Salinity driven selection and local adaptation in Baltic Sea Mytilid mussels
Salinity driven selection and local adaptation in Baltic Sea Mytilid mussels
Baltic blue mussels can colonise and dominate habitats with far lower salinity (<10 psu) than other Mytilus congeners. Pervasive gene flow was observed between Western Baltic Mytilus edulis living at high salinity conditions and Eastern Baltic M. trossulus living at lower salinites, with highest admixture proportions within a genetic transition zone located at intermediate salinities (Darss Sill area). Yet, we do not understand the impacts of low salinity on larval performance, and how salinity may act as an early selective pressure during passive larval drift across salinity gradients. This study tested whether larvae originating from two different populations along the natural salinity cline in the Baltic Sea have highest fitness at their native salinities. Our results suggest that Eastern Baltic M. trossulus (Usedom, 7 psu) and Western Baltic M. edulis (Kiel, 16 psu) larvae display better performance (fitness components: growth, mortality, settlement success) when reared at their respective native salinities. This suggests that these populations are adapted to their local environment. Additionally, species diagnostic markers were used for genetic analyses of transition zone (Ahrenshoop, 11 psu) mussel larvae exposed to low salinity. This revealed that low salinity selection resulted in a shift towards allele frequencies more typical for Eastern Baltic M. trossulus. Thus, salinity acts as a selective pressure during the pre-settlement phase and can shape the genetic composition of Baltic mussel populations driving local adaptation to low salinity. Future climate change driven desalination, therefore, has the potential to shift the Baltic Sea hybrid gradient westward with consequences for benthic ecosystem structure.
Mytilus edulis, Mytilus trossulus, hybrid swarm, laboratory experiments, mussel larvae
Knöbel, Loreen
20239b5e-0174-4414-a9cd-33b9efed0eef
Nascimento-Schulze, Jennifer C.
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Sanders, Trystan
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Zeus, Dominique
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Hiebenthal, Claas
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Barboza, Francisco R.
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Stuckas, Heiko
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Melzner, Frank
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13 August 2021
Knöbel, Loreen
20239b5e-0174-4414-a9cd-33b9efed0eef
Nascimento-Schulze, Jennifer C.
1387e10b-0d4c-4c1f-b9f8-b5e3fffeaaec
Sanders, Trystan
4f3b5742-82bb-48d6-bcaa-0489c0880628
Zeus, Dominique
d52754dc-534c-4f86-841d-1d534cc99ed5
Hiebenthal, Claas
4c62426f-957b-4549-879c-6ec207482c42
Barboza, Francisco R.
c4597c64-aa9b-43a7-bf88-e3c307725ae5
Stuckas, Heiko
ea7ea6a4-3815-475e-95c5-22c6771d99ec
Melzner, Frank
df404042-049e-418a-a3b8-343ce99273d3
Knöbel, Loreen, Nascimento-Schulze, Jennifer C., Sanders, Trystan, Zeus, Dominique, Hiebenthal, Claas, Barboza, Francisco R., Stuckas, Heiko and Melzner, Frank
(2021)
Salinity driven selection and local adaptation in Baltic Sea Mytilid mussels.
Frontiers in Marine Science, 8, [692078].
(doi:10.3389/fmars.2021.692078).
Abstract
Baltic blue mussels can colonise and dominate habitats with far lower salinity (<10 psu) than other Mytilus congeners. Pervasive gene flow was observed between Western Baltic Mytilus edulis living at high salinity conditions and Eastern Baltic M. trossulus living at lower salinites, with highest admixture proportions within a genetic transition zone located at intermediate salinities (Darss Sill area). Yet, we do not understand the impacts of low salinity on larval performance, and how salinity may act as an early selective pressure during passive larval drift across salinity gradients. This study tested whether larvae originating from two different populations along the natural salinity cline in the Baltic Sea have highest fitness at their native salinities. Our results suggest that Eastern Baltic M. trossulus (Usedom, 7 psu) and Western Baltic M. edulis (Kiel, 16 psu) larvae display better performance (fitness components: growth, mortality, settlement success) when reared at their respective native salinities. This suggests that these populations are adapted to their local environment. Additionally, species diagnostic markers were used for genetic analyses of transition zone (Ahrenshoop, 11 psu) mussel larvae exposed to low salinity. This revealed that low salinity selection resulted in a shift towards allele frequencies more typical for Eastern Baltic M. trossulus. Thus, salinity acts as a selective pressure during the pre-settlement phase and can shape the genetic composition of Baltic mussel populations driving local adaptation to low salinity. Future climate change driven desalination, therefore, has the potential to shift the Baltic Sea hybrid gradient westward with consequences for benthic ecosystem structure.
Text
fmars-08-692078
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More information
Accepted/In Press date: 5 July 2021
Published date: 13 August 2021
Additional Information:
Funding Information:
Funding was provided by the Marie Curie ITN network “CACHE” (EU 7’th Framework Programme grant 605051) and the Paul Ungerer Stiftung. Technical funding and support was provided by the Kiel Marine Organism Culture Centre (KIMOCC) of the Kiel Cluster of Excellence “Future Ocean.” FB received financial support from the German Academic Exchange Service (DAAD) through the Doctoral Programmes 2015/16 (57129429).
Publisher Copyright:
© Copyright © 2021 Knöbel, Nascimento-Schulze, Sanders, Zeus, Hiebenthal, Barboza, Stuckas and Melzner.
Keywords:
Mytilus edulis, Mytilus trossulus, hybrid swarm, laboratory experiments, mussel larvae
Identifiers
Local EPrints ID: 451133
URI: http://eprints.soton.ac.uk/id/eprint/451133
ISSN: 2296-7745
PURE UUID: 25be2bfc-ad85-450f-a916-c70319c5b69c
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Date deposited: 14 Sep 2021 10:37
Last modified: 16 Mar 2024 13:51
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Contributors
Author:
Loreen Knöbel
Author:
Jennifer C. Nascimento-Schulze
Author:
Dominique Zeus
Author:
Claas Hiebenthal
Author:
Francisco R. Barboza
Author:
Heiko Stuckas
Author:
Frank Melzner
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