Evidence for an evo-devo-derived hypothesis on three-dimensional flower shape modularity in a tropical orchid clade

Silvia Artuso; Alexander Gamisch; Yannick M. Staedler; Jürg Schönenberger; Hans Peter Comes

doi:10.1111/evo.14621

Evidence for an evo-devo-derived hypothesis on three-dimensional flower shape modularity in a tropical orchid clade

Silvia Artuso, Alexander Gamisch, Yannick M. Staedler, Jürg Schönenberger, Hans Peter Comes

Department für Botanik und Biodiversitätsforschung

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

Abstract Covarying suites of phenotypic traits, or modules, are increasingly recognized to promote morphological evolution. However, information on how modularity influences flower diversity is rare and lacking for Orchidaceae. Here, we combine high-resolution X-ray computed tomography scanning with three-dimensional geometric morphometrics and phylogenetic comparative methods to test various hypotheses about three-dimensional patterns of flower evolutionary modularity in Malagasy Bulbophyllum orchids and examine rates and modes of module evolution. Based on the four evolutionary modules identified (i.e., sepals, lateral petals, labellum + column-foot, and column-part), our data support the hypothesis that both genetic-developmental and functional adaptive factors shaped evolutionary flower trait covariation in these tropical orchids. In line with ?evo-devo? studies, we also find that the labellum evolved independently from the rest of the petal whorl. Finally, we show that modules evolved with different rates, and either in a neutral fashion (only column-part) or under selective constraints, as likely imposed by pollinators. Overall, this study supports current views that modular units can enhance the range and rate of morphological evolution.

Originalsprache	Englisch
Seiten (von - bis)	2587-2604
Seitenumfang	18
Fachzeitschrift	Evolution
Jahrgang	76
Ausgabenummer	11
Frühes Online-Datum	20 Sept. 2022
DOIs	https://doi.org/10.1111/evo.14621
Publikationsstatus	Veröffentlicht - Nov. 2022

Fördermittel

We gratefully thank the directors of HBV and MO for the loan of spirit-preserved and herbarium material, respectively; Prof. C. Erbar (Heidelberg) for providing information on the flower rehydration protocol for herbarium specimens; Mag. S. Pamperl (Vienna) for assistance during HRX-CT scanning and with the software AMIRA v6.0; Dr. J. Clavel (Lyon) for invaluable help with the rpanda fit_t_pl function and with the interpretation of the multivariate R matrix and its parameters; and Dr. C. Bardua (Oxford) for kindly providing codes for the TukeyHSD function and for extracting phylogenetically independent contrasts of shape. We also gratefully acknowledge constructive comments from the Associate Editor, Dr. K. L. Voje, and three anonymous reviewers on earlier versions of this manuscript. Photographs of fly-pollinated Bulbophyllum lilacinum in Figure\u00A01 were kindly provided by P. T. Ong, MSc. (Forest Research Institute Malaysia, FRIM). This study was funded by the FWF (Austrian Science Fund) grant P29371 to HPC. We gratefully thank the directors of HBV and MO for the loan of spirit\u2010preserved and herbarium material, respectively; Prof. C. Erbar (Heidelberg) for providing information on the flower rehydration protocol for herbarium specimens; Mag. S. Pamperl (Vienna) for assistance during HRX\u2010CT scanning and with the software AMIRA v6.0; Dr. J. Clavel (Lyon) for invaluable help with the rpanda function and with the interpretation of the multivariate matrix and its parameters; and Dr. C. Bardua (Oxford) for kindly providing codes for the function and for extracting phylogenetically independent contrasts of shape. We also gratefully acknowledge constructive comments from the Associate Editor, Dr. K. L. Voje, and three anonymous reviewers on earlier versions of this manuscript. Photographs of fly\u2010pollinated in Figure 1 were kindly provided by P. T. Ong, MSc. (Forest Research Institute Malaysia, FRIM). This study was funded by the FWF (Austrian Science Fund) grant P29371 to HPC. fit_t_pl R TukeyHSD Bulbophyllum lilacinum

ÖFOS 2012

106008 Botanik
106012 Evolutionsforschung
106042 Systematische Botanik

Schlagwörter

3D geometric morphometrics
Bulbophyllum
evo-devo
flower shape modularity
high-resolution X-ray computed tomography
Orchidaceae
phylogenetic comparative methods

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10.1111/evo.14621

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Verknüpfung zur Publikation in Scopus

Zitationsweisen

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abstract = "Abstract Covarying suites of phenotypic traits, or modules, are increasingly recognized to promote morphological evolution. However, information on how modularity influences flower diversity is rare and lacking for Orchidaceae. Here, we combine high-resolution X-ray computed tomography scanning with three-dimensional geometric morphometrics and phylogenetic comparative methods to test various hypotheses about three-dimensional patterns of flower evolutionary modularity in Malagasy Bulbophyllum orchids and examine rates and modes of module evolution. Based on the four evolutionary modules identified (i.e., sepals, lateral petals, labellum + column-foot, and column-part), our data support the hypothesis that both genetic-developmental and functional adaptive factors shaped evolutionary flower trait covariation in these tropical orchids. In line with ?evo-devo? studies, we also find that the labellum evolved independently from the rest of the petal whorl. Finally, we show that modules evolved with different rates, and either in a neutral fashion (only column-part) or under selective constraints, as likely imposed by pollinators. Overall, this study supports current views that modular units can enhance the range and rate of morphological evolution.",

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author = "Silvia Artuso and Alexander Gamisch and Staedler, \{Yannick M.\} and J{\"u}rg Sch{\"o}nenberger and Comes, \{Hans Peter\}",

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year = "2022",

month = nov,

doi = "10.1111/evo.14621",

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T1 - Evidence for an evo-devo-derived hypothesis on three-dimensional flower shape modularity in a tropical orchid clade

AU - Artuso, Silvia

AU - Gamisch, Alexander

AU - Staedler, Yannick M.

AU - Schönenberger, Jürg

AU - Comes, Hans Peter

PY - 2022/11

Y1 - 2022/11

N2 - Abstract Covarying suites of phenotypic traits, or modules, are increasingly recognized to promote morphological evolution. However, information on how modularity influences flower diversity is rare and lacking for Orchidaceae. Here, we combine high-resolution X-ray computed tomography scanning with three-dimensional geometric morphometrics and phylogenetic comparative methods to test various hypotheses about three-dimensional patterns of flower evolutionary modularity in Malagasy Bulbophyllum orchids and examine rates and modes of module evolution. Based on the four evolutionary modules identified (i.e., sepals, lateral petals, labellum + column-foot, and column-part), our data support the hypothesis that both genetic-developmental and functional adaptive factors shaped evolutionary flower trait covariation in these tropical orchids. In line with ?evo-devo? studies, we also find that the labellum evolved independently from the rest of the petal whorl. Finally, we show that modules evolved with different rates, and either in a neutral fashion (only column-part) or under selective constraints, as likely imposed by pollinators. Overall, this study supports current views that modular units can enhance the range and rate of morphological evolution.

AB - Abstract Covarying suites of phenotypic traits, or modules, are increasingly recognized to promote morphological evolution. However, information on how modularity influences flower diversity is rare and lacking for Orchidaceae. Here, we combine high-resolution X-ray computed tomography scanning with three-dimensional geometric morphometrics and phylogenetic comparative methods to test various hypotheses about three-dimensional patterns of flower evolutionary modularity in Malagasy Bulbophyllum orchids and examine rates and modes of module evolution. Based on the four evolutionary modules identified (i.e., sepals, lateral petals, labellum + column-foot, and column-part), our data support the hypothesis that both genetic-developmental and functional adaptive factors shaped evolutionary flower trait covariation in these tropical orchids. In line with ?evo-devo? studies, we also find that the labellum evolved independently from the rest of the petal whorl. Finally, we show that modules evolved with different rates, and either in a neutral fashion (only column-part) or under selective constraints, as likely imposed by pollinators. Overall, this study supports current views that modular units can enhance the range and rate of morphological evolution.

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KW - MORPHOLOGICAL INTEGRATION

KW - COVARIATION

KW - SECTION CIRRHOPETALUM LINDL.

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M3 - Article

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SP - 2587

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JO - Evolution

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IS - 11

ER -

Evidence for an evo-devo-derived hypothesis on three-dimensional flower shape modularity in a tropical orchid clade

Abstract

Fördermittel

ÖFOS 2012

Schlagwörter

Zugriff auf Dokument

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