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Advocate for novel integrative imaging approaches to answer important biological questions. Master of dissection and always interested in collaborations!<br /><div class="js-profile-less-about u-linkUnstyled u-tcGrayDarker u-textDecorationUnderline u-displayNone">less</div></div></div><div class="ri-section"><div class="ri-section-header"><span>Interests</span></div><div class="ri-tags-container"><a data-click-track="profile-user-info-expand-research-interests" data-has-card-for-ri-list="101287067" href="https://www.academia.edu/Documents/in/Departamento_de_Biologia"><div id="js-react-on-rails-context" style="display:none" data-rails-context="{"inMailer":false,"i18nLocale":"en","i18nDefaultLocale":"en","href":"https://geobiotec.academia.edu/SvenLaming","location":"/SvenLaming","scheme":"https","host":"geobiotec.academia.edu","port":null,"pathname":"/SvenLaming","search":null,"httpAcceptLanguage":null,"serverSide":false}"></div> <div class="js-react-on-rails-component" style="display:none" data-component-name="Pill" data-props="{"color":"gray","children":["Departamento de 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class="js-profile-docs-nav-section u-textTruncate" data-click-track="profile-works-tab" data-section-name="Books" data-toggle="tab" href="#books" role="tab" title="Books"><span>1</span> <span class="ds2-5-body-sm-bold">Books</span></a></li></ul></div><div class="divider ds-divider-16" style="margin: 0px;"></div><div class="documents-container backbone-social-profile-documents" style="width: 100%;"><div class="u-taCenter"></div><div class="profile--tab_content_container js-tab-pane tab-pane active" id="all"><div class="profile--tab_heading_container js-section-heading" data-section="Papers" id="Papers"><h3 class="profile--tab_heading_container">Papers by Sven Laming</h3></div><div class="js-work-strip profile--work_container" data-work-id="62004121"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/62004121/Figure_3_from_Cunha_MR_G%C3%A9nio_L_Pradillon_F_Clavel_Henry_M_Beaulieu_S_Birch_J_Campuzano_FJ_Carret%C3%B3n_M_De_Leo_F_Gula_J_Laming_S_Lindsay_D_Matos_FL_Metaxas_A_Meyer_Kaiser_K_Mills_S_Queiroga_H_Rodrigues_CF_Sarrazin_J_Watanabe_H_Young_R_Young_CM_2020_Foresight_Workshop_on_Advan"><img alt="Research paper thumbnail of Figure 3 from: Cunha MR, Génio L, Pradillon F, Clavel Henry M, Beaulieu S, Birch J, Campuzano FJ, Carretón M, De Leo F, Gula J, Laming S, Lindsay D, Matos FL, Metaxas A, Meyer-Kaiser K, Mills S, Queiroga H, Rodrigues CF, Sarrazin J, Watanabe H, Young R, Young CM (2020) Foresight Workshop on Advan" class="work-thumbnail" src="https://a.academia-assets.com/images/blank-paper.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/62004121/Figure_3_from_Cunha_MR_G%C3%A9nio_L_Pradillon_F_Clavel_Henry_M_Beaulieu_S_Birch_J_Campuzano_FJ_Carret%C3%B3n_M_De_Leo_F_Gula_J_Laming_S_Lindsay_D_Matos_FL_Metaxas_A_Meyer_Kaiser_K_Mills_S_Queiroga_H_Rodrigues_CF_Sarrazin_J_Watanabe_H_Young_R_Young_CM_2020_Foresight_Workshop_on_Advan">Figure 3 from: Cunha MR, Génio L, Pradillon F, Clavel Henry M, Beaulieu S, Birch J, Campuzano FJ, Carretón M, De Leo F, Gula J, Laming S, Lindsay D, Matos FL, Metaxas A, Meyer-Kaiser K, Mills S, Queiroga H, Rodrigues CF, Sarrazin J, Watanabe H, Young R, Young CM (2020) Foresight Workshop on Advan</a></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="62004121"><a 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Lindsay D, Matos FL, Metaxas A, Meyer-Kaiser K, Mills S, Queiroga H, Rodrigues CF, Sarrazin J, Watanabe H, Young R, Young CM (2020) Foresight W..." class="work-thumbnail" src="https://a.academia-assets.com/images/blank-paper.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/62004120/Supplementary_material_1_from_Cunha_MR_G%C3%A9nio_L_Pradillon_F_Clavel_Henry_M_Beaulieu_S_Birch_J_Campuzano_FJ_Carret%C3%B3n_M_De_Leo_F_Gula_J_Laming_S_Lindsay_D_Matos_FL_Metaxas_A_Meyer_Kaiser_K_Mills_S_Queiroga_H_Rodrigues_CF_Sarrazin_J_Watanabe_H_Young_R_Young_CM_2020_Foresight_W_">Supplementary material 1 from: Cunha MR, Génio L, Pradillon F, Clavel Henry M, Beaulieu S, Birch J, Campuzano FJ, Carretón M, De Leo F, Gula J, Laming S, Lindsay D, Matos FL, Metaxas A, Meyer-Kaiser K, Mills S, Queiroga H, Rodrigues CF, 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dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="48128839"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/48128839/Foresight_Workshop_on_Advances_in_Ocean_Biological_Observations_a_sustained_system_for_deep_ocean_meroplankton"><img alt="Research paper thumbnail of Foresight Workshop on Advances in Ocean Biological Observations: a sustained system for deep-ocean meroplankton" class="work-thumbnail" src="https://attachments.academia-assets.com/66901350/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/48128839/Foresight_Workshop_on_Advances_in_Ocean_Biological_Observations_a_sustained_system_for_deep_ocean_meroplankton">Foresight Workshop on Advances in Ocean Biological Observations: a sustained system for deep-ocean meroplankton</a></div><div class="wp-workCard_item"><span>Research Ideas and Outcomes</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Recent advances in technology have enabled an unprecedented development of underwater research, e...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Recent advances in technology have enabled an unprecedented development of underwater research, extending from near shore to the deepest regions of the globe. However, monitoring of biodiversity is not fully implemented in political agendas and biological observations in the deep ocean have been even more limited in space and time. The Foresight Workshop on Advances in Ocean Biological Observations: a sustained system for deep-ocean meroplankton was convened to to foster advances in the knowledge on deep-ocean invertebrate larval distributions and improve our understanding of fundamental deep-ocean ecological processes such as connectivity and resilience of benthic communities to natural and human-induced disturbance. This Meroplankton Observations Workshop had two specific goals: 1) review the state-of-the-art instrumentation available for meroplankton observations; 2) develop a strategy to implement technological innovations for in-situ meroplankton observation. Presentations and ...</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="57ff3a08417270c85060b4b09f3962a4" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":66901350,"asset_id":48128839,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/66901350/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="48128839"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="48128839"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 48128839; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=48128839]").text(description); $(".js-view-count[data-work-id=48128839]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 48128839; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='48128839']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 48128839, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "57ff3a08417270c85060b4b09f3962a4" } } $('.js-work-strip[data-work-id=48128839]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":48128839,"title":"Foresight Workshop on Advances in Ocean Biological Observations: a sustained system for deep-ocean meroplankton","translated_title":"","metadata":{"abstract":"Recent advances in technology have enabled an unprecedented development of underwater research, extending from near shore to the deepest regions of the globe. However, monitoring of biodiversity is not fully implemented in political agendas and biological observations in the deep ocean have been even more limited in space and time. The Foresight Workshop on Advances in Ocean Biological Observations: a sustained system for deep-ocean meroplankton was convened to to foster advances in the knowledge on deep-ocean invertebrate larval distributions and improve our understanding of fundamental deep-ocean ecological processes such as connectivity and resilience of benthic communities to natural and human-induced disturbance. This Meroplankton Observations Workshop had two specific goals: 1) review the state-of-the-art instrumentation available for meroplankton observations; 2) develop a strategy to implement technological innovations for in-situ meroplankton observation. 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Cunha</a></span></div><div class="wp-workCard_item"><span>Marine Environmental Research</span><span>, 2015</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Symbioses between microbiota and marine metazoa occur globally at chemosynthetic habitats facing ...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Symbioses between microbiota and marine metazoa occur globally at chemosynthetic habitats facing imminent threat from anthropogenic disturbance, yet little is known concerning the role of symbiosis during early development in chemosymbiotic metazoans: a critical period in any benthic species' life-cycle. The emerging symbiosis of Idas (sensu lato) simpsoni mussels undergoing development is assessed over a post-larval-to-adult size spectrum using histology and fluorescence in situ hybridisation (FISH). Post-larval development shows similarities to that of both heterotrophic and chemosymbiotic mussels. Data from newly settled specimens confirm aposymbiotic, planktotrophic larval development. Sulphur-oxidising (SOX) symbionts subsequently colonise multiple exposed, non-ciliated epithelia shortly after metamorphosis, but only become abundant on gills as these expand with greater host size. This widespread bathymodiolin recorded from sulphidic wood, bone and cold-seep habitats, displays a suite of adaptive traits that could buffer against anthropogenic disturbance.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="d560115af023a2b5c86cc6718771c691" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872613,"asset_id":38782789,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872613/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782789"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782789"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782789; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782789]").text(description); $(".js-view-count[data-work-id=38782789]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782789; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782789']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782789, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "d560115af023a2b5c86cc6718771c691" } } $('.js-work-strip[data-work-id=38782789]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782789,"title":"Adapted to change: The rapid development of symbiosis in newly settled, fast-maturing chemosymbiotic mussels in the deep sea","translated_title":"","metadata":{"doi":"10.1016/j.marenvres.2015.07.014","abstract":"Symbioses between microbiota and marine metazoa occur globally at chemosynthetic habitats facing imminent threat from anthropogenic disturbance, yet little is known concerning the role of symbiosis during early development in chemosymbiotic metazoans: a critical period in any benthic species' life-cycle. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782787"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782787/A_sad_tale_has_the_small_mussel_Idas_argenteus_lost_its_symbionts"><img alt="Research paper thumbnail of A sad tale: has the small mussel Idas argenteus lost its symbionts" class="work-thumbnail" src="https://attachments.academia-assets.com/58872611/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782787/A_sad_tale_has_the_small_mussel_Idas_argenteus_lost_its_symbionts">A sad tale: has the small mussel Idas argenteus lost its symbionts</a></div><div class="wp-workCard_item"><span>Biological Journal of the Linnean Society</span><span>, 2015</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Idas argenteus (Bivalvia: Mytilidae) belongs to a genus of mussels that are often associated with...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Idas argenteus (Bivalvia: Mytilidae) belongs to a genus of mussels that are often associated with sunken wood and vertebrate bones in the deep sea. By contrast to other species currently included within the genus Idas and other related genera, such as Bathymodiolus, I.argenteus was documented to lack chemosynthetic symbionts bacterial symbionts in its gills. In the present study, new specimens are assigned to I.argenteus based on shell and soft parts analysis. Molecular data confirm the absence or low abundance of symbionts. Phylogeny based on five genes indicates that the symbiont-bearing I.washingtonius is the closest relative of I.argenteus. Symbiosis loss or extreme reduction is thus inferred to have occurred subsequent to the speciation event, 11-13Mya. This is the first report of a loss of symbiosis within the clade of deep-sea chemosynthetic mussels.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="6b109ef02d91fc0d0055f3e895bd78d4" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872611,"asset_id":38782787,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872611/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782787"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782787"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782787; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782787]").text(description); $(".js-view-count[data-work-id=38782787]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782787; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782787']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782787, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "6b109ef02d91fc0d0055f3e895bd78d4" } } $('.js-work-strip[data-work-id=38782787]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782787,"title":"A sad tale: has the small mussel Idas argenteus lost its symbionts","translated_title":"","metadata":{"doi":"10.1111/bij.12431","abstract":"Idas argenteus (Bivalvia: Mytilidae) belongs to a genus of mussels that are often associated with sunken wood and vertebrate bones in the deep sea. By contrast to other species currently included within the genus Idas and other related genera, such as Bathymodiolus, I.argenteus was documented to lack chemosynthetic symbionts bacterial symbionts in its gills. In the present study, new specimens are assigned to I.argenteus based on shell and soft parts analysis. Molecular data confirm the absence or low abundance of symbionts. Phylogeny based on five genes indicates that the symbiont-bearing I.washingtonius is the closest relative of I.argenteus. Symbiosis loss or extreme reduction is thus inferred to have occurred subsequent to the speciation event, 11-13Mya. This is the first report of a loss of symbiosis within the clade of deep-sea chemosynthetic mussels.","publication_date":{"day":null,"month":null,"year":2015,"errors":{}},"publication_name":"Biological Journal of the Linnean Society"},"translated_abstract":"Idas argenteus (Bivalvia: Mytilidae) belongs to a genus of mussels that are often associated with sunken wood and vertebrate bones in the deep sea. By contrast to other species currently included within the genus Idas and other related genera, such as Bathymodiolus, I.argenteus was documented to lack chemosynthetic symbionts bacterial symbionts in its gills. In the present study, new specimens are assigned to I.argenteus based on shell and soft parts analysis. Molecular data confirm the absence or low abundance of symbionts. Phylogeny based on five genes indicates that the symbiont-bearing I.washingtonius is the closest relative of I.argenteus. Symbiosis loss or extreme reduction is thus inferred to have occurred subsequent to the speciation event, 11-13Mya. This is the first report of a loss of symbiosis within the clade of deep-sea chemosynthetic mussels.","internal_url":"https://www.academia.edu/38782787/A_sad_tale_has_the_small_mussel_Idas_argenteus_lost_its_symbionts","translated_internal_url":"","created_at":"2019-04-12T01:56:32.884-07:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":101287067,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[{"id":32438818,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":37585360,"co_author_invite_id":null,"email":"l***s@obs-banyuls.fr","display_order":1,"name":"Nadine Le Bris","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"},{"id":32438819,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":37718274,"co_author_invite_id":null,"email":"s***o@snv.jussieu.fr","display_order":2,"name":"Sébastien Duperron","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"},{"id":32438820,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":737424,"co_author_invite_id":null,"email":"c***s@ua.pt","affiliation":"University of Aveiro","display_order":3,"name":"Clara F. Rodrigues","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"},{"id":32438821,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":null,"co_author_invite_id":2821759,"email":"n***s@ifremer.fr","display_order":4,"name":"Nadine Le Bris","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"},{"id":32438822,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":179878361,"co_author_invite_id":6828075,"email":"g***r@museumwales.ac.uk","display_order":5,"name":"Graham Oliver","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"}],"downloadable_attachments":[{"id":58872611,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872611/thumbnails/1.jpg","file_name":"2015_Rodrigues_et_al_A_sad_tale-_has_the_small_mussel_Idas_argenteus_lost_its_symbionts20190412-4201-18uof8i.pdf","download_url":"https://www.academia.edu/attachments/58872611/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"A_sad_tale_has_the_small_mussel_Idas_arg.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872611/2015_Rodrigues_et_al_A_sad_tale-_has_the_small_mussel_Idas_argenteus_lost_its_symbionts20190412-4201-18uof8i-libre.pdf?1555067882=\u0026response-content-disposition=attachment%3B+filename%3DA_sad_tale_has_the_small_mussel_Idas_arg.pdf\u0026Expires=1732421417\u0026Signature=OT5JfBMcacSjxGKjGNs2jV-CM3BD~McsvFuIP-X9wxmE-h~L2wSXen8l4bOTNvoAtkPEvNeCZtFg-N3YumMyKLdjHToi2Gpn4pGhTxEDvsTRA-Cz9JQKLFpGre2YqBrY0w9W-SSOylYOoeAL5vJ34x~aezCu28yHJLCyO2Goi5VNfD72zWzhhyr884o5r30U~puzZeZhOOzIaL1WbJS25Eqszq75ZFPduPtsrvRWeXHlo8Auvm5k5UNhSWFssCBesbGnqkFD56NRqwctDWU37PsP56VmYQXHFzCYh0c0R07p7mVU~lbAFopAWUj8xd7w6iyxNLF9gWDNbhagcPo7wA__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"A_sad_tale_has_the_small_mussel_Idas_argenteus_lost_its_symbionts","translated_slug":"","page_count":8,"language":"en","content_type":"Work","owner":{"id":101287067,"first_name":"Sven","middle_initials":null,"last_name":"Laming","page_name":"SvenLaming","domain_name":"geobiotec","created_at":"2019-01-29T10:26:36.978-08:00","display_name":"Sven Laming","url":"https://geobiotec.academia.edu/SvenLaming"},"attachments":[{"id":58872611,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872611/thumbnails/1.jpg","file_name":"2015_Rodrigues_et_al_A_sad_tale-_has_the_small_mussel_Idas_argenteus_lost_its_symbionts20190412-4201-18uof8i.pdf","download_url":"https://www.academia.edu/attachments/58872611/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"A_sad_tale_has_the_small_mussel_Idas_arg.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872611/2015_Rodrigues_et_al_A_sad_tale-_has_the_small_mussel_Idas_argenteus_lost_its_symbionts20190412-4201-18uof8i-libre.pdf?1555067882=\u0026response-content-disposition=attachment%3B+filename%3DA_sad_tale_has_the_small_mussel_Idas_arg.pdf\u0026Expires=1732421417\u0026Signature=OT5JfBMcacSjxGKjGNs2jV-CM3BD~McsvFuIP-X9wxmE-h~L2wSXen8l4bOTNvoAtkPEvNeCZtFg-N3YumMyKLdjHToi2Gpn4pGhTxEDvsTRA-Cz9JQKLFpGre2YqBrY0w9W-SSOylYOoeAL5vJ34x~aezCu28yHJLCyO2Goi5VNfD72zWzhhyr884o5r30U~puzZeZhOOzIaL1WbJS25Eqszq75ZFPduPtsrvRWeXHlo8Auvm5k5UNhSWFssCBesbGnqkFD56NRqwctDWU37PsP56VmYQXHFzCYh0c0R07p7mVU~lbAFopAWUj8xd7w6iyxNLF9gWDNbhagcPo7wA__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[],"urls":[]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782674"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782674/Lifecycle_Ecology_of_Deep_Sea_Chemosymbiotic_Mussels_A_Review"><img alt="Research paper thumbnail of Lifecycle Ecology of Deep-Sea Chemosymbiotic Mussels: A Review" class="work-thumbnail" src="https://attachments.academia-assets.com/58872553/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782674/Lifecycle_Ecology_of_Deep_Sea_Chemosymbiotic_Mussels_A_Review">Lifecycle Ecology of Deep-Sea Chemosymbiotic Mussels: A Review</a></div><div class="wp-workCard_item"><span>Frontiers in Marine Science</span><span>, 2018</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Mussels within the subfamily Bathymodiolinae, in particular the larger Bathymodiolus species (sen...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Mussels within the subfamily Bathymodiolinae, in particular the larger Bathymodiolus species (sensu lato) thriving at cold seeps and hydrothermal vents, are among the most iconic fauna to colonize deep-sea reducing habitats globally. Fuelled by energy derived from chemosynthetic symbioses, their contribution to ecosystem productivity is conspicuous, with many bathymodioline species forming dense, extensive aggregates. Chemosymbiotic mussels play crucial roles as ecosystem engineers, both through the formation of spatially heterogeneous biogenic reefs and in redistributing reduced-fluid emissions. The notable absence of Bathymodiolinae outside of reducing ecosystems affirms their dependency on these ephemeral habitats, placing spatiotemporal constraints on dispersal to, and colonization of nascent, chemosynthetically active substrata. Thus, although symbioses may explain why these mussels are so productive in deep-sea reducing habitats, species' survival over successive generations depends largely upon the adaptive characteristics of their lifecycle as a whole. Despite accumulating data on the biology and ecology of adults however, details remain fragmented regarding earlier developmental junctures during their development. This paper therefore brings together results from research undertaken over recent years on this topic, providing a synthesis of various lifecycle aspects of bathymodiolins from the earliest stages of development, gametogenesis, through to sexual maturity, including the intrinsic, emerging role of symbionts. The review provides a comprehensive overview of our current understanding and identifies areas where further study into these keystone organisms is warranted. The benefits of applying an integrated, lifecycle approach when evaluating the potential impacts of global change and anthropogenic activities upon deep-sea fauna and their habitats are then discussed.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="f6ce621ca5ce1efa81a66082292ebb73" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872553,"asset_id":38782674,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872553/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782674"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782674"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782674; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782674]").text(description); $(".js-view-count[data-work-id=38782674]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782674; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782674']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782674, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "f6ce621ca5ce1efa81a66082292ebb73" } } $('.js-work-strip[data-work-id=38782674]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782674,"title":"Lifecycle Ecology of Deep-Sea Chemosymbiotic Mussels: A Review","translated_title":"","metadata":{"doi":"10.3389/fmars.2018.00282","abstract":"Mussels within the subfamily Bathymodiolinae, in particular the larger Bathymodiolus species (sensu lato) thriving at cold seeps and hydrothermal vents, are among the most iconic fauna to colonize deep-sea reducing habitats globally. Fuelled by energy derived from chemosynthetic symbioses, their contribution to ecosystem productivity is conspicuous, with many bathymodioline species forming dense, extensive aggregates. Chemosymbiotic mussels play crucial roles as ecosystem engineers, both through the formation of spatially heterogeneous biogenic reefs and in redistributing reduced-fluid emissions. The notable absence of Bathymodiolinae outside of reducing ecosystems affirms their dependency on these ephemeral habitats, placing spatiotemporal constraints on dispersal to, and colonization of nascent, chemosynthetically active substrata. Thus, although symbioses may explain why these mussels are so productive in deep-sea reducing habitats, species' survival over successive generations depends largely upon the adaptive characteristics of their lifecycle as a whole. Despite accumulating data on the biology and ecology of adults however, details remain fragmented regarding earlier developmental junctures during their development. This paper therefore brings together results from research undertaken over recent years on this topic, providing a synthesis of various lifecycle aspects of bathymodiolins from the earliest stages of development, gametogenesis, through to sexual maturity, including the intrinsic, emerging role of symbionts. The review provides a comprehensive overview of our current understanding and identifies areas where further study into these keystone organisms is warranted. The benefits of applying an integrated, lifecycle approach when evaluating the potential impacts of global change and anthropogenic activities upon deep-sea fauna and their habitats are then discussed.","publication_date":{"day":null,"month":null,"year":2018,"errors":{}},"publication_name":"Frontiers in Marine Science"},"translated_abstract":"Mussels within the subfamily Bathymodiolinae, in particular the larger Bathymodiolus species (sensu lato) thriving at cold seeps and hydrothermal vents, are among the most iconic fauna to colonize deep-sea reducing habitats globally. Fuelled by energy derived from chemosynthetic symbioses, their contribution to ecosystem productivity is conspicuous, with many bathymodioline species forming dense, extensive aggregates. Chemosymbiotic mussels play crucial roles as ecosystem engineers, both through the formation of spatially heterogeneous biogenic reefs and in redistributing reduced-fluid emissions. The notable absence of Bathymodiolinae outside of reducing ecosystems affirms their dependency on these ephemeral habitats, placing spatiotemporal constraints on dispersal to, and colonization of nascent, chemosynthetically active substrata. Thus, although symbioses may explain why these mussels are so productive in deep-sea reducing habitats, species' survival over successive generations depends largely upon the adaptive characteristics of their lifecycle as a whole. Despite accumulating data on the biology and ecology of adults however, details remain fragmented regarding earlier developmental junctures during their development. This paper therefore brings together results from research undertaken over recent years on this topic, providing a synthesis of various lifecycle aspects of bathymodiolins from the earliest stages of development, gametogenesis, through to sexual maturity, including the intrinsic, emerging role of symbionts. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782673"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782673/Fickle_or_Faithful_The_Roles_of_Host_and_Environmental_Context_in_Determining_Symbiont_Composition_in_Two_Bathymodioline_Mussels"><img alt="Research paper thumbnail of Fickle or Faithful: The Roles of Host and Environmental Context in Determining Symbiont Composition in Two Bathymodioline Mussels" class="work-thumbnail" src="https://attachments.academia-assets.com/58872554/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782673/Fickle_or_Faithful_The_Roles_of_Host_and_Environmental_Context_in_Determining_Symbiont_Composition_in_Two_Bathymodioline_Mussels">Fickle or Faithful: The Roles of Host and Environmental Context in Determining Symbiont Composition in Two Bathymodioline Mussels</a></div><div class="wp-workCard_item wp-workCard--coauthors"><span>by </span><span><a class="" data-click-track="profile-work-strip-authors" href="https://geobiotec.academia.edu/SvenLaming">Sven Laming</a> and <a class="" data-click-track="profile-work-strip-authors" href="https://aveiro.academia.edu/MarinaRCunha">Marina R. Cunha</a></span></div><div class="wp-workCard_item"><span>PLOS One</span><span>, 2015</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">The Mediterranean Sea and adjoining East Atlantic Ocean host a diverse array of small-sized musse...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">The Mediterranean Sea and adjoining East Atlantic Ocean host a diverse array of small-sized mussels that predominantly live on sunken, decomposing organic remains. At least two of these, Idas modiolaeformis and Idas simpsoni, are known to engage in gill-associated symbioses; however, the composition, diversity and variability of these symbioses with changing habitat and location is poorly defined. The current study presents bacterial symbi-ont assemblage data, derived from 454 pyrosequencing carried out on replicate specimens of these two host species, collected across seven sample sites found in three oceanographic regions in the Mediterranean and East Atlantic. The presence of several bacterial OTUs in both the Mediterranean Sea and eastern Atlantic suggests that similar symbiont candidates occur on both sides of the Strait of Gibraltar. The results reveal markedly different symbiotic modes in the two species. Idas modiolaeformis displays high symbiont diversity and flexibility, with strong variation in symbiont composition from the East Mediter-ranean to the East Atlantic. Idas simpsoni displays low symbiont diversity but high symbiont fidelity, with a single dominant OTU occurring in all specimens analysed. These differences are argued to be a function of the host species, where subtle differences in host evolution, life-history and behaviour could partially explain the observed patterns. The variability in symbiont compositions, particularly in Idas modiolaeformis, is thought to be a function of the nature, context and location of the habitat from which symbiont candidates are sourced.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="050e82857163c502f50ea16ebc3ee9c7" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872554,"asset_id":38782673,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872554/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782673"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782673"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782673; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782673]").text(description); $(".js-view-count[data-work-id=38782673]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782673; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782673']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782673, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "050e82857163c502f50ea16ebc3ee9c7" } } $('.js-work-strip[data-work-id=38782673]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782673,"title":"Fickle or Faithful: The Roles of Host and Environmental Context in Determining Symbiont Composition in Two Bathymodioline Mussels","translated_title":"","metadata":{"doi":"10.1371/journal.pone.0144307","abstract":"The Mediterranean Sea and adjoining East Atlantic Ocean host a diverse array of small-sized mussels that predominantly live on sunken, decomposing organic remains. At least two of these, Idas modiolaeformis and Idas simpsoni, are known to engage in gill-associated symbioses; however, the composition, diversity and variability of these symbioses with changing habitat and location is poorly defined. The current study presents bacterial symbi-ont assemblage data, derived from 454 pyrosequencing carried out on replicate specimens of these two host species, collected across seven sample sites found in three oceanographic regions in the Mediterranean and East Atlantic. The presence of several bacterial OTUs in both the Mediterranean Sea and eastern Atlantic suggests that similar symbiont candidates occur on both sides of the Strait of Gibraltar. The results reveal markedly different symbiotic modes in the two species. Idas modiolaeformis displays high symbiont diversity and flexibility, with strong variation in symbiont composition from the East Mediter-ranean to the East Atlantic. Idas simpsoni displays low symbiont diversity but high symbiont fidelity, with a single dominant OTU occurring in all specimens analysed. These differences are argued to be a function of the host species, where subtle differences in host evolution, life-history and behaviour could partially explain the observed patterns. The variability in symbiont compositions, particularly in Idas modiolaeformis, is thought to be a function of the nature, context and location of the habitat from which symbiont candidates are sourced.","publication_date":{"day":null,"month":null,"year":2015,"errors":{}},"publication_name":"PLOS One"},"translated_abstract":"The Mediterranean Sea and adjoining East Atlantic Ocean host a diverse array of small-sized mussels that predominantly live on sunken, decomposing organic remains. At least two of these, Idas modiolaeformis and Idas simpsoni, are known to engage in gill-associated symbioses; however, the composition, diversity and variability of these symbioses with changing habitat and location is poorly defined. The current study presents bacterial symbi-ont assemblage data, derived from 454 pyrosequencing carried out on replicate specimens of these two host species, collected across seven sample sites found in three oceanographic regions in the Mediterranean and East Atlantic. The presence of several bacterial OTUs in both the Mediterranean Sea and eastern Atlantic suggests that similar symbiont candidates occur on both sides of the Strait of Gibraltar. The results reveal markedly different symbiotic modes in the two species. Idas modiolaeformis displays high symbiont diversity and flexibility, with strong variation in symbiont composition from the East Mediter-ranean to the East Atlantic. Idas simpsoni displays low symbiont diversity but high symbiont fidelity, with a single dominant OTU occurring in all specimens analysed. These differences are argued to be a function of the host species, where subtle differences in host evolution, life-history and behaviour could partially explain the observed patterns. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782672"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782672/Settled_symbiotic_then_sexually_mature_adaptive_developmental_anatomy_in_the_deep_sea_chemosymbiotic_mussel_Idas_modiolaeformis"><img alt="Research paper thumbnail of Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis" class="work-thumbnail" src="https://attachments.academia-assets.com/58872552/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782672/Settled_symbiotic_then_sexually_mature_adaptive_developmental_anatomy_in_the_deep_sea_chemosymbiotic_mussel_Idas_modiolaeformis">Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis</a></div><div class="wp-workCard_item wp-workCard--coauthors"><span>by </span><span><a class="" data-click-track="profile-work-strip-authors" href="https://geobiotec.academia.edu/SvenLaming">Sven Laming</a> and <a class="" data-click-track="profile-work-strip-authors" href="https://aveiro.academia.edu/MarinaRCunha">Marina R. Cunha</a></span></div><div class="wp-workCard_item"><span>Marine Biology</span><span>, 2014</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">all larger individuals in the series were male (maximum Sl 6.54 mm). Based on the absence of bact...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">all larger individuals in the series were male (maximum Sl 6.54 mm). Based on the absence of bacterial signals, plantigrades were asymbiotic, indicating strict heterotro-phy in larvae and early post-larvae. During the early stages of dissoconch deposition, extracellular symbiont infection was non-specific. This was followed by increasing speci-ficity on non-ciliated gill epithelia in adults. These observations on early development in I. modiolaeformis represent evolutionary adaptations to their ephemeral, reducing habitats.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="692252df61522d92a7f352d45b173660" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872552,"asset_id":38782672,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872552/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782672"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782672"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782672; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782672]").text(description); $(".js-view-count[data-work-id=38782672]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782672; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782672']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782672, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "692252df61522d92a7f352d45b173660" } } $('.js-work-strip[data-work-id=38782672]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782672,"title":"Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis","translated_title":"","metadata":{"doi":"10.1007/s00227-014-2421-y","abstract":"all larger individuals in the series were male (maximum Sl 6.54 mm). Based on the absence of bacterial signals, plantigrades were asymbiotic, indicating strict heterotro-phy in larvae and early post-larvae. During the early stages of dissoconch deposition, extracellular symbiont infection was non-specific. This was followed by increasing speci-ficity on non-ciliated gill epithelia in adults. These observations on early development in I. modiolaeformis represent evolutionary adaptations to their ephemeral, reducing habitats.","publication_date":{"day":null,"month":null,"year":2014,"errors":{}},"publication_name":"Marine Biology"},"translated_abstract":"all larger individuals in the series were male (maximum Sl 6.54 mm). Based on the absence of bacterial signals, plantigrades were asymbiotic, indicating strict heterotro-phy in larvae and early post-larvae. During the early stages of dissoconch deposition, extracellular symbiont infection was non-specific. This was followed by increasing speci-ficity on non-ciliated gill epithelia in adults. These observations on early development in I. modiolaeformis represent evolutionary adaptations to their ephemeral, reducing habitats.","internal_url":"https://www.academia.edu/38782672/Settled_symbiotic_then_sexually_mature_adaptive_developmental_anatomy_in_the_deep_sea_chemosymbiotic_mussel_Idas_modiolaeformis","translated_internal_url":"","created_at":"2019-04-12T01:44:41.292-07:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":101287067,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[{"id":32438746,"work_id":38782672,"tagging_user_id":101287067,"tagged_user_id":324791,"co_author_invite_id":null,"email":"m***a@ua.pt","affiliation":"University of Aveiro","display_order":1,"name":"Marina R. Cunha","title":"Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis"},{"id":32438747,"work_id":38782672,"tagging_user_id":101287067,"tagged_user_id":null,"co_author_invite_id":1114871,"email":"s***n@snv.jussieu.fr","display_order":2,"name":"Sebastien Duperron","title":"Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis"},{"id":32438748,"work_id":38782672,"tagging_user_id":101287067,"tagged_user_id":null,"co_author_invite_id":1842360,"email":"s***n@snv.jussieu.fr","display_order":3,"name":"Sylvie Gaudron","title":"Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis"}],"downloadable_attachments":[{"id":58872552,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872552/thumbnails/1.jpg","file_name":"2014_Laming_et_al_Settled__symbiotic__then_sexually_mature-_adaptive_developmental_anatomy_in_the_deep-sea__etc20190412-89070-xjhljg.pdf","download_url":"https://www.academia.edu/attachments/58872552/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Settled_symbiotic_then_sexually_mature_a.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872552/2014_Laming_et_al_Settled__symbiotic__then_sexually_mature-_adaptive_developmental_anatomy_in_the_deep-sea__etc20190412-89070-xjhljg-libre.pdf?1555073498=\u0026response-content-disposition=attachment%3B+filename%3DSettled_symbiotic_then_sexually_mature_a.pdf\u0026Expires=1732421417\u0026Signature=hDL~ooFoYDMfYMPa60FX8IcIYgEnJVPsx21V8EXCBYLgy0gmJIm4MNMB~9UqLPAiwUZ1kL13L3XDhpq8C9C-fBTflFOVO8w7wvnRASQhuL4Iq3f36FXwZbOw587XCGPMSDfDvmJzXUr4jziPkEaecAT-joeXp5eP5FHwrn624Nq~H9hwB9niGw333HwwfAuRiTLIMImYO7N7vrqKZZykTHm5e6SNcazUWA92AJpUhyuN3bJmlYUnPkTYDfVaWo8b1Lj3E9QBntZVmDb8o07gp84j69uDk67JtR6AFxT3lzCxKJqUXg1IPWD5-apEl01GD1A4Kph6l1~ZnqFUg2VdPA__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"Settled_symbiotic_then_sexually_mature_adaptive_developmental_anatomy_in_the_deep_sea_chemosymbiotic_mussel_Idas_modiolaeformis","translated_slug":"","page_count":15,"language":"en","content_type":"Work","owner":{"id":101287067,"first_name":"Sven","middle_initials":null,"last_name":"Laming","page_name":"SvenLaming","domain_name":"geobiotec","created_at":"2019-01-29T10:26:36.978-08:00","display_name":"Sven Laming","url":"https://geobiotec.academia.edu/SvenLaming"},"attachments":[{"id":58872552,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872552/thumbnails/1.jpg","file_name":"2014_Laming_et_al_Settled__symbiotic__then_sexually_mature-_adaptive_developmental_anatomy_in_the_deep-sea__etc20190412-89070-xjhljg.pdf","download_url":"https://www.academia.edu/attachments/58872552/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Settled_symbiotic_then_sexually_mature_a.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872552/2014_Laming_et_al_Settled__symbiotic__then_sexually_mature-_adaptive_developmental_anatomy_in_the_deep-sea__etc20190412-89070-xjhljg-libre.pdf?1555073498=\u0026response-content-disposition=attachment%3B+filename%3DSettled_symbiotic_then_sexually_mature_a.pdf\u0026Expires=1732421417\u0026Signature=hDL~ooFoYDMfYMPa60FX8IcIYgEnJVPsx21V8EXCBYLgy0gmJIm4MNMB~9UqLPAiwUZ1kL13L3XDhpq8C9C-fBTflFOVO8w7wvnRASQhuL4Iq3f36FXwZbOw587XCGPMSDfDvmJzXUr4jziPkEaecAT-joeXp5eP5FHwrn624Nq~H9hwB9niGw333HwwfAuRiTLIMImYO7N7vrqKZZykTHm5e6SNcazUWA92AJpUhyuN3bJmlYUnPkTYDfVaWo8b1Lj3E9QBntZVmDb8o07gp84j69uDk67JtR6AFxT3lzCxKJqUXg1IPWD5-apEl01GD1A4Kph6l1~ZnqFUg2VdPA__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[],"urls":[]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782671"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782671/Repeatability_of_escape_response_performance_in_the_queen_scallop_Aequipecten_opercularis"><img alt="Research paper thumbnail of Repeatability of escape response performance in the queen scallop, Aequipecten opercularis" class="work-thumbnail" src="https://attachments.academia-assets.com/58872551/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782671/Repeatability_of_escape_response_performance_in_the_queen_scallop_Aequipecten_opercularis">Repeatability of escape response performance in the queen scallop, Aequipecten opercularis</a></div><div class="wp-workCard_item"><span>Journal of Experimental Biology</span><span>, 2013</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">In order for natural selection to operate, physiological and behavioural traits must exhibit both...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">In order for natural selection to operate, physiological and behavioural traits must exhibit both inter-individual variability and intra-individual consistency (i.e. repeatability) in performance. In this study, we describe individual variation and temporal repeatability in the escape responses of the queen scallop, Aequipecten opercularis, and determine whether individuals exhibited consistently high or low rankings in different aspects of the escape response. Five measures of individual performance were recorded on four occasions (days 0, 2, 7 and 28), providing proxies for sensory acuity (response latency), immediate and sustained swimming performance (burst and average clap rates), and swimming endurance (total number of claps and total time spent clapping). All components of the escape response exhibited significant inter-individual variability (all P<0.0001). Escape response latency, burst clap rate, total number of claps and total duration spent clapping maintained significant repeatability over 28. days (all P<0.016). Average clap rate was repeatable in the short term (2. days, P<0.0001) but repeatability declined by 28. days (P=0.097). Concordance analysis indicated that individuals maintained the same performance rankings over time for each component of the escape response (all P<0.001). In addition, some individuals ranked as consistently high or low performers across response latency, burst and average clap rate, and total number of claps. An individual's ability to evade predators through the provision of an escape response of an appropriate magnitude, subject to physiological, behavioural and organismal constraints, will have clear fitness-related consequences.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="aa1696901ccb0a6bb0ad0b31bd40df60" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872551,"asset_id":38782671,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872551/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782671"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782671"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782671; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782671]").text(description); $(".js-view-count[data-work-id=38782671]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782671; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782671']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782671, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "aa1696901ccb0a6bb0ad0b31bd40df60" } } $('.js-work-strip[data-work-id=38782671]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782671,"title":"Repeatability of escape response performance in the queen scallop, Aequipecten opercularis","translated_title":"","metadata":{"doi":"10.1242/jeb.080416","abstract":"In order for natural selection to operate, physiological and behavioural traits must exhibit both inter-individual variability and intra-individual consistency (i.e. repeatability) in performance. In this study, we describe individual variation and temporal repeatability in the escape responses of the queen scallop, Aequipecten opercularis, and determine whether individuals exhibited consistently high or low rankings in different aspects of the escape response. Five measures of individual performance were recorded on four occasions (days 0, 2, 7 and 28), providing proxies for sensory acuity (response latency), immediate and sustained swimming performance (burst and average clap rates), and swimming endurance (total number of claps and total time spent clapping). All components of the escape response exhibited significant inter-individual variability (all P\u003c0.0001). Escape response latency, burst clap rate, total number of claps and total duration spent clapping maintained significant repeatability over 28. days (all P\u003c0.016). Average clap rate was repeatable in the short term (2. days, P\u003c0.0001) but repeatability declined by 28. days (P=0.097). Concordance analysis indicated that individuals maintained the same performance rankings over time for each component of the escape response (all P\u003c0.001). In addition, some individuals ranked as consistently high or low performers across response latency, burst and average clap rate, and total number of claps. An individual's ability to evade predators through the provision of an escape response of an appropriate magnitude, subject to physiological, behavioural and organismal constraints, will have clear fitness-related consequences.","publication_date":{"day":null,"month":null,"year":2013,"errors":{}},"publication_name":"Journal of Experimental Biology"},"translated_abstract":"In order for natural selection to operate, physiological and behavioural traits must exhibit both inter-individual variability and intra-individual consistency (i.e. repeatability) in performance. In this study, we describe individual variation and temporal repeatability in the escape responses of the queen scallop, Aequipecten opercularis, and determine whether individuals exhibited consistently high or low rankings in different aspects of the escape response. Five measures of individual performance were recorded on four occasions (days 0, 2, 7 and 28), providing proxies for sensory acuity (response latency), immediate and sustained swimming performance (burst and average clap rates), and swimming endurance (total number of claps and total time spent clapping). All components of the escape response exhibited significant inter-individual variability (all P\u003c0.0001). Escape response latency, burst clap rate, total number of claps and total duration spent clapping maintained significant repeatability over 28. days (all P\u003c0.016). Average clap rate was repeatable in the short term (2. days, P\u003c0.0001) but repeatability declined by 28. days (P=0.097). Concordance analysis indicated that individuals maintained the same performance rankings over time for each component of the escape response (all P\u003c0.001). In addition, some individuals ranked as consistently high or low performers across response latency, burst and average clap rate, and total number of claps. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="profile--tab_heading_container js-section-heading" data-section="Books" id="Books"><h3 class="profile--tab_heading_container">Books by Sven Laming</h3></div><div class="js-work-strip profile--work_container" data-work-id="38782788"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782788/Book_Chapter_A_Correlative_Light_Electron_Microscopy_CLEM_Protocol_for_the_Identification_of_Bacteria_in_Animal_Tissue_Exemplified_by_Methanotrophic_Symbionts_of_Deep_Sea_Mussels_in_Hydrocarbon_and_Lipid_Microbiology_Protocols_"><img alt="Research paper thumbnail of Book Chapter: A Correlative Light-Electron Microscopy (CLEM) Protocol for the Identification of Bacteria in Animal Tissue, Exemplified by Methanotrophic Symbionts of Deep-Sea Mussels [in Hydrocarbon and Lipid Microbiology Protocols]" class="work-thumbnail" src="https://attachments.academia-assets.com/58872614/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782788/Book_Chapter_A_Correlative_Light_Electron_Microscopy_CLEM_Protocol_for_the_Identification_of_Bacteria_in_Animal_Tissue_Exemplified_by_Methanotrophic_Symbionts_of_Deep_Sea_Mussels_in_Hydrocarbon_and_Lipid_Microbiology_Protocols_">Book Chapter: A Correlative Light-Electron Microscopy (CLEM) Protocol for the Identification of Bacteria in Animal Tissue, Exemplified by Methanotrophic Symbionts of Deep-Sea Mussels [in Hydrocarbon and Lipid Microbiology Protocols]</a></div><div class="wp-workCard_item"><span>Springer Protocols</span><span>, 2015</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Bacterial symbionts associated with animal tissues play major roles in the functioning of various...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Bacterial symbionts associated with animal tissues play major roles in the functioning of various ecosystems. Identification of bacteria often relies on marker gene comparative sequence analysis and fluorescence in situ hybridization (FISH). However, analysis of bacteria and host ultrastructure using transmission electron microscopy (TEM) can be equally important to understand the localization of bacteria and the degree of host-symbiont integration. We here provide a protocol which allows both FISH and TEM to be performed sequentially on a single section of tissue. Observations can then be superimposed, allowing ultrastructural investigation to be coupled with proper FISH-based identification of bacteria.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="ed36faa503e2b40f5991e9dc0ed4e502" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872614,"asset_id":38782788,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872614/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782788"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782788"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782788; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782788]").text(description); $(".js-view-count[data-work-id=38782788]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782788; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782788']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782788, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "ed36faa503e2b40f5991e9dc0ed4e502" } } $('.js-work-strip[data-work-id=38782788]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782788,"title":"Book Chapter: A Correlative Light-Electron Microscopy (CLEM) Protocol for the Identification of Bacteria in Animal Tissue, Exemplified by Methanotrophic Symbionts of Deep-Sea Mussels [in Hydrocarbon and Lipid Microbiology Protocols]","translated_title":"","metadata":{"doi":"10.1007/8623_2015_85","abstract":"Bacterial symbionts associated with animal tissues play major roles in the functioning of various ecosystems. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> </div><div class="profile--tab_content_container js-tab-pane tab-pane" data-section-id="8888717" id="papers"><div class="js-work-strip profile--work_container" data-work-id="62004121"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/62004121/Figure_3_from_Cunha_MR_G%C3%A9nio_L_Pradillon_F_Clavel_Henry_M_Beaulieu_S_Birch_J_Campuzano_FJ_Carret%C3%B3n_M_De_Leo_F_Gula_J_Laming_S_Lindsay_D_Matos_FL_Metaxas_A_Meyer_Kaiser_K_Mills_S_Queiroga_H_Rodrigues_CF_Sarrazin_J_Watanabe_H_Young_R_Young_CM_2020_Foresight_Workshop_on_Advan"><img alt="Research paper thumbnail of Figure 3 from: Cunha MR, Génio L, Pradillon F, Clavel Henry M, Beaulieu S, Birch J, Campuzano FJ, Carretón M, De Leo F, Gula J, Laming S, Lindsay D, Matos FL, Metaxas A, Meyer-Kaiser K, Mills S, Queiroga H, Rodrigues CF, Sarrazin J, Watanabe H, Young R, Young CM (2020) Foresight Workshop on Advan" class="work-thumbnail" src="https://a.academia-assets.com/images/blank-paper.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/62004121/Figure_3_from_Cunha_MR_G%C3%A9nio_L_Pradillon_F_Clavel_Henry_M_Beaulieu_S_Birch_J_Campuzano_FJ_Carret%C3%B3n_M_De_Leo_F_Gula_J_Laming_S_Lindsay_D_Matos_FL_Metaxas_A_Meyer_Kaiser_K_Mills_S_Queiroga_H_Rodrigues_CF_Sarrazin_J_Watanabe_H_Young_R_Young_CM_2020_Foresight_Workshop_on_Advan">Figure 3 from: Cunha MR, Génio L, Pradillon F, Clavel Henry M, Beaulieu S, Birch J, Campuzano FJ, Carretón M, De Leo F, Gula J, Laming S, Lindsay D, Matos FL, Metaxas A, Meyer-Kaiser K, Mills S, Queiroga H, Rodrigues CF, Sarrazin J, Watanabe H, Young R, Young CM (2020) Foresight Workshop on Advan</a></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="62004121"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="62004121"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 62004121; 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However, monitoring of biodiversity is not fully implemented in political agendas and biological observations in the deep ocean have been even more limited in space and time. The Foresight Workshop on Advances in Ocean Biological Observations: a sustained system for deep-ocean meroplankton was convened to to foster advances in the knowledge on deep-ocean invertebrate larval distributions and improve our understanding of fundamental deep-ocean ecological processes such as connectivity and resilience of benthic communities to natural and human-induced disturbance. This Meroplankton Observations Workshop had two specific goals: 1) review the state-of-the-art instrumentation available for meroplankton observations; 2) develop a strategy to implement technological innovations for in-situ meroplankton observation. Presentations and ...</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="57ff3a08417270c85060b4b09f3962a4" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":66901350,"asset_id":48128839,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/66901350/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="48128839"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="48128839"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 48128839; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=48128839]").text(description); $(".js-view-count[data-work-id=48128839]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 48128839; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='48128839']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 48128839, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "57ff3a08417270c85060b4b09f3962a4" } } $('.js-work-strip[data-work-id=48128839]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":48128839,"title":"Foresight Workshop on Advances in Ocean Biological Observations: a sustained system for deep-ocean meroplankton","translated_title":"","metadata":{"abstract":"Recent advances in technology have enabled an unprecedented development of underwater research, extending from near shore to the deepest regions of the globe. 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Cunha</a></span></div><div class="wp-workCard_item"><span>Marine Environmental Research</span><span>, 2015</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Symbioses between microbiota and marine metazoa occur globally at chemosynthetic habitats facing ...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Symbioses between microbiota and marine metazoa occur globally at chemosynthetic habitats facing imminent threat from anthropogenic disturbance, yet little is known concerning the role of symbiosis during early development in chemosymbiotic metazoans: a critical period in any benthic species' life-cycle. The emerging symbiosis of Idas (sensu lato) simpsoni mussels undergoing development is assessed over a post-larval-to-adult size spectrum using histology and fluorescence in situ hybridisation (FISH). Post-larval development shows similarities to that of both heterotrophic and chemosymbiotic mussels. Data from newly settled specimens confirm aposymbiotic, planktotrophic larval development. Sulphur-oxidising (SOX) symbionts subsequently colonise multiple exposed, non-ciliated epithelia shortly after metamorphosis, but only become abundant on gills as these expand with greater host size. This widespread bathymodiolin recorded from sulphidic wood, bone and cold-seep habitats, displays a suite of adaptive traits that could buffer against anthropogenic disturbance.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="d560115af023a2b5c86cc6718771c691" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872613,"asset_id":38782789,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872613/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782789"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782789"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782789; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782789]").text(description); $(".js-view-count[data-work-id=38782789]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782789; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782789']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782789, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "d560115af023a2b5c86cc6718771c691" } } $('.js-work-strip[data-work-id=38782789]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782789,"title":"Adapted to change: The rapid development of symbiosis in newly settled, fast-maturing chemosymbiotic mussels in the deep sea","translated_title":"","metadata":{"doi":"10.1016/j.marenvres.2015.07.014","abstract":"Symbioses between microbiota and marine metazoa occur globally at chemosynthetic habitats facing imminent threat from anthropogenic disturbance, yet little is known concerning the role of symbiosis during early development in chemosymbiotic metazoans: a critical period in any benthic species' life-cycle. The emerging symbiosis of Idas (sensu lato) simpsoni mussels undergoing development is assessed over a post-larval-to-adult size spectrum using histology and fluorescence in situ hybridisation (FISH). Post-larval development shows similarities to that of both heterotrophic and chemosymbiotic mussels. Data from newly settled specimens confirm aposymbiotic, planktotrophic larval development. Sulphur-oxidising (SOX) symbionts subsequently colonise multiple exposed, non-ciliated epithelia shortly after metamorphosis, but only become abundant on gills as these expand with greater host size. This widespread bathymodiolin recorded from sulphidic wood, bone and cold-seep habitats, displays a suite of adaptive traits that could buffer against anthropogenic disturbance.","publication_date":{"day":null,"month":null,"year":2015,"errors":{}},"publication_name":"Marine Environmental Research"},"translated_abstract":"Symbioses between microbiota and marine metazoa occur globally at chemosynthetic habitats facing imminent threat from anthropogenic disturbance, yet little is known concerning the role of symbiosis during early development in chemosymbiotic metazoans: a critical period in any benthic species' life-cycle. The emerging symbiosis of Idas (sensu lato) simpsoni mussels undergoing development is assessed over a post-larval-to-adult size spectrum using histology and fluorescence in situ hybridisation (FISH). Post-larval development shows similarities to that of both heterotrophic and chemosymbiotic mussels. 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This widespread bathymodiolin recorded from sulphidic wood, bone and cold-seep habitats, displays a suite of adaptive traits that could buffer against anthropogenic disturbance.","internal_url":"https://www.academia.edu/38782789/Adapted_to_change_The_rapid_development_of_symbiosis_in_newly_settled_fast_maturing_chemosymbiotic_mussels_in_the_deep_sea","translated_internal_url":"","created_at":"2019-04-12T01:56:32.885-07:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":101287067,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[{"id":32438828,"work_id":38782789,"tagging_user_id":101287067,"tagged_user_id":324791,"co_author_invite_id":null,"email":"m***a@ua.pt","affiliation":"University of Aveiro","display_order":1,"name":"Marina R. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782787"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782787/A_sad_tale_has_the_small_mussel_Idas_argenteus_lost_its_symbionts"><img alt="Research paper thumbnail of A sad tale: has the small mussel Idas argenteus lost its symbionts" class="work-thumbnail" src="https://attachments.academia-assets.com/58872611/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782787/A_sad_tale_has_the_small_mussel_Idas_argenteus_lost_its_symbionts">A sad tale: has the small mussel Idas argenteus lost its symbionts</a></div><div class="wp-workCard_item"><span>Biological Journal of the Linnean Society</span><span>, 2015</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Idas argenteus (Bivalvia: Mytilidae) belongs to a genus of mussels that are often associated with...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Idas argenteus (Bivalvia: Mytilidae) belongs to a genus of mussels that are often associated with sunken wood and vertebrate bones in the deep sea. By contrast to other species currently included within the genus Idas and other related genera, such as Bathymodiolus, I.argenteus was documented to lack chemosynthetic symbionts bacterial symbionts in its gills. In the present study, new specimens are assigned to I.argenteus based on shell and soft parts analysis. Molecular data confirm the absence or low abundance of symbionts. Phylogeny based on five genes indicates that the symbiont-bearing I.washingtonius is the closest relative of I.argenteus. Symbiosis loss or extreme reduction is thus inferred to have occurred subsequent to the speciation event, 11-13Mya. This is the first report of a loss of symbiosis within the clade of deep-sea chemosynthetic mussels.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="6b109ef02d91fc0d0055f3e895bd78d4" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872611,"asset_id":38782787,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872611/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782787"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782787"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782787; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782787]").text(description); $(".js-view-count[data-work-id=38782787]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782787; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782787']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782787, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "6b109ef02d91fc0d0055f3e895bd78d4" } } $('.js-work-strip[data-work-id=38782787]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782787,"title":"A sad tale: has the small mussel Idas argenteus lost its symbionts","translated_title":"","metadata":{"doi":"10.1111/bij.12431","abstract":"Idas argenteus (Bivalvia: Mytilidae) belongs to a genus of mussels that are often associated with sunken wood and vertebrate bones in the deep sea. By contrast to other species currently included within the genus Idas and other related genera, such as Bathymodiolus, I.argenteus was documented to lack chemosynthetic symbionts bacterial symbionts in its gills. In the present study, new specimens are assigned to I.argenteus based on shell and soft parts analysis. Molecular data confirm the absence or low abundance of symbionts. Phylogeny based on five genes indicates that the symbiont-bearing I.washingtonius is the closest relative of I.argenteus. Symbiosis loss or extreme reduction is thus inferred to have occurred subsequent to the speciation event, 11-13Mya. This is the first report of a loss of symbiosis within the clade of deep-sea chemosynthetic mussels.","publication_date":{"day":null,"month":null,"year":2015,"errors":{}},"publication_name":"Biological Journal of the Linnean Society"},"translated_abstract":"Idas argenteus (Bivalvia: Mytilidae) belongs to a genus of mussels that are often associated with sunken wood and vertebrate bones in the deep sea. By contrast to other species currently included within the genus Idas and other related genera, such as Bathymodiolus, I.argenteus was documented to lack chemosynthetic symbionts bacterial symbionts in its gills. In the present study, new specimens are assigned to I.argenteus based on shell and soft parts analysis. Molecular data confirm the absence or low abundance of symbionts. Phylogeny based on five genes indicates that the symbiont-bearing I.washingtonius is the closest relative of I.argenteus. Symbiosis loss or extreme reduction is thus inferred to have occurred subsequent to the speciation event, 11-13Mya. This is the first report of a loss of symbiosis within the clade of deep-sea chemosynthetic mussels.","internal_url":"https://www.academia.edu/38782787/A_sad_tale_has_the_small_mussel_Idas_argenteus_lost_its_symbionts","translated_internal_url":"","created_at":"2019-04-12T01:56:32.884-07:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":101287067,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[{"id":32438818,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":37585360,"co_author_invite_id":null,"email":"l***s@obs-banyuls.fr","display_order":1,"name":"Nadine Le Bris","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"},{"id":32438819,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":37718274,"co_author_invite_id":null,"email":"s***o@snv.jussieu.fr","display_order":2,"name":"Sébastien Duperron","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"},{"id":32438820,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":737424,"co_author_invite_id":null,"email":"c***s@ua.pt","affiliation":"University of Aveiro","display_order":3,"name":"Clara F. Rodrigues","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"},{"id":32438821,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":null,"co_author_invite_id":2821759,"email":"n***s@ifremer.fr","display_order":4,"name":"Nadine Le Bris","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"},{"id":32438822,"work_id":38782787,"tagging_user_id":101287067,"tagged_user_id":179878361,"co_author_invite_id":6828075,"email":"g***r@museumwales.ac.uk","display_order":5,"name":"Graham Oliver","title":"A sad tale: has the small mussel Idas argenteus lost its symbionts"}],"downloadable_attachments":[{"id":58872611,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872611/thumbnails/1.jpg","file_name":"2015_Rodrigues_et_al_A_sad_tale-_has_the_small_mussel_Idas_argenteus_lost_its_symbionts20190412-4201-18uof8i.pdf","download_url":"https://www.academia.edu/attachments/58872611/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"A_sad_tale_has_the_small_mussel_Idas_arg.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872611/2015_Rodrigues_et_al_A_sad_tale-_has_the_small_mussel_Idas_argenteus_lost_its_symbionts20190412-4201-18uof8i-libre.pdf?1555067882=\u0026response-content-disposition=attachment%3B+filename%3DA_sad_tale_has_the_small_mussel_Idas_arg.pdf\u0026Expires=1732421417\u0026Signature=OT5JfBMcacSjxGKjGNs2jV-CM3BD~McsvFuIP-X9wxmE-h~L2wSXen8l4bOTNvoAtkPEvNeCZtFg-N3YumMyKLdjHToi2Gpn4pGhTxEDvsTRA-Cz9JQKLFpGre2YqBrY0w9W-SSOylYOoeAL5vJ34x~aezCu28yHJLCyO2Goi5VNfD72zWzhhyr884o5r30U~puzZeZhOOzIaL1WbJS25Eqszq75ZFPduPtsrvRWeXHlo8Auvm5k5UNhSWFssCBesbGnqkFD56NRqwctDWU37PsP56VmYQXHFzCYh0c0R07p7mVU~lbAFopAWUj8xd7w6iyxNLF9gWDNbhagcPo7wA__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"A_sad_tale_has_the_small_mussel_Idas_argenteus_lost_its_symbionts","translated_slug":"","page_count":8,"language":"en","content_type":"Work","owner":{"id":101287067,"first_name":"Sven","middle_initials":null,"last_name":"Laming","page_name":"SvenLaming","domain_name":"geobiotec","created_at":"2019-01-29T10:26:36.978-08:00","display_name":"Sven Laming","url":"https://geobiotec.academia.edu/SvenLaming"},"attachments":[{"id":58872611,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872611/thumbnails/1.jpg","file_name":"2015_Rodrigues_et_al_A_sad_tale-_has_the_small_mussel_Idas_argenteus_lost_its_symbionts20190412-4201-18uof8i.pdf","download_url":"https://www.academia.edu/attachments/58872611/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"A_sad_tale_has_the_small_mussel_Idas_arg.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872611/2015_Rodrigues_et_al_A_sad_tale-_has_the_small_mussel_Idas_argenteus_lost_its_symbionts20190412-4201-18uof8i-libre.pdf?1555067882=\u0026response-content-disposition=attachment%3B+filename%3DA_sad_tale_has_the_small_mussel_Idas_arg.pdf\u0026Expires=1732421417\u0026Signature=OT5JfBMcacSjxGKjGNs2jV-CM3BD~McsvFuIP-X9wxmE-h~L2wSXen8l4bOTNvoAtkPEvNeCZtFg-N3YumMyKLdjHToi2Gpn4pGhTxEDvsTRA-Cz9JQKLFpGre2YqBrY0w9W-SSOylYOoeAL5vJ34x~aezCu28yHJLCyO2Goi5VNfD72zWzhhyr884o5r30U~puzZeZhOOzIaL1WbJS25Eqszq75ZFPduPtsrvRWeXHlo8Auvm5k5UNhSWFssCBesbGnqkFD56NRqwctDWU37PsP56VmYQXHFzCYh0c0R07p7mVU~lbAFopAWUj8xd7w6iyxNLF9gWDNbhagcPo7wA__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[],"urls":[]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782674"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782674/Lifecycle_Ecology_of_Deep_Sea_Chemosymbiotic_Mussels_A_Review"><img alt="Research paper thumbnail of Lifecycle Ecology of Deep-Sea Chemosymbiotic Mussels: A Review" class="work-thumbnail" src="https://attachments.academia-assets.com/58872553/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782674/Lifecycle_Ecology_of_Deep_Sea_Chemosymbiotic_Mussels_A_Review">Lifecycle Ecology of Deep-Sea Chemosymbiotic Mussels: A Review</a></div><div class="wp-workCard_item"><span>Frontiers in Marine Science</span><span>, 2018</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Mussels within the subfamily Bathymodiolinae, in particular the larger Bathymodiolus species (sen...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Mussels within the subfamily Bathymodiolinae, in particular the larger Bathymodiolus species (sensu lato) thriving at cold seeps and hydrothermal vents, are among the most iconic fauna to colonize deep-sea reducing habitats globally. Fuelled by energy derived from chemosynthetic symbioses, their contribution to ecosystem productivity is conspicuous, with many bathymodioline species forming dense, extensive aggregates. Chemosymbiotic mussels play crucial roles as ecosystem engineers, both through the formation of spatially heterogeneous biogenic reefs and in redistributing reduced-fluid emissions. The notable absence of Bathymodiolinae outside of reducing ecosystems affirms their dependency on these ephemeral habitats, placing spatiotemporal constraints on dispersal to, and colonization of nascent, chemosynthetically active substrata. Thus, although symbioses may explain why these mussels are so productive in deep-sea reducing habitats, species' survival over successive generations depends largely upon the adaptive characteristics of their lifecycle as a whole. Despite accumulating data on the biology and ecology of adults however, details remain fragmented regarding earlier developmental junctures during their development. This paper therefore brings together results from research undertaken over recent years on this topic, providing a synthesis of various lifecycle aspects of bathymodiolins from the earliest stages of development, gametogenesis, through to sexual maturity, including the intrinsic, emerging role of symbionts. The review provides a comprehensive overview of our current understanding and identifies areas where further study into these keystone organisms is warranted. The benefits of applying an integrated, lifecycle approach when evaluating the potential impacts of global change and anthropogenic activities upon deep-sea fauna and their habitats are then discussed.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="f6ce621ca5ce1efa81a66082292ebb73" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872553,"asset_id":38782674,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872553/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782674"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782674"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782674; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782674]").text(description); $(".js-view-count[data-work-id=38782674]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782674; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782674']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782674, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "f6ce621ca5ce1efa81a66082292ebb73" } } $('.js-work-strip[data-work-id=38782674]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782674,"title":"Lifecycle Ecology of Deep-Sea Chemosymbiotic Mussels: A Review","translated_title":"","metadata":{"doi":"10.3389/fmars.2018.00282","abstract":"Mussels within the subfamily Bathymodiolinae, in particular the larger Bathymodiolus species (sensu lato) thriving at cold seeps and hydrothermal vents, are among the most iconic fauna to colonize deep-sea reducing habitats globally. Fuelled by energy derived from chemosynthetic symbioses, their contribution to ecosystem productivity is conspicuous, with many bathymodioline species forming dense, extensive aggregates. Chemosymbiotic mussels play crucial roles as ecosystem engineers, both through the formation of spatially heterogeneous biogenic reefs and in redistributing reduced-fluid emissions. The notable absence of Bathymodiolinae outside of reducing ecosystems affirms their dependency on these ephemeral habitats, placing spatiotemporal constraints on dispersal to, and colonization of nascent, chemosynthetically active substrata. Thus, although symbioses may explain why these mussels are so productive in deep-sea reducing habitats, species' survival over successive generations depends largely upon the adaptive characteristics of their lifecycle as a whole. Despite accumulating data on the biology and ecology of adults however, details remain fragmented regarding earlier developmental junctures during their development. This paper therefore brings together results from research undertaken over recent years on this topic, providing a synthesis of various lifecycle aspects of bathymodiolins from the earliest stages of development, gametogenesis, through to sexual maturity, including the intrinsic, emerging role of symbionts. The review provides a comprehensive overview of our current understanding and identifies areas where further study into these keystone organisms is warranted. The benefits of applying an integrated, lifecycle approach when evaluating the potential impacts of global change and anthropogenic activities upon deep-sea fauna and their habitats are then discussed.","publication_date":{"day":null,"month":null,"year":2018,"errors":{}},"publication_name":"Frontiers in Marine Science"},"translated_abstract":"Mussels within the subfamily Bathymodiolinae, in particular the larger Bathymodiolus species (sensu lato) thriving at cold seeps and hydrothermal vents, are among the most iconic fauna to colonize deep-sea reducing habitats globally. Fuelled by energy derived from chemosynthetic symbioses, their contribution to ecosystem productivity is conspicuous, with many bathymodioline species forming dense, extensive aggregates. Chemosymbiotic mussels play crucial roles as ecosystem engineers, both through the formation of spatially heterogeneous biogenic reefs and in redistributing reduced-fluid emissions. The notable absence of Bathymodiolinae outside of reducing ecosystems affirms their dependency on these ephemeral habitats, placing spatiotemporal constraints on dispersal to, and colonization of nascent, chemosynthetically active substrata. Thus, although symbioses may explain why these mussels are so productive in deep-sea reducing habitats, species' survival over successive generations depends largely upon the adaptive characteristics of their lifecycle as a whole. Despite accumulating data on the biology and ecology of adults however, details remain fragmented regarding earlier developmental junctures during their development. This paper therefore brings together results from research undertaken over recent years on this topic, providing a synthesis of various lifecycle aspects of bathymodiolins from the earliest stages of development, gametogenesis, through to sexual maturity, including the intrinsic, emerging role of symbionts. The review provides a comprehensive overview of our current understanding and identifies areas where further study into these keystone organisms is warranted. The benefits of applying an integrated, lifecycle approach when evaluating the potential impacts of global change and anthropogenic activities upon deep-sea fauna and their habitats are then discussed.","internal_url":"https://www.academia.edu/38782674/Lifecycle_Ecology_of_Deep_Sea_Chemosymbiotic_Mussels_A_Review","translated_internal_url":"","created_at":"2019-04-12T01:44:41.590-07:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":101287067,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[{"id":32438760,"work_id":38782674,"tagging_user_id":101287067,"tagged_user_id":null,"co_author_invite_id":6828061,"email":"s***n@mnhn.fr","display_order":1,"name":"Sébastien Duperron","title":"Lifecycle Ecology of Deep-Sea Chemosymbiotic Mussels: A Review"},{"id":32438761,"work_id":38782674,"tagging_user_id":101287067,"tagged_user_id":null,"co_author_invite_id":1842360,"email":"s***n@snv.jussieu.fr","display_order":2,"name":"Sylvie Gaudron","title":"Lifecycle Ecology of Deep-Sea Chemosymbiotic Mussels: A Review"}],"downloadable_attachments":[{"id":58872553,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872553/thumbnails/1.jpg","file_name":"2018_Laming_et_al_Lifecycle_Ecology_of_Deep-Sea_Chemosymbiotic_Mussels-_A_Review20190412-36633-15q0ye2.pdf","download_url":"https://www.academia.edu/attachments/58872553/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Lifecycle_Ecology_of_Deep_Sea_Chemosymbi.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872553/2018_Laming_et_al_Lifecycle_Ecology_of_Deep-Sea_Chemosymbiotic_Mussels-_A_Review20190412-36633-15q0ye2-libre.pdf?1555097014=\u0026response-content-disposition=attachment%3B+filename%3DLifecycle_Ecology_of_Deep_Sea_Chemosymbi.pdf\u0026Expires=1732421417\u0026Signature=Hp29F4k3Puk190B7HayHHaveAWPwKJMjOv1eWiJEd3EApibABbE0h-sZNpwKRSHOqvAaxsvc9uot-ok9nXIqM~vMqFh34zX2kaXNigHOyZZdRyyqJa7uEPDAU7mZRNXNu~lqJqqg4HN-R~OlS62Lyw8xciVD76fcc6v69pg58L8qnmQiiOGZR5NhbMUSRMGbyizht0J0L7NgQubivo9y~hRzKpsCwNgb~uCLiJcxTG~KU0IXc-dUUttp-NgWl8RD7XQqoGfdn14MQaPlnbpSder8myO2vQiA9z29Ihb4zr0ugHNPBGDBjN2ZCo7GIz0k0Z2opy6nC9eFD-iTOjMDng__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"Lifecycle_Ecology_of_Deep_Sea_Chemosymbiotic_Mussels_A_Review","translated_slug":"","page_count":15,"language":"en","content_type":"Work","owner":{"id":101287067,"first_name":"Sven","middle_initials":null,"last_name":"Laming","page_name":"SvenLaming","domain_name":"geobiotec","created_at":"2019-01-29T10:26:36.978-08:00","display_name":"Sven Laming","url":"https://geobiotec.academia.edu/SvenLaming"},"attachments":[{"id":58872553,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872553/thumbnails/1.jpg","file_name":"2018_Laming_et_al_Lifecycle_Ecology_of_Deep-Sea_Chemosymbiotic_Mussels-_A_Review20190412-36633-15q0ye2.pdf","download_url":"https://www.academia.edu/attachments/58872553/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Lifecycle_Ecology_of_Deep_Sea_Chemosymbi.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872553/2018_Laming_et_al_Lifecycle_Ecology_of_Deep-Sea_Chemosymbiotic_Mussels-_A_Review20190412-36633-15q0ye2-libre.pdf?1555097014=\u0026response-content-disposition=attachment%3B+filename%3DLifecycle_Ecology_of_Deep_Sea_Chemosymbi.pdf\u0026Expires=1732421417\u0026Signature=Hp29F4k3Puk190B7HayHHaveAWPwKJMjOv1eWiJEd3EApibABbE0h-sZNpwKRSHOqvAaxsvc9uot-ok9nXIqM~vMqFh34zX2kaXNigHOyZZdRyyqJa7uEPDAU7mZRNXNu~lqJqqg4HN-R~OlS62Lyw8xciVD76fcc6v69pg58L8qnmQiiOGZR5NhbMUSRMGbyizht0J0L7NgQubivo9y~hRzKpsCwNgb~uCLiJcxTG~KU0IXc-dUUttp-NgWl8RD7XQqoGfdn14MQaPlnbpSder8myO2vQiA9z29Ihb4zr0ugHNPBGDBjN2ZCo7GIz0k0Z2opy6nC9eFD-iTOjMDng__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[],"urls":[]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782673"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782673/Fickle_or_Faithful_The_Roles_of_Host_and_Environmental_Context_in_Determining_Symbiont_Composition_in_Two_Bathymodioline_Mussels"><img alt="Research paper thumbnail of Fickle or Faithful: The Roles of Host and Environmental Context in Determining Symbiont Composition in Two Bathymodioline Mussels" class="work-thumbnail" src="https://attachments.academia-assets.com/58872554/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782673/Fickle_or_Faithful_The_Roles_of_Host_and_Environmental_Context_in_Determining_Symbiont_Composition_in_Two_Bathymodioline_Mussels">Fickle or Faithful: The Roles of Host and Environmental Context in Determining Symbiont Composition in Two Bathymodioline Mussels</a></div><div class="wp-workCard_item wp-workCard--coauthors"><span>by </span><span><a class="" data-click-track="profile-work-strip-authors" href="https://geobiotec.academia.edu/SvenLaming">Sven Laming</a> and <a class="" data-click-track="profile-work-strip-authors" href="https://aveiro.academia.edu/MarinaRCunha">Marina R. Cunha</a></span></div><div class="wp-workCard_item"><span>PLOS One</span><span>, 2015</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">The Mediterranean Sea and adjoining East Atlantic Ocean host a diverse array of small-sized musse...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">The Mediterranean Sea and adjoining East Atlantic Ocean host a diverse array of small-sized mussels that predominantly live on sunken, decomposing organic remains. At least two of these, Idas modiolaeformis and Idas simpsoni, are known to engage in gill-associated symbioses; however, the composition, diversity and variability of these symbioses with changing habitat and location is poorly defined. The current study presents bacterial symbi-ont assemblage data, derived from 454 pyrosequencing carried out on replicate specimens of these two host species, collected across seven sample sites found in three oceanographic regions in the Mediterranean and East Atlantic. The presence of several bacterial OTUs in both the Mediterranean Sea and eastern Atlantic suggests that similar symbiont candidates occur on both sides of the Strait of Gibraltar. The results reveal markedly different symbiotic modes in the two species. Idas modiolaeformis displays high symbiont diversity and flexibility, with strong variation in symbiont composition from the East Mediter-ranean to the East Atlantic. Idas simpsoni displays low symbiont diversity but high symbiont fidelity, with a single dominant OTU occurring in all specimens analysed. These differences are argued to be a function of the host species, where subtle differences in host evolution, life-history and behaviour could partially explain the observed patterns. The variability in symbiont compositions, particularly in Idas modiolaeformis, is thought to be a function of the nature, context and location of the habitat from which symbiont candidates are sourced.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="050e82857163c502f50ea16ebc3ee9c7" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872554,"asset_id":38782673,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872554/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782673"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782673"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782673; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782673]").text(description); $(".js-view-count[data-work-id=38782673]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782673; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782673']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782673, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "050e82857163c502f50ea16ebc3ee9c7" } } $('.js-work-strip[data-work-id=38782673]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782673,"title":"Fickle or Faithful: The Roles of Host and Environmental Context in Determining Symbiont Composition in Two Bathymodioline Mussels","translated_title":"","metadata":{"doi":"10.1371/journal.pone.0144307","abstract":"The Mediterranean Sea and adjoining East Atlantic Ocean host a diverse array of small-sized mussels that predominantly live on sunken, decomposing organic remains. At least two of these, Idas modiolaeformis and Idas simpsoni, are known to engage in gill-associated symbioses; however, the composition, diversity and variability of these symbioses with changing habitat and location is poorly defined. The current study presents bacterial symbi-ont assemblage data, derived from 454 pyrosequencing carried out on replicate specimens of these two host species, collected across seven sample sites found in three oceanographic regions in the Mediterranean and East Atlantic. The presence of several bacterial OTUs in both the Mediterranean Sea and eastern Atlantic suggests that similar symbiont candidates occur on both sides of the Strait of Gibraltar. The results reveal markedly different symbiotic modes in the two species. Idas modiolaeformis displays high symbiont diversity and flexibility, with strong variation in symbiont composition from the East Mediter-ranean to the East Atlantic. Idas simpsoni displays low symbiont diversity but high symbiont fidelity, with a single dominant OTU occurring in all specimens analysed. These differences are argued to be a function of the host species, where subtle differences in host evolution, life-history and behaviour could partially explain the observed patterns. The variability in symbiont compositions, particularly in Idas modiolaeformis, is thought to be a function of the nature, context and location of the habitat from which symbiont candidates are sourced.","publication_date":{"day":null,"month":null,"year":2015,"errors":{}},"publication_name":"PLOS One"},"translated_abstract":"The Mediterranean Sea and adjoining East Atlantic Ocean host a diverse array of small-sized mussels that predominantly live on sunken, decomposing organic remains. At least two of these, Idas modiolaeformis and Idas simpsoni, are known to engage in gill-associated symbioses; however, the composition, diversity and variability of these symbioses with changing habitat and location is poorly defined. The current study presents bacterial symbi-ont assemblage data, derived from 454 pyrosequencing carried out on replicate specimens of these two host species, collected across seven sample sites found in three oceanographic regions in the Mediterranean and East Atlantic. The presence of several bacterial OTUs in both the Mediterranean Sea and eastern Atlantic suggests that similar symbiont candidates occur on both sides of the Strait of Gibraltar. The results reveal markedly different symbiotic modes in the two species. Idas modiolaeformis displays high symbiont diversity and flexibility, with strong variation in symbiont composition from the East Mediter-ranean to the East Atlantic. Idas simpsoni displays low symbiont diversity but high symbiont fidelity, with a single dominant OTU occurring in all specimens analysed. These differences are argued to be a function of the host species, where subtle differences in host evolution, life-history and behaviour could partially explain the observed patterns. The variability in symbiont compositions, particularly in Idas modiolaeformis, is thought to be a function of the nature, context and location of the habitat from which symbiont candidates are sourced.","internal_url":"https://www.academia.edu/38782673/Fickle_or_Faithful_The_Roles_of_Host_and_Environmental_Context_in_Determining_Symbiont_Composition_in_Two_Bathymodioline_Mussels","translated_internal_url":"","created_at":"2019-04-12T01:44:41.431-07:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":101287067,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[{"id":32438751,"work_id":38782673,"tagging_user_id":101287067,"tagged_user_id":737424,"co_author_invite_id":null,"email":"c***s@ua.pt","affiliation":"University of Aveiro","display_order":1,"name":"Clara F. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782672"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782672/Settled_symbiotic_then_sexually_mature_adaptive_developmental_anatomy_in_the_deep_sea_chemosymbiotic_mussel_Idas_modiolaeformis"><img alt="Research paper thumbnail of Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis" class="work-thumbnail" src="https://attachments.academia-assets.com/58872552/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782672/Settled_symbiotic_then_sexually_mature_adaptive_developmental_anatomy_in_the_deep_sea_chemosymbiotic_mussel_Idas_modiolaeformis">Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis</a></div><div class="wp-workCard_item wp-workCard--coauthors"><span>by </span><span><a class="" data-click-track="profile-work-strip-authors" href="https://geobiotec.academia.edu/SvenLaming">Sven Laming</a> and <a class="" data-click-track="profile-work-strip-authors" href="https://aveiro.academia.edu/MarinaRCunha">Marina R. Cunha</a></span></div><div class="wp-workCard_item"><span>Marine Biology</span><span>, 2014</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">all larger individuals in the series were male (maximum Sl 6.54 mm). Based on the absence of bact...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">all larger individuals in the series were male (maximum Sl 6.54 mm). Based on the absence of bacterial signals, plantigrades were asymbiotic, indicating strict heterotro-phy in larvae and early post-larvae. During the early stages of dissoconch deposition, extracellular symbiont infection was non-specific. This was followed by increasing speci-ficity on non-ciliated gill epithelia in adults. These observations on early development in I. modiolaeformis represent evolutionary adaptations to their ephemeral, reducing habitats.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="692252df61522d92a7f352d45b173660" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872552,"asset_id":38782672,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872552/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782672"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782672"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782672; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782672]").text(description); $(".js-view-count[data-work-id=38782672]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782672; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782672']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782672, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "692252df61522d92a7f352d45b173660" } } $('.js-work-strip[data-work-id=38782672]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782672,"title":"Settled, symbiotic, then sexually mature: adaptive developmental anatomy in the deep-sea, chemosymbiotic mussel Idas modiolaeformis","translated_title":"","metadata":{"doi":"10.1007/s00227-014-2421-y","abstract":"all larger individuals in the series were male (maximum Sl 6.54 mm). Based on the absence of bacterial signals, plantigrades were asymbiotic, indicating strict heterotro-phy in larvae and early post-larvae. During the early stages of dissoconch deposition, extracellular symbiont infection was non-specific. This was followed by increasing speci-ficity on non-ciliated gill epithelia in adults. These observations on early development in I. modiolaeformis represent evolutionary adaptations to their ephemeral, reducing habitats.","publication_date":{"day":null,"month":null,"year":2014,"errors":{}},"publication_name":"Marine Biology"},"translated_abstract":"all larger individuals in the series were male (maximum Sl 6.54 mm). Based on the absence of bacterial signals, plantigrades were asymbiotic, indicating strict heterotro-phy in larvae and early post-larvae. During the early stages of dissoconch deposition, extracellular symbiont infection was non-specific. This was followed by increasing speci-ficity on non-ciliated gill epithelia in adults. These observations on early development in I. modiolaeformis represent evolutionary adaptations to their ephemeral, reducing habitats.","internal_url":"https://www.academia.edu/38782672/Settled_symbiotic_then_sexually_mature_adaptive_developmental_anatomy_in_the_deep_sea_chemosymbiotic_mussel_Idas_modiolaeformis","translated_internal_url":"","created_at":"2019-04-12T01:44:41.292-07:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":101287067,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[{"id":32438746,"work_id":38782672,"tagging_user_id":101287067,"tagged_user_id":324791,"co_author_invite_id":null,"email":"m***a@ua.pt","affiliation":"University of Aveiro","display_order":1,"name":"Marina R. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="38782671"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782671/Repeatability_of_escape_response_performance_in_the_queen_scallop_Aequipecten_opercularis"><img alt="Research paper thumbnail of Repeatability of escape response performance in the queen scallop, Aequipecten opercularis" class="work-thumbnail" src="https://attachments.academia-assets.com/58872551/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782671/Repeatability_of_escape_response_performance_in_the_queen_scallop_Aequipecten_opercularis">Repeatability of escape response performance in the queen scallop, Aequipecten opercularis</a></div><div class="wp-workCard_item"><span>Journal of Experimental Biology</span><span>, 2013</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">In order for natural selection to operate, physiological and behavioural traits must exhibit both...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">In order for natural selection to operate, physiological and behavioural traits must exhibit both inter-individual variability and intra-individual consistency (i.e. repeatability) in performance. In this study, we describe individual variation and temporal repeatability in the escape responses of the queen scallop, Aequipecten opercularis, and determine whether individuals exhibited consistently high or low rankings in different aspects of the escape response. Five measures of individual performance were recorded on four occasions (days 0, 2, 7 and 28), providing proxies for sensory acuity (response latency), immediate and sustained swimming performance (burst and average clap rates), and swimming endurance (total number of claps and total time spent clapping). All components of the escape response exhibited significant inter-individual variability (all P<0.0001). Escape response latency, burst clap rate, total number of claps and total duration spent clapping maintained significant repeatability over 28. days (all P<0.016). Average clap rate was repeatable in the short term (2. days, P<0.0001) but repeatability declined by 28. days (P=0.097). Concordance analysis indicated that individuals maintained the same performance rankings over time for each component of the escape response (all P<0.001). In addition, some individuals ranked as consistently high or low performers across response latency, burst and average clap rate, and total number of claps. An individual's ability to evade predators through the provision of an escape response of an appropriate magnitude, subject to physiological, behavioural and organismal constraints, will have clear fitness-related consequences.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="aa1696901ccb0a6bb0ad0b31bd40df60" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872551,"asset_id":38782671,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872551/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782671"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782671"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782671; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782671]").text(description); $(".js-view-count[data-work-id=38782671]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782671; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782671']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782671, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "aa1696901ccb0a6bb0ad0b31bd40df60" } } $('.js-work-strip[data-work-id=38782671]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782671,"title":"Repeatability of escape response performance in the queen scallop, Aequipecten opercularis","translated_title":"","metadata":{"doi":"10.1242/jeb.080416","abstract":"In order for natural selection to operate, physiological and behavioural traits must exhibit both inter-individual variability and intra-individual consistency (i.e. repeatability) in performance. In this study, we describe individual variation and temporal repeatability in the escape responses of the queen scallop, Aequipecten opercularis, and determine whether individuals exhibited consistently high or low rankings in different aspects of the escape response. Five measures of individual performance were recorded on four occasions (days 0, 2, 7 and 28), providing proxies for sensory acuity (response latency), immediate and sustained swimming performance (burst and average clap rates), and swimming endurance (total number of claps and total time spent clapping). All components of the escape response exhibited significant inter-individual variability (all P\u003c0.0001). Escape response latency, burst clap rate, total number of claps and total duration spent clapping maintained significant repeatability over 28. days (all P\u003c0.016). Average clap rate was repeatable in the short term (2. days, P\u003c0.0001) but repeatability declined by 28. days (P=0.097). Concordance analysis indicated that individuals maintained the same performance rankings over time for each component of the escape response (all P\u003c0.001). In addition, some individuals ranked as consistently high or low performers across response latency, burst and average clap rate, and total number of claps. An individual's ability to evade predators through the provision of an escape response of an appropriate magnitude, subject to physiological, behavioural and organismal constraints, will have clear fitness-related consequences.","publication_date":{"day":null,"month":null,"year":2013,"errors":{}},"publication_name":"Journal of Experimental Biology"},"translated_abstract":"In order for natural selection to operate, physiological and behavioural traits must exhibit both inter-individual variability and intra-individual consistency (i.e. repeatability) in performance. In this study, we describe individual variation and temporal repeatability in the escape responses of the queen scallop, Aequipecten opercularis, and determine whether individuals exhibited consistently high or low rankings in different aspects of the escape response. Five measures of individual performance were recorded on four occasions (days 0, 2, 7 and 28), providing proxies for sensory acuity (response latency), immediate and sustained swimming performance (burst and average clap rates), and swimming endurance (total number of claps and total time spent clapping). All components of the escape response exhibited significant inter-individual variability (all P\u003c0.0001). Escape response latency, burst clap rate, total number of claps and total duration spent clapping maintained significant repeatability over 28. days (all P\u003c0.016). Average clap rate was repeatable in the short term (2. days, P\u003c0.0001) but repeatability declined by 28. days (P=0.097). Concordance analysis indicated that individuals maintained the same performance rankings over time for each component of the escape response (all P\u003c0.001). In addition, some individuals ranked as consistently high or low performers across response latency, burst and average clap rate, and total number of claps. An individual's ability to evade predators through the provision of an escape response of an appropriate magnitude, subject to physiological, behavioural and organismal constraints, will have clear fitness-related consequences.","internal_url":"https://www.academia.edu/38782671/Repeatability_of_escape_response_performance_in_the_queen_scallop_Aequipecten_opercularis","translated_internal_url":"","created_at":"2019-04-12T01:44:41.286-07:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":101287067,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[{"id":32438744,"work_id":38782671,"tagging_user_id":101287067,"tagged_user_id":34071325,"co_author_invite_id":null,"email":"s***s@bangor.ac.uk","affiliation":"Bangor University","display_order":1,"name":"Stuart Jenkins","title":"Repeatability of escape response performance in the queen scallop, Aequipecten opercularis"},{"id":32438745,"work_id":38782671,"tagging_user_id":101287067,"tagged_user_id":null,"co_author_invite_id":3915257,"email":"i***y@bangor.ac.uk","display_order":2,"name":"Ian Donald McCarthy","title":"Repeatability of escape response performance in the queen scallop, Aequipecten opercularis"}],"downloadable_attachments":[{"id":58872551,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872551/thumbnails/1.jpg","file_name":"2013_Laming_et_al_Repeatability_of_escape_response_performance_in_the_queen_scallop__Aequipecten_opercularis20190412-65483-1n59l1s.pdf","download_url":"https://www.academia.edu/attachments/58872551/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Repeatability_of_escape_response_perform.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872551/2013_Laming_et_al_Repeatability_of_escape_response_performance_in_the_queen_scallop__Aequipecten_opercularis20190412-65483-1n59l1s-libre.pdf?1555073505=\u0026response-content-disposition=attachment%3B+filename%3DRepeatability_of_escape_response_perform.pdf\u0026Expires=1732421417\u0026Signature=gwjatCdVk1XH1co7L8ubUX1KYNZOFJgnI-pTqUy8-gurrQbaYGp3tZevSWIg9M2Nv7ziCuJlU69Iqt2S8MlxvcdAnyJozLPjM8olnYhujT8f5FBgmsu3JsIXVnHycbnmRrJapo14gkJjqfgNUzAY6NJejyxWeRY5KIIdIvedSgop9Sl-QMJds6mKRiOchHePx~koBkA0x7D1DFoqpDJhmneynOuQDSEUYLscyzG2mk9F1XIKNPz424pkwpPRm02HKD2uulvye~cBl7CxdYtSJtXr2rG5sV1s20l4RrNXLNn7xUKhnA9e60WEpZWzEVIZi3s9tPBwIwieNaNYGqLlGA__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"Repeatability_of_escape_response_performance_in_the_queen_scallop_Aequipecten_opercularis","translated_slug":"","page_count":9,"language":"en","content_type":"Work","owner":{"id":101287067,"first_name":"Sven","middle_initials":null,"last_name":"Laming","page_name":"SvenLaming","domain_name":"geobiotec","created_at":"2019-01-29T10:26:36.978-08:00","display_name":"Sven Laming","url":"https://geobiotec.academia.edu/SvenLaming"},"attachments":[{"id":58872551,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/58872551/thumbnails/1.jpg","file_name":"2013_Laming_et_al_Repeatability_of_escape_response_performance_in_the_queen_scallop__Aequipecten_opercularis20190412-65483-1n59l1s.pdf","download_url":"https://www.academia.edu/attachments/58872551/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Repeatability_of_escape_response_perform.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/58872551/2013_Laming_et_al_Repeatability_of_escape_response_performance_in_the_queen_scallop__Aequipecten_opercularis20190412-65483-1n59l1s-libre.pdf?1555073505=\u0026response-content-disposition=attachment%3B+filename%3DRepeatability_of_escape_response_perform.pdf\u0026Expires=1732421417\u0026Signature=gwjatCdVk1XH1co7L8ubUX1KYNZOFJgnI-pTqUy8-gurrQbaYGp3tZevSWIg9M2Nv7ziCuJlU69Iqt2S8MlxvcdAnyJozLPjM8olnYhujT8f5FBgmsu3JsIXVnHycbnmRrJapo14gkJjqfgNUzAY6NJejyxWeRY5KIIdIvedSgop9Sl-QMJds6mKRiOchHePx~koBkA0x7D1DFoqpDJhmneynOuQDSEUYLscyzG2mk9F1XIKNPz424pkwpPRm02HKD2uulvye~cBl7CxdYtSJtXr2rG5sV1s20l4RrNXLNn7xUKhnA9e60WEpZWzEVIZi3s9tPBwIwieNaNYGqLlGA__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[],"urls":[]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> </div><div class="profile--tab_content_container js-tab-pane tab-pane" data-section-id="9073677" id="books"><div class="js-work-strip profile--work_container" data-work-id="38782788"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/38782788/Book_Chapter_A_Correlative_Light_Electron_Microscopy_CLEM_Protocol_for_the_Identification_of_Bacteria_in_Animal_Tissue_Exemplified_by_Methanotrophic_Symbionts_of_Deep_Sea_Mussels_in_Hydrocarbon_and_Lipid_Microbiology_Protocols_"><img alt="Research paper thumbnail of Book Chapter: A Correlative Light-Electron Microscopy (CLEM) Protocol for the Identification of Bacteria in Animal Tissue, Exemplified by Methanotrophic Symbionts of Deep-Sea Mussels [in Hydrocarbon and Lipid Microbiology Protocols]" class="work-thumbnail" src="https://attachments.academia-assets.com/58872614/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/38782788/Book_Chapter_A_Correlative_Light_Electron_Microscopy_CLEM_Protocol_for_the_Identification_of_Bacteria_in_Animal_Tissue_Exemplified_by_Methanotrophic_Symbionts_of_Deep_Sea_Mussels_in_Hydrocarbon_and_Lipid_Microbiology_Protocols_">Book Chapter: A Correlative Light-Electron Microscopy (CLEM) Protocol for the Identification of Bacteria in Animal Tissue, Exemplified by Methanotrophic Symbionts of Deep-Sea Mussels [in Hydrocarbon and Lipid Microbiology Protocols]</a></div><div class="wp-workCard_item"><span>Springer Protocols</span><span>, 2015</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Bacterial symbionts associated with animal tissues play major roles in the functioning of various...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Bacterial symbionts associated with animal tissues play major roles in the functioning of various ecosystems. Identification of bacteria often relies on marker gene comparative sequence analysis and fluorescence in situ hybridization (FISH). However, analysis of bacteria and host ultrastructure using transmission electron microscopy (TEM) can be equally important to understand the localization of bacteria and the degree of host-symbiont integration. We here provide a protocol which allows both FISH and TEM to be performed sequentially on a single section of tissue. Observations can then be superimposed, allowing ultrastructural investigation to be coupled with proper FISH-based identification of bacteria.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="ed36faa503e2b40f5991e9dc0ed4e502" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":58872614,"asset_id":38782788,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/58872614/download_file?st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&st=MTczMjQxNzgxNyw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="38782788"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="38782788"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 38782788; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=38782788]").text(description); $(".js-view-count[data-work-id=38782788]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 38782788; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='38782788']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 38782788, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-f77ea15d77ce96025a6048a514272ad8becbad23c641fc2b3bd6e24ca6ff1932.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "ed36faa503e2b40f5991e9dc0ed4e502" } } $('.js-work-strip[data-work-id=38782788]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":38782788,"title":"Book Chapter: A Correlative Light-Electron Microscopy (CLEM) Protocol for the Identification of Bacteria in Animal Tissue, Exemplified by Methanotrophic Symbionts of Deep-Sea Mussels [in Hydrocarbon and Lipid Microbiology Protocols]","translated_title":"","metadata":{"doi":"10.1007/8623_2015_85","abstract":"Bacterial symbionts associated with animal tissues play major roles in the functioning of various ecosystems. Identification of bacteria often relies on marker gene comparative sequence analysis and fluorescence in situ hybridization (FISH). However, analysis of bacteria and host ultrastructure using transmission electron microscopy (TEM) can be equally important to understand the localization of bacteria and the degree of host-symbiont integration. We here provide a protocol which allows both FISH and TEM to be performed sequentially on a single section of tissue. Observations can then be superimposed, allowing ultrastructural investigation to be coupled with proper FISH-based identification of bacteria.","publication_date":{"day":null,"month":null,"year":2015,"errors":{}},"publication_name":"Springer Protocols"},"translated_abstract":"Bacterial symbionts associated with animal tissues play major roles in the functioning of various ecosystems. Identification of bacteria often relies on marker gene comparative sequence analysis and fluorescence in situ hybridization (FISH). 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