Ongoing niche differentiation under high gene flow in a polymorphic brackish water threespine stickleback (Gasterosteus aculeatus) population

Marine threespine sticklebacks colonized and adapted to brackish and freshwater environments since the last Pleistocene glacial. Throughout the Holarctic, three lateral plate morphs are observed; the low, partial and completely plated morph. We test if the three plate morphs in the brackish water La...

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Published in:BMC evolutionary biology 2018-02, Vol.18 (1), p.14-14, Article 14
Main Authors: Østbye, Kjartan, Taugbøl, Annette, Ravinet, Mark, Harrod, Chris, Pettersen, Ruben Alexander, Bernatchez, Louis, Vøllestad, Leif Asbjørn
Format: Article
Language:English
Subjects:
Adaptation
Adaptation (Biology)
Analysis
Animals
Carbon Isotopes - metabolism
Ecosystem
Ectodysplasin
Evolution
Gene Flow
Genetic aspects
Geography
Gill raker
Lakes
Linear Models
Natural selection
Niche (Ecology)
Nitrogen Isotopes - metabolism
Norway
Panmixia
Polymorphism, Genetic
Predatory Behavior
Saline Waters
Smegmamorpha - anatomy & histology
Smegmamorpha - genetics
Smegmamorpha - parasitology
Three-spined stickleback
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description Marine threespine sticklebacks colonized and adapted to brackish and freshwater environments since the last Pleistocene glacial. Throughout the Holarctic, three lateral plate morphs are observed; the low, partial and completely plated morph. We test if the three plate morphs in the brackish water Lake Engervann, Norway, differ in body size, trophic morphology (gill raker number and length), niche (stable isotopes; δ N, δ C, and parasites (Theristina gasterostei, Trematoda spp.)), genetic structure (microsatellites) and the lateral-plate encoding Stn382 (Ectodysplasin) gene. We examine differences temporally (autumn 2006/spring 2007) and spatially (upper/lower sections of the lake - reflecting low versus high salinity). All morphs belonged to one gene pool. The complete morph was larger than the low plated, with the partial morph intermediate. The number of lateral plates ranged 8-71, with means of 64.2 for complete, 40.3 for partial, and 14.9 for low plated morph. Stickleback δ N was higher in the lower lake section, while δ C was higher in the upper section. Stickleback isotopic values were greater in autumn. The low plated morph had larger variances in δ N and δ C than the other morphs. Sticklebacks in the upper section had more T. gasterostei than in the lower section which had more Trematoda spp. Sticklebacks had less T. gasterostei, but more Trematoda spp. in autumn than spring. Sticklebacks with few and short rakers had more T. gasterostei, while sticklebacks with longer rakers had more Trematoda. spp. Stickleback with higher δ N values had more T. gasterostei, while sticklebacks with higher δ N and δ C values had more Trematoda spp. The low plated morph had fewer Trematoda spp. than other morphs. Trait-ecology associations may imply that the three lateral plate morphs in the brackish water lagoon of Lake Engervann are experiencing ongoing divergent selection for niche and migratory life history strategies under high gene flow. As such, the brackish water zone may generally act as a generator of genomic diversity to be selected upon in the different environments where threespine sticklebacks can live.
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subjects Adaptation
Adaptation (Biology)
Analysis
Animals
Carbon Isotopes - metabolism
Ecosystem
Ectodysplasin
Evolution
Gene Flow
Genetic aspects
Geography
Gill raker
Lakes
Linear Models
Natural selection
Niche (Ecology)
Nitrogen Isotopes - metabolism
Norway
Panmixia
Polymorphism, Genetic
Predatory Behavior
Saline Waters
Smegmamorpha - anatomy & histology
Smegmamorpha - genetics
Smegmamorpha - parasitology
Three-spined stickleback
title Ongoing niche differentiation under high gene flow in a polymorphic brackish water threespine stickleback (Gasterosteus aculeatus) population
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