Systematics and geographical distribution of Galba species, a group of cryptic and worldwide freshwater snails

Pilar Alda; Manon Lounnas; Antonio A. Vázquez; Rolando Ayaqui Flores; Manuel Calvopiña; Maritza Celi-Erazo; Robert T. Dillon; Luisa Carolina González Ramírez; Eric S. Loker; Jenny Muzzio-Aroca; Alberto Orlando Nárvaez; Oscar Noya; Andrés Esteban Pereira; Luiggi Martini Robles; Richar Rodríguez-Hidalgo; Nelson Uribe; Patrice David; Philippe Jarne; Jean Pierre Pointier; Sylvie Hurtrez-Boussès

doi:10.1016/j.ympev.2020.107035

Systematics and geographical distribution of Galba species, a group of cryptic and worldwide freshwater snails

Pilar Alda, Manon Lounnas, Antonio A. Vázquez, Rolando Ayaqui Flores, Manuel Calvopiña, Maritza Celi-Erazo, Robert T. Dillon, Luisa Carolina González Ramírez, Eric S. Loker, Jenny Muzzio-Aroca, Alberto Orlando Nárvaez, Oscar Noya, Andrés Esteban Pereira, Luiggi Martini Robles, Richar Rodríguez-Hidalgo, Nelson Uribe, Patrice David, Philippe Jarne, Jean Pierre Pointier, Sylvie Hurtrez-Boussès

Departamento Académico de Microbiología y Patología

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Cryptic species can present a significant challenge to the application of systematic and biogeographic principles, especially if they are invasive or transmit parasites or pathogens. Detecting cryptic species requires a pluralistic approach in which molecular markers facilitate the detection of coherent taxonomic units that can then be analyzed using various traits (e.g., internal morphology) and crosses. In asexual or self-fertilizing species, the latter criteria are of limited use. We studied a group of cryptic freshwater snails (genus Galba) from the family Lymnaeidae that have invaded almost all continents, reproducing mainly by self-fertilization and transmitting liver flukes to humans and livestock. We aim to clarify the systematics, distribution, and phylogeny of these species with an integrative approach that includes morphology, molecular markers, wide-scale sampling across America, and data retrieved from GenBank (to include Old World samples). Our phylogenetic analysis suggests that the genus Galba originated ca. 22 Myr ago and today comprises six species or species complexes. Four of them show an elongated-shell cryptic phenotype and exhibit wide variation in their genetic diversity, geographic distribution, and invasiveness. The remaining two species have more geographically restricted distributions and exhibit a globose-shell cryptic phenotype, most likely phylogenetically derived from the elongated one. We emphasize that no Galba species should be identified without molecular markers. We also discuss several hypotheses that can explain the origin of cryptic species in Galba, such as convergence and morphological stasis.

Original language	English
Article number	107035
Journal	Molecular Phylogenetics and Evolution
Volume	157
DOIs	https://doi.org/10.1016/j.ympev.2020.107035
State	Published - Apr 2021

Bibliographical note

Funding Information:
We would like to express our gratitude to Nicolás Bonel for useful comments on earlier drafts of the manuscript and Harry G. Lee for advice and assistance on the taxonomy. We thank Jimena Guerrero, Björn Stelbrink and Thomas Wilke for suggestions on phylogenetic analyses and Graham R. Jones, Patricio Maturana Russel and Remco R. Bouckaert for assistance in running STACEY and Multi-Threaded Nested Sampling. We thank the reviewers Pável Matos-Maraví and Christelle Fraïsse and the recommender from PCI in Evolutionary Biology Fabien Condamine for their thoughtful comments and suggestions. Fellowships granted by Erasmus Mundus PRECIOSA and Méditerranée Infection supported research stays of PA at the Institute de Recherche pour le Développement, MIVEGEC (Montpellier, France). AV was supported by a grant from IRD (BEST) and ML by a doctoral fellowship from University of Montpellier and a post-doctoral grant from Labex CeMeb. This study was financially supported by IRD, CNRS, ECOS-SUD (A16B02) and Malacological Society of London. Version 3 of this preprint has been peer-reviewed and recommended by Peer Community In Evolutionary Biology (https://doi.org/10.24072/pci.evolbiol.100089).

Funding Information:
We would like to express our gratitude to Nicol?s Bonel for useful comments on earlier drafts of the manuscript and Harry G. Lee for advice and assistance on the taxonomy. We thank Jimena Guerrero, Bj?rn Stelbrink and Thomas Wilke for suggestions on phylogenetic analyses and Graham R. Jones, Patricio Maturana Russel and Remco R. Bouckaert for assistance in running STACEY and Multi-Threaded Nested Sampling. We thank the reviewers P?vel Matos-Marav? and Christelle Fra?sse and the recommender from PCI in Evolutionary Biology Fabien Condamine for their thoughtful comments and suggestions. Fellowships granted by Erasmus Mundus PRECIOSA and M?diterran?e Infection supported research stays of PA at the Institute de Recherche pour le D?veloppement, MIVEGEC (Montpellier, France). AV was supported by a grant from IRD (BEST) and ML by a doctoral fellowship from University of Montpellier and a post-doctoral grant from Labex CeMeb. This study was financially supported by IRD, CNRS, ECOS-SUD (A16B02) and Malacological Society of London. Version 3 of this preprint has been peer-reviewed and recommended by Peer Community In Evolutionary Biology (https://doi.org/10.24072/pci.evolbiol.100089).

Publisher Copyright:
© 2020 Elsevier Inc.

Keywords

America
Biological invasions
Lymnaeidae
Phylogenetics
Self-fertilization
Vector snails

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Cite this

Alda, P., Lounnas, M., Vázquez, A. A., Ayaqui Flores, R., Calvopiña, M., Celi-Erazo, M., Dillon, R. T., González Ramírez, L. C., Loker, E. S., Muzzio-Aroca, J., Nárvaez, A. O., Noya, O., Pereira, A. E., Robles, L. M., Rodríguez-Hidalgo, R., Uribe, N., David, P., Jarne, P., Pointier, J. P., & Hurtrez-Boussès, S. (2021). Systematics and geographical distribution of Galba species, a group of cryptic and worldwide freshwater snails. Molecular Phylogenetics and Evolution, 157, [107035]. https://doi.org/10.1016/j.ympev.2020.107035

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abstract = "Cryptic species can present a significant challenge to the application of systematic and biogeographic principles, especially if they are invasive or transmit parasites or pathogens. Detecting cryptic species requires a pluralistic approach in which molecular markers facilitate the detection of coherent taxonomic units that can then be analyzed using various traits (e.g., internal morphology) and crosses. In asexual or self-fertilizing species, the latter criteria are of limited use. We studied a group of cryptic freshwater snails (genus Galba) from the family Lymnaeidae that have invaded almost all continents, reproducing mainly by self-fertilization and transmitting liver flukes to humans and livestock. We aim to clarify the systematics, distribution, and phylogeny of these species with an integrative approach that includes morphology, molecular markers, wide-scale sampling across America, and data retrieved from GenBank (to include Old World samples). Our phylogenetic analysis suggests that the genus Galba originated ca. 22 Myr ago and today comprises six species or species complexes. Four of them show an elongated-shell cryptic phenotype and exhibit wide variation in their genetic diversity, geographic distribution, and invasiveness. The remaining two species have more geographically restricted distributions and exhibit a globose-shell cryptic phenotype, most likely phylogenetically derived from the elongated one. We emphasize that no Galba species should be identified without molecular markers. We also discuss several hypotheses that can explain the origin of cryptic species in Galba, such as convergence and morphological stasis.",

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author = "Pilar Alda and Manon Lounnas and V{\'a}zquez, {Antonio A.} and {Ayaqui Flores}, Rolando and Manuel Calvopi{\~n}a and Maritza Celi-Erazo and Dillon, {Robert T.} and {Gonz{\'a}lez Ram{\'i}rez}, {Luisa Carolina} and Loker, {Eric S.} and Jenny Muzzio-Aroca and N{\'a}rvaez, {Alberto Orlando} and Oscar Noya and Pereira, {Andr{\'e}s Esteban} and Robles, {Luiggi Martini} and Richar Rodr{\'i}guez-Hidalgo and Nelson Uribe and Patrice David and Philippe Jarne and Pointier, {Jean Pierre} and Sylvie Hurtrez-Bouss{\`e}s",

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year = "2021",

month = apr,

doi = "10.1016/j.ympev.2020.107035",

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Alda, P, Lounnas, M, Vázquez, AA, Ayaqui Flores, R, Calvopiña, M, Celi-Erazo, M, Dillon, RT, González Ramírez, LC, Loker, ES, Muzzio-Aroca, J, Nárvaez, AO, Noya, O, Pereira, AE, Robles, LM, Rodríguez-Hidalgo, R, Uribe, N, David, P, Jarne, P, Pointier, JP & Hurtrez-Boussès, S 2021, 'Systematics and geographical distribution of Galba species, a group of cryptic and worldwide freshwater snails', Molecular Phylogenetics and Evolution, vol. 157, 107035. https://doi.org/10.1016/j.ympev.2020.107035

TY - JOUR

T1 - Systematics and geographical distribution of Galba species, a group of cryptic and worldwide freshwater snails

AU - Alda, Pilar

AU - Lounnas, Manon

AU - Vázquez, Antonio A.

AU - Ayaqui Flores, Rolando

AU - Calvopiña, Manuel

AU - Celi-Erazo, Maritza

AU - Dillon, Robert T.

AU - González Ramírez, Luisa Carolina

AU - Loker, Eric S.

AU - Muzzio-Aroca, Jenny

AU - Nárvaez, Alberto Orlando

AU - Noya, Oscar

AU - Pereira, Andrés Esteban

AU - Robles, Luiggi Martini

AU - Rodríguez-Hidalgo, Richar

AU - Uribe, Nelson

AU - David, Patrice

AU - Jarne, Philippe

AU - Pointier, Jean Pierre

AU - Hurtrez-Boussès, Sylvie

PY - 2021/4

Y1 - 2021/4

N2 - Cryptic species can present a significant challenge to the application of systematic and biogeographic principles, especially if they are invasive or transmit parasites or pathogens. Detecting cryptic species requires a pluralistic approach in which molecular markers facilitate the detection of coherent taxonomic units that can then be analyzed using various traits (e.g., internal morphology) and crosses. In asexual or self-fertilizing species, the latter criteria are of limited use. We studied a group of cryptic freshwater snails (genus Galba) from the family Lymnaeidae that have invaded almost all continents, reproducing mainly by self-fertilization and transmitting liver flukes to humans and livestock. We aim to clarify the systematics, distribution, and phylogeny of these species with an integrative approach that includes morphology, molecular markers, wide-scale sampling across America, and data retrieved from GenBank (to include Old World samples). Our phylogenetic analysis suggests that the genus Galba originated ca. 22 Myr ago and today comprises six species or species complexes. Four of them show an elongated-shell cryptic phenotype and exhibit wide variation in their genetic diversity, geographic distribution, and invasiveness. The remaining two species have more geographically restricted distributions and exhibit a globose-shell cryptic phenotype, most likely phylogenetically derived from the elongated one. We emphasize that no Galba species should be identified without molecular markers. We also discuss several hypotheses that can explain the origin of cryptic species in Galba, such as convergence and morphological stasis.

AB - Cryptic species can present a significant challenge to the application of systematic and biogeographic principles, especially if they are invasive or transmit parasites or pathogens. Detecting cryptic species requires a pluralistic approach in which molecular markers facilitate the detection of coherent taxonomic units that can then be analyzed using various traits (e.g., internal morphology) and crosses. In asexual or self-fertilizing species, the latter criteria are of limited use. We studied a group of cryptic freshwater snails (genus Galba) from the family Lymnaeidae that have invaded almost all continents, reproducing mainly by self-fertilization and transmitting liver flukes to humans and livestock. We aim to clarify the systematics, distribution, and phylogeny of these species with an integrative approach that includes morphology, molecular markers, wide-scale sampling across America, and data retrieved from GenBank (to include Old World samples). Our phylogenetic analysis suggests that the genus Galba originated ca. 22 Myr ago and today comprises six species or species complexes. Four of them show an elongated-shell cryptic phenotype and exhibit wide variation in their genetic diversity, geographic distribution, and invasiveness. The remaining two species have more geographically restricted distributions and exhibit a globose-shell cryptic phenotype, most likely phylogenetically derived from the elongated one. We emphasize that no Galba species should be identified without molecular markers. We also discuss several hypotheses that can explain the origin of cryptic species in Galba, such as convergence and morphological stasis.

KW - America

KW - Biological invasions

KW - Lymnaeidae

KW - Phylogenetics

KW - Self-fertilization

KW - Vector snails

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DO - 10.1016/j.ympev.2020.107035

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SN - 1055-7903

VL - 157

JO - Molecular Phylogenetics and Evolution

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M1 - 107035

ER -

Systematics and geographical distribution of Galba species, a group of cryptic and worldwide freshwater snails

Abstract

Bibliographical note

Keywords

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