Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and Panmixia

Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and Panmixia

Sea anemones are sedentary marine animals that tend to disperse via planktonic larvae and are predicted to have high population connectivity in undisturbed habitats. We test whether two sea anemone species living in two different tidal zones of a highly disturbed marine environment can maintain high...

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Main Authors: Wan Wen Rochelle Chan, Ywee Chieh Tay, Hui Ping Ang, Karenne Tun, Loke Ming Chou, Danwei Huang, Rudolf Meier
Format: Article
Language:English
Published: MDPI AG 2020-12-01
Series:Diversity
Subjects:
fine-scale connectivity
ddRADseq
sea anemones
clonality
Online Access:https://www.mdpi.com/1424-2818/12/12/467
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spelling doaj-43454d24548c444c9cb39199188995502020-12-09T00:04:00ZengMDPI AGDiversity1424-28182020-12-011246746710.3390/d12120467Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and PanmixiaWan Wen Rochelle Chan0Ywee Chieh Tay1Hui Ping Ang2Karenne Tun3Loke Ming Chou4Danwei Huang5Rudolf Meier6Department of Biological Sciences, National University of Singapore, 16 Science Drive 4, Singapore 117558, SingaporeDepartment of Biological Sciences, National University of Singapore, 16 Science Drive 4, Singapore 117558, SingaporeNational Biodiversity Centre, National Parks Board, Singapore 259569, SingaporeNational Biodiversity Centre, National Parks Board, Singapore 259569, SingaporeDepartment of Biological Sciences, National University of Singapore, 16 Science Drive 4, Singapore 117558, SingaporeDepartment of Biological Sciences, National University of Singapore, 16 Science Drive 4, Singapore 117558, SingaporeDepartment of Biological Sciences, National University of Singapore, 16 Science Drive 4, Singapore 117558, SingaporeSea anemones are sedentary marine animals that tend to disperse via planktonic larvae and are predicted to have high population connectivity in undisturbed habitats. We test whether two sea anemone species living in two different tidal zones of a highly disturbed marine environment can maintain high genetic connectivity. More than 1000 loci with single-nucleotide polymorphisms (SNPs) were obtained with double-digest RADseq for 81 <i>Stichodactyla haddoni</i> and 99 <i>Entacmaea quadricolor</i> individuals to test for population genetic structure. We find evidence that both species predominantly propagate via sexual reproduction, and asexual reproduction is limited. We observe panmixia that indicates the absence of effective dispersal barriers for these species living in a highly anthropogenically disturbed environment. This is positive news for both species that are also found in the aquarium trade. More fundamentally, our results suggest that inhabiting different parts of a shallow reef may not affect a species’ population connectivity nor favour asexual reproduction.https://www.mdpi.com/1424-2818/12/12/467fine-scale connectivityddRADseqsea anemonesclonality
collection DOAJ
language English
format Article
sources DOAJ
author Wan Wen Rochelle Chan
Ywee Chieh Tay
Hui Ping Ang
Karenne Tun
Loke Ming Chou
Danwei Huang
Rudolf Meier
spellingShingle Wan Wen Rochelle Chan
Ywee Chieh Tay
Hui Ping Ang
Karenne Tun
Loke Ming Chou
Danwei Huang
Rudolf Meier
Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and Panmixia
Diversity
fine-scale connectivity
ddRADseq
sea anemones
clonality
author_facet Wan Wen Rochelle Chan
Ywee Chieh Tay
Hui Ping Ang
Karenne Tun
Loke Ming Chou
Danwei Huang
Rudolf Meier
author_sort Wan Wen Rochelle Chan
title Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and Panmixia
title_short Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and Panmixia
title_full Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and Panmixia
title_fullStr Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and Panmixia
title_full_unstemmed Reproduction in Urbanised Coastal Waters: Shallow-Water Sea Anemones (<i>Entacmaea quadricolor</i> and <i>Stichodactyla haddoni</i>) Maintain High Genetic Diversity and Panmixia
title_sort reproduction in urbanised coastal waters: shallow-water sea anemones (<i>entacmaea quadricolor</i> and <i>stichodactyla haddoni</i>) maintain high genetic diversity and panmixia
publisher MDPI AG
series Diversity
issn 1424-2818
publishDate 2020-12-01
description Sea anemones are sedentary marine animals that tend to disperse via planktonic larvae and are predicted to have high population connectivity in undisturbed habitats. We test whether two sea anemone species living in two different tidal zones of a highly disturbed marine environment can maintain high genetic connectivity. More than 1000 loci with single-nucleotide polymorphisms (SNPs) were obtained with double-digest RADseq for 81 <i>Stichodactyla haddoni</i> and 99 <i>Entacmaea quadricolor</i> individuals to test for population genetic structure. We find evidence that both species predominantly propagate via sexual reproduction, and asexual reproduction is limited. We observe panmixia that indicates the absence of effective dispersal barriers for these species living in a highly anthropogenically disturbed environment. This is positive news for both species that are also found in the aquarium trade. More fundamentally, our results suggest that inhabiting different parts of a shallow reef may not affect a species’ population connectivity nor favour asexual reproduction.
topic fine-scale connectivity
ddRADseq
sea anemones
clonality
url https://www.mdpi.com/1424-2818/12/12/467
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