
full_name: Le Moan, Alan
last_name: Le Moan
- first_name: Kerstin
full_name: Johannesson, Kerstin
last_name: Johannesson
- first_name: Rui
full_name: Faria, Rui
last_name: Faria
- first_name: Sean
full_name: Stankowski, Sean
id: 43161670-5719-11EA-8025-FABC3DDC885E
last_name: Stankowski
- first_name: Anja M
full_name: Westram, Anja M
id: 3C147470-F248-11E8-B48F-1D18A9856A87
last_name: Westram
orcid: 0000-0003-1050-4969
- first_name: Roger K.
full_name: Butlin, Roger K.
last_name: Butlin
- first_name: Marina
full_name: Rafajlović, Marina
last_name: Rafajlović
- first_name: Christelle
full_name: Fraisse, Christelle
id: 32DF5794-F248-11E8-B48F-1D18A9856A87
last_name: Fraisse
orcid: 0000-0001-8441-5075
citation:
ama: De Jode A, Le Moan A, Johannesson K, et al. Ten years of demographic modelling
of divergence and speciation in the sea. Evolutionary Applications. 2023;16(2):542-559.
doi:10.1111/eva.13428
apa: De Jode, A., Le Moan, A., Johannesson, K., Faria, R., Stankowski, S., Westram,
A. M., … Fraisse, C. (2023). Ten years of demographic modelling of divergence
and speciation in the sea. Evolutionary Applications. Wiley. https://doi.org/10.1111/eva.13428
chicago: De Jode, Aurélien, Alan Le Moan, Kerstin Johannesson, Rui Faria, Sean Stankowski,
Anja M Westram, Roger K. Butlin, Marina Rafajlović, and Christelle Fraisse. “Ten
Years of Demographic Modelling of Divergence and Speciation in the Sea.” Evolutionary
Applications. Wiley, 2023. https://doi.org/10.1111/eva.13428.
ieee: A. De Jode et al., “Ten years of demographic modelling of divergence
and speciation in the sea,” Evolutionary Applications, vol. 16, no. 2.
Wiley, pp. 542–559, 2023.
ista: De Jode A, Le Moan A, Johannesson K, Faria R, Stankowski S, Westram AM, Butlin
RK, Rafajlović M, Fraisse C. 2023. Ten years of demographic modelling of divergence
and speciation in the sea. Evolutionary Applications. 16(2), 542–559.
mla: De Jode, Aurélien, et al. “Ten Years of Demographic Modelling of Divergence
and Speciation in the Sea.” Evolutionary Applications, vol. 16, no. 2,
Wiley, 2023, pp. 542–59, doi:10.1111/eva.13428.
short: A. De Jode, A. Le Moan, K. Johannesson, R. Faria, S. Stankowski, A.M. Westram,
R.K. Butlin, M. Rafajlović, C. Fraisse, Evolutionary Applications 16 (2023) 542–559.
date_created: 2022-07-03T22:01:33Z
date_published: 2023-02-01T00:00:00Z
date_updated: 2023-08-01T12:25:44Z
day: '01'
ddc:
- '576'
department:
- _id: NiBa
- _id: BeVi
doi: 10.1111/eva.13428
external_id:
isi:
- '000815663700001'
file:
- access_level: open_access
checksum: d4d6fa9ddf36643af994a6a757919afb
content_type: application/pdf
creator: dernst
date_created: 2023-02-27T07:10:17Z
date_updated: 2023-02-27T07:10:17Z
file_id: '12685'
file_name: 2023_EvolutionaryApplications_DeJode.pdf
file_size: 2269822
relation: main_file
success: 1
file_date_updated: 2023-02-27T07:10:17Z
has_accepted_license: '1'
intvolume: ' 16'
isi: 1
issue: '2'
language:
- iso: eng
license: https://creativecommons.org/licenses/by/4.0/
month: '02'
oa: 1
oa_version: Published Version
page: 542-559
publication: Evolutionary Applications
publication_identifier:
eissn:
- 1752-4571
publication_status: published
publisher: Wiley
quality_controlled: '1'
scopus_import: '1'
status: public
title: Ten years of demographic modelling of divergence and speciation in the sea
tmp:
image: /images/cc_by.png
legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 16
year: '2023'
...
---
_id: '12514'
abstract:
- lang: eng
text: The concept of a “speciation continuum” has gained popularity in recent decades.
It emphasizes speciation as a continuous process that may be studied by comparing
contemporary population pairs that show differing levels of divergence. In their
recent perspective article in Evolution, Stankowski and Ravinet provided a valuable
service by formally defining the speciation continuum as a continuum of reproductive
isolation, based on opinions gathered from a survey of speciation researchers.
While we agree that the speciation continuum has been a useful concept to advance
the understanding of the speciation process, some intrinsic limitations exist.
Here, we advocate for a multivariate extension, the speciation hypercube, first
proposed by Dieckmann et al. in 2004, but rarely used since. We extend the idea
of the speciation cube and suggest it has strong conceptual and practical advantages
over a one-dimensional model. We illustrate how the speciation hypercube can be
used to visualize and compare different speciation trajectories, providing new
insights into the processes and mechanisms of speciation. A key strength of the
speciation hypercube is that it provides a unifying framework for speciation research,
as it allows questions from apparently disparate subfields to be addressed in
a single conceptual model.
acknowledgement: "The authors of this article were supported by LMU Munich (J.B.W.W.),
a James S. McDonnell Foundation postdoctoral fellowship (A.K.H.). P.N. received
funding from the European Research Council (ERC) under the European Union’s Horizon
2020 research and innovation program (Grant agreement No. 770826 EE-Dynamics).\r\nWe
thank participants in the 2019 Gordon Conference on Speciation for the extensive
conversation on this topic. Thanks to Dan Funk for providing permission to use data
from Funk et al. 2006, and for comments on the manuscript."
article_processing_charge: No
article_type: original
author:
- first_name: Daniel I.
full_name: Bolnick, Daniel I.
last_name: Bolnick
- first_name: Amanda K.
full_name: Hund, Amanda K.
last_name: Hund
- first_name: Patrik
full_name: Nosil, Patrik
last_name: Nosil
- first_name: Foen
full_name: Peng, Foen
last_name: Peng
- first_name: Mark
full_name: Ravinet, Mark
last_name: Ravinet
- first_name: Sean
full_name: Stankowski, Sean
id: 43161670-5719-11EA-8025-FABC3DDC885E
last_name: Stankowski
- first_name: Swapna
full_name: Subramanian, Swapna
last_name: Subramanian
- first_name: Jochen B.W.
full_name: Wolf, Jochen B.W.
last_name: Wolf
- first_name: Roman
full_name: Yukilevich, Roman
last_name: Yukilevich
citation:
ama: 'Bolnick DI, Hund AK, Nosil P, et al. A multivariate view of the speciation
continuum. Evolution: International journal of organic evolution. 2023;77(1):318-328.
doi:10.1093/evolut/qpac004'
apa: 'Bolnick, D. I., Hund, A. K., Nosil, P., Peng, F., Ravinet, M., Stankowski,
S., … Yukilevich, R. (2023). A multivariate view of the speciation continuum.
Evolution: International Journal of Organic Evolution. Oxford University
Press. https://doi.org/10.1093/evolut/qpac004'
chicago: 'Bolnick, Daniel I., Amanda K. Hund, Patrik Nosil, Foen Peng, Mark Ravinet,
Sean Stankowski, Swapna Subramanian, Jochen B.W. Wolf, and Roman Yukilevich. “A
Multivariate View of the Speciation Continuum.” Evolution: International Journal
of Organic Evolution. Oxford University Press, 2023. https://doi.org/10.1093/evolut/qpac004.'
ieee: 'D. I. Bolnick et al., “A multivariate view of the speciation continuum,”
Evolution: International journal of organic evolution, vol. 77, no. 1.
Oxford University Press, pp. 318–328, 2023.'
ista: 'Bolnick DI, Hund AK, Nosil P, Peng F, Ravinet M, Stankowski S, Subramanian
S, Wolf JBW, Yukilevich R. 2023. A multivariate view of the speciation continuum.
Evolution: International journal of organic evolution. 77(1), 318–328.'
mla: 'Bolnick, Daniel I., et al. “A Multivariate View of the Speciation Continuum.”
Evolution: International Journal of Organic Evolution, vol. 77, no. 1,
Oxford University Press, 2023, pp. 318–28, doi:10.1093/evolut/qpac004.'
short: 'D.I. Bolnick, A.K. Hund, P. Nosil, F. Peng, M. Ravinet, S. Stankowski, S.
Subramanian, J.B.W. Wolf, R. Yukilevich, Evolution: International Journal of Organic
Evolution 77 (2023) 318–328.'
date_created: 2023-02-05T23:00:59Z
date_published: 2023-01-01T00:00:00Z
date_updated: 2023-08-01T12:58:30Z
day: '01'
department:
- _id: NiBa
doi: 10.1093/evolut/qpac004
external_id:
isi:
- '001021686300024'
pmid:
- '36622661'
intvolume: ' 77'
isi: 1
issue: '1'
language:
- iso: eng
main_file_link:
- open_access: '1'
url: https://doi.org/10.1093/evolut/qpac004
month: '01'
oa: 1
oa_version: Published Version
page: 318-328
pmid: 1
publication: 'Evolution: International journal of organic evolution'
publication_identifier:
eissn:
- 1558-5646
publication_status: published
publisher: Oxford University Press
quality_controlled: '1'
scopus_import: '1'
status: public
title: A multivariate view of the speciation continuum
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 77
year: '2023'
...
---
_id: '12159'
abstract:
- lang: eng
text: The term “haplotype block” is commonly used in the developing field of haplotype-based
inference methods. We argue that the term should be defined based on the structure
of the Ancestral Recombination Graph (ARG), which contains complete information
on the ancestry of a sample. We use simulated examples to demonstrate key features
of the relationship between haplotype blocks and ancestral structure, emphasizing
the stochasticity of the processes that generate them. Even the simplest cases
of neutrality or of a “hard” selective sweep produce a rich structure, often missed
by commonly used statistics. We highlight a number of novel methods for inferring
haplotype structure, based on the full ARG, or on a sequence of trees, and illustrate
how they can be used to define haplotype blocks using an empirical data set. While
the advent of new, computationally efficient methods makes it possible to apply
these concepts broadly, they (and additional new methods) could benefit from adding
features to explore haplotype blocks, as we define them. Understanding and applying
the concept of the haplotype block will be essential to fully exploit long and
linked-read sequencing technologies.
acknowledgement: 'We thank the Barton group for useful discussion and feedback during
the writing of this article. Comments from Roger Butlin, Molly Schumer''s Group,
the tskit development team, editors and three reviewers greatly improved the manuscript.
Funding was provided by SCAS (Natural Sciences Programme, Knut and Alice Wallenberg
Foundation), an FWF Wittgenstein grant (PT1001Z211), an FWF standalone grant (grant
P 32166), and an ERC Advanced Grant. YFC was supported by the Max Planck Society
and an ERC Proof of Concept Grant #101069216 (HAPLOTAGGING).'
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Daria
full_name: Shipilina, Daria
id: 428A94B0-F248-11E8-B48F-1D18A9856A87
last_name: Shipilina
orcid: 0000-0002-1145-9226
- first_name: Arka
full_name: Pal, Arka
id: 6AAB2240-CA9A-11E9-9C1A-D9D1E5697425
last_name: Pal
orcid: 0000-0002-4530-8469
- first_name: Sean
full_name: Stankowski, Sean
id: 43161670-5719-11EA-8025-FABC3DDC885E
last_name: Stankowski
- first_name: Yingguang Frank
full_name: Chan, Yingguang Frank
last_name: Chan
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
citation:
ama: Shipilina D, Pal A, Stankowski S, Chan YF, Barton NH. On the origin and structure
of haplotype blocks. Molecular Ecology. 2023;32(6):1441-1457. doi:10.1111/mec.16793
apa: Shipilina, D., Pal, A., Stankowski, S., Chan, Y. F., & Barton, N. H. (2023).
On the origin and structure of haplotype blocks. Molecular Ecology. Wiley.
https://doi.org/10.1111/mec.16793
chicago: Shipilina, Daria, Arka Pal, Sean Stankowski, Yingguang Frank Chan, and
Nicholas H Barton. “On the Origin and Structure of Haplotype Blocks.” Molecular
Ecology. Wiley, 2023. https://doi.org/10.1111/mec.16793.
ieee: D. Shipilina, A. Pal, S. Stankowski, Y. F. Chan, and N. H. Barton, “On the
origin and structure of haplotype blocks,” Molecular Ecology, vol. 32,
no. 6. Wiley, pp. 1441–1457, 2023.
ista: Shipilina D, Pal A, Stankowski S, Chan YF, Barton NH. 2023. On the origin
and structure of haplotype blocks. Molecular Ecology. 32(6), 1441–1457.
mla: Shipilina, Daria, et al. “On the Origin and Structure of Haplotype Blocks.”
Molecular Ecology, vol. 32, no. 6, Wiley, 2023, pp. 1441–57, doi:10.1111/mec.16793.
short: D. Shipilina, A. Pal, S. Stankowski, Y.F. Chan, N.H. Barton, Molecular Ecology
32 (2023) 1441–1457.
date_created: 2023-01-12T12:09:17Z
date_published: 2023-03-01T00:00:00Z
date_updated: 2023-08-16T08:18:47Z
day: '01'
ddc:
- '570'
department:
- _id: NiBa
doi: 10.1111/mec.16793
external_id:
isi:
- '000900762000001'
pmid:
- '36433653'
file:
- access_level: open_access
checksum: b10e0f8fa3dc4d72aaf77a557200978a
content_type: application/pdf
creator: dernst
date_created: 2023-08-16T08:15:41Z
date_updated: 2023-08-16T08:15:41Z
file_id: '14062'
file_name: 2023_MolecularEcology_Shipilina.pdf
file_size: 7144607
relation: main_file
success: 1
file_date_updated: 2023-08-16T08:15:41Z
has_accepted_license: '1'
intvolume: ' 32'
isi: 1
issue: '6'
keyword:
- Genetics
- Ecology
- Evolution
- Behavior and Systematics
language:
- iso: eng
month: '03'
oa: 1
oa_version: Published Version
page: 1441-1457
pmid: 1
project:
- _id: 05959E1C-7A3F-11EA-A408-12923DDC885E
grant_number: P32166
name: The maintenance of alternative adaptive peaks in snapdragons
- _id: 25F42A32-B435-11E9-9278-68D0E5697425
call_identifier: FWF
grant_number: Z211
name: The Wittgenstein Prize
- _id: bd6958e0-d553-11ed-ba76-86eba6a76c00
grant_number: '101055327'
name: Understanding the evolution of continuous genomes
publication: Molecular Ecology
publication_identifier:
eissn:
- 1365-294X
issn:
- 0962-1083
publication_status: published
publisher: Wiley
quality_controlled: '1'
scopus_import: '1'
status: public
title: On the origin and structure of haplotype blocks
tmp:
image: /images/cc_by.png
legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
short: CC BY (4.0)
type: journal_article
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
volume: 32
year: '2023'
...
---
_id: '14452'
abstract:
- lang: eng
text: The classical infinitesimal model is a simple and robust model for the inheritance
of quantitative traits. In this model, a quantitative trait is expressed as the
sum of a genetic and an environmental component, and the genetic component of
offspring traits within a family follows a normal distribution around the average
of the parents’ trait values, and has a variance that is independent of the parental
traits. In previous work, we showed that when trait values are determined by the
sum of a large number of additive Mendelian factors, each of small effect, one
can justify the infinitesimal model as a limit of Mendelian inheritance. In this
paper, we show that this result extends to include dominance. We define the model
in terms of classical quantities of quantitative genetics, before justifying it
as a limit of Mendelian inheritance as the number, M, of underlying loci tends
to infinity. As in the additive case, the multivariate normal distribution of
trait values across the pedigree can be expressed in terms of variance components
in an ancestral population and probabilities of identity by descent determined
by the pedigree. Now, with just first-order dominance effects, we require two-,
three-, and four-way identities. We also show that, even if we condition on parental
trait values, the “shared” and “residual” components of trait values within each
family will be asymptotically normally distributed as the number of loci tends
to infinity, with an error of order 1/M−−√. We illustrate our results with some
numerical examples.
acknowledgement: NHB was supported in part by ERC Grants 250152 and 101055327. AV
was partly supported by the chaire Modélisation Mathématique et Biodiversité of
Veolia Environment—Ecole Polytechnique—Museum National d’Histoire Naturelle—Fondation
X.
article_number: iyad133
article_processing_charge: Yes (in subscription journal)
article_type: original
author:
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
- first_name: Alison M.
full_name: Etheridge, Alison M.
last_name: Etheridge
- first_name: Amandine
full_name: Véber, Amandine
last_name: Véber
citation:
ama: Barton NH, Etheridge AM, Véber A. The infinitesimal model with dominance. Genetics.
2023;225(2). doi:10.1093/genetics/iyad133
apa: Barton, N. H., Etheridge, A. M., & Véber, A. (2023). The infinitesimal
model with dominance. Genetics. Oxford Academic. https://doi.org/10.1093/genetics/iyad133
chicago: Barton, Nicholas H, Alison M. Etheridge, and Amandine Véber. “The Infinitesimal
Model with Dominance.” Genetics. Oxford Academic, 2023. https://doi.org/10.1093/genetics/iyad133.
ieee: N. H. Barton, A. M. Etheridge, and A. Véber, “The infinitesimal model with
dominance,” Genetics, vol. 225, no. 2. Oxford Academic, 2023.
ista: Barton NH, Etheridge AM, Véber A. 2023. The infinitesimal model with dominance.
Genetics. 225(2), iyad133.
mla: Barton, Nicholas H., et al. “The Infinitesimal Model with Dominance.” Genetics,
vol. 225, no. 2, iyad133, Oxford Academic, 2023, doi:10.1093/genetics/iyad133.
short: N.H. Barton, A.M. Etheridge, A. Véber, Genetics 225 (2023).
date_created: 2023-10-29T23:01:15Z
date_published: 2023-10-01T00:00:00Z
date_updated: 2023-10-30T13:04:11Z
day: '01'
ddc:
- '570'
department:
- _id: NiBa
doi: 10.1093/genetics/iyad133
ec_funded: 1
external_id:
arxiv:
- '2211.03515'
file:
- access_level: open_access
checksum: 3f65b1fbe813e2f4dbb5d2b5e891844a
content_type: application/pdf
creator: dernst
date_created: 2023-10-30T12:57:53Z
date_updated: 2023-10-30T12:57:53Z
file_id: '14469'
file_name: 2023_Genetics_Barton.pdf
file_size: 1439032
relation: main_file
success: 1
file_date_updated: 2023-10-30T12:57:53Z
has_accepted_license: '1'
intvolume: ' 225'
issue: '2'
language:
- iso: eng
month: '10'
oa: 1
oa_version: Published Version
project:
- _id: 25B07788-B435-11E9-9278-68D0E5697425
call_identifier: FP7
grant_number: '250152'
name: Limits to selection in biology and in evolutionary computation
- _id: bd6958e0-d553-11ed-ba76-86eba6a76c00
grant_number: '101055327'
name: Understanding the evolution of continuous genomes
publication: Genetics
publication_identifier:
eissn:
- 1943-2631
issn:
- 0016-6731
publication_status: published
publisher: Oxford Academic
quality_controlled: '1'
related_material:
record:
- id: '12949'
relation: research_data
status: public
scopus_import: '1'
status: public
title: The infinitesimal model with dominance
tmp:
image: /images/cc_by.png
legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
short: CC BY (4.0)
type: journal_article
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
volume: 225
year: '2023'
...
---
_id: '12949'
abstract:
- lang: eng
text: The classical infinitesimal model is a simple and robust model for the inheritance
of quantitative traits. In this model, a quantitative trait is expressed as the
sum of a genetic and a non-genetic (environmental) component and the genetic component
of offspring traits within a family follows a normal distribution around the average
of the parents’ trait values, and has a variance that is independent of the trait
values of the parents. Although the trait distribution across the whole population
can be far from normal, the trait distributions within families are normally distributed
with a variance-covariance matrix that is determined entirely by that in the
ancestral population and the probabilities of identity determined by the pedigree.
Moreover, conditioning on some of the trait values within the pedigree has predictable
effects on the mean and variance within and between families. In previous work,
Barton et al. (2017), we showed that when trait values are determined by the sum
of a large number of Mendelian factors, each of small effect, one can justify
the infinitesimal model as limit of Mendelian inheritance. It was also shown that
under some forms of epistasis, trait values within a family are still normally
distributed.
article_processing_charge: No
author:
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
citation:
ama: Barton NH. The infinitesimal model with dominance. 2023. doi:10.15479/AT:ISTA:12949
apa: Barton, N. H. (2023). The infinitesimal model with dominance. Institute of
Science and Technology Austria. https://doi.org/10.15479/AT:ISTA:12949
chicago: Barton, Nicholas H. “The Infinitesimal Model with Dominance.” Institute
of Science and Technology Austria, 2023. https://doi.org/10.15479/AT:ISTA:12949.
ieee: N. H. Barton, “The infinitesimal model with dominance.” Institute of Science
and Technology Austria, 2023.
ista: Barton NH. 2023. The infinitesimal model with dominance, Institute of Science
and Technology Austria, 10.15479/AT:ISTA:12949.
mla: Barton, Nicholas H. The Infinitesimal Model with Dominance. Institute
of Science and Technology Austria, 2023, doi:10.15479/AT:ISTA:12949.
short: N.H. Barton, (2023).
contributor:
- contributor_type: researcher
first_name: Amandine
last_name: Veber
- contributor_type: researcher
first_name: Alison
last_name: Etheridge
date_created: 2023-05-13T09:49:09Z
date_published: 2023-05-13T00:00:00Z
date_updated: 2023-10-30T13:04:11Z
day: '13'
ddc:
- '576'
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keyword:
- Quantitative genetics
- infinitesimal model
month: '05'
oa: 1
oa_version: Published Version
project:
- _id: bd6958e0-d553-11ed-ba76-86eba6a76c00
grant_number: '101055327'
name: Understanding the evolution of continuous genomes
publisher: Institute of Science and Technology Austria
related_material:
record:
- id: '14452'
relation: used_in_publication
status: public
status: public
title: The infinitesimal model with dominance
tmp:
image: /images/cc_by.png
legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
short: CC BY (4.0)
type: research_data
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
year: '2023'
...
---
_id: '14556'
abstract:
- lang: eng
text: Inversions are structural mutations that reverse the sequence of a chromosome
segment and reduce the effective rate of recombination in the heterozygous state.
They play a major role in adaptation, as well as in other evolutionary processes
such as speciation. Although inversions have been studied since the 1920s, they
remain difficult to investigate because the reduced recombination conferred by
them strengthens the effects of drift and hitchhiking, which in turn can obscure
signatures of selection. Nonetheless, numerous inversions have been found to be
under selection. Given recent advances in population genetic theory and empirical
study, here we review how different mechanisms of selection affect the evolution
of inversions. A key difference between inversions and other mutations, such as
single nucleotide variants, is that the fitness of an inversion may be affected
by a larger number of frequently interacting processes. This considerably complicates
the analysis of the causes underlying the evolution of inversions. We discuss
the extent to which these mechanisms can be disentangled, and by which approach.
acknowledgement: 'We are grateful to two referees and Luke Holman for valuable comments
on a previous version of our manuscript. This paper was conceived at the ESEB Progress
Meeting ‘Disentangling neutral versus adaptive evolution in chromosomal inversions’,
organized by ELB, KJ and TF and held at Tjärnö Marine Laboratory (Sweden) between
28 February and 3 March 2022. We are indebted to ESEB for sponsoring our workshop
and to the following funding bodies for supporting our research: ERC AdG 101055327
to NHB; Swedish Research Council (VR) 2018-03695 and Leverhulme Trust RPG-2021-141
to RKB; Fundação para a Ciência e a Tecnologia (FCT) contract 2020.00275.CEECIND
and research project PTDC/BIA-1232 EVL/1614/2021 to RF; Fundação para a Ciência
e a Tecnologia (FCT) junior researcher contract CEECIND/02616/2018 to IF; Swiss
National Science Foundation (SNSF) Ambizione #PZ00P3_185952 to KJG; National Science
Foundation NSF-OCE 2043905 and NSF-DEB 1655701 to KEL; Swiss National Science Foundation
(SNSF) 310030_204681 to CLP; Swedish Research Council (VR) 2021-05243 to MR; Norwegian
Research Council grant 315287 to AMW; Swiss National Science Foundation (SNSF) 31003A-182262
and FZEB-0-214654 to TF. We also thank Luca Ferretti for the discussion and Eliane
Zinn (Flatt lab) for help with reference formatting.'
article_number: '14242'
article_processing_charge: No
article_type: review
author:
- first_name: Emma L.
full_name: Berdan, Emma L.
last_name: Berdan
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
- first_name: Roger
full_name: Butlin, Roger
last_name: Butlin
- first_name: Brian
full_name: Charlesworth, Brian
last_name: Charlesworth
- first_name: Rui
full_name: Faria, Rui
last_name: Faria
- first_name: Inês
full_name: Fragata, Inês
last_name: Fragata
- first_name: Kimberly J.
full_name: Gilbert, Kimberly J.
last_name: Gilbert
- first_name: Paul
full_name: Jay, Paul
last_name: Jay
- first_name: Martin
full_name: Kapun, Martin
last_name: Kapun
- first_name: Katie E.
full_name: Lotterhos, Katie E.
last_name: Lotterhos
- first_name: Claire
full_name: Mérot, Claire
last_name: Mérot
- first_name: Esra
full_name: Durmaz Mitchell, Esra
last_name: Durmaz Mitchell
- first_name: Marta
full_name: Pascual, Marta
last_name: Pascual
- first_name: Catherine L.
full_name: Peichel, Catherine L.
last_name: Peichel
- first_name: Marina
full_name: Rafajlović, Marina
last_name: Rafajlović
- first_name: Anja M
full_name: Westram, Anja M
id: 3C147470-F248-11E8-B48F-1D18A9856A87
last_name: Westram
orcid: 0000-0003-1050-4969
- first_name: Stephen W.
full_name: Schaeffer, Stephen W.
last_name: Schaeffer
- first_name: Kerstin
full_name: Johannesson, Kerstin
last_name: Johannesson
- first_name: Thomas
full_name: Flatt, Thomas
last_name: Flatt
citation:
ama: Berdan EL, Barton NH, Butlin R, et al. How chromosomal inversions reorient
the evolutionary process. Journal of Evolutionary Biology. 2023. doi:10.1111/jeb.14242
apa: Berdan, E. L., Barton, N. H., Butlin, R., Charlesworth, B., Faria, R., Fragata,
I., … Flatt, T. (2023). How chromosomal inversions reorient the evolutionary process.
Journal of Evolutionary Biology. Wiley. https://doi.org/10.1111/jeb.14242
chicago: Berdan, Emma L., Nicholas H Barton, Roger Butlin, Brian Charlesworth, Rui
Faria, Inês Fragata, Kimberly J. Gilbert, et al. “How Chromosomal Inversions Reorient
the Evolutionary Process.” Journal of Evolutionary Biology. Wiley, 2023.
https://doi.org/10.1111/jeb.14242.
ieee: E. L. Berdan et al., “How chromosomal inversions reorient the evolutionary
process,” Journal of Evolutionary Biology. Wiley, 2023.
ista: Berdan EL, Barton NH, Butlin R, Charlesworth B, Faria R, Fragata I, Gilbert
KJ, Jay P, Kapun M, Lotterhos KE, Mérot C, Durmaz Mitchell E, Pascual M, Peichel
CL, Rafajlović M, Westram AM, Schaeffer SW, Johannesson K, Flatt T. 2023. How
chromosomal inversions reorient the evolutionary process. Journal of Evolutionary
Biology., 14242.
mla: Berdan, Emma L., et al. “How Chromosomal Inversions Reorient the Evolutionary
Process.” Journal of Evolutionary Biology, 14242, Wiley, 2023, doi:10.1111/jeb.14242.
short: E.L. Berdan, N.H. Barton, R. Butlin, B. Charlesworth, R. Faria, I. Fragata,
K.J. Gilbert, P. Jay, M. Kapun, K.E. Lotterhos, C. Mérot, E. Durmaz Mitchell,
M. Pascual, C.L. Peichel, M. Rafajlović, A.M. Westram, S.W. Schaeffer, K. Johannesson,
T. Flatt, Journal of Evolutionary Biology (2023).
date_created: 2023-11-19T23:00:55Z
date_published: 2023-11-08T00:00:00Z
date_updated: 2023-11-20T08:51:09Z
day: '08'
ddc:
- '570'
department:
- _id: NiBa
doi: 10.1111/jeb.14242
has_accepted_license: '1'
language:
- iso: eng
license: https://creativecommons.org/licenses/by-nc/4.0/
main_file_link:
- open_access: '1'
url: https://doi.org/10.1111/jeb.14242
month: '11'
oa: 1
oa_version: Published Version
publication: Journal of Evolutionary Biology
publication_identifier:
eissn:
- 1420-9101
issn:
- 1010-061X
publication_status: epub_ahead
publisher: Wiley
quality_controlled: '1'
scopus_import: '1'
status: public
title: How chromosomal inversions reorient the evolutionary process
tmp:
image: /images/cc_by_nc.png
legal_code_url: https://creativecommons.org/licenses/by-nc/4.0/legalcode
name: Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)
short: CC BY-NC (4.0)
type: journal_article
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
year: '2023'
...
---
_id: '14552'
abstract:
- lang: eng
text: Interactions between plants and herbivores are central in most ecosystems,
but their strength is highly variable. The amount of variability within a system
is thought to influence most aspects of plant-herbivore biology, from ecological
stability to plant defense evolution. Our understanding of what influences variability,
however, is limited by sparse data. We collected standardized surveys of herbivory
for 503 plant species at 790 sites across 116° of latitude. With these data, we
show that within-population variability in herbivory increases with latitude,
decreases with plant size, and is phylogenetically structured. Differences in
the magnitude of variability are thus central to how plant-herbivore biology varies
across macroscale gradients. We argue that increased focus on interaction variability
will advance understanding of patterns of life on Earth.
acknowledgement: The authors acknowledge funding for central project coordination
from NSF Research Coordination Network grant DEB-2203582; the Ecology, Evolution,
and Behavior Program at Michigan State University; and AgBioResearch at Michigan
State University. Site-specific funding is listed in the supplementary materials.
article_processing_charge: No
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- first_name: M. L.
full_name: Robinson, M. L.
last_name: Robinson
- first_name: P. G.
full_name: Hahn, P. G.
last_name: Hahn
- first_name: B. D.
full_name: Inouye, B. D.
last_name: Inouye
- first_name: N.
full_name: Underwood, N.
last_name: Underwood
- first_name: S. R.
full_name: Whitehead, S. R.
last_name: Whitehead
- first_name: K. C.
full_name: Abbott, K. C.
last_name: Abbott
- first_name: E. M.
full_name: Bruna, E. M.
last_name: Bruna
- first_name: N. I.
full_name: Cacho, N. I.
last_name: Cacho
- first_name: L. A.
full_name: Dyer, L. A.
last_name: Dyer
- first_name: L.
full_name: Abdala-Roberts, L.
last_name: Abdala-Roberts
- first_name: W. J.
full_name: Allen, W. J.
last_name: Allen
- first_name: J. F.
full_name: Andrade, J. F.
last_name: Andrade
- first_name: D. F.
full_name: Angulo, D. F.
last_name: Angulo
- first_name: D.
full_name: Anjos, D.
last_name: Anjos
- first_name: D. N.
full_name: Anstett, D. N.
last_name: Anstett
- first_name: R.
full_name: Bagchi, R.
last_name: Bagchi
- first_name: S.
full_name: Bagchi, S.
last_name: Bagchi
- first_name: M.
full_name: Barbosa, M.
last_name: Barbosa
- first_name: S.
full_name: Barrett, S.
last_name: Barrett
- first_name: Carina
full_name: Baskett, Carina
id: 3B4A7CE2-F248-11E8-B48F-1D18A9856A87
last_name: Baskett
orcid: 0000-0002-7354-8574
- first_name: E.
full_name: Ben-Simchon, E.
last_name: Ben-Simchon
- first_name: K. J.
full_name: Bloodworth, K. J.
last_name: Bloodworth
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full_name: Bronstein, J. L.
last_name: Bronstein
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full_name: Buckley, Y. M.
last_name: Buckley
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full_name: Burghardt, K. T.
last_name: Burghardt
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full_name: Bustos-Segura, C.
last_name: Bustos-Segura
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full_name: Calixto, E. S.
last_name: Calixto
- first_name: R. L.
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last_name: Carvalho
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full_name: Castagneyrol, B.
last_name: Castagneyrol
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full_name: Chiuffo, M. C.
last_name: Chiuffo
- first_name: D.
full_name: Cinoğlu, D.
last_name: Cinoğlu
- first_name: E.
full_name: Cinto Mejía, E.
last_name: Cinto Mejía
- first_name: M. C.
full_name: Cock, M. C.
last_name: Cock
- first_name: R.
full_name: Cogni, R.
last_name: Cogni
- first_name: O. L.
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last_name: Cope
- first_name: T.
full_name: Cornelissen, T.
last_name: Cornelissen
- first_name: D. R.
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last_name: Cortez
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full_name: Crowder, D. W.
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full_name: Eisenring, M.
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- first_name: A.
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last_name: Ejomah
- first_name: B. D.
full_name: Elderd, B. D.
last_name: Elderd
- first_name: M. J.
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last_name: Endara
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full_name: Eubanks, M. D.
last_name: Eubanks
- first_name: S. E.
full_name: Everingham, S. E.
last_name: Everingham
- first_name: K. N.
full_name: Farah, K. N.
last_name: Farah
- first_name: R. P.
full_name: Farias, R. P.
last_name: Farias
- first_name: A. P.
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- first_name: G. W.
full_name: Fernandes, G. W.
last_name: Fernandes
- first_name: M.
full_name: Ferrante, M.
last_name: Ferrante
- first_name: A.
full_name: Finn, A.
last_name: Finn
- first_name: G. A.
full_name: Florjancic, G. A.
last_name: Florjancic
- first_name: M. L.
full_name: Forister, M. L.
last_name: Forister
- first_name: Q. N.
full_name: Fox, Q. N.
last_name: Fox
- first_name: E.
full_name: Frago, E.
last_name: Frago
- first_name: F. M.
full_name: França, F. M.
last_name: França
- first_name: A. S.
full_name: Getman-Pickering, A. S.
last_name: Getman-Pickering
- first_name: Z.
full_name: Getman-Pickering, Z.
last_name: Getman-Pickering
- first_name: E.
full_name: Gianoli, E.
last_name: Gianoli
- first_name: B.
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- first_name: M. M.
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- first_name: H. M.
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- first_name: T. N.
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- first_name: D. M.
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last_name: Massad
- first_name: A. C.
full_name: Mccall, A. C.
last_name: Mccall
- first_name: K.
full_name: Mcgurrin, K.
last_name: Mcgurrin
- first_name: A. C.
full_name: Merwin, A. C.
last_name: Merwin
- first_name: Z.
full_name: Mijango-Ramos, Z.
last_name: Mijango-Ramos
- first_name: C. H.
full_name: Mills, C. H.
last_name: Mills
- first_name: A. T.
full_name: Moles, A. T.
last_name: Moles
- first_name: C. M.
full_name: Moore, C. M.
last_name: Moore
- first_name: X.
full_name: Moreira, X.
last_name: Moreira
- first_name: C. R.
full_name: Morrison, C. R.
last_name: Morrison
- first_name: M. C.
full_name: Moshobane, M. C.
last_name: Moshobane
- first_name: A.
full_name: Muola, A.
last_name: Muola
- first_name: R.
full_name: Nakadai, R.
last_name: Nakadai
- first_name: K.
full_name: Nakajima, K.
last_name: Nakajima
- first_name: S.
full_name: Novais, S.
last_name: Novais
- first_name: C. O.
full_name: Ogbebor, C. O.
last_name: Ogbebor
- first_name: H.
full_name: Ohsaki, H.
last_name: Ohsaki
- first_name: V. S.
full_name: Pan, V. S.
last_name: Pan
- first_name: N. A.
full_name: Pardikes, N. A.
last_name: Pardikes
- first_name: M.
full_name: Pareja, M.
last_name: Pareja
- first_name: N.
full_name: Parthasarathy, N.
last_name: Parthasarathy
- first_name: R. R.
full_name: Pawar, R. R.
last_name: Pawar
- first_name: Q.
full_name: Paynter, Q.
last_name: Paynter
- first_name: I. S.
full_name: Pearse, I. S.
last_name: Pearse
- first_name: R. M.
full_name: Penczykowski, R. M.
last_name: Penczykowski
- first_name: A. A.
full_name: Pepi, A. A.
last_name: Pepi
- first_name: C. C.
full_name: Pereira, C. C.
last_name: Pereira
- first_name: S. S.
full_name: Phartyal, S. S.
last_name: Phartyal
- first_name: F. I.
full_name: Piper, F. I.
last_name: Piper
- first_name: K.
full_name: Poveda, K.
last_name: Poveda
- first_name: E. G.
full_name: Pringle, E. G.
last_name: Pringle
- first_name: J.
full_name: Puy, J.
last_name: Puy
- first_name: T.
full_name: Quijano, T.
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- first_name: C.
full_name: Quintero, C.
last_name: Quintero
- first_name: S.
full_name: Rasmann, S.
last_name: Rasmann
- first_name: C.
full_name: Rosche, C.
last_name: Rosche
- first_name: L. Y.
full_name: Rosenheim, L. Y.
last_name: Rosenheim
- first_name: J. A.
full_name: Rosenheim, J. A.
last_name: Rosenheim
- first_name: J. B.
full_name: Runyon, J. B.
last_name: Runyon
- first_name: A.
full_name: Sadeh, A.
last_name: Sadeh
- first_name: Y.
full_name: Sakata, Y.
last_name: Sakata
- first_name: D. M.
full_name: Salcido, D. M.
last_name: Salcido
- first_name: C.
full_name: Salgado-Luarte, C.
last_name: Salgado-Luarte
- first_name: B. A.
full_name: Santos, B. A.
last_name: Santos
- first_name: Y.
full_name: Sapir, Y.
last_name: Sapir
- first_name: Y.
full_name: Sasal, Y.
last_name: Sasal
- first_name: Y.
full_name: Sato, Y.
last_name: Sato
- first_name: M.
full_name: Sawant, M.
last_name: Sawant
- first_name: H.
full_name: Schroeder, H.
last_name: Schroeder
- first_name: I.
full_name: Schumann, I.
last_name: Schumann
- first_name: M.
full_name: Segoli, M.
last_name: Segoli
- first_name: H.
full_name: Segre, H.
last_name: Segre
- first_name: O.
full_name: Shelef, O.
last_name: Shelef
- first_name: N.
full_name: Shinohara, N.
last_name: Shinohara
- first_name: R. P.
full_name: Singh, R. P.
last_name: Singh
- first_name: D. S.
full_name: Smith, D. S.
last_name: Smith
- first_name: M.
full_name: Sobral, M.
last_name: Sobral
- first_name: G. C.
full_name: Stotz, G. C.
last_name: Stotz
- first_name: A. J.M.
full_name: Tack, A. J.M.
last_name: Tack
- first_name: M.
full_name: Tayal, M.
last_name: Tayal
- first_name: J. F.
full_name: Tooker, J. F.
last_name: Tooker
- first_name: D.
full_name: Torrico-Bazoberry, D.
last_name: Torrico-Bazoberry
- first_name: K.
full_name: Tougeron, K.
last_name: Tougeron
- first_name: A. M.
full_name: Trowbridge, A. M.
last_name: Trowbridge
- first_name: S.
full_name: Utsumi, S.
last_name: Utsumi
- first_name: O.
full_name: Uyi, O.
last_name: Uyi
- first_name: J. L.
full_name: Vaca-Uribe, J. L.
last_name: Vaca-Uribe
- first_name: A.
full_name: Valtonen, A.
last_name: Valtonen
- first_name: L. J.A.
full_name: Van Dijk, L. J.A.
last_name: Van Dijk
- first_name: V.
full_name: Vandvik, V.
last_name: Vandvik
- first_name: J.
full_name: Villellas, J.
last_name: Villellas
- first_name: L. P.
full_name: Waller, L. P.
last_name: Waller
- first_name: M. G.
full_name: Weber, M. G.
last_name: Weber
- first_name: A.
full_name: Yamawo, A.
last_name: Yamawo
- first_name: S.
full_name: Yim, S.
last_name: Yim
- first_name: P. L.
full_name: Zarnetske, P. L.
last_name: Zarnetske
- first_name: L. N.
full_name: Zehr, L. N.
last_name: Zehr
- first_name: Z.
full_name: Zhong, Z.
last_name: Zhong
- first_name: W. C.
full_name: Wetzel, W. C.
last_name: Wetzel
citation:
ama: Robinson ML, Hahn PG, Inouye BD, et al. Plant size, latitude, and phylogeny
explain within-population variability in herbivory. Science. 2023;382(6671):679-683.
doi:10.1126/science.adh8830
apa: Robinson, M. L., Hahn, P. G., Inouye, B. D., Underwood, N., Whitehead, S. R.,
Abbott, K. C., … Wetzel, W. C. (2023). Plant size, latitude, and phylogeny explain
within-population variability in herbivory. Science. AAAS. https://doi.org/10.1126/science.adh8830
chicago: Robinson, M. L., P. G. Hahn, B. D. Inouye, N. Underwood, S. R. Whitehead,
K. C. Abbott, E. M. Bruna, et al. “Plant Size, Latitude, and Phylogeny Explain
within-Population Variability in Herbivory.” Science. AAAS, 2023. https://doi.org/10.1126/science.adh8830.
ieee: M. L. Robinson et al., “Plant size, latitude, and phylogeny explain
within-population variability in herbivory,” Science, vol. 382, no. 6671.
AAAS, pp. 679–683, 2023.
ista: Robinson ML et al. 2023. Plant size, latitude, and phylogeny explain within-population
variability in herbivory. Science. 382(6671), 679–683.
mla: Robinson, M. L., et al. “Plant Size, Latitude, and Phylogeny Explain within-Population
Variability in Herbivory.” Science, vol. 382, no. 6671, AAAS, 2023, pp.
679–83, doi:10.1126/science.adh8830.
short: M.L. Robinson, P.G. Hahn, B.D. Inouye, N. Underwood, S.R. Whitehead, K.C.
Abbott, E.M. Bruna, N.I. Cacho, L.A. Dyer, L. Abdala-Roberts, W.J. Allen, J.F.
Andrade, D.F. Angulo, D. Anjos, D.N. Anstett, R. Bagchi, S. Bagchi, M. Barbosa,
S. Barrett, C. Baskett, E. Ben-Simchon, K.J. Bloodworth, J.L. Bronstein, Y.M.
Buckley, K.T. Burghardt, C. Bustos-Segura, E.S. Calixto, R.L. Carvalho, B. Castagneyrol,
M.C. Chiuffo, D. Cinoğlu, E. Cinto Mejía, M.C. Cock, R. Cogni, O.L. Cope, T. Cornelissen,
D.R. Cortez, D.W. Crowder, C. Dallstream, W. Dáttilo, J.K. Davis, R.D. Dimarco,
H.E. Dole, I.N. Egbon, M. Eisenring, A. Ejomah, B.D. Elderd, M.J. Endara, M.D.
Eubanks, S.E. Everingham, K.N. Farah, R.P. Farias, A.P. Fernandes, G.W. Fernandes,
M. Ferrante, A. Finn, G.A. Florjancic, M.L. Forister, Q.N. Fox, E. Frago, F.M.
França, A.S. Getman-Pickering, Z. Getman-Pickering, E. Gianoli, B. Gooden, M.M.
Gossner, K.A. Greig, S. Gripenberg, R. Groenteman, P. Grof-Tisza, N. Haack, L.
Hahn, S.M. Haq, A.M. Helms, J. Hennecke, S.L. Hermann, L.M. Holeski, S. Holm,
M.C. Hutchinson, E.E. Jackson, S. Kagiya, A. Kalske, M. Kalwajtys, R. Karban,
R. Kariyat, T. Keasar, M.F. Kersch-Becker, H.M. Kharouba, T.N. Kim, D.M. Kimuyu,
J. Kluse, S.E. Koerner, K.J. Komatsu, S. Krishnan, M. Laihonen, L. Lamelas-López,
M.C. Lascaleia, N. Lecomte, C.R. Lehn, X. Li, R.L. Lindroth, E.F. Lopresti, M.
Losada, A.M. Louthan, V.J. Luizzi, S.C. Lynch, J.S. Lynn, N.J. Lyon, L.F. Maia,
R.A. Maia, T.L. Mannall, B.S. Martin, T.J. Massad, A.C. Mccall, K. Mcgurrin, A.C.
Merwin, Z. Mijango-Ramos, C.H. Mills, A.T. Moles, C.M. Moore, X. Moreira, C.R.
Morrison, M.C. Moshobane, A. Muola, R. Nakadai, K. Nakajima, S. Novais, C.O. Ogbebor,
H. Ohsaki, V.S. Pan, N.A. Pardikes, M. Pareja, N. Parthasarathy, R.R. Pawar, Q.
Paynter, I.S. Pearse, R.M. Penczykowski, A.A. Pepi, C.C. Pereira, S.S. Phartyal,
F.I. Piper, K. Poveda, E.G. Pringle, J. Puy, T. Quijano, C. Quintero, S. Rasmann,
C. Rosche, L.Y. Rosenheim, J.A. Rosenheim, J.B. Runyon, A. Sadeh, Y. Sakata, D.M.
Salcido, C. Salgado-Luarte, B.A. Santos, Y. Sapir, Y. Sasal, Y. Sato, M. Sawant,
H. Schroeder, I. Schumann, M. Segoli, H. Segre, O. Shelef, N. Shinohara, R.P.
Singh, D.S. Smith, M. Sobral, G.C. Stotz, A.J.M. Tack, M. Tayal, J.F. Tooker,
D. Torrico-Bazoberry, K. Tougeron, A.M. Trowbridge, S. Utsumi, O. Uyi, J.L. Vaca-Uribe,
A. Valtonen, L.J.A. Van Dijk, V. Vandvik, J. Villellas, L.P. Waller, M.G. Weber,
A. Yamawo, S. Yim, P.L. Zarnetske, L.N. Zehr, Z. Zhong, W.C. Wetzel, Science 382
(2023) 679–683.
date_created: 2023-11-19T23:00:54Z
date_published: 2023-11-09T00:00:00Z
date_updated: 2023-11-20T11:17:34Z
day: '09'
department:
- _id: NiBa
doi: 10.1126/science.adh8830
external_id:
pmid:
- '37943897'
intvolume: ' 382'
issue: '6671'
language:
- iso: eng
month: '11'
oa_version: None
page: 679-683
pmid: 1
publication: Science
publication_identifier:
eissn:
- 1095-9203
publication_status: published
publisher: AAAS
quality_controlled: '1'
related_material:
record:
- id: '14579'
relation: research_data
status: public
scopus_import: '1'
status: public
title: Plant size, latitude, and phylogeny explain within-population variability in
herbivory
type: journal_article
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
volume: 382
year: '2023'
...
---
_id: '14579'
abstract:
- lang: eng
text: "This is associated with our paper \"Plant size, latitude, and phylogeny explain
within-population variability in herbivory\" published in Science.\r\n"
article_processing_charge: No
author:
- first_name: William
full_name: Wetzel, William
last_name: Wetzel
citation:
ama: 'Wetzel W. HerbVar-Network/HV-Large-Patterns-MS-public: v1.0.0. 2023. doi:10.5281/ZENODO.8133117'
apa: 'Wetzel, W. (2023). HerbVar-Network/HV-Large-Patterns-MS-public: v1.0.0. Zenodo.
https://doi.org/10.5281/ZENODO.8133117'
chicago: 'Wetzel, William. “HerbVar-Network/HV-Large-Patterns-MS-Public: V1.0.0.”
Zenodo, 2023. https://doi.org/10.5281/ZENODO.8133117.'
ieee: 'W. Wetzel, “HerbVar-Network/HV-Large-Patterns-MS-public: v1.0.0.” Zenodo,
2023.'
ista: 'Wetzel W. 2023. HerbVar-Network/HV-Large-Patterns-MS-public: v1.0.0, Zenodo,
10.5281/ZENODO.8133117.'
mla: 'Wetzel, William. HerbVar-Network/HV-Large-Patterns-MS-Public: V1.0.0.
Zenodo, 2023, doi:10.5281/ZENODO.8133117.'
short: W. Wetzel, (2023).
date_created: 2023-11-20T11:07:45Z
date_published: 2023-07-11T00:00:00Z
date_updated: 2023-11-20T11:17:33Z
day: '11'
ddc:
- '570'
department:
- _id: NiBa
doi: 10.5281/ZENODO.8133117
main_file_link:
- open_access: '1'
url: https://doi.org/10.5281/zenodo.8133118
month: '07'
oa: 1
oa_version: Published Version
publisher: Zenodo
related_material:
record:
- id: '14552'
relation: used_in_publication
status: public
status: public
title: 'HerbVar-Network/HV-Large-Patterns-MS-public: v1.0.0'
type: research_data_reference
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
year: '2023'
...
---
_id: '14058'
abstract:
- lang: eng
text: "Females and males across species are subject to divergent selective pressures
arising\r\nfrom di↵erent reproductive interests and ecological niches. This often
translates into a\r\nintricate array of sex-specific natural and sexual selection
on traits that have a shared\r\ngenetic basis between both sexes, causing a genetic
sexual conflict. The resolution of\r\nthis conflict mostly relies on the evolution
of sex-specific expression of the shared genes,\r\nleading to phenotypic sexual
dimorphism. Such sex-specific gene expression is thought\r\nto evolve via modifications
of the genetic networks ultimately linked to sex-determining\r\ntranscription
factors. Although much empirical and theoretical evidence supports this\r\nstandard
picture of the molecular basis of sexual conflict resolution, there still are
a\r\nfew open questions regarding the complex array of selective forces driving
phenotypic\r\ndi↵erentiation between the sexes, as well as the molecular mechanisms
underlying sexspecific adaptation. I address some of these open questions in my
PhD thesis.\r\nFirst, how do patterns of phenotypic sexual dimorphism vary within
populations,\r\nas a response to the temporal and spatial changes in sex-specific
selective forces? To\r\ntackle this question, I analyze the patterns of sex-specific
phenotypic variation along\r\nthree life stages and across populations spanning
the whole geographical range of Rumex\r\nhastatulus, a wind-pollinated angiosperm,
in the first Chapter of the thesis.\r\nSecond, how do gene expression patterns
lead to phenotypic dimorphism, and what\r\nare the molecular mechanisms underlying
the observed transcriptomic variation? I\r\naddress this question by examining
the sex- and tissue-specific expression variation in\r\nnewly-generated datasets
of sex-specific expression in heads and gonads of Drosophila\r\nmelanogaster.
I additionally used two complementary approaches for the study of the\r\ngenetic
basis of sex di↵erences in gene expression in the second and third Chapters of\r\nthe
thesis.\r\nThird, how does intersex correlation, thought to be one of the main
aspects constraining the ability for the two sexes to decouple, interact with
the evolution of sexual\r\ndimorphism? I develop models of sex-specific stabilizing
selection, mutation and drift\r\nto formalize common intuition regarding the patterns
of covariation between intersex\r\ncorrelation and sexual dimorphism in the fourth
Chapter of the thesis.\r\nAlltogether, the work described in this PhD thesis provides
useful insights into the\r\nlinks between genetic, transcriptomic and phenotypic
layers of sex-specific variation,\r\nand contributes to our general understanding
of the dynamics of sexual dimorphism\r\nevolution."
alternative_title:
- ISTA Thesis
article_processing_charge: No
author:
- first_name: Gemma
full_name: Puixeu Sala, Gemma
id: 33AB266C-F248-11E8-B48F-1D18A9856A87
last_name: Puixeu Sala
orcid: 0000-0001-8330-1754
citation:
ama: 'Puixeu Sala G. The molecular basis of sexual dimorphism: Experimental and
theoretical characterization of phenotypic, transcriptomic and genetic patterns
of sex-specific adaptation. 2023. doi:10.15479/at:ista:14058'
apa: 'Puixeu Sala, G. (2023). The molecular basis of sexual dimorphism: Experimental
and theoretical characterization of phenotypic, transcriptomic and genetic patterns
of sex-specific adaptation. Institute of Science and Technology Austria. https://doi.org/10.15479/at:ista:14058'
chicago: 'Puixeu Sala, Gemma. “The Molecular Basis of Sexual Dimorphism: Experimental
and Theoretical Characterization of Phenotypic, Transcriptomic and Genetic Patterns
of Sex-Specific Adaptation.” Institute of Science and Technology Austria, 2023.
https://doi.org/10.15479/at:ista:14058.'
ieee: 'G. Puixeu Sala, “The molecular basis of sexual dimorphism: Experimental and
theoretical characterization of phenotypic, transcriptomic and genetic patterns
of sex-specific adaptation,” Institute of Science and Technology Austria, 2023.'
ista: 'Puixeu Sala G. 2023. The molecular basis of sexual dimorphism: Experimental
and theoretical characterization of phenotypic, transcriptomic and genetic patterns
of sex-specific adaptation. Institute of Science and Technology Austria.'
mla: 'Puixeu Sala, Gemma. The Molecular Basis of Sexual Dimorphism: Experimental
and Theoretical Characterization of Phenotypic, Transcriptomic and Genetic Patterns
of Sex-Specific Adaptation. Institute of Science and Technology Austria, 2023,
doi:10.15479/at:ista:14058.'
short: 'G. Puixeu Sala, The Molecular Basis of Sexual Dimorphism: Experimental and
Theoretical Characterization of Phenotypic, Transcriptomic and Genetic Patterns
of Sex-Specific Adaptation, Institute of Science and Technology Austria, 2023.'
date_created: 2023-08-15T10:20:40Z
date_published: 2023-08-15T00:00:00Z
date_updated: 2023-12-13T12:15:36Z
day: '15'
ddc:
- '576'
degree_awarded: PhD
department:
- _id: GradSch
- _id: NiBa
- _id: BeVi
doi: 10.15479/at:ista:14058
ec_funded: 1
file:
- access_level: closed
checksum: 4e44e169f2724ee8c9324cd60bcc2b71
content_type: application/zip
creator: gpuixeus
date_created: 2023-08-16T18:15:17Z
date_updated: 2023-08-17T06:55:24Z
file_id: '14075'
file_name: Thesis_latex_forpdfa.zip
file_size: 10891454
relation: source_file
- access_level: open_access
checksum: e10b04cd8f3fecc0d9ef6e6868b6e1e8
content_type: application/pdf
creator: gpuixeus
date_created: 2023-08-18T10:47:55Z
date_updated: 2023-08-18T10:47:55Z
file_id: '14079'
file_name: PhDThesis_PuixeuG.pdf
file_size: 19856686
relation: main_file
success: 1
file_date_updated: 2023-08-18T10:47:55Z
has_accepted_license: '1'
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
page: '230'
project:
- _id: 2564DBCA-B435-11E9-9278-68D0E5697425
call_identifier: H2020
grant_number: '665385'
name: International IST Doctoral Program
- _id: 9B9DFC9E-BA93-11EA-9121-9846C619BF3A
grant_number: '25817'
name: 'Sexual conflict: resolution, constraints and biomedical implications'
publication_identifier:
isbn:
- 978-3-99078-035-0
issn:
- 2663-337X
publication_status: published
publisher: Institute of Science and Technology Austria
related_material:
record:
- id: '9803'
relation: research_data
status: public
- id: '12933'
relation: research_data
status: public
- id: '6831'
relation: part_of_dissertation
status: public
- id: '14077'
relation: part_of_dissertation
status: public
status: public
supervisor:
- first_name: Beatriz
full_name: Vicoso, Beatriz
id: 49E1C5C6-F248-11E8-B48F-1D18A9856A87
last_name: Vicoso
orcid: 0000-0002-4579-8306
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
title: 'The molecular basis of sexual dimorphism: Experimental and theoretical characterization
of phenotypic, transcriptomic and genetic patterns of sex-specific adaptation'
tmp:
image: /images/cc_by.png
legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
short: CC BY (4.0)
type: dissertation
user_id: 8b945eb4-e2f2-11eb-945a-df72226e66a9
year: '2023'
...
---
_id: '14077'
abstract:
- lang: eng
text: "The regulatory architecture of gene expression is known to differ substantially
between sexes in Drosophila, but most studies performed\r\nso far used whole-body
data and only single crosses, which may have limited their scope to detect patterns
that are robust across tissues\r\nand biological replicates. Here, we use allele-specific
gene expression of parental and reciprocal hybrid crosses between 6 Drosophila\r\nmelanogaster
inbred lines to quantify cis- and trans-regulatory variation in heads and gonads
of both sexes separately across 3 replicate\r\ncrosses. Our results suggest that
female and male heads, as well as ovaries, have a similar regulatory architecture.
On the other hand,\r\ntestes display more and substantially different cis-regulatory
effects, suggesting that sex differences in the regulatory architecture that\r\nhave
been previously observed may largely derive from testis-specific effects. We also
examine the difference in cis-regulatory variation\r\nof genes across different
levels of sex bias in gonads and heads. Consistent with the idea that intersex
correlations constrain expression\r\nand can lead to sexual antagonism, we find
more cis variation in unbiased and moderately biased genes in heads. In ovaries,
reduced cis\r\nvariation is observed for male-biased genes, suggesting that cis
variants acting on these genes in males do not lead to changes in ovary\r\nexpression.
Finally, we examine the dominance patterns of gene expression and find that sex-
and tissue-specific patterns of inheritance\r\nas well as trans-regulatory variation
are highly variable across biological crosses, although these were performed in
highly controlled\r\nexperimental conditions. This highlights the importance of
using various genetic backgrounds to infer generalizable patterns."
acknowledged_ssus:
- _id: ScienComp
acknowledgement: We thank members of the Vicoso Group for comments on the manuscript,
the Scientific Computing Unit at ISTA for technical support, and 2 anonymous reviewers
for useful feedback. GP is the recipient of a DOC Fellowship of the Austrian Academy
of Sciences at the Institute of Science and Technology Austria (DOC 25817) and received
funding from the European Union’s Horizon 2020 research and innovation program under
the Marie Skłodowska-Curie Grant (agreement no. 665385).
article_processing_charge: Yes
article_type: original
author:
- first_name: Gemma
full_name: Puixeu Sala, Gemma
id: 33AB266C-F248-11E8-B48F-1D18A9856A87
last_name: Puixeu Sala
orcid: 0000-0001-8330-1754
- first_name: Ariana
full_name: Macon, Ariana
id: 2A0848E2-F248-11E8-B48F-1D18A9856A87
last_name: Macon
- first_name: Beatriz
full_name: Vicoso, Beatriz
id: 49E1C5C6-F248-11E8-B48F-1D18A9856A87
last_name: Vicoso
orcid: 0000-0002-4579-8306
citation:
ama: 'Puixeu Sala G, Macon A, Vicoso B. Sex-specific estimation of cis and trans
regulation of gene expression in heads and gonads of Drosophila melanogaster.
G3: Genes, Genomes, Genetics. 2023;13(8). doi:10.1093/g3journal/jkad121'
apa: 'Puixeu Sala, G., Macon, A., & Vicoso, B. (2023). Sex-specific estimation
of cis and trans regulation of gene expression in heads and gonads of Drosophila
melanogaster. G3: Genes, Genomes, Genetics. Oxford University Press. https://doi.org/10.1093/g3journal/jkad121'
chicago: 'Puixeu Sala, Gemma, Ariana Macon, and Beatriz Vicoso. “Sex-Specific Estimation
of Cis and Trans Regulation of Gene Expression in Heads and Gonads of Drosophila
Melanogaster.” G3: Genes, Genomes, Genetics. Oxford University Press, 2023.
https://doi.org/10.1093/g3journal/jkad121.'
ieee: 'G. Puixeu Sala, A. Macon, and B. Vicoso, “Sex-specific estimation of cis
and trans regulation of gene expression in heads and gonads of Drosophila melanogaster,”
G3: Genes, Genomes, Genetics, vol. 13, no. 8. Oxford University Press,
2023.'
ista: 'Puixeu Sala G, Macon A, Vicoso B. 2023. Sex-specific estimation of cis and
trans regulation of gene expression in heads and gonads of Drosophila melanogaster.
G3: Genes, Genomes, Genetics. 13(8).'
mla: 'Puixeu Sala, Gemma, et al. “Sex-Specific Estimation of Cis and Trans Regulation
of Gene Expression in Heads and Gonads of Drosophila Melanogaster.” G3: Genes,
Genomes, Genetics, vol. 13, no. 8, Oxford University Press, 2023, doi:10.1093/g3journal/jkad121.'
short: 'G. Puixeu Sala, A. Macon, B. Vicoso, G3: Genes, Genomes, Genetics 13 (2023).'
date_created: 2023-08-18T06:52:14Z
date_published: 2023-08-01T00:00:00Z
date_updated: 2023-12-13T12:15:37Z
day: '01'
ddc:
- '570'
department:
- _id: BeVi
- _id: NiBa
- _id: GradSch
doi: 10.1093/g3journal/jkad121
ec_funded: 1
external_id:
isi:
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intvolume: ' 13'
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keyword:
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language:
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month: '08'
oa: 1
oa_version: Published Version
project:
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call_identifier: H2020
grant_number: '665385'
name: International IST Doctoral Program
- _id: 9B9DFC9E-BA93-11EA-9121-9846C619BF3A
grant_number: '25817'
name: 'Sexual conflict: resolution, constraints and biomedical implications'
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title: Sex-specific estimation of cis and trans regulation of gene expression in heads
and gonads of Drosophila melanogaster
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