Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae)

Pedro Murúa; RuAn Edrada-Ebel; L Munoz; Sylvia Soldatou; Nathalie Legrave; Dieter G Müller; DJ Patino; Pieter van West; Frithjof Kuepper; Renato Westermeier; Rainer Ebel; Akira F Peters

doi:10.1038/s41598-020-65137-3

Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae)

Pedro Murúa^* (Corresponding Author), RuAn Edrada-Ebel, L Munoz, Sylvia Soldatou, Nathalie Legrave, Dieter G Müller , DJ Patino, Pieter van West, Frithjof Kuepper, Renato Westermeier , Rainer Ebel, Akira F Peters

^*Corresponding author for this work

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Abstract

Macrocystis pyrifera and Lessonia spicata are economically and ecologically relevant brown seaweeds that recently have been classified as members of two separated families within Laminariales (kelps). Here we describe for the first time the Macrocystis pyrifera x Lessonia spicata hybridization in the wild (Chiloe Island, Southeastern Pacific), where populations of the two parents exist sympatrically. Externally, this hybrid exhibited typical features of its parents M. pyrifera (cylindrical and flexible distal stipes, serrate frond margins and presence of sporophylls) and L. spicata (rigid and flat main stipe and first bifurcation), as well as intermediate features between them (thick unfused haptera in the holdfast). Histological sections revealed the prevalence of mucilage ducts within stipes and fronds (absent in Lessonia) and fully developed unilocular sporangia in the sporophylls. Molecular analyses confirmed the presence of the two parental genotypes for ITS1 nrDNA and the M. pyrifera genotype for two predominantly maternally inherited cytoplasmic markers (COI and rbcLS spacer) in the tissue of the hybrid. A metabolome-wide approach revealed that this hybrid is more chemically reminiscent to M. pyrifera. Nevertheless, several hits were identified as Lessonia exclusive or more remarkably, not present in any of the parent. Meiospores developed into apparently fertile gametophytes, which gave rise to F1 sporophytes that reached several millimeters before suddenly dying. In-vitro reciprocal crossing of Mar Brava gametophytes from both species revealed that although it is rare, interfamilial hybridization between the two species is possible but mostly overcome by pseudogamy of female gametophytes.

Original language	English
Article number	8279
Number of pages	15
Journal	Scientific Reports
Volume	10
DOIs	https://doi.org/10.1038/s41598-020-65137-3 https://doi.org/10.1038/s41598-020-68820-7
Publication status	Published - 19 May 2020

Bibliographical note

We thank the support from G. Millne (UoA), M. Rateb (UoA) and D. Zagal (UACh) in the histological preparations, mass spectrometry set-up and the cultivation of the hybrid progeny, respectively. PM and LM developed part of this work with BecasChile (Fondecyt) funding, specifically grants No. 72130422 (PM) and No. 73140389 (LM). We would like to acknowledge the British Council Newton Fund Institutional Links, project No. 261781172 for funding SS a postdoctoral research fellow. We are also grateful to the UK Natural Environment Research Council for their support to FCK (program Oceans 2025–WP 4.5 and grants NE/D521522/1 and NE/ J023094/1). This work also received support from the Marine Alliance for Science and Technology for Scotland pooling initiative. MASTS is funded by the Scottish Funding Council (grant reference HR09011) and contributing institutions. RW thanks financial support from Gobierno Regional de Los Lagos (grants FIC 2012 E7259-2 and FIC 2013 BIP30234872-0) and Fondef, Conicyt (HUAM AQ12I0010), which allows the sampling expeditions at Chiloe Island by PM, LM, DJP.

Publisher Correction: Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae) (Scientific Reports, (2020), 10, 1, (8279), 10.1038/s41598-020-65137-3)
Pedro Murúa, Ru Angelie Edrada-Ebel, Liliana Muñoz, Sylvia Soldatou, Nathalie Legrave, Dieter G. Müller, David J. Patiño, Pieter van West, Frithjof C. Küpper, Renato Westermeier, Rainer Ebel, Akira F. Peters, 2020, vol. 10, issue 1. Scientific Reports http://dx.doi.org/10.1038/s41598-020-68820-7

Keywords

ecology
evolution
genetics
TRABECULATA
SEXUAL COMPATIBILITY
PHAEOPHYCEAE
INTROGRESSION
SEAWEEDS
INTERGENERIC HYBRIDIZATION
PYRIFERA
ALGAE
LAMINARIALES
HYBRIDS

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Cite this

Murúa, P., Edrada-Ebel, R., Munoz, L., Soldatou, S., Legrave, N., Müller , D. G., Patino, DJ., van West, P., Kuepper, F., Westermeier , R., Ebel, R., & Peters, A. F. (2020). Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae). Scientific Reports, 10, Article 8279. https://doi.org/10.1038/s41598-020-65137-3, https://doi.org/10.1038/s41598-020-68820-7

Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae). / Murúa, Pedro (Corresponding Author); Edrada-Ebel, RuAn; Munoz, L et al.
In: Scientific Reports, Vol. 10, 8279, 19.05.2020.

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

Murúa, P, Edrada-Ebel, R, Munoz, L, Soldatou, S, Legrave, N, Müller , DG, Patino, DJ, van West, P , Kuepper, F, Westermeier , R, Ebel, R & Peters, AF 2020, 'Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae)', Scientific Reports, vol. 10, 8279. https://doi.org/10.1038/s41598-020-65137-3, https://doi.org/10.1038/s41598-020-68820-7

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title = "Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae)",

abstract = "Macrocystis pyrifera and Lessonia spicata are economically and ecologically relevant brown seaweeds that recently have been classified as members of two separated families within Laminariales (kelps). Here we describe for the first time the Macrocystis pyrifera x Lessonia spicata hybridization in the wild (Chiloe Island, Southeastern Pacific), where populations of the two parents exist sympatrically. Externally, this hybrid exhibited typical features of its parents M. pyrifera (cylindrical and flexible distal stipes, serrate frond margins and presence of sporophylls) and L. spicata (rigid and flat main stipe and first bifurcation), as well as intermediate features between them (thick unfused haptera in the holdfast). Histological sections revealed the prevalence of mucilage ducts within stipes and fronds (absent in Lessonia) and fully developed unilocular sporangia in the sporophylls. Molecular analyses confirmed the presence of the two parental genotypes for ITS1 nrDNA and the M. pyrifera genotype for two predominantly maternally inherited cytoplasmic markers (COI and rbcLS spacer) in the tissue of the hybrid. A metabolome-wide approach revealed that this hybrid is more chemically reminiscent to M. pyrifera. Nevertheless, several hits were identified as Lessonia exclusive or more remarkably, not present in any of the parent. Meiospores developed into apparently fertile gametophytes, which gave rise to F1 sporophytes that reached several millimeters before suddenly dying. In-vitro reciprocal crossing of Mar Brava gametophytes from both species revealed that although it is rare, interfamilial hybridization between the two species is possible but mostly overcome by pseudogamy of female gametophytes.",

keywords = "ecology, evolution, genetics, TRABECULATA, SEXUAL COMPATIBILITY, PHAEOPHYCEAE, INTROGRESSION, SEAWEEDS, INTERGENERIC HYBRIDIZATION, PYRIFERA, ALGAE, LAMINARIALES, HYBRIDS",

author = "Pedro Mur{\'u}a and RuAn Edrada-Ebel and L Munoz and Sylvia Soldatou and Nathalie Legrave and M{\"u}ller, {Dieter G} and DJ Patino and {van West}, Pieter and Frithjof Kuepper and Renato Westermeier and Rainer Ebel and Peters, {Akira F}",

note = "We thank the support from G. Millne (UoA), M. Rateb (UoA) and D. Zagal (UACh) in the histological preparations, mass spectrometry set-up and the cultivation of the hybrid progeny, respectively. PM and LM developed part of this work with BecasChile (Fondecyt) funding, specifically grants No. 72130422 (PM) and No. 73140389 (LM). We would like to acknowledge the British Council Newton Fund Institutional Links, project No. 261781172 for funding SS a postdoctoral research fellow. We are also grateful to the UK Natural Environment Research Council for their support to FCK (program Oceans 2025–WP 4.5 and grants NE/D521522/1 and NE/ J023094/1). This work also received support from the Marine Alliance for Science and Technology for Scotland pooling initiative. MASTS is funded by the Scottish Funding Council (grant reference HR09011) and contributing institutions. RW thanks financial support from Gobierno Regional de Los Lagos (grants FIC 2012 E7259-2 and FIC 2013 BIP30234872-0) and Fondef, Conicyt (HUAM AQ12I0010), which allows the sampling expeditions at Chiloe Island by PM, LM, DJP. Publisher Correction: Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae) (Scientific Reports, (2020), 10, 1, (8279), 10.1038/s41598-020-65137-3) Pedro Mur{\'u}a, Ru Angelie Edrada-Ebel, Liliana Mu{\~n}oz, Sylvia Soldatou, Nathalie Legrave, Dieter G. M{\"u}ller, David J. Pati{\~n}o, Pieter van West, Frithjof C. K{\"u}pper, Renato Westermeier, Rainer Ebel, Akira F. Peters, 2020, vol. 10, issue 1. Scientific Reports http://dx.doi.org/10.1038/s41598-020-68820-7",

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T1 - Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae)

AU - Murúa, Pedro

AU - Edrada-Ebel, RuAn

AU - Munoz, L

AU - Soldatou, Sylvia

AU - Legrave, Nathalie

AU - Müller , Dieter G

AU - Patino, DJ

AU - van West, Pieter

AU - Kuepper, Frithjof

AU - Westermeier , Renato

AU - Ebel, Rainer

AU - Peters, Akira F

N1 - We thank the support from G. Millne (UoA), M. Rateb (UoA) and D. Zagal (UACh) in the histological preparations, mass spectrometry set-up and the cultivation of the hybrid progeny, respectively. PM and LM developed part of this work with BecasChile (Fondecyt) funding, specifically grants No. 72130422 (PM) and No. 73140389 (LM). We would like to acknowledge the British Council Newton Fund Institutional Links, project No. 261781172 for funding SS a postdoctoral research fellow. We are also grateful to the UK Natural Environment Research Council for their support to FCK (program Oceans 2025–WP 4.5 and grants NE/D521522/1 and NE/ J023094/1). This work also received support from the Marine Alliance for Science and Technology for Scotland pooling initiative. MASTS is funded by the Scottish Funding Council (grant reference HR09011) and contributing institutions. RW thanks financial support from Gobierno Regional de Los Lagos (grants FIC 2012 E7259-2 and FIC 2013 BIP30234872-0) and Fondef, Conicyt (HUAM AQ12I0010), which allows the sampling expeditions at Chiloe Island by PM, LM, DJP. Publisher Correction: Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae) (Scientific Reports, (2020), 10, 1, (8279), 10.1038/s41598-020-65137-3) Pedro Murúa, Ru Angelie Edrada-Ebel, Liliana Muñoz, Sylvia Soldatou, Nathalie Legrave, Dieter G. Müller, David J. Patiño, Pieter van West, Frithjof C. Küpper, Renato Westermeier, Rainer Ebel, Akira F. Peters, 2020, vol. 10, issue 1. Scientific Reports http://dx.doi.org/10.1038/s41598-020-68820-7

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N2 - Macrocystis pyrifera and Lessonia spicata are economically and ecologically relevant brown seaweeds that recently have been classified as members of two separated families within Laminariales (kelps). Here we describe for the first time the Macrocystis pyrifera x Lessonia spicata hybridization in the wild (Chiloe Island, Southeastern Pacific), where populations of the two parents exist sympatrically. Externally, this hybrid exhibited typical features of its parents M. pyrifera (cylindrical and flexible distal stipes, serrate frond margins and presence of sporophylls) and L. spicata (rigid and flat main stipe and first bifurcation), as well as intermediate features between them (thick unfused haptera in the holdfast). Histological sections revealed the prevalence of mucilage ducts within stipes and fronds (absent in Lessonia) and fully developed unilocular sporangia in the sporophylls. Molecular analyses confirmed the presence of the two parental genotypes for ITS1 nrDNA and the M. pyrifera genotype for two predominantly maternally inherited cytoplasmic markers (COI and rbcLS spacer) in the tissue of the hybrid. A metabolome-wide approach revealed that this hybrid is more chemically reminiscent to M. pyrifera. Nevertheless, several hits were identified as Lessonia exclusive or more remarkably, not present in any of the parent. Meiospores developed into apparently fertile gametophytes, which gave rise to F1 sporophytes that reached several millimeters before suddenly dying. In-vitro reciprocal crossing of Mar Brava gametophytes from both species revealed that although it is rare, interfamilial hybridization between the two species is possible but mostly overcome by pseudogamy of female gametophytes.

AB - Macrocystis pyrifera and Lessonia spicata are economically and ecologically relevant brown seaweeds that recently have been classified as members of two separated families within Laminariales (kelps). Here we describe for the first time the Macrocystis pyrifera x Lessonia spicata hybridization in the wild (Chiloe Island, Southeastern Pacific), where populations of the two parents exist sympatrically. Externally, this hybrid exhibited typical features of its parents M. pyrifera (cylindrical and flexible distal stipes, serrate frond margins and presence of sporophylls) and L. spicata (rigid and flat main stipe and first bifurcation), as well as intermediate features between them (thick unfused haptera in the holdfast). Histological sections revealed the prevalence of mucilage ducts within stipes and fronds (absent in Lessonia) and fully developed unilocular sporangia in the sporophylls. Molecular analyses confirmed the presence of the two parental genotypes for ITS1 nrDNA and the M. pyrifera genotype for two predominantly maternally inherited cytoplasmic markers (COI and rbcLS spacer) in the tissue of the hybrid. A metabolome-wide approach revealed that this hybrid is more chemically reminiscent to M. pyrifera. Nevertheless, several hits were identified as Lessonia exclusive or more remarkably, not present in any of the parent. Meiospores developed into apparently fertile gametophytes, which gave rise to F1 sporophytes that reached several millimeters before suddenly dying. In-vitro reciprocal crossing of Mar Brava gametophytes from both species revealed that although it is rare, interfamilial hybridization between the two species is possible but mostly overcome by pseudogamy of female gametophytes.

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KW - genetics

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KW - SEXUAL COMPATIBILITY

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KW - INTROGRESSION

KW - SEAWEEDS

KW - INTERGENERIC HYBRIDIZATION

KW - PYRIFERA

KW - ALGAE

KW - LAMINARIALES

KW - HYBRIDS

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DO - 10.1038/s41598-020-65137-3

M3 - Article

C2 - 32427928

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VL - 10

JO - Scientific Reports

JF - Scientific Reports

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ER -

Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae)

Abstract

Bibliographical note

Keywords

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