Predator biomass and vegetation influence the coastal distribution of threespine stickleback morphotypes

Yanos, Casey; Haanstra, Eeke P.; Carey, Fiona Colgan; Passmore, Sorsha A.; Eklöf, Johan; Bergström, Ulf; Hansen, Joakim P.; Fontaine, Michaël C.; Maan, Martine E.; Eriksson, Britas Klemens

doi:10.1002/ece3.7993

Cited by 4 publications

(2 citation statements)

References 90 publications

(129 reference statements)

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“…However, evidence from otolith microchemistry studies suggests that at least those Baltic Sea sticklebacks hatched in freshwater tend to return to their place of birth to spawn (Eesti Mereinstituut, 2017). There is also some evidence of local adaption to variation in salinity, temperature and potentially also predation pressure and pollution levels (Lind and Grahn, 2011;De-Faveri et al, 2013;Guo et al, 2015;Jakubaviči ūte et al, 2018;Eriksson et al, 2021;Yanos et al, 2021). Further, the Baltic Sea stickleback shows spatial variation in size and condition, with fish in the Bothnian Sea generally being larger than those in the Baltic Proper (Bergström et al, 2015;Jakubaviči ūte et al, 2018;Olsson et al, 2019).…”

Section: Population Structure and Developmentmentioning

confidence: 99%

Increases of opportunistic species in response to ecosystem change: the case of the Baltic Sea three-spined stickleback

Olin

Olsson

Eklöf

et al. 2022

ICES Journal of Marine Science

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Under rapid environmental change, opportunistic species may exhibit dramatic increases in response to the altered conditions, and can in turn have large impacts on the ecosystem. One such species is the three-spined stickleback (Gasterosteus aculeatus), which has shown substantial increases in several aquatic systems in recent decades. Here, we review the population development of the stickleback in the Baltic Sea, a large brackish water ecosystem subject to rapid environmental change. Current evidence points to predatory release being the central driver of the population increases observed in some areas, while both eutrophication and climate change have likely contributed to creating more favourable conditions for the stickleback. The increasing stickleback densities have had profound effects on coastal ecosystem function by impairing the recruitment of piscivorous fish and enhancing the effects of eutrophication through promoting the production of filamentous algae. The increase poses a challenge for both environmental management and fisheries, where a substantial interest from the pelagic fisheries fleet in exploiting the species calls for urgent attention. While significant knowledge gaps remain, we suggest that the case of the Baltic Sea stickleback increase provides generalisable lessons of value for understanding and managing other coastal ecosystems under rapid change.

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Section: Population Structure and Developmentmentioning

confidence: 99%

Increases of opportunistic species in response to ecosystem change: the case of the Baltic Sea three-spined stickleback

Olin

Olsson

Eklöf

et al. 2022

ICES Journal of Marine Science

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“…Until now, evidence of local adaptation and small-scale genetic structuring in marine sticklebacks has primarily been characterized in either a single small basin (i.e. the Baltic Sea) [29][30][31] , or across very large basins (e.g. the Atlantic vs. Pacific Oceans) [32][33][34] .…”

Section: Characterizing Phenotypic Diversity In Marine Populations Of...mentioning

confidence: 99%

Characterizing phenotypic diversity in marine populations of the threespine stickleback

Fraser

El‐Sabaawi

2022

Sci Rep

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The threespine stickleback (Gasterosteus aculeatus) is an important model for studying the evolution of vertebrate morphology. Sticklebacks inhabit freshwater, brackish, and marine northern hemisphere waters. Anadromous and marine populations (hereafter marine) are assumed to have remained unchanged morphologically from ancestral marine sticklebacks, despite marine environments varying on regional and local scales. Recent studies suggest that genetic and phenotypic structure exists in marine populations, yet the scale of this variation, and its ecological causes remain unclear. Our goal was to assess morphological trait variation in marine stickleback populations around Southern British Columbia (BC) and determine if oceanographic and habitat characteristics were associated with this variation. Between May–July 2019, we sampled 534 sticklebacks from 15 sites around Vancouver Island, a region characterized by a large diversity of oceanographic and habitat features. We characterized trait variation using two-dimensional (2D) geometric morphometric analysis, comparing individuals between oceanographic regions and habitats. We focused on head and body shape. We found that marine sticklebacks varied morphologically among and between regions and habitats, but the variation did not appear to be related to environmental variation. Sexual dimorphism was the largest source of variation, but oceanographic and habitat variables influenced differences between sexes. We concluded that marine sticklebacks offer abundant opportunities for expanding our knowledge of drivers of morphology.

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Spatiotemporal patterns of trophic niche variation within and among species of tropical coastal fishes

Galindo,

Costa‐Pereira,

Cruz‐Escalona

et al. 2024

Biotropica

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Intraspecific niche variation shapes the structure and function of food webs, but we still know little about the magnitude and drivers of trophic variation within species in species‐rich communities. Here, we examined how intrinsic (sex and life stage) and extrinsic (locality and season) factors affect the diet composition and trophic niche width of tropical fish species. Specifically, we studied co‐occurring species with benthopelagic (Stellifer ericymba, S. melanocheir, S. zestocarus, and Larimus argenteus) and benthic feeding habits (S. strabo, Cathorops manglarensis, Notarius troschelii, and Urotrygon rogersi) on the central Pacific coast of Colombia. Overall, we observed strong spatial and seasonal effects driving variation in the consumption of (i) amphipods, copepods, and decapods for benthopelagic species and (ii) mollusks and polychaetes for benthic species. As expected, we observed little sexual diet variation; however, surprisingly, most species showed little ontogenetic diet variation. Seasonality strongly shaped the trophic niche width for most species, but effects were species‐specific, suggesting no general pattern of seasonal niche expansion across species. In turn, spatial effects on the trophic niche width were congruent across species, which might be related to differences in the diversity of available resources between bays. Our results reveal the complex interplay between intrinsic and extrinsic factors in shaping resource exploitation by coastal fish. This high level of trophic plasticity may be a critical component for both the persistence of marine populations and the stability of local food webs.Abstract in Spanish is available with online material.

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Predator biomass and vegetation influence the coastal distribution of threespine stickleback morphotypes

Cited by 4 publications

References 90 publications

Increases of opportunistic species in response to ecosystem change: the case of the Baltic Sea three-spined stickleback

Increases of opportunistic species in response to ecosystem change: the case of the Baltic Sea three-spined stickleback

Characterizing phenotypic diversity in marine populations of the threespine stickleback

Spatiotemporal patterns of trophic niche variation within and among species of tropical coastal fishes

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