Image_1_Turbulence affects larval vertical swimming in the cold-water coral Lophelia pertusa.pdf

Vertical migration of marine larvae may drastically affect their dispersal, especially if they are spawned in the deep sea. Previous studies have shown that the planktonic larvae of the cold-water coral Lophelia pertusa in still water swim upwards at a speed of ca. 0.5 mm s -1 during a pre-competenc...

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Bibliographic Details
Main Authors: Vilhelm Fagerström, Göran Broström, Ann I. Larsson
Format: Still Image
Language:unknown
Published: 2022
Subjects:
Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
turbulence
larval behavior
planula
Lophelia pertusa
Desmophyllum pertusum
vertical migration
dispersal
particle image velocimetry
Online Access:https://doi.org/10.3389/fmars.2022.1062884.s002
https://figshare.com/articles/figure/Image_1_Turbulence_affects_larval_vertical_swimming_in_the_cold-water_coral_Lophelia_pertusa_pdf/21724016
id ftfrontimediafig:oai:figshare.com:article/21724016
record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/21724016 2023-05-15T17:08:41+02:00 Image_1_Turbulence affects larval vertical swimming in the cold-water coral Lophelia pertusa.pdf Vilhelm Fagerström Göran Broström Ann I. Larsson 2022-12-14T10:39:05Z https://doi.org/10.3389/fmars.2022.1062884.s002 https://figshare.com/articles/figure/Image_1_Turbulence_affects_larval_vertical_swimming_in_the_cold-water_coral_Lophelia_pertusa_pdf/21724016 unknown doi:10.3389/fmars.2022.1062884.s002 https://figshare.com/articles/figure/Image_1_Turbulence_affects_larval_vertical_swimming_in_the_cold-water_coral_Lophelia_pertusa_pdf/21724016 CC BY 4.0 CC-BY Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering turbulence larval behavior planula Lophelia pertusa Desmophyllum pertusum vertical migration dispersal particle image velocimetry Image Figure 2022 ftfrontimediafig https://doi.org/10.3389/fmars.2022.1062884.s002 2022-12-15T00:07:23Z Vertical migration of marine larvae may drastically affect their dispersal, especially if they are spawned in the deep sea. Previous studies have shown that the planktonic larvae of the cold-water coral Lophelia pertusa in still water swim upwards at a speed of ca. 0.5 mm s -1 during a pre-competency period of 3–5 weeks. This behavioral trait is thought to benefit dispersion of larvae as it promotes near surface drift in relatively strong currents. In the ocean however, larvae regularly encounter turbulent water movements potentially impeding their swimming ability. With no apparent stabilizing mechanism, it may be expected that the body orientation of these larvae, and consequently their directed swimming, is sensitive to perturbation by external forces. We investigated the effects of turbulence on vertical swimming of pre-competent L. pertusa larvae by exposing them to relevant turbulence intensities within a grid-stirred tank. Larval movement and water flow were simultaneously recorded, allowing for analysis of individual larval swimming velocities. We showed that the upwards directed swimming speed generally decreased with increasing turbulence, dropping to non-significant in turbulence levels occurring near ocean boundaries. Our results do however suggest that L. pertusa larvae maintain their upwards directed swimming, albeit at reduced speed, in a major part of the water column, thus allowing them to spend part of their planktonic phase in the uppermost ocean layer. This new insight into the behavior of L. pertusa larvae in their natural environment strengthens the notion of the species as one with strong potential for long-distance dispersal. Such information is important for the understanding of L. pertusa population connectivity, and vital when developing tools for modelling of larval transport. Still Image Lophelia pertusa Frontiers: Figshare
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
turbulence
larval behavior
planula
Lophelia pertusa
Desmophyllum pertusum
vertical migration
dispersal
particle image velocimetry
spellingShingle Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
turbulence
larval behavior
planula
Lophelia pertusa
Desmophyllum pertusum
vertical migration
dispersal
particle image velocimetry
Vilhelm Fagerström
Göran Broström
Ann I. Larsson
Image_1_Turbulence affects larval vertical swimming in the cold-water coral Lophelia pertusa.pdf
topic_facet Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
turbulence
larval behavior
planula
Lophelia pertusa
Desmophyllum pertusum
vertical migration
dispersal
particle image velocimetry
description Vertical migration of marine larvae may drastically affect their dispersal, especially if they are spawned in the deep sea. Previous studies have shown that the planktonic larvae of the cold-water coral Lophelia pertusa in still water swim upwards at a speed of ca. 0.5 mm s -1 during a pre-competency period of 3–5 weeks. This behavioral trait is thought to benefit dispersion of larvae as it promotes near surface drift in relatively strong currents. In the ocean however, larvae regularly encounter turbulent water movements potentially impeding their swimming ability. With no apparent stabilizing mechanism, it may be expected that the body orientation of these larvae, and consequently their directed swimming, is sensitive to perturbation by external forces. We investigated the effects of turbulence on vertical swimming of pre-competent L. pertusa larvae by exposing them to relevant turbulence intensities within a grid-stirred tank. Larval movement and water flow were simultaneously recorded, allowing for analysis of individual larval swimming velocities. We showed that the upwards directed swimming speed generally decreased with increasing turbulence, dropping to non-significant in turbulence levels occurring near ocean boundaries. Our results do however suggest that L. pertusa larvae maintain their upwards directed swimming, albeit at reduced speed, in a major part of the water column, thus allowing them to spend part of their planktonic phase in the uppermost ocean layer. This new insight into the behavior of L. pertusa larvae in their natural environment strengthens the notion of the species as one with strong potential for long-distance dispersal. Such information is important for the understanding of L. pertusa population connectivity, and vital when developing tools for modelling of larval transport.
format Still Image
author Vilhelm Fagerström
Göran Broström
Ann I. Larsson
author_facet Vilhelm Fagerström
Göran Broström
Ann I. Larsson
author_sort Vilhelm Fagerström
title Image_1_Turbulence affects larval vertical swimming in the cold-water coral Lophelia pertusa.pdf
title_short Image_1_Turbulence affects larval vertical swimming in the cold-water coral Lophelia pertusa.pdf
title_full Image_1_Turbulence affects larval vertical swimming in the cold-water coral Lophelia pertusa.pdf
title_fullStr Image_1_Turbulence affects larval vertical swimming in the cold-water coral Lophelia pertusa.pdf
title_full_unstemmed Image_1_Turbulence affects larval vertical swimming in the cold-water coral Lophelia pertusa.pdf
title_sort image_1_turbulence affects larval vertical swimming in the cold-water coral lophelia pertusa.pdf
publishDate 2022
url https://doi.org/10.3389/fmars.2022.1062884.s002
https://figshare.com/articles/figure/Image_1_Turbulence_affects_larval_vertical_swimming_in_the_cold-water_coral_Lophelia_pertusa_pdf/21724016
genre Lophelia pertusa
genre_facet Lophelia pertusa
op_relation doi:10.3389/fmars.2022.1062884.s002
https://figshare.com/articles/figure/Image_1_Turbulence_affects_larval_vertical_swimming_in_the_cold-water_coral_Lophelia_pertusa_pdf/21724016
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fmars.2022.1062884.s002
_version_ 1766064502344777728

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